Wheel chair abstract
The present wheel chair, especially for invalids, is foldable in
a vertical irection rather than horizontally to transform the chair
into a very compact package. For this purpose all foldable components
of the chair are equipped with journals having journal axes extending
perpendicularly to a vertical central plane of symmetry of the chair.
Further, the seat is vertically liftable and also horizontally guided
on guide tracks (18) extending in parallel to the plane of symmetry
of the chair. The guide tracks (18) are movable back and forth on
guide rail sections (17) which are pivoted to the top of the support
structure (4) of the chair. Hydraulic piston cylinder drives are
connected to all chair components which are movable under a loaded
condition with a person sitting in the chair. The chair seat is
also divided so that the chair may be moved directly over a toilet
seat, for example. By raising the chair seat sufficiently above
the arm rests in the aisle of an aircraft or bus, a person may be
transported directly to a passenger seat with the aid of the present
chair.
Wheel chair claims
What is claimed is:
1. A foldable wheel chair having a central plane of substantial
symmetry extending vertically through the chair, comprising base
means (2, 3), foldable components including a bipartite support
structure (4) normally extending vertically from said base means,
seat means (5) supported by said bipartite support structure (4),
backrest means (6, 7) secured to said seat means, wherein said backrest
means comprise a lower backrest portion (6) and an upper headrest
portion (7), footrest means (8) secured to said seat means (5),
horizontally extending journal means extending perpendicularly to
said central plane of substantial symmetry and connected to said
foldable components for folding said foldable components, guide
track means (18) secured to said seat means (5), said guide track
means extending in parallel to said vertical central plane, and
guide rail sections (17) pivoted to said support structure (4) and
sliding in said guide track means for sliding said seat means horizontally
back and forth, said horizontally extending journal means for folding
said foldable components comprising first journal axle means (25)
for journalling said upper headreast portion (7) back (arrow 26)
against said lower backrest portion (6), second journal axle means
(30) for journalling said lower backrest portion (6) down (arrow
31) against said seat means (5), third journal axle means (35) for
journalling said footrest means (8) back (arrow 33) under said seat
means (5), fourth journal axle means (37) for journalling said support
structure (4) forward into said base means (2), and fifth journal
axle means (39) for journalling said seat means (5) down to said
base means (2), so that said guide track means (18) slies back in
said guide rail sections (17) wherein said horizontally extending
journal means include locking means for maintaining an operative
position.
2. The chair of claim 1, wherein said bipartite support structure
comprises two telescoping tubular members (4a, 11) extending normally
vertically and perpendicularly to said base means, said fourth journal
axle means (37) foldable securing said telescoping tubular members
to said base means (2) for folding said tubular members into a position
in parallel to said base means, and drive means (47a, 47b; 51a,
51b) operatively connected to one of said telescoping tubular members
(11) and to said base means for vertically adjusting the seat means
(5).
3. The chair of claim 2, wherein said two telescoping tubular members
(4a, 11) have a sufficient extension length and wherein said drive
means have a sufficient stroke for lifting said seat means (5) to
a level above an arm rest adjacent to an aisle in a bus, airplane
or the like.
4. The chair of claim 2, wherein said drive means comprise hydraulic
piston cylinder means (47a, 47b) inside each of said telescoping
tubular members (4a, 4b), whereby a piston rod (46) of said piston
cylinder means is operatively connected to an extendable tubular
member (11) inside each of said telescoping tubular members (4a),
said drive means further comprising pump means (51a, 51b) hydraulically
connected to said piston cylinder means (47a, 47b), and actuating
means (10) operatively connected to said pump means (51a, 51b) for
operating said hydraulic piston cylinder means (47a, 47b) through
said pump means.
5. The chair of claim 4, wherein said actuating means comprise
a bail (10) located in said base and operatively connected to said
pump means for actuating the pump means by a foot of an operator.
6. The chair of claim 4, further comprising a separate hydaulic
control circuit for each of said hydraulic piston cylinder means,
each hydraulic control circuit comprising a pump cylinder (51a,
51b) of said pump means, a first non-return valve (57) forming a
pressure supply branch for said separate hydraulic control circuits,
a second non-return valve (58) forming a suction branch for said
separate hydraulic control circuits, a manually operable seat lowering
valve (52, 53) in each of said separate hydraulic control circuits,
and actuator means (54, 55) connected to said seat lowering valves
(52, 53) for lowering the seat (5), (FIG. 6).
