KR20100098334A - Multi-point tight locking device - Google Patents

Abstract

PURPOSE: A locking device of a multipoint fastening type is provided to completely seal a casing by pressing a plurality of locking levers to a receiving part of the casing. CONSTITUTION: A locking device of a multipoint fastening type comprises a handle, a plurality of locking members, and a locking bar(25). The locking member comprises a casing(22), a slider, and a locking lever(24). The slider is slidably arranged between one end and the other end of the casing. The locking lever is pivotally supported on one side of the casing by a shaft parallel to one side of the casing and a rotary end of one side of the locking lever faces the inside of the casing and a rotary end of the other side of the locking lever is attached to be able to rotate towards the receiving part of the casing. The locking bar is connected to the slider and the slider slides through the locking bar by the manipulation of the handle(12), The locking bar is guided by the hanging and the fitting of one rotary end of the locking lever and the slider and the other rotary end of the locking lever is pressure-welded to the receiving part of the casing.

Description

Multi-point tightening locking device {MULTI-POINT TIGHT LOCKING DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multipoint tightening locking device, and more particularly, to a multipoint tightening locking device for use in racks for storing electric devices, electronic devices, and other various devices.

Usually, the rack which accommodates an electric device, an electronic device, etc. is equipped with the hinge member in the left and right sides of a door and a casing, and a door is attached to a casing so that a pivot movement is possible. On the other side of the door, a handle is mounted on the front side, and a locking lever is provided on the rear side so as to be rotatable in association with the handle. In this way, the door is connected to the opening surface of the casing through the hinge member so that opening and closing is possible. When the door is closed, the door is turned to engage the locking lever with the receiving part on the casing side, and is interposed between the door and the casing. Tighten the packing to compress. In addition, some types of locking handles have adopted a multi-point tightening method in order to sufficiently engage the locking lever on the door side and the receiving portion on the casing side and to sufficiently compress the packing. In this system, at a plurality of locations on the rear surface of the door, a locking lever capable of stepping and releasing can be provided via the locking bar at the receiving portion on the casing side. These locking levers are operatively connected to the handles, and by rotating the handles, all locking levers together with the locking bar can be stepped on and off the steps of the casing side, and the steps can be taken on and off the doors. Since the packing interposed between the casings is sufficiently deformed at the rear of the door, the rotational operation point is one place, but the door can be tightened with a stable high sealing performance. Such door locking handles and multi-point tightening locking devices are described in, for example, Japanese Patent Laid-Open No. 6-336864.

Japanese Patent Laid-Open No. 6-336864

However, in the above conventional multi-point tightening type locking device, since the plurality of locking levers are moved on a surface substantially parallel to the rear surface of the door by the pivoting operation of the handle, each locking lever is actively pressed against the receiving portion on the casing side. There is a problem that it is difficult to completely close the casing by opening it, and thus it is impossible to cope with the case where high sealing property is required for the door and the casing.

SUMMARY OF THE INVENTION The present invention solves such a conventional problem, and aims at completely closing the casing by actively pressing a plurality of locking levers against a receiving portion on the casing side in this kind of multi-point tightening locking device.

In order to achieve the above object, according to the present invention, the handle device is attached to the side of the rotational side of the door for closing the casing, and the handle is disposed on the front side of the door, and the rear side of the door, along the side of the rotational side. A multi-point tightening type locking device comprising a plurality of locking members disposed at a plurality of locations or at a plurality of locations along this side and an end portion adjacent to this side, and a locking bar for operatively connecting the plurality of locking members with the handle device. In the multi-point fastening method locking device of the form which operates said plurality of locking members by advancing-removing the said locking bar along the said side part, the said side part, and the said end part of the back surface of a door in connection with operation of a handle | steering-wheel. The member is installed on the rear side of the door, or on both side portions and the upper and lower ends of the door, with the respective ends extending in the longitudinal direction in the extending direction. A case that is tooth-fixed, a slider that is slidably disposed between one end and the other end of the case in the case, and one side of the case is pivotally supported by an axis parallel to this one side, A locking lever is attached to the inside of the case and the other rotational end is rotatably attached to the receiving portion on the casing side, and the locking bar is connected to the slider, and through the locking bar by operation of the handle. The slider is slid, the locking lever is pivotally guided by engaging the slider and one pivoting end of the locking lever, and the other pivoting end is pressed against the receiving part on the casing side. A locking device is provided.

And it is preferable that this locking apparatus is further equipped with the following structures.

(1) The slider has a guide surface having an inclined surface shape at the tip, and the case has a guide hole formed in the slide direction of the slider on the side of the side opposite to one side on which the locking lever is pivotally supported. The locking bar is connected to the slider through this guide hole.

(2) A spring means for rotating and pressing the locking lever toward the inside of the case in a normal state is provided.

(3) A locking bar guide having a cross-sectional U-shaped groove which is fixed to the side of the rotation side on the rear surface of the door, can surround the locking bar, and guides the retraction direction of the locking bar.

(4) The case, the slider, the locking lever, and the locking bar of the locking member are each formed so as to be selectively attachable anywhere on the left and right sides of the door, and to be symmetrical to each other or to reverse the left and right directions.

(5) The handle of the handle device is pivotally supported on the front side of the door by an axis parallel to the front of the door, and has a predetermined doping position and a predetermined standing position in a plane perpendicular to the front of the door. A cam member which is rotatable therebetween, wherein the handle device is also pivotally supported by the shaft of the handle, extends to the back side of the door, and is rotatable integrally with the handle between the back side and the front side of the door, It is axially supported by a cam member, provided with a slide bar which converts the rotation of this cam member into linear motion, and which can slide back and forth linearly along the back side of the door, and the locking bar is connected to this slide bar.

(6) The handle device further includes a stopper for holding the handle in the doped position, pivotally supported by the shaft of the handle on the front side of the door, extending to the rear side of the door, and the rear side and the front side of the door. An actuating lever pivotally integrally with the handle, and pivotally supported on a rear side of the door by an axis perpendicular to the axis of the handle, with one rotating end facing the operating lever, the other rotating end being A steering wheel side locking lever is provided toward the receiving portion on the casing side, and the operating lever is rotated from the front side to the back side of the door by rotating the handle to the dodging position, so that one rotation end of the handle side locking lever is provided. Press to rotate the handle-side locking lever as a whole, and press the other rotating end to the receiving portion on the casing side.

(7) The handle device is further provided with a main body case which is formed to be secured by being inserted into a handle attachment hole formed notchally in the front side portion of the door and has an opening communicating with the front side and the back side of the door, and the handle Silver is formed to be fit to the main body case, one end pivotally supported by the main body case by the shaft, the operation lever is integral with the handle between the rear side and the front side of the door in the opening. And the handle side locking lever has a substantially L-shaped cross-sectional shape, and at one side portion of the main body case disposed on the rear side of the door, the cross-sectional shape is formed by an axis perpendicular to the axis of the handle. The intermediate part of the shaft is pivotally supported, and one rotational end faces the operation lever, and the other rotational end faces the receiving part on the casing side so as to be rotatable. Is rotated by a spring means to press the actuating lever in the state of the stopper, and the stopper is installed on the main body case so as to be stepped on and released from the pivoting end of the handle, and the cam The member is pivotally supported by the main body case by the axis of the handle, and is rotatable integrally with the handle in the opening.

