JP3879849B2 - Desk device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a desk device in which a top plate is configured to be able to turn up and down around a base end portion via a hinge so as to be in a horizontal posture when in use and in a standing posture when not in use. .
[0002]
[Prior art]
Conventionally, this type of desk device is capable of moving up and down in the horizontal direction below the top plate, and a top plate that is provided so that it can be swung up and down (up and down) around the base end portion via a hinge relative to the desk body. A moving body such as a drawer is provided, and a link rod that is interlocked so that the moving body moves forward and backward as the top plate moves up and down.
[0003]
At the time of use, the top plate in an upright state (hereinafter referred to as a standing posture) is turned downward to be in a substantially horizontal state (hereinafter referred to as a horizontal posture). At this time, the movable body moves forward in conjunction with the downward rotation of the top plate, and the horizontal posture of the top plate is supported from below by the movable body.
[0004]
Conversely, when not in use, the top plate in a horizontal posture is turned upward and stored in the desk body in a standing posture. At this time, the moving body moves backward in conjunction with the upward rotation of the top plate and is stored in the desk main body.
[0005]
However, in the desk device configured as described above, the top plate accelerates due to its own weight and collides with the upper surface of the moving body vigorously unless the hand is attached when the top plate is rotated downward. May be damaged, or a finger may be pinched between the top plate and the moving body.
[0006]
As a configuration for preventing such a sudden forward tilt (downward rotation) of the top plate, in Patent Document 1, a rotary damper is provided on a side portion of the movable body, and the rotary damper on the movable body side and the side portion of the top plate are provided. Are linked to each other via a link rod.
[0007]
[Patent Document 1]
Japanese Patent No. 3225186
[0008]
[Problems to be solved by the invention]
However, when the rotary damper is used as in Patent Document 1, in consideration of the size and weight of the normally used top plate, the rotary damper is large in order to reliably suppress the downward rotation speed of the top plate. I have to be.
[0009]
For this reason, it is necessary to increase the thickness of the top plate in order to hide the rotary damper from the point of appearance, or to reduce the storage capacity of the drawer portion in the moving body. There has been a problem that due to the increase in size, there are many restrictions on the design items of the desk device.
[0010]
It is a technical object of the present invention to provide a desk device that solves such problems.
[0011]
[Means for Solving the Problems]
In order to solve this technical problem, the invention of claim 1 is capable of swinging up and down around the base end portion via a hinge so as to be in a horizontal posture when in use and in a standing posture when not in use. The top plate provided, a movable body provided below the top plate so as to be movable back and forth in the horizontal direction, and one end portion of the top plate so that the movable body moves forward and backward in conjunction with the up-and-down rotation of the top plate. A main link rod pivotally attached to the side surface of the top plate and pivotally attached at the other end to the movable body; In the desk device configured to be supported in a horizontal posture by a horizontally projecting mobile body, the mobile body includes a rail member extending in the front-rear direction of the mobile body, and the mobile body along the rail member. A relatively movable guide member, and a biasing force forward against the guide member against elasticity. And the other end of the sub-link rod is pivotally attached to the longitudinal middle portion of the main link rod. Is.
[0012]
According to a second aspect of the present invention, there is provided a top plate provided so as to be able to turn up and down around a base end portion with respect to a desk main body via a hinge so as to be in a horizontal posture when in use and in a standing posture when not in use. A movable body that can be moved forward and backward in the horizontal direction below and an end portion of the movable body that can move forward and backward in conjunction with the up-and-down rotation of the top plate. A main link rod pivotally attached to the movable body and pivotally attached to the movable body, and a horizontal posture by a movable body that moves forward and projects horizontally from the desk body. The movable body includes a rail member extending in the front-rear direction of the movable body, a movable relative to the movable body along the rail member, and the movable body. Damper means configured to add resistance when moved backward relative to The damper means an end portion of the sub link rod pivotally attached rotatably to, is that the other end of the sub link rod pivotally connected pivotally to the longitudinal middle portion of the main link rod.
[0013]
According to a third aspect of the present invention, there is provided a top plate provided so as to be able to turn up and down around a base end portion with respect to a desk main body via a hinge so as to be in a horizontal posture when in use and in a standing posture when not in use. A movable body that can be moved forward and backward in the horizontal direction below and an end portion of the movable body that can move forward and backward in conjunction with the up-and-down rotation of the top plate. A main link rod pivotally attached to the movable body and pivotally attached to the movable body, and a horizontal posture by a movable body that moves forward and projects horizontally from the desk body. The movable body includes a rail member extending in the front-rear direction of the movable body, a movable relative to the movable body along the rail member, and the movable body. Damper means configured to add resistance when moved backward relative to the A spring member that urges the guide member forward against elasticity, and pivotally attaches one end portion of the sub-link rod to the damper means, and the other end portion of the sub-link rod is connected to the main link. It is pivotally attached to the midway part of the bag.