7. The chair of claim 4, further comprising a separate hydraulic
control circuit for each of said hydraulic piston cylinder means,
each separate hydraulic control circuit comprising a pump cylinder
(51a, 51b) of said pump means, two non-return valves (57, 58; 62,
63) in each of said separate hydraulic control circuits, two operator
actuable seat lowering valves (53, 60; 52, 61) connected in parallel
to each other in each of said separate hydraulic control circuits,
and actuator means (54, 55) connected to said seat lowering valves
for lowering the seat (5), (FIG. 7).
8. The chair of claim 6 or 7, wherein said actuator means (54,
55) are operable manually and/or by foot.
9. The chair of claim 6 or 7, further comprising return flow branches
(64, 65) in said hydraulic control circuits, and volume flow meter
means (64', 65') connected in said return flow branches (64, 65),
said volume flow meter means (64', 65') being interconnected to
each other to provide for a flow equalization in said hydraulic
control circuits.
10. The chair of claim 1, wherein said seat means (5) comprises
two lateral seat sections (5a) arranged to provide a spacing between
these lateral seat sections, a central seat section (5b), and wherein
said journal means further comprise sixth journal axle means (24)
extending along and interconnecting a forward edge of said seat
sections, said central seat section (5b) being hinged to said sixth
journal axle means (24) for tilting said central seat section downwardly.
11. The chair of claim 10, further comprising handle bars (12)
journalled to said sixth journal axle means (24) for tilting said
handle bars (12) through an angular range including a position in
which each handle bar extends substantially in parallel to its adjacent
lateral seat section (5a).
12. The chair of claim 1, further comprising roller means (15)
rotatably secured to a rear edge of said seat means (5) for rotation
about an axis (16) extending perpendicularly to said plane of symmetry
for rolling said seat means along a support.
13. The chair of claim 1, further comprising automatic seat belt
means (19), take-up roller means (20) secured to the back of said
backrest means, and guide members (22) secured to the sides of said
backrest means for guiding said automatic seat belt means (19) which
extends around the backrest means (6, 7).
14. The chair of claim 1, wherein said guide track means (18) and
said guide rail sections (17) cooperate for shifting the seat means
rearwardly in a direction extending in said central plane of substantial
symmetry.
15. The chair of claim 1, further comprising handgrip means (23)
in said upper headrest portion (7), especially for carrying the
chair in its folded condition.
16. The chair of claim 1, further comprising arm rest means (13)
and seventh journal axle means (27) for foldably securing said arm
rest means (13) to said backrest means.
Wheel chair description
CLAIM TO PRIORITY
The present application is based on German Serial No. P 31 21 127.5,
filed in the Federal Republic of Germany on May 27, 1981. The priority
of the German filing date is claimed for the present application.
BACKGROUND OF THE INVENTION
The invention relates to a foldable wheel chair, especially for
invalids. Such wheel chairs normally comprise a number of components
forming a base, a supporting structure for the seat, and a backrest
as well as a seat.
German Patent Publication (DE-AS) No. 2,637,478 discloses a foldable
wheel chair which is folded in a direction toward its central plane
of symmetry. Such central plane of symmetry extends vertically through
the middle of the entire chair. In the prior art chair the brackets
for the backrest are inserted into a tubular member of the supporting
structure. This type of folding is possible only because the seat
as well as the backrest are made of a foldable material, such as
cloth. Additionally, it is necessary to first remove the backrest
and to pull out a holding pin prior to the insertion of the brackets
for the backrest. Another drawback of this type of prior art wheel
chair is seen in that it is suitable only for riding and that it
cannot be used by the invalid in situations where a vertically adjustable
seat would be desirable, for example, for placing the wheel chair
over a toilet.
OBJECTS OF THE INVENTION
In view of the above it is the aim of the invention to achieve
the following objects singly or in combination:
to construct a foldable wheel chair in such a manner that its folding
features are simple to facilitate the folding into a compact package;
to provide a wheel chair with a vertically adjustable seat so as
to adjust the elevation of the seat to different use requirements,
for example, for placing the wheel chair seat above a toilet;
to provide a foldable wheel chair which can be folded in a direction
extending in its central plane of symmetry;
to make the wheel chair narrow enough in the horizontal direction
so that it may even travel, for example, along an aisle in an aircraft;
and
to enable the user of the wheel chair to slide laterally from the
seat of the wheel chair onto some other support at the same elevational
level.