In the multi-point fastening method locking device of the present invention, in accordance with the above configuration, the locking bar is driven along the side of the rear surface of the door in conjunction with the rotational operation of the handle of the door, and the slider is disposed in a plurality of places at the rear surface of the door. Slide The entire locking lever is guided to rotate by engaging the slider and one rotating end of the locking lever, and the other rotating end is pressed against the receiving part on the casing side. Accordingly, the casing can be completely sealed by pressing the locking lever against the receiving portion on the casing side at a plurality of rear surfaces of the door.

1 (a) is a partially omitted rear view showing a multi-point tightening locking device according to an embodiment of the present invention, and FIG. 1 (b) is a plan view of a locking handle for a door employed in the locking device, and FIG. 1 (c). ) Is a plan view of the locking device.
Fig. 2 (a) is a plan sectional view of the locking device, and Fig. 2 (b) is a partially omitted rear sectional view of the locking device.
Fig. 3 (a) is a side sectional view of the terminal locking member (non-operation) of the locking device, and Fig. 3 (b) is a side sectional view of the terminal locking member (operation) of the locking device. 4 is a partial cross-sectional rear view of the locking device.
Fig. 5 (a) is a plan sectional view showing the handle attachment hole of the door on which the door locking handle that can be employed in the locking device is mounted and the receiving portion at the casing side, and Fig. 5 (b) is a rear view of the handle attachment hole. .
Fig. 6 is a side sectional view of a door locking handle that can be employed in the locking device.
7 is a plan view of the locking handle for the door.
8 is a rear view of the locking handle for the door.
9 is a side view of the locking handle for the door.
Fig. 10 (a) is a plan view of the handle of the locking handle for the door standing up at a predetermined position, and Fig. 10 (b) is a plan view of the handle of the door locking handle at the predetermined position.

(Form to carry out invention)

Next, one Embodiment of this invention is described using drawing. Moreover, in this embodiment, the attachment of the rack which accommodates an electric device, an electronic device, etc. is illustrated and the multipoint fastening system locking apparatus of this invention is demonstrated concretely.

As shown in FIG. 1, the casing 31 of the rack 3 has an opening 310 at the front, and a step is formed between the edge portion 312 and the casing side portion 311 defining the opening 310. This side portion 311 is formed in a groove shape. A packing 313 is placed in front of the edge portion 312 of the opening 310. The door 32 covers the entire front surface of the casing 31, and a drain 33 is formed between the side portion 321 of the rotation side of the door 32 and the groove-shaped side portion 311 of the casing 31.

In the multi-point fastening method locking device 2, the terminal locking member 21 is arrange | positioned in the several position of the side part of the rotation side in the back surface of the door 32, and is connected to the locking bar 25 arrange | positioned along this side part, The edge portion 312 of the opening of the casing 31 serves as a receiving portion, and the plurality of terminal locking members 21 are stepped and released by the movement of the locking bar 25. The locking bar 25 is operatively connected to the door locking handle 1 attached to the side of the rotational side of the door 32 to interlock with the operation of the handle 12.

In the case of the locking device 2, a three-point tightening method is adopted in addition to the tightening by the door locking handle 1, the door locking handle 1, two terminal locking members 21 and 21, It is provided with one locking bar 25 which is operatively connected to the locking handle 1 for the door and drives these terminal locking members 21, 21.

The two terminal locking members 21 and 21 are identical, and are provided with the terminal case 22, the terminal slider 23 (refer FIG. 2), and the terminal locking lever 24, respectively.

As shown in FIG. 2, the terminal case 22 includes a base 221 and a case body 225. The base 221 has an elongated flat plate shape in the up and down direction, and thread insertion holes and holes are formed at both upper and lower ends thereof, and the base 221 can be screwed to the side of the rotation side of the rear surface of the door 32. In addition, one side of one side of the base 221 has a circular arc-shaped holding portion for supporting the shaft insertion passing portion 243 of the terminal locking lever 24 described later. A shaft holding portion having a circular arc shape in cross section supporting the shaft 240 inserted into the insertion passage portion 243 is formed to protrude. The case main body 225 is an elongated box-shaped in the vertical direction, is deposited on the base 221, and the terminal slider 23 forms a slide space in which the terminal slider 23 can slide in the vertical direction. The opposing surface of the case main body 225 with the base 221 is fully open, and one side thereof is thick. The opening 226 is cut into a substantially rectangular shape continuously from the middle portion of the surface opposite to the base opposing face to the thickness wall, and the terminal locking lever 24 can be fitted. Moreover, the groove | channels 227 and 227 which can support the shaft 240 are formed in the thickness wall in the upper and lower sides of the opening part 226 with the shaft holding part of the base 221. A guide hole 228 for guiding the movement of the terminal slider 23 is formed in the side wall on the side opposite to the thickness wall in the vertical direction. Further, screw insertion holes and holes 229 and 229 are formed in the center of the upper and lower ends of the case body 225 to communicate with the screw insertion holes and holes of the upper and lower ends of the base 221. In this way, the terminal case 22 is formed so as to be selectively attachable to the left and right portions of the door 32 and to be inverted in the left and right directions.

The terminal slider 23 is shorter than about half of the entire length of the terminal case 22 in the vertical direction, and is formed to fit within the slide space of the terminal case 22. In this case, the outer circumferential surface of the terminal slider 23 is formed in a planar shape so as to be in contact with each surface in the slide space, and in particular, the contact surface with respect to the base 221 is formed in a concave shape. Moreover, as shown in FIG. 3, the upper surface of the terminal slider 23 is formed in the inclined surface shape in which the base 221 side is upward from the opposite side to the base 221, and the terminal locking lever 24 rotates. The guide surface 232 for guiding the direction is formed, and the lower surface is formed in a planar shape to be in surface contact with the lower surface of the case body 225. On both sides of this terminal slider 23, in more detail, the cylindrical pin insertion hole and the hole 231 are formed in the position which approached slightly upward from the center of the up-down direction. In this way, the slider 23 is formed symmetrically so as to be selectively attachable to the left and right portions of the door 32. The terminal slider 23 is slidably disposed in the case main body 225 in the same direction as described above from the lower surface of the case main body 225 upwards or vice versa.