[0014]
According to a fourth aspect of the present invention, in the desk device according to any one of the first to third aspects, the shaft portion formed in the longitudinal midway portion of the main link rod at an appropriate interval along the longitudinal direction thereof. The other end of the secondary link rod is pivotally attached so that the position can be changed.
[0015]
According to a fifth aspect of the present invention, there is provided a top plate provided so as to be able to turn up and down around a base end portion with respect to a desk main body via a hinge so as to be in a horizontal posture when in use and in a standing posture when not in use. A movable body that can be moved forward and backward in the horizontal direction below and an end portion of the movable body that can move forward and backward in conjunction with the up-and-down rotation of the top plate. A main link rod pivotally attached to the movable body and pivotally attached to the movable body, and a horizontal posture by a movable body that moves forward and projects horizontally from the desk body. In the desk device configured to be supported by the mobile device, the movable body and the longitudinal midway portion of the main link rod are connected via a cylinder means for slowing the downward rotation speed of the top plate. .
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of the present invention will be described based on the drawings (FIGS. 1 to 7). 1 to 4 show a first embodiment of a desk apparatus according to the present invention. First, an outline of a desk apparatus will be described with reference to FIGS. FIG. 1 is a schematic perspective view of a desk device, and FIGS. 2 and 3 are enlarged cross-sectional side views of a main part showing an interlocking relationship between a top plate and a moving body.
[0017]
As shown in FIGS. 1 to 3, the desk device of the first embodiment includes a substantially box-shaped desk main body 1 having an open bottom and a front, and a front opening between the left and right side plates 2 and 2 in the desk main body 1. Among them, a top plate 3 that can be turned up and down (undulates) to close the upper portion, a movable body 4 that can be moved back and forth below the top plate 3 in the table top plate 1, a side surface portion and a movable body of the top plate 3. A pair of left and right main link rods 5 and 5 are provided so as to straddle between the four side portions. A sleeve drawer 6 is arranged on the lower right side of the movable body 4 in the desk body 1.
[0018]
The top plate 3 having a substantially rectangular plate shape has a base end portion connected to a front edge portion of a fixed shelf plate 7 provided at a height part in the middle of the desk body 1 via a hinge 8 (see FIG. 2 and FIG. 2). 3), the top board 3 is in a range from a standing posture (see the solid line state in FIG. 1) to a horizontal posture (see the two-dot chain line state in FIG. 1) that closes the upper part of the front opening of the desk body 1. That is, it is configured to rotate up and down (undulate) within a range of about 90 ° around the base end of the top plate 3.
[0019]
The movable body 4 includes a substantially rectangular plate-shaped top frame body 9, left and right side frame bodies 10, 10 projecting downward on both left and right ends of the lower surface of the top frame body 9, and the left and right side frame bodies 10, 10. And a drawer 11 provided so as to be able to be taken in and out in the front-rear direction via suspension rails (not shown) provided between the inner surfaces.
[0020]
On the outer surface of each side frame 10, a guide rail 12 having a substantially longitudinal U-shaped cross section is fixed to the outer surface of each side frame 10, and below the fixed shelf 7 on the inner surfaces of the left and right side plates 2, 2 in the desk body 1. A plurality of rolling rollers 14 (two in the first embodiment) are attached. The movable body 4 is supported so as to be movable back and forth with respect to the desk main body 1 by fitting the corresponding rolling rollers 14 into the U-shaped grooves 13 of the respective guide rails 12. Although the drawer 11 moves back and forth together with the top frame body 9 and the left and right side frame bodies 10 and 10, it goes without saying that the frame body 9, 10 and 10 can be taken in and out separately in the front and rear direction.
[0021]
In addition, the structure which enables the movable body 4 to move back and forth is not limited to the above-described form, for example, a pair of support frames are fixed below the fixed shelf 7 on the inner surfaces of the left and right side plates 2 and 2, Between the frame and the corresponding guide rail 12, a large number of balls held by a retainer are inserted in a row so that the guide rail 12 and thus the movable body 4 can be moved back and forth with a light force. Suspension means may be used.
[0022]
The pair of left and right main links 5 and 5 are for associating the movable body 4 so as to move back and forth in conjunction with the vertical rotation of the top 3. The pair of main link rods 5 and 5 in the first embodiment are provided symmetrically with respect to the left and right of the top plate 3 and the moving body 4, and both have basically the same configuration. Therefore, the right main link rod 5 will be described below as an example with reference to FIGS. 2 and 3.