SUMMARY OF THE INVENTION
According to the invention there is provided a wheel chair including
substantially a base, a support structure for the seat, and a seat
with its backrest, wherein all essential individual components are
provided with journal means having axes extending across the above
mentioned plane of symmetry or at right angles thereto so that the
folding may take place in a direction extending in said plane of
symmetry. Thus, all journal axes required for this type of folding
extend substantially horizontally. Further, the seat is equipped
at its underside with guide track means extending in parallel to
said vertical central plane. Guide rail sections pivoted to the
support structure slide in the guide track means for moving the
seat horizontally back and forth.
These basic features of the chair according to the invention allow
for a very simple foldability and also permit to shift the seat
rearwardly which in combination with a foldable center portion of
the seat make it possible to move the wheel chair seat over a toilet,
whereby the invalid is not required to change his position on the
wheel chair. Rollers at the rear edge of the seat proper facilitate
the rolling of the wheel chair seat onto a toilet, for example,
in an aircraft. Prior to rolling the wheel chair seat onto a toilet
the elevational level of the wheel chair set is adjusted to be slightly
above that of the top of the toilet, if necessary.
A further advantage of the wheel chair according to the invention
is seen in its relatively narrow width in the horizontal direction
from side to side so that the chair may be moved through relatively
narrow aisles such as in an aircraft or in a public bus. In this
connection the elevational adjustment of the seat enables the user
to adjust the seat of the wheel chair to the level of the seat in
the public transportation so that he may slide over sideways onto
the seat in the public transportation such as a bus. These features
make it possible that even a heavy person may be transported to
his seat and/or to a toilet in a public transportation vehicle or
aircraft.
BRIEF FIGURE DESCRIPTION
In order that the invention may be clearly understood, it will
now be described, by way of example, with reference to the accompanying
drawings, wherein:
FIG. 1 is a perspective view of a chair according to the invention;
FIG. 2 is a side view of the present wheel chair, whereby structural
details have been omitted to emphasize the several journal means
provided for the folding features according to the invention;
FIG. 3 shows the compact package into which the present wheel chair
may be folded;
FIG. 4 is a sectional view along section line IV--IV in FIG. 2;
FIG. 5 is a similar view as FIG. 1 on an enlarged scale and showing
only the lower portion of the present chair with the means for elevating
the seat to different levels;
FIG. 6 shows a hydraulic circuit diagram for the seat elevating
means, whereby two hydraulic control circuits have a common suction
and pressure circuit path;
FIG. 7 shows another version of a hydraulic circuit arrangement
for the seat elevating means;
FIG. 8 illustrates the use of the present wheel chair over a toilet
seat in a public transportation;
FIG. 9 illustrates the use of the present seat in the aisle of
an aircraft or bus with the wheel chair seat elevated to the level
of the arm rests of the seating adjacent to the aisle;
FIG. 10 shows a perspective view of a locking device in its locked
condition for arresting a tiltable member in a fixed position relative
to a member to which the tiltable member is secured;
FIG. 11 shows perspectively the locking device of FIG. 10 in its
unlocked condition;
FIG. 12 shows a perspective view of an arresting mechanism in its
arresting position for securing two foldable chair components to
each other, thereby preventing their tilting relative to each other;
and
FIG. 13 shows a perspective view of the arresting device of FIG.
11 in releasing position thereby permitting the tilting of the two
foldable chair components relative to each other.
DETAILED DESCRIPTION OF PREFERRED EXAMPLE EMBODIMENTS AND OF THE
BEST MODE OF THE INVENTION
Referring to FIGS. 1 and 2 a wheel chair 1 comprises substantially
a base 2 carrying several components to be described in more detail
below and equipped with wheels or rollers 3. The chair further comprises
a foldable support structure 4 including telescoping tubing members
4a and 11. The tubing members 11 are slidable up and down in the
tubing members 4a as will be described below. The seat 5 is secured
to the top of the support structure 4 as best seen in FIG. 4. The
seat 5 carries a backrest including a lower backrest portion 6 and
an upper headrest portion 7. The seat further carries a footrest
8 hinged to connecting rods 34 by hinging journal members 8'.
