JP6478892B2 - Opening and closing mechanism - Google Patents

Description

  The present invention relates to an opening / closing mechanism.

Some measuring devices that need to perform measurement without being affected by the surroundings are configured to perform measurement in a storage box.
The storage box used in this case is provided with an opening for access to the measuring device and a door for opening and closing the opening, and the opening is sealed with a door at the time of measurement so as to be isolated from the surroundings. Measurement can be performed in the state.

Here, if the door is opened during the measurement, the influence of the surroundings reaches the inside of the box, and the measurement needs to be repeated.
Therefore, a mechanism (locking mechanism) that prevents the door from being opened during measurement is provided in a storage box that accommodates this type of measuring device, and various types of locking mechanisms have been proposed (for example, Patent Document 1).

JP 2007-063929 A

  Here, when the door is closed, the lock mechanism is in a state in which the door cannot be opened (locked state), and when the measurement is completed, the lock mechanism in which the door can be opened (unlocked state) is known. Furthermore, a holding mechanism that holds the door in a closed state until an operation force of a predetermined amount or more acts in a direction to open the door after being unlocked by the lock mechanism is also known.

However, the operating force required to move the door in the opening direction (operation force greater than a predetermined amount) is greater than the operating force required for normal door movement, so input to move the door in the opening direction. When the operated force is too large, the door may move vigorously in the opening direction, and may collide with a stopper that defines a moving range in the door opening direction.
Therefore, it is difficult for the operator to adjust the operating force that acts on the door.

  Therefore, in addition to the lock mechanism that switches the locked / unlocked state of the door, after the unlocked state, the door is kept closed until an operating force of a predetermined amount or more acts in the direction of opening the door. Even when a holding force generating mechanism for generating a holding force is provided, it is required to easily operate the door.

The present invention
A door body for closing the opening is provided so as to be slidable in the longitudinal direction of the guide rail, and includes a closing position for closing the opening on one side in the longitudinal direction and an opening position for opening the opening on the other side. And an opening / closing mechanism having a holding force generation mechanism for generating a holding force for holding the door body in the closed position.
One end side in the longitudinal direction is rotatably connected to the door body, and the other end side to which the weight is attached is displaceable in the sliding direction of the door body,
With respect to the connection point between the one end side of the weight member and the door body when the door body is disposed at the closed position, the longitudinal direction of the guide rail is below the connection point A first support member installed on the other side of the connection point in
A second support member disposed below the first support member and on the other side than the first support member in the longitudinal direction of the guide rail,
While the door body is moving between the closed position and the open position, a support member that supports a lower edge of the weight member is between the first support member and the second support member. The opening / closing mechanism has a configuration that allows switching.

According to the present invention, in the weight member, due to the weight attached to the other end side of the weight member, a stress is generated that displaces one end side having a connection point with the door body with the support member as a fulcrum. The stress is an operating force in a direction in which the door is moved toward the open position on the other side of the guide rail.
And this operating force becomes larger as the position where the weight member is supported by the support member approaches the connection point with the door body, and becomes smaller as it moves away from the connection point with the door body. The initial operating force required to overcome the holding force applied by the holding force generating mechanism and move the door body toward the open position can be suppressed.
Therefore, even when the holding force generating mechanism is provided, the door can be easily operated.

It is a figure explaining the opening-and-closing mechanism concerning an embodiment. It is a figure explaining the opening-and-closing mechanism concerning an embodiment. It is a figure explaining the principal part of the opening-and-closing mechanism concerning an embodiment. It is a figure explaining the principal part of the opening-and-closing mechanism concerning an embodiment. It is a figure explaining operation | movement of the opening-and-closing mechanism concerning embodiment.

  Hereinafter, the case where the embodiment of the present invention is applied to the opening / closing mechanism 1 of the slide door 2 that opens and closes the opening 71 of the box 70 will be described as an example.