As shown in Fig. 1 (c), Fig. 2 (a), and (b), the terminal locking lever 24 has a substantially L-shaped cross-sectional shape, and at one side of the terminal case 22, the cross-sectional shape Approximately an intermediate portion of the pivot is pivotally supported by an axis 240 parallel to the arrangement direction of the terminal locking member 21, one pivoting end facing the terminal slider 23, and the other pivoting end being the receiving part on the casing side. Towards 312, it is rotatably attached. Moreover, the terminal locking lever 24 is rotationally pressurized by the spring means 244 so that one rotational end may press the terminal slider 23 in a normal state. In more detail, as shown in FIG. 2, the terminal locking lever 24 includes a pinned portion 241 formed in a trapezoidal flat plate shape that can be disposed in the opening 226 of the case body 225, and the pinned portion 241. The convex press part 242 which returns to about 90 degree direction from one side part of the press part 241, and protrudes outward of one side surface of the terminal case 22, and the press part which forms this approximately 90 degree ( 241 and upper and lower portions of the transition portion between the pressing portion 242 and a pair of shaft insertion passages 243 and 243 having through holes through which the shaft 240 can be inserted in the vertical direction. Has a substantially L-shaped cross-sectional shape. In this way, the terminal locking lever 24 is formed so as to be selectively attachable to the left and right portions of the door 32 and to be inverted in the left and right directions. Then, the shaft 240 is inserted through the through holes of the upper and lower shaft insertion portions 243 and 243, and the terminal locking lever 24 is fitted into the opening 226 of the case body 225, and the shaft 240 ) Is supported between the grooves 227 and 227 of the body case 225 and the shaft holding portion of the base 221. As a result, the terminal locking lever 24 has the pressed portion 241 toward the predetermined position in the opening 226, and the pressed portion 242 returns to the outside of one side of the case main body 225, and is Toward the position of, the circumference of the shaft 240 is rotatably attached. In addition, with the coil spring 244 wound around the shaft 240 in advance, the terminal locking lever 24 is in a normal state, and the pressed portion 241 is directed toward a predetermined position in the opening 226. It is pressurized to rotate.

In this way, the case main body 225 is covered on the base 221 and attached, and forms a slide space therebetween, and the terminal slider 23 slides so that it may slide upwards from the lower surface of the case main body 225 or vice versa. Disposed in space. The terminal locking lever 24 has the shaft insertion part 243, 243 by the holding | maintenance part of the base 221, and the shaft 240 has the grooves 227, 227 and the base 221 of the case main body 225. It is supported between the shaft holding | maintenance part of each, and the to-be-pressed part 241 faces the case main body 225 inside, and the press part 242 is attached to the case main body 225 outer side so that rotation is possible. Due to the vertical movement of the terminal slider 23, the end portion of the pressed part 241 is guided to be engaged with the guide surface 232 of the upper surface of the terminal slider, so that the pressing part 242 is moved to the case body 225. It rotates toward the outer side or the case body 225 inner side.

As shown in FIG. 4, the locking bar 25 can be disposed along the side of the pivot side of the rear surface of the door 32 and can also be operatively connected to the door locking handle 1 by the two terminal locking members 21. It is an elongate bar having a length, and a connection portion to the slide bar 17 of the locking handle 1 for the door is provided at a predetermined position in the middle thereof. A flat bar is adopted for this locking bar 25, and pins 251, which form a connection portion at a predetermined position in the middle thereof, are fixed through the connection plate 252. Moreover, the pin 253 protrudes on one surface at both ends of this locking bar 25, and the protective pad 254 is attached to the other surface. In this case, the pin 253 is a cylindrical pin which can be inserted into the pin insertion hole and the hole 231 of the terminal slider 23 and is caulked and fixed to the attachment hole formed in the locking bar 25. The protective pad 254 is formed of a synthetic resin material into a substantially rectangular plate shape, and an attachment shaft is integrally formed on one surface thereof, and the attachment shaft is pressed into and fixed to an attachment hole formed in the locking bar 25. do. In this way, the locking bar 25 is formed so that the left and right portions of the door 32 can be selectively attached, and can be used by inverting the left and right directions. Then, the pins 253 at both ends of the locking bar 25 are inserted into the pin insertion hole of the terminal slider 23 through the guide hole 228 on the side surface of the terminal case 22, thereby locking the locking bar ( 25 is operatively connected to the two terminal locking members 21, 21. In addition, at the time of installation of this locking bar 25, the locking bar guide 26 may be employ | adopted. The locking bar guide 26 has a groove shape that can surround the locking bar 25 and is provided on the side of the rotation side of the rear surface of the door 32 to guide the movement of the locking bar 25 in a predetermined direction. do. In this case, the locking bar guide 26 is formed in a planar shape which can be installed on the rear surface of the door 32, and has a U-shaped shape from a fixed portion 261 having an attachment hole at its center, and one end of the fixed portion 261. It consists of a guide portion 262 extending to. In this way, the locking bar guide 26 is formed such that the locking bar guide 26 can be selectively attached to the left and right portions of the door 32 and can be used by inverting the left and right directions. The locking bar guide 26 is fixed to the rear surface of the door 32 by aligning the guide portion 262 on the arrangement of the locking bar 25, surrounds the locking bar 25, and locks the locking bar ( 25) to guide you in the direction of retreat.

Thus, in the locking device 2, the two terminal locking members 21 and 21 are installed and fixed to two upper and lower positions of the side part of the rotation side by the back of the door 32, and the locking bar 25 is the pin 253. In addition, the locking bar 25 is operatively connected to the slide bar 17 of the locking handle 1 for the door, which will be described later, through the pin 251. Then, in conjunction with the operation of the handle 12 attached to the front of the door 32, the terminal locking member 21, 21 by moving the locking bar 25 up and down along the rotational end of the door 32, Terminal locking bars 24 and 24 are engaged with and detached from the receiving portion 312 on the casing side.

In Fig.1 (a), (b), the locking handle 1 for doors is shown as an example of the handle apparatus which can be used for this locking apparatus 2. As shown to FIG. This door locking handle 1 includes a main body case 11, a handle 12, an operating lever 13, a locking lever 14, a stopper 15, a cam member 16, a slider 17, and the like. It is attached to the handle attachment hole 322 of the side part 321 of the rotation side of the door 32, and is comprised as an outer locking handle arrange | positioned outside with respect to the internal space of the casing 31. As shown in FIG. The door locking handle 1 for the door is operatively connected to the multi-point tightening type locking device 2, and the terminal locking members of the locking device 2 together with the locking lever 14 by the pivoting operation of the handle 12. The terminal locking bar 24 of (21, 21) can be stepped and released from the edge portion 312 of the opening 310 forming the receiving portion on the casing side.

In this door locking handle 1, as shown in FIG. 5, in the side part 321 of the rotation side of the door 32, the handle mounting opening 322 is a vertical direction in the predetermined position of the up-down direction middle. It penetrates into an elongate rectangular shape, and the attachment holes 323 and 323 are drilled one by one near the center of the upper and lower ends, respectively.