The base 2 carries a bail 10 which may be operated as a foot pedal
for activating the elevating means for the seat 5 also as will be
described below. Two handle bars 12 are secured in a pivoting or
journalling manner to the front edge of the seat 5. FIG. 2 shows
the handle bars 12 in the folded position alongside the seat 5.
The handle bars 12 serve for pushing the wheel chair 1 by an attendant.
The user of the wheel chair may also hold onto these handle bars
12.
The seat 5 comprises a fixed U-shaped portion including two side
sections 5a spaced from each other and opening toward the front
edge. The seat further comprises a central section 5b fitted into
the spacing between the side sections 5a and tiltable downwardly
as will be described below.
One or several rollers 15 for rolling on a seat supporting surface
are secured to the rear edge of the seat 5 by a bracket 14 for rotation
about a journal axis 16 extending perpendicularly to the central
plane of symmetry of the chair.
Referring to FIG. 4 the tubular members 4a and 11 are preferably
of rectangular cross-sections. The top of each tubular member 11
is operatively connected to a rail section 17 which in turn slides
back and forth in a guide track 18 secured to the bottom of the
respective side seat section 5a.
Referring again to FIG. 2 the tubular members 4a of the support
structure 4 are pivoted to the base 2 by fourth journal means represented
by a journal axis 37, whereby the tubular members 4a or upright
posts are tiltable in the direction of the arrow 38 into a position
in which the upright posts 4a extend in parallel to the side rails
of the base 2. Incidentally, the handle bars 12 and the central
section 5b of the seat are tiltable about a sixth journal axis 24
extending along the front edge of the seat 5. A first journal axle
or axis 25 secures the headrest portion 7 to the lower backrest
portion 6 for tilting in the direction of the arrow 26 backwardly,
whereby the headrest portion 7 may be tilted against the rear of
the backrest portion 6. The lower portion 6 of the backrest in turn
is tilted to the rear edge of the seat by second journal axle means
30, whereby the backrest 6 may be tilted toward the surface of the
seat in the direction of the arrow 31. Further, after tilting the
footrest 8 about its hinge 8' in the direction of the arrow 33 the
braces 34 are tiltable about a third journal means 35 in the direction
of the arrow 36, whereby the foot rest means come to be located
below the seat 5. A fifth journal axis 39 is provided by pivot means
connecting the top of the support structure to the rail sections
17, thereby permitting the tilting of the upright posts 4a in the
direction of the arrow 38 as described above while simultaneously
permitting the seat 5 to remain in a horizontal position substantially
at all times. The arm rests 13 are journalled to the backrest 6
by seventh journal axle means 27 enabling the pivoting of the arm
rests 13 downwardly in the direction of the arrow 28.
It will be noted that all the above mentioned journal axes 1 to
7 extend perpendicularly to the plane of the drawing and thus perpendicularly
to a central plane of symmetry extending vertically through the
chair. The additional pivots 8' also have a journal axis extending
perpendicularly to said central plane of symmetry. This also applies
to the pivot 10' for the bail 10.
In order to avoid that the seat extends too far in front of the
base 2 when the upright posts 4a are folded down in the direction
of the arrow 38 out of their normal upright position, the rail sections
17 and the guide tracks 18 are of such a horizontal length, that
the seat 5 may be pushed sufficiently backwardly in the direction
of the arrow 44, whereby the compact package shown in FIG. 3 is
achieved. When the chair is in the folded position shown in FIG.
3, it may be carried by one of the handles 23 or by the bail 10.
Referring further to FIG. 2 and as shown in FIG. 1, an automatic
seat belt 19 is secured to the backrest 6 including a take-up roller
means and runs through eyelets 22 attached to the sides of the backrest
6. As shown, the handles 23 are formed in the headrest portion 7.
However, if desired, such handles may also be formed in the backrest
6. Incidentally, the bail 10 is also foldable about the pivot axis
10' as shown in FIG. 2.
Referring again to FIG. 4 the two side sections 5a of the seat
forming a U-shaped frame with the central section 5b therebetween
are interconnected along the front edge of the seat by the second
journal axis 24. Each side section 5a has a frame member 40 covered
by seat cushions 42. The central section 5b has a frame member 41
also covered by a cushion 43. The frame members 40 have attached
thereto or form integrally the guide tracks 18 for the guide rail
sections 17 which slide in these guide tracks 18. The inner tubular
members 11 are journalled or pivoted at 39 to the slide rail sections
17. A forked end 45 of each piston rod 46 is also pivoted to the
respective rail section 17. The piston rods 46 for elevating the
seat are driven by pistons in cylinders 47a and 47b by hydraulic
pressure as will be described in more detail below with reference
to FIGS. 6 and 7. The center section 5b is provided with a handle
48 attached to a rod 49 reaching into a catch at the rear end of
the center section 5b when the latter is in its normal horizontal
position. When the rod 49 is withdrawn from its catch with the handle
48, the center section 5b tilts downwardly around the second journal
means 24 into a position shown in FIG. 8.