FIG. 1 is a perspective view for explaining the opening / closing mechanism 1 of the slide door 2. FIG. 1A is a view showing a state in which the slide door 2 is disposed at a closed position where the opening 71 of the box 70 is closed. (B) is a figure which shows the state by which the slide door 2 is arrange | positioned in the open position which opened the opening 71. FIG.
2A and 2B are diagrams illustrating the opening / closing mechanism 1, wherein FIG. 2A is a plan view and FIG. 2B is a cross-sectional view taken along line AA in FIG.
3A and 3B are views for explaining the periphery of the first support member 4 of the opening / closing mechanism 1. FIG. 3A is an enlarged view of a region B in FIG. 2A, and FIG. 3B is a view in FIG. It is AA sectional drawing, (c) is BB sectional drawing in (a).
4A and 4B are diagrams for explaining the periphery of the second support member 5 of the opening / closing mechanism 1, wherein FIG. 4A is a cross-sectional view taken along the line CC in FIG. 2A, and FIG. It is DD sectional drawing in a).

  As shown in FIG. 1, a measuring unit 80 of a measuring device (not shown) is located inside the box body 70, and this box body 70 is used to allow access to the inside of the box body 70. An opening 71 is provided.

  The opening 71 of the box 70 has a rectangular shape when viewed from the front, and the opening 71 is opened and closed by the slide door 2 provided in the opening / closing mechanism 1.

  As shown in FIG. 2, the slide door 2 has a plate-like base portion 21 that has a rectangular shape in plan view, and the base portion 21 is formed with a size that can close the opening 71. In addition, a transparent resin window 22 is provided in the center of the base portion 21 so that the inside of the box 70 can be visually recognized.

  As shown in FIG. 2B, the slide door 2 is accommodated in the grooves 311 and 321 of the pair of guide rails 31 and 32 in which the upper edge 2a and the lower edge 2b of the base 21 are arranged in parallel to each other. The guide rails 31 and 32 are provided so as to be movable in the longitudinal direction.

  In the embodiment, the slide door 2 opens the sealing position (see FIG. 1A) for sealing the opening 71 on one side in the longitudinal direction of the guide rails 31 and 32 and the opening 71 on the other side. It is movably provided between the open position (see FIG. 1B).

As shown in FIG. 2A, one end 31a, 32a and the other end 31b, 32b of the guide rails 31, 32 are connected to each other by frame members 33, 34 extending in the vertical direction, respectively, and are rectangular in front view. A frame 3 having a shape is formed by guide rails 31 and 32 and frame members 33 and 34.
Here, one frame member 34 that connects the other ends 31b and 32b of the guide rails 31 and 32 is longer in length than the other frame member 33, and the lower end 34b of the one frame member 34 is It is located below the side guide rail 32.

In the embodiment, when the slide door 2 is disposed at the sealing position (see FIG. 1A), as shown in FIG. 2A, one side edge 21a of the base portion 21 is in the vertical direction. The frame member 33 is in contact with the frame member 33 without any gap over the entire length, and the opening 71 of the box 70 is closed without any gap by the slide door 2.
In the base portion 21 of the slide door 2, a handle 23 is provided along the vertical direction between the side edge 21 a on the frame member 33 side and the window 22, and the handle 23 is manually operated by the user. It is gripped when moving.

A connecting member 24 is provided at a position adjacent to the upper guide rail 31 at the other side edge 21 b of the base portion 21.
As shown in FIG. 3A, the connecting member 24 is a rectangular member fixed to the surface of the base portion 21 opposite to the opening 71, and the connecting portion 241 with the weight member 6 is connected to the base portion. 21 is located outside the side edge 21b.
Therefore, when the sliding door 2 is disposed at the open position (see FIG. 1B), the connecting member 24 provided on the upper portion of the base portion 21 comes into contact with the frame member 34, whereby the side edge 21b of the base portion 21 is reached. A gap is left between the frame member 33 and the frame member 33.

  As shown in FIG. 2A, the weight member 6 has a plate-like base portion 61 whose one end 61 a in the longitudinal direction is rotatably connected to the connecting portion 241, and the weight 65 of the base portion 61. Is connected to the other end 61b side in a circumferential direction around a connection axis (axis line X1) between the base portion 61 and the connection portion 241.

  In the embodiment, as shown in FIG. 3B, the bolt B <b> 1 penetrating through the through hole 62 provided on the one end 61 a side of the base 61 and the connecting hole 241 a provided in the connecting portion 241 of the connecting member 24, The one end 61a of the base 61 and the connecting member 24 of the slide door 2 are connected to each other by the nut N1 screwed into the bolt B1.