As shown in FIG. 6 and FIG. 7, the main body case 11 is formed to be fixed by being inserted into the handle attachment hole 322 of the door 32 and communicates with the front side and the back side of the door 32. It has an opening 110. In more detail, this main body case 11 is an embedding part 111 formed in the substantially rectangular frame shape which can be fitted to the handle mounting opening 322 of the door 32, and this embedding part. Subsequently, the adhered portion 112 is formed to be attached around the door front side of the handle attachment port 322 continuously. The adhered portion 112 is formed in a substantially rectangular frame shape which is slightly larger than the embedded portion 111. The opening part 110 which penetrates the said embedding part 111 and the to-be-adhered part 112 is formed, and below this opening part 110, the cylindrical hole 119 is formed in substantially parallel with the opening part 110. As shown in FIG. The shaft and pin holder 113 is arrange | positioned at one side of the upper part in the opening part 110, and is attached to one side of the upper part of the embedding part 111 so that attachment or detachment is possible. The shaft and pin holder 113 has a hole for a shaft formed in the lower surface, the hole for a pin is formed in one side surface, and the hole for a pin is directed to the other side on the one side of the upper part in the opening part 110. It is arrange | positioned in the state, and is attached to the embedding part 111. FIG. Moreover, this shaft pin holder 113 can also be attached to the embedding part 111 from the upper part in the opening part 110 to the other side in the direction which reversed the left-right direction. Moreover, in the opening part 110, the groove part 114 is formed in the up-down direction middle part of the embedding part 111, The shaft-slide bar holder 115 is fitted in this groove part 114, Removably attached by screws. On the upper and lower surfaces of the shaft and slide bar holder 115, holes for shafts are formed in one side thereof and opposed to holes for the shafts of the shaft and pin holders 113, and holes for slide bars are provided on the other side. It is formed through. Moreover, this shaft slide bar holder 115 can also be attached to the groove-shaped part 114 inverting left-right direction. In the upper portion of the embedding portion 111, an insertion passage and a hole 116 of the slide bar are formed through the opposing hole of the slide bar of the shaft slide bar holder 115, and grooves are provided at both sides of the embedding portion 111. Shaft insertion holes and holes 117 and 117 are formed just below the shape portion 114. Moreover, the shaft attachment holes 118 and 118 are formed in the upper part on both sides of the to-be-adhered part 112 in the position corresponding to just below the shaft pin holder 113 slightly. Below the opening 110, that is, in the lower part of the main body case 11, a hole 119 opening in the front side of the adhered portion 112 is formed in a cylindrical shape, and the embedded portion 111 of the hole 119 is formed. A groove 119P communicating with the opening 110 is formed at the end of the side. In addition, the main body case 11 has screw holes 11U and 11D in which the upper end and the lower end on the side of the adhered portion 112 protrude upward and downward and communicate with the attachment holes 323 and 323 above and below the handle attachment hole 322. These are respectively formed on the back side. Thus, the main body case 11 is formed symmetrically so as to be selectively attachable to the left and right portions of the door 32.

The handle 12 is formed to be fitable in the opening 110 of the main body case 11, and one end of the handle 12 is pivotally supported by the main body case 11 by an axis 121 parallel to the front of the door 32. In the plane perpendicular to the front face of the door 32, it is rotatably attached between the predetermined dodging position and the predetermined standing position. The handle 12 is pivotally supported by the shaft 121 at the adhered portion 112 of the main body case 11, and can be engaged with the stopper 15 described later on the pivoting end (lower end) of the handle 12. While the stepped portion 122 is formed, an inclined guide portion 123 is formed on the inside of the stepped portion 122 to press the stopper 15 upward to displace it downward. The actuation lever 13 is pivotally supported coaxially with the handle 12, extends to the rear side of the door 32, and is the rear side and the front side of the door 32 in the opening 110 of the main body case 11. It is rotatably attached to the handle 12 integrally between sides. In this case, the actuating lever 13 is integrally formed on the upper side of the rear surface of the handle 12. The actuation lever 13 is formed in a substantially trapezoidal shape or a substantially triangular shape, and protrudes from the rear surface of the handle 12. And the shaft insertion hole and the hole 124 are formed in the position which the upper end of this handle 12 overlaps with the upper end of the operation lever 13, and is formed. Moreover, the cam member 16 mentioned later in the actuating lever 13 in the position which the downward position of the shaft insertion hole and the hole 124, the position of a protrusion end, and the lower end part of the actuating lever 13, and the handle 12 overlap with each other, respectively. Three attachment holes 135, 135, and 135 are formed to couple them. In this way, the handle 12 with the operating lever 13 is formed symmetrically to be selectively attachable to the left and right portions of the door 32. And the operation lever 13 is arrange | positioned in the upper part of the opening part 110 of the main body case 11, and the handle 12 extends from the upper part to the intermediate part of the to-be-adhered part 112 of the main body case 11, The opening part 110 ), And the shaft 121 is inserted between the shaft attachment hole 118 of the adhered portion 112 and the shaft insertion hole and the hole 124 above the handle 12. A coil spring (not shown) is wound around this shaft 121, one end of which is hooked on the back of the main body case 11, and the other end of which is hooked on the back of the handle 12. By doing in this way, the handle 12 can be rotated between the predetermined | prescribed docking position inserted in the opening part 110 of the main body case 11, and the predetermined standing position of an appropriate angle with respect to the front door from this position. Further, in a normal state, the handle 12 is rotated and attached from the opening 110 of the main body case 11 toward the upright position. In addition, the coil spring of the handle 12 has a function as a stopper in that the handle spring is held in a standing position in a normal state. In addition, the actuating lever 13 integrated with the handle 12 has a projected end of the actuating lever 13 in the opening portion 110 of the main body case 11 and adheres to a predetermined position on the embedding part 111 side. Between the predetermined part of the side 112 side, the circumference | surroundings of the axis | shaft 121 of the handle 12 can be rotated (retractable), and it is arrange | positioned by rotationally pressurized toward the to-be-attached part 112 side in a normal state.

As shown in FIG. 7 and FIG. 8, the locking lever 14 has a substantially L-shaped cross-sectional shape, and the handle 12 is disposed at one side of the main body case 11 disposed on the rear side of the door 32. By the shaft 140 which is perpendicular to the axis 121 of (), approximately intermediate part of the substantially L-shaped cross-sectional shape is pivotally supported. The locking lever 14 is rotatably attached to one of the L-shaped rotational ends toward the operation lever 13 and the other rotational end toward the receiving portion 312 on the casing side, and in a normal state. One rotational end is pressurized by the spring means 144 so as to press the operation lever 13. More specifically, the locking lever 14 includes a pinned portion 141 formed in a vertically long rectangular flat plate shape that can be disposed in the opening 110 of the main body case 11, and a portion of the pinned portion 141. It is formed in the upper and lower portions of the convex pressing portion 142 of the convex shape, which protrudes from the one side portion in about 90 degrees, and the transition portion between the pressed portion 141 and the pressing portion 142 forming the approximately 90 degrees. It consists of a pair of shaft insertion part 143,143 which has the through-hole which can penetrate the shaft 140 in an up-down direction, and the whole becomes substantially L-shaped cross-sectional shape. In this way, the locking lever 14 is formed so as to be selectively attachable to the left and right portions of the door 32 and to be inverted in the left and right directions. Then, the shaft 140 is inserted through the through holes of the upper and lower shaft insertion passages 143 and 143, and the shaft 140 is attached to the embedding portion 111 of the main body case 11. It is attached between the hole for the shaft of 113, and the hole for the shaft of the shaft slide bar holder 115. As shown in FIG. As a result, the locking lever 14 has the pressed portion 141 facing the predetermined position in the opening 110, and the pressing portion 142 returns to the outside of one side surface of the main body case 11 so that the locking lever 14 is turned to the predetermined position. To face the position, the circumference of the shaft 140 is rotatably attached. In addition, by the coil spring 144 wound around the shaft 140 in advance, the locking lever 14 is in a normal state such that the pressed part 141 faces a predetermined position in the opening 110. It is pressurized to rotate.