[0023]
The main link rod 5 is substantially in the shape of a thin plate. One end of the main link rod 5 is a pivot having a tapered stepped shaft portion on a reinforcing metal fitting 15 provided on a portion of the side surface of the top plate 3 near the base end. On the other hand, the other end portion of the main link rod 5 is pivotally attached to the support screw 17 on the connecting bracket 16 provided in a portion of the right side frame 10 that is always forward of the hinge 8. A pivotal screw 18 having a tapered stepped shaft is pivotally attached.
[0024]
Therefore, as the top plate 3 in the standing posture rotates downward so as to fall forward, the movable body 4 is pushed forward through the pair of main links 杆 5 and 5, and the top plate 3 in the horizontal posture moves. It is supported by the body 4 (see the two-dot chain line state in FIG. 1 and FIG. 3). On the contrary, as the top 3 in the horizontal posture rotates upward so that it jumps up, the moving body 4 is retracted through the pair of main links 5 and 5 and stored in the desk body 1. Yes (see the solid line state in FIG. 1 and FIG. 2).
[0025]
A buffer body 19 made of a soft elastic material such as rubber is fixed to the front portion of the top surface of the top frame 9 with an adhesive or the like. The main link rod 5 may be disposed only on either the left or right side of the top plate 3 and the moving body 4, but as described above, it is preferably disposed on the left and right sides of the top plate 3 and the moving body 4. .
[0026]
Next, a configuration for delaying the downward rotation of the top plate 3 at least as it approaches the horizontal posture will be described with reference to FIGS. FIG. 4 is a schematic perspective view showing the relationship between the support shaft, the guide block, and the compression spring.
[0027]
As shown in FIGS. 2 and 3, speed attenuating means 21 is provided on the outer surfaces of the left and right side frame bodies 10 to slow the downward rotation speed of the top plate 3 and the forward movement speed of the moving body 4. Yes. Since the speed attenuating means 21 is provided symmetrically with respect to the left and right of the moving body 4 and the basic configuration is the same, the speed attenuating means 21 on the right side will be described below as an example.
[0028]
The speed attenuating means 21 is a guide member having a support shaft 24 as a rail member extending substantially parallel to the front-rear movement direction of the right frame 10 (and hence the moving body 4), and a through hole 26 through which the support shaft 24 passes. The guide block 25 and a sub link rod 27 for interlockingly connecting the guide block 25 to the main link rod 5 are provided.
[0029]
In the embodiment, a front and rear longitudinal fixing bracket 22 is fixed to the upper surface of the right guide rail 12, and a support shaft 24 is interposed between a pair of support pieces 23 and 23 that protrude upward from both front and rear ends of the fixing bracket 12. Is fixed so as to be substantially parallel to the moving direction of the moving body 4 in a side view.
[0030]
The guide block 25 is fitted to the support shaft 24 through the through hole 26 so as to be movable back and forth. A compression spring 28 as a spring member is fitted between the guide block 25 and the rear support piece 23 in the outer periphery of the support shaft 24, and the guide block 25 resists the elastic force of the compression spring 28. It is configured to be biased forward.
[0031]
The sub-link rod 27 is in the form of a long thin plate, and one end portion thereof is pivotally attached to a pair of vertical pieces 29 and 29 protruding upward from the upper surface of the guide block 25 by a pivot pin 30. On the other hand, a shaft hole 31 is formed in the middle part of the main link rod 5 at an appropriate interval, and the other end portion of the sub link rod 27 has a pivotal screw 32 having a tapered stepped shaft portion and A nut (not shown) is pivotally attached to the main link rod 5 via each shaft hole 31 so as to be replaceable.
[0032]
Further, the lateral width dimension WB of the fixed bracket 22 and the lateral width dimension WG of the guide block 25 (including the pivot pin 30) are set so that the entire speed attenuating means 21 does not protrude left and right outward from the guide rail 12. It is set smaller than the left and right width dimension WR of the guide rail (see FIG. 4). The entire speed attenuating means 21 is disposed in the longitudinal space between the side plate 2 of the desk body 1 and the side frame 10 of the movable body 4 in a state of being accommodated within the left and right width WR of the guide rail 12 in front view. Has been.
[0033]
In the above configuration, when the handle 33 (see FIG. 1) located on the front side of the standing top 3 is pulled forward and the top 3 is turned downward, the pair of main links 5 and 5 are The moving body 4 is pushed forward. In this case, since the pivoting portion (portion of the pivotal screw 32) between the main link rod 5 and the secondary link rod 27 rotates around the pivotal screw 18 on the connecting metal fitting 16 side (see the movement locus T shown in FIG. 2). ), The left and right guide blocks 25 interlockingly connected to the main link rod 5 via the sub-link rod 27 are relative to the moving body 4 against the elastic force of the compression spring 28 located behind them. (See the direction of arrow B in FIG. 2).