  As shown in FIG. 3B, the base 61 of the weight member 6 is provided in contact with the surface opposite to the opening 71 in the thickness direction of the connecting member 24 (the left-right direction in FIG. 3B). The nut N1 screwed to the bolt B1 is positioned in a gap on the opening 71 side of the connecting member 24 (a gap corresponding to the thickness of the base portion 21 of the slide door 2).

As shown in FIGS. 2 and 4, a cylindrical weight 65 is provided at the other end 61b of the base 61 in a direction along the axis X4 parallel to the axis X1. 65 is detachably attached to the base 61 by a screw 66 penetrating the base 61.
Therefore, in the embodiment, the weight 65 attached to the other end 61b of the base 61 can be replaced with a weight having a desired weight.

  In the embodiment, when the slide door 2 is disposed at the closed position, the side edge 61c of the weight member 6 (base 61) is reliably supported by the support roller 52 described later on the second support member 5. The length L1 of the base 61 is set (see (c) of FIG. 5).

Therefore, the other end 61 b side of the weight member 6 is always located outside the frame member 34.
Here, if the other end 61b side of the weight member 6 interferes with an operator or other parts when the slide door 2 slides, the slide door 2 cannot be smoothly slid.
Therefore, in the embodiment, an outer frame member 35 that is parallel to the frame member 34 is provided outside the frame member 34, and the weight member 6 and the like are disposed between the outer frame member 35 and the frame member 34. In order to prevent interference with the end 61b side, a storage chamber S for storing the other end 61b side of the base 61 of the weight member 6 is formed.

  In the embodiment, upper ends 35a, 34a and lower ends 35b, 34b of the outer frame member 35 and the frame member 34 are connected by connecting frames 36, 37, respectively, and the outer frame member 35, the frame member 34, The space surrounded by the frames 36 and 37 is sealed by a transparent resin protective plate 90, and access to the storage chamber S from the box body 70 side is blocked by the protective plate 90.

  Further, frames 38, 39, 39 extending on the opposite side of the box 70 are provided at the upper end 35a and the lower end 35b of the outer frame member 35 and the lower end 34b of the frame member 34. The space surrounded by 38 and 39 and the space surrounded by the frames 37, 39, and 39 are also sealed by transparent resin protective plates 91 and 92, and enter the storage chamber S from the side and below. Are prevented by these protective plates 91 and 92.

  As shown in FIGS. 2 and 3, the upper guide rail 31 is provided with a guide groove 312 on the side surface opposite to the opening 71. A support member 4 is provided.

As shown in FIG. 3C, the first support member 4 includes an attachment member 40, a head screw 41 that penetrates the support plate portion 401 of the attachment member 40 in the thickness direction, and a shaft of the head screw 41. And a support roller 42 supported by the part 411 via a needle bearing NB.
The shaft portion 411 of the headed screw 41 is arranged in parallel to the connection shaft (axis line X1) between the base portion 61 of the weight member 6 and the connection member 24, and the support roller 42 supported by the shaft portion 411 is The support shaft (axis line X2) is provided so as to be rotatable around the support shaft (axis line X2).

  In the headed screw 41, a nut N2 is screwed to the tip of the shaft portion 411, and the support roller 42 is positioned in the direction of the axis X2 by the support plate portion 401 and the nut N2 of the mounting member 40.

The mounting member 40 includes a support plate portion 401 arranged in parallel to the slide door 2, an arm portion 402 formed by bending the upper side of the support plate portion 401 toward the guide rail, and a tip end 402a of the arm portion 402. , And the supporting roller 42 is located below the arm portion 402 and the connecting portion 403.
In the embodiment, the base portion 61 of the weight member 6 is positioned between the base portion 21 of the slide door 2 and the support plate portion 401, and the support plate portion 401 of the attachment member 40 is connected to the base portion 61 of the weight member 6. This is a restricting portion that restricts movement in a direction away from the box 70 (leftward in FIG. 3C).