As shown in FIG. 6, the stopper 15 is provided in the main body case 11 so that the stopper can be stepped on and disengaged from the pivoting end of the handle 12. To be held in the doweling position. The stopper 15 is a substantially rectangular plate shape that can be fitted into the opening 110 at the lower portion of the adhered portion 112 of the main body case 11, and has a lower end that protrudes into the opening 110. Formed. In addition, a pair of arms 151 and 151 protrude from the rear surface, and shaft insertion holes and holes 152 and 152 are drilled in the protruding end thereof. In this way, the stopper 15 is formed symmetrically so as to be selectively attachable to the left and right portions of the door 32. Then, the pair of arms 151 and 151 are inserted into the opening 110 at the lower portion of the adhered portion 112 of the main body case 11, and the shaft insertion holes and holes provided on both sides of the embedding portion 111 ( The shaft 150 passes through the shaft insertion holes and the holes 152 and 152 of the 117 and 117 and the stopper 15. A coil spring (not shown) is wound around the shaft 150, and one end thereof is hooked on the lower surface of the groove-shaped portion 114 in the middle of the body case 11, and the other end is lower than the rear surface of the stopper 15. Walks on In this case, the coil spring on the stopper 15 side has a stronger spring force than the coil spring on the handle 12 side. In this way, the stopper 15 is pivotally supported so as to be pushed slightly into the lower portion of the opening portion 110 of the main body case 11, and the lower portion protrudes by contacting the edge surface of the opening portion 110. This is prevented and is attached to the rotational end of the handle 12 so that it can be stepped and released. The pivoting end of the handle 12, that is, the handle 12, is pushed back from the upright position projecting from the main body case 11 toward the stepping position in the opening 110 of the main body case 11. The lower guide part 123 contacts the upper end part of the stopper 15, and rotates the stopper 15 downward. When the lower end of the handle 12 rides over the upper end of the stopper 15, the stopper 15 elastically returns to its original position, and the upper end thereof is engaged with the step step 122 at the lower end of the handle 12. Lose. The spring force of the coil spring on the stopper 15 side is stronger than the coil spring on the handle 12 side, so that the handle 12 is held at the doped position in the main body case 11. In this state, when the front lower part of the stopper 15 is pressed down, the stopper 15 is rotated downward and the upper end part is released from engagement with the step step part 122 of the lower part of the handle 12, and the handle 12 is removed. Is rotatably protruded from the doped position in the main body case 11 to a predetermined standing position.

The lock unit 54 is attached below this stopper 15, ie, the cylindrical hole 119 provided in the main body case 11 lower part. The lock unit 54 has a rotor 155 rotatable with a predetermined key and a rotor cam 156 rotatably fixed to the rear end of the rotor 155 at right angles to the axial direction of the rotor 155. The rotor cam 156 passes through the groove 119P at the rear end of the hole 119 and is disposed below the opening 110 inside the main body case 11. Then, by rotating the rotor 155 in a predetermined direction with a predetermined key, the rotor cam 156 protrudes to a locking position that restricts the movement (rotation) of the stopper 15, thereby bringing the handle 12 into the dodging position. Lock to. By rotating the rotor 155 in the opposite direction, the rotor cam 156 is inverted to an unlocking position allowing the stopper 15 to move (rotate), thereby releasing the locking of the handle 12 in the doped position.

As shown in FIG. 6, the cam member 16 is pivotally supported in the main body case 11 by the shaft 121 of the handle 12, extends to the rear side of the door 32, and has an opening 110. It is attached so that the handle 12 may be integrally rotated between the back side and the front side of the door 32 within. The cam member 16 is formed in a substantially rectangular shape including the outer shape of the actuating lever 13, and one corner thereof is formed on the upper side of the actuating lever 13 (the upper end of the handle 12 and the actuating lever 13). Protruding upward from the edge portion connecting the protruding ends of the " On both sides of this cam member 16, a common hole is formed at a position corresponding to each attachment hole 135, 135, 135 of the actuating lever 13, and one projecting above the actuating lever 13. The pin insertion hole and the hole 161 are formed in the corner. In this way, the cam member 16 is formed symmetrically so as to be selectively attachable to the left and right portions of the door 32. And this cam member 16 is screwed in the one side surface of the operation lever 13 by the attachment screw to both attachment holes 135, 135, 135 (the attachment hole of the cam member 16 is unsigned). It is fastened and is axially supported with the handle 12 in the opening 110 of the main body case 11. As shown in FIG. 6, the slide bar 17 consists of an elongate board which has a predetermined length, and the intermediate | middle part is formed slightly wider. The upper end of the slide bar 17 is provided with an attachment hole 171 for connecting to the locking bar 25 of the multi-point fastening method locking device 2, and in the middle part in the width direction of the slide bar 17. An elongate long hole 172 is formed. In this way, the slide bar 17 is formed symmetrically so as to be selectively attachable to the left and right portions of the door 32. And this slide bar 17 is used for the slide bar of the slide bar insertion hole and the hole 116 provided in the upper part of the embedding part 111, and the shaft / slide bar holder 115 provided in the intermediate part of the embedding part 111. As shown in FIG. A pin 173 protruding from the side of the shaft pin holder 113 is inserted into the hole through which the hole is inserted, and the long hole 172 in the middle portion and the pin insertion hole and hole 161 in the upper portion of the cam member 16 are inserted. . Thereby, the slide bar 17 is axially supported by the cam member 16, converts the rotation of the cam member 16 into linear motion, and attaches so that it can be moved linearly toward the up-down direction of the main body case 11 do.

Thus, the locking handle 1 for doors is attached to the side part 321 of the rotation side of the door 32 via the main body case 11, as shown in FIG. The handle 12 is pivotally supported by an axis 121 parallel to the front of the door 32, and can rotate between the doped position and the upright position in a plane perpendicular to the plane, and at the rotational end thereof. The stopper 15 is held in the doped position. The actuating lever 13 extends to the back side of the handle 12 and pivotally supports integrally with the handle 12 between the back side and the front side of the door 32 (see FIG. 6). The locking lever 14 is pivotally supported by the shaft 140 perpendicular to the shaft 121 on the rear side of the door 32, and one rotational end faces the operating lever 13, and the other The rotating end is configured to be rotatable toward the receiving portion 312 on the casing side. Then, by rotating the handle 12 to the dodging position, the actuation lever 13 rotates from the front side to the back side of the door 32, presses one rotational end of the locking lever 14 to rotate the whole, and the other The rotational end can be pressed against the receiving portion 312 on the casing side.