[0034]
Then, since the relative movement direction of the guide block 25 and the biasing force direction of the compression spring 28 are opposite to each other, a resistance called a forward biasing force of the compression spring 28 is applied to the guide block 25, and the moving body of the guide block 25 The relative backward movement speed with respect to 4 becomes slow. As a result, the resistance (forward biasing force) by the compression spring 28 acts in a direction that inhibits the movement of the movable body 4 and the top plate 3 from the sub-link rod 27 via the main link rod 5. Thus, the speed at which the moving body 4 is pushed forward is gradually reduced, and the downward rotation speed of the top plate 3 is suppressed as acceleration toward its horizontal position is reduced, and the speed decreases. Thereby, the top plate 3 is slowly placed on the top frame 9 of the moving body 4 (see the two-dot chain line state in FIG. 1 and FIG. 3).
[0035]
Contrary to the above, when the top 3 in the horizontal posture is turned upward, the pair of main link rods 5 and 5 pulls the moving body 4 backward. In this case, the left and right guide blocks 25 move forward relative to the moving body 4 (see the direction of arrow F in FIG. 3), but the relative movement direction of the guide block 25 and the biasing force direction of the compression spring 28 are the same. Accordingly, the forward biasing force of the compression spring 28 is applied to the guide block 25 as a propulsive force, and the forward moving speed of the guide block 25 relative to the moving body 4 is increased. Accordingly, the top plate 3 is smoothly housed in the desk main body 1 together with the moving body 4 by the synergistic action of the operation force for manually flipping the top plate 3 and the forward biasing force of the compression spring 28 (see FIG. 1). Solid line state and FIG. 2).
[0036]
From the above, according to the desk device of the first embodiment, it is possible to reliably prevent the top plate 3 from being suddenly tilted forward (turned downward) with a simple configuration, and to store the top plate 3. Can be done smoothly with light force. Therefore, it is very convenient for the user of the desk device.
[0037]
In this case, the support shaft 24 and the sub link rod 27 constituting the speed attenuating means 21 are long in the front-rear direction, and the guide block 25 is configured to be movable in the front-rear direction, and the compression spring 28 is expanded and contracted in the front-rear direction. Therefore, the entire speed attenuating means 21 is usually a dead space and the longitudinal gap space on the guide rail 12, in other words, the side plate 2 of the desk body 1 and the side frame 10 of the moving body 4. It can arrange | position in the clearance gap between.
[0038]
That is, when the speed attenuation means 21 is employed as a configuration for slowing down the downward rotation of the top plate 3 at least as it approaches the horizontal posture, it is not bulky like the rotary damper of Patent Document 1, and Since the dead space between the side plate 2 and the side frame 10 of the moving body 4 can be used effectively, there are less restrictions in designing the desk device, and the degree of freedom in design can be improved.
[0039]
Further, for example, when manufacturing a desk device having a different size and weight of the top plate 3, it can be dealt with by simply replacing the compression spring 28. The components other than the compression spring 28 in the speed damping means 21 are as follows. Since it can be made common, manufacturing cost can be reduced. Further, since the pivot attachment position of the sub link rod 27 with respect to the main link rod 5 can be changed via the shaft holes 31, the relative movement range of the guide block 25 is shifted thereby, and the elasticity (compression) of the compression spring 28 is achieved. The amount of deformation can be changed in stages, and as a result, the downward rotation speed of the top 3 can be easily changed.
[0040]
The spring member is not limited to the compression spring 28 described above, and may be a tension spring mounted between the front support piece 23 of the bracket 22 and the guide block 25. Furthermore, a configuration in which the compression spring 28 or the tension spring is disposed in the guide block 25 is also possible.
[0041]
FIGS. 5A, 5B, 6 and 7 show other examples of the speed attenuating means. FIG. 5 is a side sectional view showing the speed attenuating means of the second embodiment, and FIGS. It is a principal part expanded side sectional view which shows the interlocking relationship of the top plate and moving body of 3rd Embodiment. Here, in the second and subsequent embodiments, the same reference numerals are given to the same configurations and operations as those in the first embodiment, and the detailed description thereof is omitted.
[0042]
The pair of speed attenuating means 41, 41 (only the right speed attenuating means 41 is shown in FIGS. 5 (a) and 5 (b)) in the second embodiment is similar to that in the first embodiment. And a support shaft 24 as a rail member fixed between the front and rear support pieces 23 and 23 of the fixed bracket 22 and a front constricted shape penetrating the support shaft 24. The block body 42 having the taper hole 43, the friction member 44 fixed to the longitudinal middle portion of the support shaft 24 so as to be positioned in the taper hole 43 of the block body 42, and the block body 42 are interlocked with the main link rod 5. And a sub-link rod 27 for connection.