The connecting portion 403 to which the distal end 402a of the arm portion 402 is welded is a plate-like member arranged along the longitudinal direction of the guide rail 31 (see FIG. 3A). The connecting portion 403 is a guide rail. A pair of connecting screws 43, 43 arranged at intervals in the longitudinal direction of 31 is provided.
The first support member 4 is attached to the guide rail 31 by arranging the connecting portion 403 of the mounting member 40 at an arbitrary position in the longitudinal direction of the guide groove 312 and then screwing the connecting screws 43 and 43 into the guide groove 312. It is supposed to be.

  Therefore, the first support member 4 can be disposed at an arbitrary position in the longitudinal direction of the guide groove 312. When the slide door 2 is disposed at the closed position, the above-described support roller 42 is provided with a weight member. The position for supporting the lower side edge 61c of the six base portions 61 can be finely adjusted.

  In the embodiment, in a state where the slide door 2 is disposed at the closed position where the opening 71 is closed, the slide door 2 is below the connection point (axis line X1) between the weight member 6 and the slide door 2, and The support roller 42 comes into contact with the lower side edge 61c of the base 61 of the weight member 6 on the open position side (left side in FIG. 3A) from the connection point (axis X1) in the sliding direction. The first support member 4 is provided.

As shown in FIGS. 2 and 4, a second support member 5 supported by a lower guide rail 32 and a frame member 34 is provided below the first support member 4.
As shown to (a) of FIG. 4, the 2nd support member 5 penetrates the support plate 50 fixed over the lower guide rail 32 and the frame member 34, and the support plate 50 in the thickness direction. The headed screw 51, the support roller 52 supported by the shaft 511 of the headed screw 51 via the needle bearing NB, and the head 51 a of the headed screw 51 in the state of being externally attached to the headed screw 51. And a ring-shaped movement restricting member 53 disposed between the support roller 52 and the support roller 52.

  The shaft portion 511 of the headed screw 51 is arranged in parallel to the connection shaft (axis line X1) between the base portion 61 of the weight member 6 and the connection member 24, and the support roller 52 supported by the shaft portion 511 is The support shaft (axis line X3) is provided so as to be rotatable around the support shaft (axis line X3).

In the lower guide rail 32 and the frame member 34, the support plate 50 is fixed to the side edges 32 c and 34 c opposite to the opening 71 by fixing screws 54 and 54, and the headed screw 51 of the support plate 50 is fixed. The fixed distal end portion 501 side is located in the storage chamber S between the frame member 34 and the outer frame member 35.
When viewed from the longitudinal direction of the guide rail 31 (the sliding direction of the slide door 2), the headed screw 51 is screwed into the support plate 50 from the side opposite to the opening 71 of the support plate 50, and moves with the support plate 50. Between the restriction member 53, a support roller 52 that is externally attached to the shaft portion 511 of the headed screw 51 is located.

  In the embodiment, when the base 61 of the weight member 6 contacts the support roller 52 of the second support member 5, the weight member is interposed between the movement restricting member 53 having a larger diameter than the support roller 52 and the support plate 50. Six bases 61 are positioned. Therefore, the movement restricting member 53 provided in the second support member 5 is a restricting portion that restricts the movement of the base 61 of the weight member 6 in the direction away from the box 70.

  In the embodiment, in a state where the slide door 2 is disposed at the closed position where the opening 71 is closed, the rotational axis is lower than the rotational axis (axis line X2) of the support roller 42 of the first support member 4, and this rotational axis. The support roller 52 rotatably supported by the shaft portion 511 of the headed screw 51 on the open position side (left side in FIG. 2A) from the (axis line X2) is below the base portion 61 of the weight member 6. The second support member 5 is provided so as to be in contact with the side edge 61c.

Operation | movement of the opening / closing mechanism 1 provided with the slide door 2 of this structure is demonstrated.
FIG. 5 is a diagram for explaining the operation of the opening / closing mechanism 1 including the slide door 2. FIG. 5A is a diagram schematically illustrating a state in which the slide door 2 is located at a closing position where the opening 71 is closed. (B) is the figure which showed typically the state located between the open position which the slide door 2 opens the opening 71, and the closing position which closes the opening 71, (c) These are the figures which showed typically the state in which the slide door 2 is located in the open position which opens the opening 71. FIG.