FIG. 5 shows the hydraulic piston cylinder means 47a and 47b in
full lines although normally these piston cylinders will be hidden
inside the tubular upright posts 4a. Further, in order not to obscure
the illustration, the hydraulic connecting conduits such as rubber
hoses are not shown in FIG. 5. The cylinders 47a, 47b are pivoted
to the base 2 in a pivot member 50 to permit the above mentioned
tilting of the upright posts 4a about the pivot axis 37 into the
horizontal position in the base 2 as described above. The pistons
in the cylinders 47a and 47b are driven by pump means, for example,
comprising two pump cylinders 51a and 51b operable by a foot pedal
in the form of the bail 10. Two seat lowering valves 52 and 53 are
also shown in FIG. 5. These valves are provided with actuating buttons
54 and 55 which may be operated manually or by foot. The operating
buttons 54 and 55 are located in different positions so that at
least one of these buttons may be reached at all times. These buttons
and thus the corresponding valves 52 and 53 are operable independently
of each other. The base 2 further carries a container 56 for a hydraulic
fluid.
FIG. 6 illustrates a hydraulic circuit diagram of the components
just described above, especially with reference to FIGS. 4 and 5.
The pressure section of the hydraulic circuit is connected through
the non-return valve 57 to the cylinders 47a and 47b. The suction
section of the hydraulic circuit is connected through the non-return
valve 58 to the pump cylinders 51a and 51b. As mentioned, both pistons
of the pump cylinders 51a, 51b are operated in unison by the bail
10. The control branches with the valves 52 and 53 are arranged
in parallel in the circuit so that any one of the two valves 52
or 53 may be used for lowering the seat 5. The circuit of FIG. 6
operates as follows. By pumping the bail 10 the hydraulic fluid
is conveyed by suction out of the container 56 into the pump cylinders
51a and 51b and during the pumping stroke the fluid under pressure
is conveyed through the non-return valve 57 into the cylinders 47a,
47b, whereby the seat 5 is lifted. If the pumping operation is stopped,
the seat remains in its respective position since the valve 57 prevents
a return flow. Lowering of the seat is possible only through any
one of the valves 52 or 53 when the respective valve is operated
by pushing the button 54 or 55.
FIG. 7 illustrates a hydraulic circuit diagram with two separate
branches even for the suction and pressure path. Thus, in addition
to the non-return valves 57 and 58 there are provided further non-return
valves 62 and 63 as well as two additional seat lowering valves
60 and 61 connected in parallel respectively to the seat lowering
valve 53 and to the seat lowering valve 52. By providing a separate
hydraulic circuit for each cylinder 47a, 47b it is assured that
the pump cylinder 51a feeds only the lifting cylinder 47a and that
the pump cylinder 51b feeds only into the lifting cylinder 47b,
whereby an exact, synchronized movement of the piston rods 46 is
assured. The seat lowering valves 52 and 60 are mechanically coupled
to each other. The seat lowering valves 53 and 61 are also mechanically
coupled to each other, whereby the valves forming a pair can only
be actuated in unison.
Further, in the return path 64 there is arranged a flow meter 64'
of conventional construction. A further flow meter 65' of the same
construction is arranged in the return flow path 65. The pistons
of these two flow meters 64' and 65' are rigidly connected to each
other so that both return flow conduits 64 and 65 are controlled
to permit equal quantities of fluid to flow back into the hydraulic
fluid container 56 out of both separate circuits at any one instance.
This feature further improves an exact uniform operation of the
two piston rods 46 for lowering the seat 5.