In this way, the door locking handle 1 is attached to the door 32, and the locking lever 14 rotates by rotating the handle 12 in the state which closed the door 32 with respect to the casing 31. As shown in FIG. Thus, the door 32 can be opened and closed by exiting from the receiving portion 312 formed at the opening edge portion of the front face of the casing 31. In this case, in the state in which the door 32 is opened, as shown to FIG. 10 (a), the handle 12 is disengaged from the stopper 15, and the rotational pressurization of the locking lever 14 by the coil spring 144 is carried out. By this, the pressed part 141 is rotated and displaced toward the inside of the main body case 11, and the operation lever 13 is rotated and displaced toward the front side from the back side of the door 32. As shown in FIG. At the same time, the handle 12 integral with the actuating lever 13 is displaced (pushed) from the inclined position in the main body case 11 to the upright position, and the coil on the shaft 121 of the handle 12 It fully stands up to the standing position by the pressing force of the spring. That is, the handle 12 is in the state protruding from the front of the door 32. From this state, the door 32 is closed, and the handle 12 is rotated toward the main body case 11 in the doped position, so that the operating lever (integrated with the handle 12) can be integrated as shown in FIG. 13 is rotated from the front side of the door 32 toward the back side. The pressing part 141 of the locking lever 14 is pushed by this operation lever 13, and the pressing part 142 is rotated toward the receiving part 312 on the casing side. And by pushing the handle 12 to the dodging position in the opening part 110 of the main body case 11, the actuating lever 13 pushes the locking lever 14 (pressed part 141), 142 is strongly pressed against the receiving portion 312 on the casing side from the back side toward the front side. By this pressure contact, the door 32 is strongly pulled toward the casing 31 side, the packing 313 of the opening edge of the casing 31 is fully compressed, and the opening 310 is completely sealed. In the meantime, the rotating end of the handle 12, that is, the guide portion 123 at the lower end of the handle 12 touches the upper end of the stopper 15 and rotates it downward, so that the lower end of the handle 12 is stopped at the stopper ( The stopper 15 elastically returns to its original position over the upper end of 15), and the step step 122 at the lower end of the handle 12 and the upper end of the stopper 15 are engaged. Since the spring force of the coil spring on the stopper 15 side is stronger than that of the coil spring on the handle 12 side, the handle 12 is fixed to the doped position in the case body 11. As a result, the door 32 is closed to the front of the casing 31, and the complete sealing state of the opening 310 of the casing 31 is maintained. In this case, the movement of the stopper 15 is regulated by inserting a predetermined key into the lock unit 54 below the stopper 15, rotating the rotor 155 to place the rotor cam 156 in the locked position. The rotation of the standing direction of the handle 12 is locked, and the door 32 is locked. From this state, the stopper 15 is allowed to move by inserting a predetermined key into the lock unit 54 and rotating the rotor 155 in the opposite direction to bring the rotor cam 156 to the unlocked position. And when the front lower part of the stopper 15 is pushed down, it will displace rotation downward, and the engagement of the step step part 122 of the lower end of the handle 12 and the upper end of the stopper 15 will be cancelled, and the handle 12 will lock. Is released. And by the pressurizing rotation of the locking lever 14 by the coil spring 144, the to-be-pressed part 141 is rotated toward the inside of the main body case 11, and the operation lever 13 is returned to the back side of the door 32. As shown in FIG. It rotates by pressing toward the front side from the side. The handle 12 integral with the actuating lever 13 is rotated (pressed) from the inclined position to the standing position, and fully stands up to the standing position by the pressing force of the coil spring on the shaft 121 of the handle 12. do. That is, the handle 12 protrudes from the front of the door 32, and the closed state of the door 32 is released.

And the multi-point fastening system locking device 2 which employ | adopted this door locking handle 1 is each terminal locking member arrange | positioned above and below the side part of the rotating side of the back surface of the door 32, as shown in FIG. The locking bar 25 connected to the 21 cooperates with the operation of the handle 12 attached to the front of the door 32, and is guided to the locking bar guide 26 to move the locking bar 25 on the rear side of the door 32. By moving forward and backward along the side part, the terminal locking bar 24 of each terminal locking member 21 engages and disengages the receiving part 312 of the casing side. In this case, in the state in which the door 32 is opened, the handle 12 is disengaged from the stopper 15, and the pressed portion 141 is driven by the rotational pressure of the locking lever 14 by the coil spring 144. It rotates and displaces toward the inside of the case 11, and pushes the actuating lever 13, and rotates it toward the front side from the back side of the door 32. As shown in FIG. The cam member 16 integrated with the operation lever 13 is pivotally displaced from the rear side of the door 32 toward the front side, so that the slide bar 17 is along the side of the rotation side of the rear side of the door 32. Displaced downward. The locking bar 25 connected to the slide bar 17 interlocks and is displaced downward along the side surface of the rear surface of the door 32 by the guide of the locking bar guide 26, so as shown in FIG. As described above, each terminal slider 23 slides downward in the slide spaces of the upper and lower terminal cases 22 and 22. At this time, the terminal locking lever 24 is not raised on the guide surface 232 of the terminal slider 23. Accordingly, the terminal locking lever 24 is pivotally displaced to the predetermined position in the opening 226 of the case main body 225 by the rotational pressurization of the coil spring 244, and thus the pressing portion ( 242 is in the state which came out of the receiving part 312 of the casing side.

From this state, by rotating the handle 12 toward the main body case 11 in the doped position, the operation lever 13 integrated with the handle 12 is rotated from the front side of the door 32 toward the back side, The cam member 16 integrated with the operation lever 13 is also rotated from the front side of the door 32 toward the rear side. Then, by the rotation of the cam member 16, the slide bar 17 is displaced upward, the locking bar 25 connected to the slide bar 17 is interlocked, and guided to the locking bar guide 26. Sent upwards. By moving upward of this locking bar 25, each terminal slider 23 slides upwards in the slide space of each upper and lower terminal case 22, and as shown to FIG. 3 (b). The pressing portion 241 of each terminal locking lever 24 is guided by being guided by the guide surface 232, and the pressing portion 242 is rotated toward the receiving portion 312 on the casing side by pressing. Then, by pushing the handle 12 to the dodging position in the opening 110, each terminal locking lever of the terminal case 22 is provided via the cam member 16, the slide bar 17, and the locking bar 25. 24 (the pressed part 241) is pushed in, and the pressing part 242 is strongly pressed against the receiving part 312 on the casing side from the back side toward the front side. By this pressure contact, the door 32 is strongly attracted to the casing 31 side, the packing 313 of the opening edge of the casing 31 is fully compressed, and the opening 310 is completely sealed. In the meantime, the rotating end of the handle 12, that is, the guide portion 123 at the lower end of the handle 12 touches the upper end of the stopper 15 and rotates it downward, so that the lower end of the handle 12 is a stopper ( The stopper 15 elastically returns to its original position over the upper end of 15), and the step step 122 at the lower end of the handle 12 is engaged with the upper end of the stopper 15. Since the spring force of the coil spring on the stopper 15 side is stronger than that of the coil spring on the handle 12 side, the handle 12 is fixed to the doped position in the main body case 11. As a result, the door 32 is closed to the front of the casing 31, and the complete sealing state of the opening 310 of the casing 31 is maintained. Moreover, from this state, when the front lower part of the stopper 15 is pushed down, it rotates downward and the engagement of the step step part 122 of the lower end of the handle 12 and the upper end part of the stopper 15 will be cancelled | released. By the rotational pressurization of the locking lever 14 by the coil spring 144, the pressed part 141 is rotated toward the inside of the main body case 11, and the cam member 16 is moved from the back side of the door 32. As shown in FIG. Rotate toward the front side. By the rotation of the cam member 16, the slide bar 17 slides downward, the locking bar 25 connected to the slide bar 17 is interlocked, guided by the locking bar guide 26, and downwards. Is moved. By moving downward of this locking bar 25, each terminal slider 23 slides downward in the slide space of each upper and lower terminal case 22, and the guide surface 232 and the terminal locking lever 24 are moved. Will no longer be engaged. Accordingly, the terminal locking lever 24 is pivotally displaced to the predetermined position in the opening 226 of the terminal case 22 by the rotational pressurization of the coil spring 244, and the pressing portion 242. ) Is separated from the receiving part 312 on the casing side. In other words, the closed state of the door 32 is released.