Here, the opening / closing mechanism 1 including the slide door 2 according to the embodiment has a lock mechanism 100 for holding the slide door 2 in the closed position, and the lock mechanism 100 is provided on the slide door 2 side. The engaging pin 101 is engaged with or disengaged from the engaging hole 25.
When the slide mechanism 2 is moved to the closed position after placing the measurement object on the measurement unit 80 in order to perform measurement with a measurement device (not shown), the lock mechanism 100 moves the engagement pin 101 into the engagement hole. The slide door 2 is automatically engaged with the door 25 so that the slide door 2 cannot be moved to the open position (locked state).
Furthermore, the lock mechanism 100 can automatically disengage the engagement pin 101 from the engagement hole 25 and move the slide door to the open position side when measurement by a measurement device (not shown) is completed ( (Unlocked state).

  Furthermore, the opening / closing mechanism 1 has a holding force generation mechanism 110 that holds the slide door 2 in the closed position until an operation force in a direction in which the slide door 2 is moved to the open position is applied with an operation force of a predetermined amount or more. In the embodiment, the holding force generation mechanism 110 includes a pair of magnets 111 and 112 provided on the joint surfaces of the slide door 2 and the frame member 33.

In the opening / closing mechanism 1 including the slide door 2, the lower side edge 61 c of the base 61 of the weight member 6 is supported by the support roller 42 of the first support member 4 in a state where the slide door 2 is disposed at the closed position. Has been.
In this state, in the weight member 6, the weight 65 attached to the other end 61 b side of the weight member 6 serves as a support point by the support roller 42 on the one end 61 a side where the connection point (axis line X 1) with the slide door 2 exists. A stress F1 to be displaced as the fulcrum P is generated.
This stress F1 becomes an operating force F2 in the direction of moving the slide door 2 from the closed position toward the open position (left direction in FIG. 5A), and the slide door 2 arranged at the closed position has An operating force F2 for moving the slide door 2 toward the open position is constantly acting.

In the embodiment, the lock mechanism 100 is configured to automatically lock the slide door 2 when the slide door 2 is disposed at the closed position.
Therefore, while the slide door 2 is in the locked state, the slide door 2 continues to be held at the closed position regardless of the operation force F2 acting from the weight member 6.

When the measurement is completed, the lock mechanism 100 automatically disengages the slide door 2 by removing the engagement pin 101 from the engagement hole 25.
Here, the sliding door 2 is in the closed position until the holding force generating mechanism 110 provided in the opening / closing mechanism 1 causes the operating force in the direction to move the sliding door 2 to the open position side is applied with a predetermined amount of operating force Fx or more. It is supposed to be held at.

  In the embodiment, in a state where the slide door 2 is arranged at the closed position, the operation force F2 acting on the slide door 2 is larger than the predetermined amount of operation force Fx (F2> Fx). The support position of the weight member 6 by the roller 42 and the weight of the weight 65 attached to the weight member 6 are set.

Therefore, when the slide door 2 is unlocked, the slide door 2 moves toward the open position (see FIG. 5B).
When the slide door 2 moves toward the open position, the position of the connection point (axis line X1) between the weight member 6 and the slide door 2 is also changed to the open position side of the slide door 2 (the left side in FIG. 5B). ).
Then, the support roller 42 of the first support member 4 moves to the one end 61a side while rolling the lower side edge 61c of the weight member 6, and the support position of the weight member 6 by the support roller 42 is the one end 61a side. Will change.

  At this time, since one end 61a of the weight member 6 is rotatable around the connection point (axis line X1) with the slide door 2, the other end 61b side to which the weight 65 is attached is in the sliding direction of the slide door 2. Along the direction of the second support member 5.

  When the connection point (axis line X1) between the weight member 6 and the slide door 2 exceeds the first support member 4, the other end 61b side of the weight member 6 contacts the support roller 52 of the second support member 5. Thus, the support member that supports the lower side edge 61 c of the weight member 6 is switched from the first support member 4 to the second support member 5.