[0043]
The block body 42 is fitted on the support shaft 24 through a tapered hole 43 so as to be movable back and forth. The friction member 44 fixed to the support shaft 24 is made of a soft elastic material having a large friction coefficient such as rubber, and the outer diameter thereof is set to the same size as the hole diameter in the middle of the tapered hole 43. . That is, when the block body 42 moves backward along the support shaft 24 (see the arrow B direction in FIG. 5A), the inner peripheral surface of the tapered hole 43 is pressed against the friction member 44 from the middle of the block body 42. Yes. In the second embodiment, the damper means includes a block body 42 and a friction member 44.
[0044]
One end of the sub link rod 27 is pivotally attached to a pair of vertical pieces 45, 45 projecting upward from the upper surface of the block body 42 by a pivot pin 46, while the sub link rod 27 The other end is pivotally attached to the middle portion of the main link rod 5 by a pivot pin (not shown).
[0045]
Further, as in the case of the first embodiment, the entire speed attenuating means 41 is accommodated within the left and right widths of the guide rail 12 in a front view, and the side frame 10 of the side plate 2 of the desk body 1 and the movable body 4. It is arrange | positioned in the clearance gap of the front-back longitudinal direction between.
[0046]
In the above configuration, when the handle 33 located on the front side of the standing top 3 is pulled forward and the top 3 is rotated downward, the pair of main link rods 5 and 5 causes the movable body 4 to face forward. Extrude into. In this case, the block body 42 shown in FIG. 5 (a) moves backward relative to the moving body 4 (see the direction of arrow B in FIG. 5 (a)). Since the surface is in pressure contact with the friction member 44, a frictional force is generated between the inner peripheral surface of the tapered hole 43 and the contact surface of the friction member 44. This frictional force becomes a resistance, and the block body 42 is relative to the moving body 4. The reverse movement speed becomes slower.
[0047]
As a result, the frictional resistance acts on the moving body 4 and the top plate 3 in the direction of inhibiting the movement from the sub-link 杆 27 via the main link 杆 5. As the moving speed is gradually reduced, the downward rotation speed of the top 3 is reduced as the acceleration due to its own weight is suppressed and the horizontal posture is approached. Therefore, also in this case, the top plate 3 is slowly placed on the top frame 9 of the moving body 4.
[0048]
Contrary to the above, when the top plate 3 in the horizontal posture is turned upward, the pair of link rods 5 and 5 pulls the moving body 4 backward. In this case, the block body 42 shown in FIG. 5 (b) moves forward relative to the moving body 4 (see the direction of arrow F in FIG. 5 (b)). Since the inner peripheral surface of the tapered hole 43 is separated from the friction member 44, the top plate 3 is housed in the desk body 1 together with the moving body 4 without resistance.
[0049]
From the above, even with the desk device of the second embodiment, it is possible to reliably prevent sudden top-down (downward rotation) of the top 3 with a simple configuration.
[0050]
Also in this case, since the support shaft 24 and the sub-link rod 27 constituting the speed attenuation means 41 are long in the front-rear direction and the block body 42 is configured to be movable in the front-rear direction, the speed attenuation means The entire 41 can be arranged in a longitudinal space on the guide rail 12 that is normally a dead space, that is, a clearance space between the side plate 2 of the desk body 1 and the side frame 10 of the movable body 4. Thereby, similarly to the case of the first embodiment, there are less restrictions in designing the desk device, and the degree of freedom in design can be improved.
[0051]
The damper means of the second embodiment uses frictional resistance by constituting it with a block body 42 and a friction member 44 in order to slow down the downward rotation speed of the top plate 3 as it approaches at least a horizontal posture. However, the present invention is not limited to this, and for example, a viscous fluid resistance such as a hydraulic damper or an air damper may be used, or a resistance due to elastic deformation of rubber or the like may be used. A combination of these may be used.
[0052]
In short, the damper means may have a structure that generates a resistance force proportional to the relative backward movement speed in order to suppress the relative backward movement speed of the block body 42 with respect to the moving body 4.
[0053]
Further, a spring member may be mounted between the front support piece 23 and the block body 42 of the bracket 22 or between the block body 42 and the rear support piece 23. In this case, the spring member employs a tension spring in the former example, and employs a compression spring in the latter case.
[0054]
In this configuration, when the top plate 3 in the standing posture is rotated downward, a relative action of the block body 42 relative to the moving body 4 due to a synergistic action of the forward biasing force of the spring member and the frictional resistance generated in the damper means. Therefore, the downward rotation speed of the top plate 3 and the forward movement speed of the moving body 4 can be more reliably reduced, and the top plate 3 is placed on the moving body 4. At this time, the effect of reducing the impact between the three and the four is more prominent.
[0055]
Contrary to the above, when the horizontal top 3 is turned upward, the top 3 is moved by the synergistic action of the operation force for manually lifting the top 3 and the forward biasing force of the spring member. The mobile body 4 can be smoothly housed in the desk body 1.