As described above, the multi-point fastening method locking device 2 includes a terminal locking member 21 disposed at a plurality of locations on the side of the rotation side from the back of the door 32, and the front of the door 32. Each terminal locking member 21 is moved forward and backward along the side of the rear surface of the door 32 by locking the locking bar 25 connected to each terminal locking member 21 in association with the operation of the handle of the door locking handle for the door. ) Is a form of engaging and detaching the terminal locking bar 24 of the casing side to the receiving portion 312 on the casing side.

In particular, the door locking handle 1 is formed to be fixed to the handle attachment hole 322 which is formed notchally in the side part of the rotation side of the front of the door 32, and is formed so that fixation is possible, The front side and the back side of the door 32 are fixed. The main body case 11 which has the opening part 110 which communicates with is provided.

The handle 12 is formed to be fit to the main body case 11, one end of which is pivotally supported by the main body case 11 by an axis 121 parallel to the front of the door 32, and the door 32. It is possible to rotate between the predetermined doping position and the predetermined standing position in the plane perpendicular to the front face of the. The actuation lever 13 is pivotally supported coaxially with the handle 12 and extends to the back side of the door 32 and between the back side and the front side of the door 32 in the opening 110. It is possible to rotate integrally with. The locking lever 14 has a substantially L-shaped cross-sectional shape and is perpendicular to the shaft 121 of the handle 12 at one side of the main body case 11 disposed on the rear side of the door 32. An approximately intermediate portion of the cross-sectional shape is pivotally supported by the 140. The locking lever 14 is rotatably attached to one of the L-shaped rotational ends toward the operation lever 13 and the other rotational end toward the receiving portion 312 on the casing side. Is rotated by the spring means 144 to press the actuation lever 13. The stopper 15 is installed on the main body case 11 so that the stopper 15 can be stepped on and disengaged from the pivoting end of the handle 12 to hold the handle 12 in a doped position, and the spring means (coil spring) is handled 12. ) As a stopper for rotating and holding the rod to a standing position. The cam member 16 is pivotally supported by the main body case 11 by the shaft 121 of the handle 12, extends to the back side of the door 32, and is the back of the door 32 in the opening 110. It is possible to rotate integrally with the handle 12 between the side and the front side. The slide bar 17 is axially supported by the cam member 16, converts the rotation of the cam member 16 into linear motion, and can be linearly moved along the side of the rotation side of the rear surface of the door 32.

Each terminal locking member 21 is provided with the terminal case 22 and the terminal case 22 which are fixed to both sides in the direction (up-down direction) in which the said side part extends to the side of the rotation side of the back surface of the door 32, and the terminal case 22 Is rotatably mounted on the terminal slider 23 and the terminal case 22, and one rotational end is engaged with the terminal slider 23 by the forward and backward movement of the terminal slider 23. It is provided with the terminal locking lever 24 which guides and can make the other rotational end step and release | release the receiving part 312 of the casing side. A locking bar 25 operatively connected to the terminal locking members 21 and 21 is connected to the slide bar 17 of the locking handle 1 for the door, and by operating the handle 12 to the dodging position, the operating lever ( 13 rotates from the front side to the back side of the door 32, presses one rotational end (the pinned portion 141) of the locking lever 14, rotates the entire locking lever 14, and rotates the other. The stage (pressing portion 142) is pressed against the receiving portion 312 on the casing side from the back side toward the front side. By this pressure contact, the door 32 is pulled closer to the casing side, and the packing 313 of the opening edge of the casing 31 is fully compressed. In conjunction with this, the slide bar 17 slides along the side of the rear surface of the door 32 via the cam member 16 which rotates integrally with the handle 12, and the locking bar 17 allows the locking bar 17 to slide. 25 is driven. Each terminal slider 23 slides by the locking bar 25, presses the pressed part 241 of the terminal locking lever 24, and presses the press part 242 with respect to the receiving part 312 of the casing side. It presses against the front side from the back side of a door. The pressure contact pulls the door 32 close to the casing 31 side, thereby completely compressing the packing 313 at the opening edge of the casing 31, thereby locking the locking lever 14 and each terminal locking lever 24. The opening 310 of the casing 31 can be completely sealed by pressing against the receiving portion 312 on the casing side. In this case, the handle 12 is rotated to be engaged with the stopper 15, and the handle 12 is held at the doped position in the main body case 11, so that the receiving portion 312 on the casing side can be held. The pressing state of the locking lever 14 and each terminal locking lever 24 can be fixed and supported. On the contrary, only by releasing the engagement with the handle 12 by operating the stopper 15, the handle 12 is pivotally protruded from the body case 11 to the standing position, and the receiving portion 312 on the casing side is provided. It is possible to release the pressing state of the locking lever 14 and the terminal locking lever 24 for each. In this way, the step and release operation of the locking lever 14 and the terminal locking lever 24 with respect to the receiving portion 312 on the casing side accompanying the opening and closing of the door 32 can be easily performed.

In addition, the door locking handle 1 is provided with the lock unit 54 in the main body case 11, restricts the movement of the stopper 15, and locks the rotation of the handle 12 in the dodging position. Since the locking lever 14 and each terminal locking lever 24 are firmly pressed against the receiving portion 312 on the casing side, the door 32 and the casing 31 are completely sealed. I can keep it.

In addition, the engagement type of the locking lever 14 with respect to the receiving part 312 on the casing side of the door locking handle 1 is outside the casing 31 at the side of the door 32. It is suitable for an outside handle attached to the casing 31 and can realize a highly sealed state in the casing 31.

Moreover, the terminal case 22, the terminal slider 23, the terminal locking lever 24, the locking bar 25, and the locking bar guide 26 of each terminal locking member 21 are each of the door 32. It can be selectively attached to any of the left and right sides, and can be used to be symmetrical or inverted from side to side. The main body case 11, the handle 12, the operation lever 13, the locking lever 14, the stopper 15, the cam member 16 and the slide bar 17 of the locking handle 1 for the door, respectively, It is formed so as to be selectively attachable to the left and right sides of the door 32, and to be symmetrical or inverted from side to side. Therefore, this multi-point tightening mechanism can be attached to both the left and right sides of the door 32, so that the parts can be easily managed and the cost can be reduced. In addition, it goes without saying that the multi-point tightening mechanism can be similarly applied even in the form of opening and closing the door in the vertical direction.