Then, since the support position (fulcrum P) by the support roller 52 is on the other end 61b side of the weight member 6, the end 61a side where the connection point (axis line X1) to the slide door 2 is located is the support point by the support roller 42. Is smaller than the stress F1 when the one end 61a side of the weight member 6 is supported by the support roller 42 (F1> F3).
Therefore, the operating force F4 acting in the direction of moving the slide door 2 from the closed position toward the open position due to the stress F3 is such that the one end 61a side of the weight member 6 is supported by the support roller 42 of the first support member 4. It becomes smaller than the operating force F2 in the case of being present (F2> F4).

  As described above, when the support position of the weight member 6 by the support member is switched from the first support member 4 to the second support member 5, an operating force F2 larger than the holding force by the holding force generating mechanism 110 is first applied. After that, when the holding force by the holding force generating mechanism 110 stops working, the slide door 2 moves toward the open position with the operation force F4 smaller than the initial operation force F2.

As described above, in the embodiment, (1) the slide door 2 (door body) for closing the opening 71 is provided so as to be slidable in the longitudinal direction of the guide rails 31 and 32, and the slide door 2 is provided with the guide rail 31. 32, one end 31a, 32a in the longitudinal direction (one side), a closing position for closing the opening 71 (see FIG. 5A), the other end 31b in the longitudinal direction of the guide rails 31, 32, A holding force that is arranged on the 32b side (the other side) and is movable between an open position (see FIG. 5C) that opens the opening 71 and holds the slide door 2 in the closed position. An opening / closing mechanism 1 having a holding force generating mechanism 110 for generating
A weight member 6 whose one end 61a in the longitudinal direction is rotatably connected to the slide door 2 and whose other end 61b to which the weight 65 is attached is displaceable in the sliding direction of the slide door 2;
With respect to the connecting shaft (axis line X1) between the one end 61a of the weight member 6 and the sliding door 2 when the slide door 2 is disposed at the closed position, the guide rail 31 is below the connecting shaft. A first support member 4 in which a shaft portion 411 (support shaft: axis line X2) is disposed on the other end 31b, 32b side of the connecting shaft (axis line X1) in the longitudinal direction of 32;
A shaft portion 511 (support shaft: axis X3) is located below the shaft portion 411 of the first support member 4 and on the other end 31b, 32b side of the first support member 4 in the longitudinal direction of the guide rails 31, 32. A second support member 5 disposed with
While the slide door 2 is moving between the closed position and the open position, the support member that supports the lower side edge 61c (lower edge) of the weight member 6 is the first support member 4 and the second support. It was set as the structure switched between the members 5. FIG.

If comprised in this way, in the weight member 6, the stress (displacement | biased one end 61a side with a connection point with the slide door 2 by the weight 65 attached to the other end 61b side of the weight member 6 by using a support member as a fulcrum ( F1 and F3 (see FIG. 5) are generated, and the stress (F1 and F3) is an operation force in a direction in which the slide door 2 is moved toward the open position on the other end 31b and 32b side of the guide rails 31 and 32. (F2, F4: see FIG. 5).
The operating force (F2, F4) is such that the position where the weight member 6 is supported by the support member (P: see FIG. 5) approaches the connection point with the slide door 2 (one end 61a of the weight member 6). It becomes large, and it becomes small, so that it leaves | separates from the connection point (one end 61a of the weight member 6) with the slide door 2. FIG.
Therefore, when the user operates the slide door 2 arranged at the closed position to move to the open position side, the slide door 2 is moved toward the open position by overcoming the holding force applied by the holding force generating mechanism 110. Since the necessary initial operating force can be suppressed, even when the holding force generating mechanism 110 is provided, the sliding door 2 can be easily operated.

Further, during the movement of the slide door 2 toward the open position, the operating force acting on the slide door 2 becomes smaller as the position where the weight member 6 is supported by the support member moves away from the one end 61a of the weight member 6. Become.
Therefore, since the moving speed of the slide door 2 that is moved toward the open position can be slowed as it approaches the open position, a stopper that defines the movement range in the direction in which the opening 71 of the slide door 2 is opened (the connecting member) 24) can reduce the possibility of breakage.