[0056]
Therefore, the operational effects obtained with the configuration of the first embodiment can be promoted. Of course, in this case as well, the entire speed attenuating means is usually arranged in a longitudinal space on the guide rail 12 that is a dead space, that is, a gap between the side plate 2 of the desk body 1 and the side frame 10 of the movable body 4. Needless to say, the degree of freedom in design can be improved because it can be arranged in a space.
[0057]
In each of the above-described embodiments, the support shaft 24 as a rail member is not limited to extend in a substantially parallel manner with respect to the front-rear movement direction of the moving body 4 in a side view. It may be configured to extend obliquely rearwardly upward or rearwardly downward with respect to the direction (configuration extending in a non-parallel manner with respect to the front-rear movement direction of the moving body 4 in a side view). In short, it is only necessary that the guide block 25 and the block body 42 can move back and forth along the support shaft 24.
[0058]
A pair of cylinder means 51, 51 (only the right cylinder means 51 is shown in FIGS. 6 and 7) as speed attenuating means in the third embodiment adjust the inside of the cylinder body 52 filled with a viscous fluid such as oil. Viscous fluid resistance generated by movement of a piston rod 53 with a pressure valve (not shown) is used, and is symmetrical with respect to the left and right of the moving body 4 as in the first and second embodiments. It is provided in the shape.
[0059]
A base end portion of the cylinder main body 52 is pivotally attached to a support bracket 54 fixed to the upper surface of the guide rail by a pivot pin 55. On the other hand, a portion 53a of the piston rod 53 that can enter the cylinder body 52 is formed in a round shaft shape, and a distal end portion 53b that can overlap the movement locus of the main link rod 5 in a side view is a thin plate shape. The distal end portion 53b is pivotally attached to the midway portion of the main link rod 5 with a pivot pin 56 so as to be rotatable.
[0060]
Similarly to the case of the first and second embodiments, the entire cylinder means 51 is housed within the left and right widths of the guide rail 12 when viewed from the front, and the side plates 2 of the desk body 1 and the side frames of the movable body 4. It is arranged in a longitudinal space between the body 10 and the longitudinal direction.
[0061]
In this configuration, when the top plate 3 in the standing posture is rotated downward, the pair of link rods 5 and 5 push the moving body 4 forward. In this case, the pivoting portion (the portion of the pivot pin 56) between the main link rod 5 and the piston rod 53 rotates around the pivot screw 18 on the connecting bracket 16 side (the movement locus shown in FIGS. 6 and 7). T), the round shaft portion 53a of the piston rod 53 is pushed into the cylinder body 52.
[0062]
If it does so, the pressure regulation valve (not shown) connected with the round shaft part 53a will receive the resistance by a viscous fluid within the cylinder main body 52, and the contraction speed of the piston rod 53 becomes slow by this resistance. As a result, the viscous fluid resistance acts on the moving body 4 and the top plate 3 via the main link rod 5 in a direction that inhibits the movement. The forward moving speed of the body 4 can be gradually reduced. Thereby, when mounting the top plate 3 on the mobile body 4, the impact between these both 3 and 4 can be made small.
[0063]
Contrary to the above, when the top plate 3 in the horizontal posture is turned upward, the pair of link rods 5 and 5 pulls the moving body 4 backward. In this case, the round shaft 53a of the piston rod 53 protrudes from the cylinder body 52, and the top plate 3 is housed in the desk body 1 together with the moving body 4 without resistance.
[0064]
Therefore, also with the desk device of the third embodiment, as in the case of the first and second embodiments, it is possible to reliably prevent a sudden forward tilt (downward rotation) of the top 3 with a simple configuration. it can.
[0065]
Also in this case, the cylinder means 51 is provided with a longitudinal space on the guide rail 12 that is normally a dead space, that is, a space between the side plate 2 of the desk body 1 and the side frame 10 of the movable body 4. Therefore, as in the case of the first and second embodiments, there are less restrictions in designing the desk device, and the degree of design freedom can be improved.
[0066]
The present invention is not limited to the above-described embodiment, and can be embodied in various forms. For example, the speed attenuating means 21, 41, 51 in each embodiment may be arranged corresponding to the main link rod 5, so it may be arranged only on either the left or right side with respect to the moving body 4. As in each embodiment, it is preferable to arrange the top plate 3 and the movable body 4 on both the left and right sides.
[0067]
【The invention's effect】
In the configuration of claim 1, when the top plate in the standing posture is turned downward, the pair of main link rods push the moving body forward. In this case, the guide member interlocked with the main link rod through the sub link rod moves backward relative to the moving body against the elastic force of the spring member.