FIGS. 8 and 9 illustrate a practical use of the present chair in
an aircraft. FIG. 8 shows how an invalid may use a toilet 70 with
the aid of the present wheel chair. The attendant opens the normal
toilet seat and lifts the wheel chair seat 5 to the level of the
toilet seat 71. Thereafter, the center seat portion 5b is tilted
downwardly as described above with reference to FIGS. 2 and 4. Then,
the seat with its lateral portions 5a is shifted rearwardly so that
the roller 15 may roll upwardly on the toilet seat surface 71. Incidentally,
instead of a single roller extending the width of the chair, two
separate rollers may be used which would be journalled to the respective
sides at the rear edge of the seat 5.
FIG. 9 illustrates how the present chair 1 may be moved in an aisle
72. The aircraft is equipped with passenger seating 74 having arm
rests 73 facing the aisle. With the aid of the above described drive
means the seat 5 may be lifted to the level of the passenger seat
while the respective arm rest 73 is tilted out of the way in an
upward direction. Thus, the invalid is able to slide from his wheel
chair seat onto his passenger seat. The present chair may be used
in a same manner in buses, in theaters, or any other public or private
rooms having narrow aisles. Such use is a distinct advantage of
the present invention.
It is to be understood that the individual components of the wheel
chair such as rests, handle bars and so forth, which components
are foldable about journal axes, are constructed to be arrestable
in the use position and in the folded condition, in order to assure
a trouble-free function of the wheel chair. For this purpose respective
locking devices are provided. FIGS. 10 and 11 show such a locking
device 80, as is provided, for example, for arresting of the handle
bars 12. The device 80 comprises substantially a grooved member
81 rigidly connected to the right side seat section 5a shown in
FIG. 1, a locking member 82 rotatable about the axis 24, but rigidly
secured to the right handle bar, and an actuating member 83 having
a thumb area 84 and a latch bar 85. The actuating member 83 is supported
to be rotatable relative to the locking member 82 about an axis
86, whereby a spring, not shown here, is provided in such a way,
that the spring exerts a torque moment on the actuating member 83,
whereby the latch bar 85 is pressed into a groove 88 of the grooved
member 81.
FIG. 10 shows the locking device 80 in the rest position, that
is, the right handle bar 12 rests in parallel to the seat section
5a. Here, the latch bar 85 engages in the groove 88 so that the
handle bar 12 cannot be tilted unintentionally about the axis 24.
In order to bring the handle bar 12 into the use position shown
in FIG. 1, the latch bar 85 is tilted out of the groove 88, by applying
thumb pressure to the thumb area 84, to such an extent as shown
in FIG. 11, that the handle bar 12 with the locking member 82 may
be rotated. The grooved member 81 has a further, not visible groove
for the use position so that the latch bar 85, upon rotation of
the handle bar 12 and thus of the locking member 82 in the direction
of the arrow 89, engages into said further groove due to the force
of said above mentioned spring to thereby arrest the handle bar
in the predetermined use position. In order to fold the wheel chair
the arresting is released by applying thumb pressure on the area
84 and rotating the handle bar 12 back into the starting position,
whereby the latch bar 85 again engages in the groove 88.
The FIGS. 12 and 13 show some details of a journal connection 90
interconnecting a slidable tubular member 11 with a slide rail section
17. The connection 90 comprises substantially two eyes 91 rigidly
secured to the slidable tubular member, a further eye 92 rigidly
secured to the slide rail section 17, and a bolt 93 arranged concentrically
to the axis 39. The mentioned elements form a hinge permitting a
journalling motion of the slide rail section 17 relative to the
slidable tubular member 11. A spring biased operating lever 95 having
a hook 96 is mounted for tilting about a further axis 94 secured
to the slidable tubular member 11. The further axis 94 is spaced
from said axis 39. Thus, the operating lever 95 with its hook 96
is urged by a spring not shown, in the direction of the arrow 97
against a stop not shown, in such a manner that the hook 96 takes
up the position shown in FIG. 13.
A pin 98 is secured to the slide rail section 17 with a spacing
from the axis 39 so that it provides together with the hook 96 an
arresting mechanism. If the slide rail section 17 is brought into
the position shown in FIG. 12, the hook 96 is tilted by the pin
98 against the force of the spring with the aid of a bevel 99 out
of the above described position until the pin 98 is located below
the hook 96 and which returns into the old position. Thus, the slide
rail section 17 is arrested in the use position. To release the
arresting a thumb pressure on the operating lever 95 is sufficient
whereby the hook 96 again releases the pin 98.
Although the invention has been described with reference to specific
example embodiments, it will be appreciated that it is intended
to cover all modifications and equivalents within the scope of the
appended claims. |