Furthermore, the opening / closing mechanism 1 is the opening / closing mechanism 1 of the slide door 2 that opens and closes the opening 71 of the box 70 that houses the measuring unit 80 of the measuring device (not shown).
The opening / closing mechanism 1 has a lock mechanism 100 including an engagement pin 101 that is engaged with and disengaged from an engagement hole 25 provided on the slide door 2 side.
When the lock mechanism 100 moves the slide door 2 to the closed position after placing the measurement object on the measurement unit 80 in order to perform measurement with a measurement device (not shown), the engagement pin 101 is moved to the engagement hole. 25 is automatically engaged so that the slide door 2 cannot be moved to the open position side (locked state), and when the measurement by a measuring device (not shown) is completed, the engagement pin 101 is engaged. If it has a function to automatically detach from the hole 25 and move the slide door 2 to the open position side (unlocked state),
The sliding door 2 is attached to the weight member 6 so that the operating force F2 applied to the sliding door 2 from the weight member 6 when the sliding door 2 is disposed at the closed position is greater than the holding force applied by the holding force generation mechanism 110. By setting the support position (fulcrum P) of the weight 65 and the weight member 6 by the first support member 4,
At the end of the measurement with a measuring device (not shown), the engaging pin 101 is disengaged from the engaging hole 25, and the sliding door 2 is held at the closed position only by the holding force generated by the holding force generating mechanism 110. At this point, the slide door 2 can be automatically moved from the closed position toward the open position.
Thereby, the slide door 2 can be moved to the open position at the end of the measurement without bothering the operator's hand. Therefore, the operator can complete the measurement when the slide door 2 is moved to the open position. Can be expected to improve work efficiency.

(2) The guide rail includes an upper guide rail 31 (upper guide rail) having a groove 311 for supporting the upper edge 2a of the slide door 2 and a lower guide rail 32 (having a groove 321 for supporting the lower edge 2b. Lower guide rail), and
The first support member 4 is supported by the guide groove 312 of the guide rail 31 and the support position of the guide rail 31 in the guide groove 312 can be changed in the longitudinal direction of the guide rail 31. .

If comprised in this way, the fine adjustment of the operating force which acts on the slide door 2 from the weight member 6, and the timing when the support member which supports the weight member 6 switches between the 1st support member 4 and the 2nd support member 5 Can be adjusted.
Thereby, a more appropriate operating force can be applied to the slide door 2 at an appropriate timing, and the slide door 2 can be moved toward the open position.

(3) The first support member 4 is
The shaft portion 411 (support shaft) of the headed screw 41 is arranged in parallel to the connection shaft (axis line X1) of the weight member 6 and the slide door 2,
In the shaft portion 411 of the headed screw 41, a support roller 42 (first support roller) that supports the lower side edge 61c of the weight member 6 is supported via a needle bearing NB (bearing). .

With this configuration, when the weight member 6 and the first support member 4 are relatively displaced in the sliding direction of the slide door 2 in conjunction with the movement of the slide door 2, the side edge 61c of the weight member 6 is used. The support roller 42 rolls.
Thereby, the support position of the side edge 61c of the weight member 6 by the support roller 42 of the first support member 4 changes smoothly in conjunction with the movement of the slide door 2, and the weight member 6, the first support member 4, Therefore, the movement of the slide door 2 to which the weight member 6 is connected is not hindered.
When the supporting member slides on the side edge 61c of the weight member 6, the relative movement between the weight member 6 and the supporting member is hindered by the sliding resistance, and the sliding door 2 to which the weight member 6 is coupled is prevented. Although movement may also be inhibited, the occurrence of such a situation can be suitably prevented.

(4) The second support member 5 is
The shaft portion 511 (support shaft) of the headed screw 51 is arranged in parallel to the connecting shaft (axis line X1) of the weight member 6 and the slide door 2,
In the shaft portion 511 of the headed screw 51, a support roller 52 (second support roller) that supports the lower side edge 61c of the weight member 6 is supported via a needle bearing NB (bearing). .

With this configuration, when the weight member 6 and the second support member 5 are relatively displaced in the sliding direction of the slide door 2 in conjunction with the movement of the slide door 2, the side edge 61c of the weight member 6 is used. The support roller 52 rolls.
Thereby, the support position of the side edge 61c of the weight member 6 by the support roller 52 of the second support member 5 changes smoothly in conjunction with the movement of the slide door 2, and the weight member 6 and the second support member 5 Therefore, the movement of the slide door 2 to which the weight member 6 is connected is not hindered.