[0068]
Then, the forward biasing force of the spring member becomes resistance, and the relative backward movement speed of the guide member with respect to the moving body is slowed. Therefore, the downward rotation speed of the top plate and the forward movement of the moving body are reduced. The speed can be reduced gradually.
[0069]
Contrary to the above, when the top plate in the horizontal posture is turned upward, the pair of main link rods pulls the moving body backward. In this case, the guide member moves forward relative to the moving body. However, since the forward biasing force of the spring member is applied to the guide member as a propulsive force, the guide member is relatively moved relative to the moving body. The forward moving speed becomes faster. Therefore, the top plate can be smoothly housed in the desk body together with the movable body by the synergistic action of the operation force for manually flipping up the top plate and the forward biasing force of the spring member.
[0070]
From the above, according to the desk device according to claim 1, it is possible to reliably prevent the top plate from abruptly falling forward with a simple configuration, and also to smoothly store the top plate with a light force. There is an effect that a desk device that is very easy to use can be obtained.
[0071]
In addition, the rail member and the sub-link rod are long in the front-rear direction, and the guide member is configured to be movable in the front-rear direction, and the spring member is arranged to expand and contract in the front-rear direction. A configuration for slowing the rotation speed at least as it approaches the horizontal posture can be arranged in the gap space between the inner surface of the desk body and the moving body. As a result, the structure for slowing the downward rotation speed of the top plate at least as it approaches the horizontal posture is not only bulky like the rotary damper of Patent Document 1, but also a space that normally becomes a dead space is effective. By using this, there is an effect that the degree of freedom in designing the desk device can be improved.
[0072]
According to the second aspect of the present invention, when the top plate in the standing posture is rotated downward, the relative backward movement speed of the damper unit with respect to the moving body becomes slow due to the action of the frictional resistance generated in the damper unit. As in the case of claim 1, the downward rotation speed of the top plate and the forward movement speed of the movable body can be gradually decreased.
[0073]
Therefore, the desk device according to claim 2 also has an effect that it is possible to reliably prevent a sudden forward tilt of the top plate with a simple configuration.
[0074]
Also in this case, the rail member and the sub-link rod are long in the front-rear direction, and the damper means is configured to be movable in the front-rear direction, thereby reducing the downward rotation speed of the top plate, Since it can arrange | position in the clearance gap between the inner surface of a desk main body, and a mobile body, like the case of Claim 1, normally the space which becomes a dead space is used effectively, and the design of a desk apparatus is carried out. The degree of freedom can be improved.
[0075]
According to the third aspect of the present invention, when the top plate in the standing posture is rotated downward, the damper means is moved relative to the moving body by the synergistic action of the forward biasing force of the spring member and the frictional resistance generated in the damper means. Since the relative backward movement speed becomes slower, the downward rotation speed of the top plate and the forward movement speed of the movable body can be more reliably reduced.
[0076]
Contrary to the above, when the top plate in a horizontal posture is turned upward, the top plate is caused by the synergistic action of the operation force for manually flipping up the top plate and the forward biasing force of the spring member, The mobile body can be stored in the desk body smoothly with a light force.
[0077]
Therefore, the effect obtained by the structure of claim 1 can be promoted. Also in this case, the rail member and the sub-link rod are long in the front-rear direction, and the damper means is configured to be movable in the front-rear direction, and the spring member is arranged to expand and contract in the front-rear direction. A configuration for slowing down the downward rotation speed of the plate can be arranged in the gap space between the inner surface of the desk body and the moving body, and as a result, as in the case of claims 1 and 2, the desk There is an effect that the degree of freedom in designing the apparatus can be improved.
[0078]
If comprised like Claim 4, since the pivot attachment position with respect to the main link rod of the sublink rod can be changed via each shaft hole, the relative deformation range of a guide member is shifted by this, and elastic deformation of a spring member is carried out by this The amount can be changed in stages, and as a result, there is an effect that the downward rotation speed of the top plate can be easily changed.
[0079]
According to the fifth aspect of the present invention, when the top plate in the standing posture is turned downward, the top plate of the top plate is connected via the main link rod connected to the cylinder means by the action of the viscous fluid resistance in the cylinder means. The downward rotation speed and the forward movement speed of the moving body can be gradually decreased.
[0080]
Therefore, the desk apparatus according to claim 5 also has an effect of reliably preventing a sudden forward tilt of the top plate with a simple configuration.
[0081]
Further, in this case, the cylinder means can be disposed in the gap space between the inner surface of the desk body and the moving body. Therefore, as in the case of claims 1 to 3, it is usually a dead space. This makes it possible to effectively use a large space and improve the degree of freedom in designing the desk device.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of a desk device according to a first embodiment.
FIG. 2 is an enlarged side sectional view of a main part when the top board is in a standing posture.
FIG. 3 is an enlarged side cross-sectional view of a main part when the top plate is in a horizontal posture.
FIG. 4 is a schematic perspective view showing a relationship between a support shaft, a guide block, and a compression spring.
5A and 5B are diagrams showing a speed attenuating unit according to a second embodiment, wherein FIG. 5A is a side sectional view when the top plate is in a standing posture, and FIG. 5B is a side sectional view when the top plate is in a horizontal posture. FIG.
FIG. 6 is an enlarged side cross-sectional view of a main part when the top plate in the third embodiment is in a standing posture.
FIG. 7 is an enlarged cross-sectional side view of a main part when the top plate is in a horizontal posture.
[Explanation of symbols]
1 Desk body
3 Top plate
4 moving objects
5 Main link 杆
9 Top frame
10 Side frame
11 Drawer
12 Guide rail
21, 41 Speed attenuation means
24 Support shaft as rail member
25 Guide block as a guide member
27 Secondary link
28 Compression spring as a spring member
42 blocks
43 Tapered hole
44 Friction member
51 Cylinder means
53 Piston rod

Claims (5)

A top plate that can be rotated up and down around the base end via a hinge to the desk body so that it is in a horizontal posture when in use and in a standing posture when not in use, and is moved forward and backward in the horizontal direction below this top plate One end is pivotally attached to the side surface of the top plate so that the movable body can move forward and backward in conjunction with the movable body provided to move and the up-and-down rotation of the top plate. And a main link rod pivotally attached to the movable body,
In the desk device configured to support the top plate rotating downward, in a horizontal posture by a moving body that moves forward and projects horizontally from the desk body,
The moving body is attached to a rail member extending in the front-rear direction of the moving body, a guide member that can move relative to the moving body along the rail member, and the guide member facing forward against elasticity. And a spring member
A desk characterized in that one end portion of the sub-link rod is pivotally attached to the guide member, and the other end portion of the sub-link rod is pivotally attached to a longitudinal middle portion of the main link rod. apparatus. A top plate that can be rotated up and down around the base end via a hinge to the desk body so that it is in a horizontal posture when in use and in a standing posture when not in use, and is moved forward and backward in the horizontal direction below this top plate One end is pivotally attached to the side surface of the top plate so that the movable body can move forward and backward in conjunction with the movable body provided to move and the up-and-down rotation of the top plate. And a main link rod pivotally attached to the movable body,
In the desk device configured to support the top plate rotating downward, in a horizontal posture by a moving body that moves forward and projects horizontally from the desk body,
The movable body has a rail member extending in the front-rear direction of the movable body, and is movable relative to the movable body along the rail member, and has resistance when moved backward relative to the movable body. Damper means configured to join,
A desk characterized in that one end portion of a sub-link rod is pivotally attached to the damper means, and the other end portion of the sub-link rod is pivotally attached to a longitudinal middle portion of the main link rod. apparatus. A top plate that can be rotated up and down around the base end via a hinge to the desk body so that it is in a horizontal posture when in use and in a standing posture when not in use, and is moved forward and backward in the horizontal direction below this top plate One end is pivotally attached to the side surface of the top plate so that the movable body can move forward and backward in conjunction with the movable body provided to move and the up-and-down rotation of the top plate. And a main link rod pivotally attached to the movable body,
In the desk device configured to support the top plate rotating downward, in a horizontal posture by a moving body that moves forward and projects horizontally from the desk body,
The movable body has a rail member extending in the front-rear direction of the movable body, and is movable relative to the movable body along the rail member, and has resistance when moved backward relative to the movable body. Damper means configured to be added, and a spring member that biases forward against the guide member against elasticity,
A desk characterized in that one end portion of a sub-link rod is pivotally attached to the damper means, and the other end portion of the sub-link rod is pivotally attached to a longitudinal middle portion of the main link rod. apparatus. The other end portion of the sub-link rod is pivotally attached to the mid-longitudinal portion of the main link rod through a shaft hole formed at an appropriate interval along the longitudinal direction so that the position of the sub-link rod can be changed. The desk device described in any one of 1 to 3. A top plate that can be rotated up and down around the base end via a hinge to the desk body so that it is in a horizontal posture when in use and in a standing posture when not in use, and is moved forward and backward in the horizontal direction below this top plate One end is pivotally attached to the side surface of the top plate so that the movable body can move forward and backward in conjunction with the movable body provided to move and the up-and-down rotation of the top plate. And a main link rod pivotally attached to the movable body,
In the desk device configured to support the top plate rotating downward, in a horizontal posture by a moving body that moves forward and projects horizontally from the desk body,
The desk apparatus characterized by connecting the said moving body and the longitudinal middle part of the said main link rod through the cylinder means for making the downward rotation speed of the said top plate slow.

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