Here, in the embodiment, the movement restricting member 53 that is extrapolated to the shaft portion 511 of the headed screw 51 is disposed between the head 51 a of the headed screw 51 and the support roller 52. The other end 61 b of the weight member 6 placed on the support roller 52 is prevented from dropping from the support roller 52 by the large-diameter movement restricting member 53.
Thereby, when the other end 61b side of the weight member 6 and the support roller 52 move relative to each other by the movement of the slide door 2, the other end 61b side of the weight member 6 can be held on the support roller 52. An appropriate operating force can be applied to the slide door 2 that moves on the open position side.

(5) The weight 65 is configured to be detachably provided on the other end 61 b side in the longitudinal direction of the weight member 6.

  If comprised in this way, since the weight of the weight 65 attached to the weight member 6 can be adjusted according to the weight of the slide door 2, etc., the operating force which acts on the slide door 2 is adjusted to an appropriate magnitude | size. it can.

DESCRIPTION OF SYMBOLS 1 Opening / closing mechanism 2 Sliding door 21 Base 22 Window 23 Handle 24 Connection member 241 Connection part 241 Connection part 241a Connection hole 25 Engagement hole 3 Frame body 31, 32 Guide rail 31a, 32a, One end 31b, 32b The other end 311, 321 Groove 312 Guide groove 33, 34 Frame member 35 Outer frame member 36, 37 Connection frame 38, 39 Frame 4 First support member 40 Mounting member 401 Support plate portion 402 Arm portion 402a Tip 403 Connection portion 41 Headed screw 411 Shaft portion 42 Support Roller 43 connecting screw 5 second support member 50 support plate 501 tip 51 headed screw 511 shaft 51a head 52 support roller 53 support member 54 fixing screw 6 weight member 61 base 61a one end 61b other end 61c side edge 62 through hole 65 weight 66 screw 70 box 71 opening 8 Measuring unit 90, 91, 92 Protection plate 100 Lock mechanism 101 Engagement pin 110 Holding force generation mechanism 111, 112 Magnet B1 Bolt F1, F3 Stress F2, F4 Operating force Fx Predetermined amount of operating force N1 Nut N2 Nut NB Needle bearing P Support point S Containment chamber X1-X4 Axis

Claims (5)

A door body for closing the opening is provided so as to be slidable in the longitudinal direction of the guide rail, and includes a closing position for closing the opening on one side in the longitudinal direction and an opening position for opening the opening on the other side. And an opening / closing mechanism having a holding force generation mechanism for generating a holding force for holding the door body in the closed position.
One end side in the longitudinal direction is rotatably connected to the door body, and the other end side to which the weight is attached is displaceable in the sliding direction of the door body,
The longitudinal direction of the guide rail is below the connecting shaft with respect to the connecting shaft between the one end side of the weight member and the door body when the door is arranged at the closed position. A first support member having a support shaft disposed on the other side of the connecting shaft in
A second support member disposed below the support shaft of the first support member and having a support shaft disposed on the other side of the first support member in the longitudinal direction of the guide rail,
While the door body is moving between the closed position and the open position, a support member that supports a lower edge of the weight member is between the first support member and the second support member. An opening and closing mechanism characterized by switching. The guide rail is composed of an upper guide rail that supports the upper edge of the door body, and a lower guide rail that supports the lower edge of the door body,
The first support member is
The opening / closing mechanism according to claim 1, wherein the opening / closing mechanism is supported by the upper guide rail, and a support position of the guide rail is changeable in a longitudinal direction of the guide rail. The first support member is
The support shaft of the first support member is disposed in parallel to the connection shaft of the weight member and the door body,
3. The opening and closing according to claim 1, wherein a first support roller that supports a lower edge of the weight member is supported via a bearing on the support shaft of the first support member. mechanism. The second support member is
The support shaft of the second support member is arranged in parallel to the connection shaft of the weight member and the door body,
The second support roller that supports the lower edge of the weight member is supported via a bearing on the support shaft of the second support member. The opening / closing mechanism described in the item.   The opening / closing mechanism according to any one of claims 1 to 4, wherein the weight is detachably provided at the other end of the weight member in the longitudinal direction.

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