Moreover, in this embodiment, the terminal locking member 21 is arrange | positioned in the several position of the side part of the rotation side from the back of the door 32, and it cooperates with the operation of the handle 12 attached to the front of the door 32, Each terminal locking member 21 is engaged with the receiving portion 312 on the casing side by moving the locking bar 25 connected to the terminal locking member 21 along the side of the rotation side of the rear surface of the door 32. Although the structure which deviates was illustrated, it is not limited to this. Instead, the terminal locking member 21 is arranged on three sides of the rear surface of the door, that is, the side of the rotation side and the upper and lower ends adjacent to the side, and the handle 12 attached to the front of the door 32. In conjunction with the operation of the terminal), the locking bar 25 connected to the terminal locking member 21 is moved forward and backward along the side of the rotational side of the rear surface of the door 32 and the upper and lower ends adjacent to the side. The locking member 21 may be engaged with or detached from the receiving portion 312 on the casing side.

Moreover, in this embodiment, although the case 11 and the handle 12 of the door locking handle 1 were formed in the elongate rectangular shape upper and lower, respectively, it cannot be overemphasized that this shape can be arbitrarily changed by design. Moreover, although the actuating lever 13 was formed integrally with the handle 12, you may set it as a separate body, set a predetermined angle with respect to the handle 12, and attach it to the shaft 121. As shown in FIG. Moreover, although the locking lever 14 was made into the shape mentioned above, it is pivotally supported by the shaft 140 which is orthogonal to the shaft 121 of the handle 12, and one rotational end faces the operation lever 13, The other rotating end should just be a structure which rotates and engages returning toward the receiving part 312 of the casing side, and the shape is arbitrary. In addition, although the stopper 15 of the handle 12 was formed in the same manner as described above, the type of the stopper 15 is not limited to this type. Of course you can change it. Moreover, although the lock unit 54 which locks the stopper 15 was provided in the main body case 11, and the handle 12 was locked in the dodging position, the lock which is installed in the handle 12 itself and locked in the dodged position is provided. It may be replaced by a unit. Moreover, although this door locking handle 1 was illustrated as an outside handle, it can apply also to the form attached to the inside with respect to the inside of the casing 31 similarly.

Moreover, in this embodiment, although the locking handle 1 for doors of a special form was employ | adopted as the multi-point tightening locking apparatus 2, the handle apparatus employ | adopted for the existing multi-point tightening locking apparatus can also be applied.

1 locking handle for door
11 body case
110 opening
111 purchases
112 adherend
113 shaft pin holder
114 Groove Shape
115 Shaft and Slide Bar Holder
116 Slider through hole
117 Shaft Insert Through Hole
118 shaft mounting hole
119 holes
119P home
11U, 11D screw hole
12 handles
121 axes
122 steps
123 Guide Section
124 shaft insertion part
13 Operation lever
135 mounting hole
14 rocking lever
140 axes
141 Blood Press
142 Press
143 shaft insertion part
144 coil springs (spring means)
15 stopper
150 axes
151 cancer
152 through hole
154 lock unit
155 rotors
156 rotor cam
16 cam member
161 pin insertion hole
17 slide bar
171 mounting holes
172 long hole
173 pin
2 multi-point tightening locking device
21 terminal locking member
22 terminal case
221 base
225 case body
226 opening
227 home
228 guide hole
229 threaded insertion hole
23 terminal slider
231 pin through hole
232 guide face
24 terminal locking lever
240 axes
241 Blood Press
242 press
243 Shaft insertion part
244 Coil Springs (Spring Means)
25 rocking bar
251 pin (connection)
252 connection plate
253 pins
254 protective pad
26 Locking Bar Guide
260 mounting hole
261 fixing part
262 Guide Section
3 rack
31 casing
310 opening
311 side
312 Edge (Casting Side)
313 packing
32 door
321 Rotating side
322 handlebar attachment
323 mounting holes
33 drain

Claims (8)

It is attached to the side part of the rotation side of the door which closes a casing, and the handle apparatus which arrange | positioned the handle in the front side of the door, and a plurality of places along the side part of a rotation side, or this side and this side are adjacent to the back side of the door. A multi-point tightening type locking device comprising a plurality of locking members disposed at a plurality of locations along an end portion, and a locking bar for operatively connecting the plurality of locking members and the handle device, wherein the locking bar is linked to the operation of the handle. In the multi-point fastening method locking device of the form which operates said several locking member by advancing and driving along the said side part of said back surface, or the said side part and the said end part,
Each said locking member,
On the back of the door, a case which is fixed to the side of the rotation side, or to the side and the upper and lower ends of the door toward both ends in the longitudinal direction in the direction in which these parts extend,
A slider disposed in the case so as to be slidable between one end and the other end of the case,
A locking lever pivotally supported by an axis parallel to the one side portion of the case, with one pivotal end facing the inner side of the case and the other pivotal end facing the receiving part on the casing side. And
The locking bar is connected to the slider,
By operating the handle, the slider is slid through the locking bar, the locking lever is guided by engagement of the slider with one rotational end of the locking lever, and the other rotational end is supported by the casing side. A multi-point tightening type locking device, which is pressed against a part. The method of claim 1,
The slider has a guide surface of inclined surface shape at the tip,
The case has a guide hole formed in the slide direction of the slider, on the side of the side opposite to the one side on which the locking lever is pivotally supported,
And the locking bar is connected to the slider through the guide hole. The method of claim 1,
And a spring means for rotating and pressing the locking lever toward the inside of the case in a normal state. The method of claim 1,
And a locking bar guide which is installed and fixed to the side of the rotation side on the rear surface of the door, has a U-shaped groove that can surround the locking bar, and guides the retraction direction of the locking bar. Multi-point tightening locking device. The method of claim 1,
The case, the slider, the locking lever, and the locking bar of the locking member are each configured to be selectively attachable to the left and right sides of the door, and to be symmetrically or inverted from left to right. Device. The method of claim 1,
The handle of the handle device is pivotally supported on the front side of the door by an axis parallel to the front of the door, and is rotated between a predetermined dormant position and a predetermined standing position in a plane perpendicular to the front of the door. Is possible,
The handle device is also,
A cam member pivotally supported by the shaft of the handle, extending to the rear side of the door, and rotatable integrally with the handle between the rear side and the front side of the door;
And a slide bar axially supported by the cam member, converting the rotation of the cam member into linear movement, and linearly moving back and forth along the rear side of the door,
And the locking bar is connected to the slide bar. The method according to claim 6,
The handle device is also,
A stopper for holding the handle in the dodging position;
An actuating lever pivotally supported by the shaft of the handle on the front side of the door, extending toward the back side of the door, and pivotable integrally with the handle between the back side and the front side of the door;
The handle side locking lever pivotally supported by an axis perpendicular to the axis of the handle on the rear side of the door, the one rotating end of which faces toward the operating lever, and the other rotating end of the door faces toward the receiving part of the casing side. And
By rotating the handle to the doped position, the operation lever is rotated from the front side to the rear side of the door, and one rotational end of the handle-side locking lever is pressed to rotate the entire handle-side locking lever to rotate the other rotational end. To a receiving portion on the casing side. The method of claim 7, wherein
The handle device is also,
It is provided with a main body case having an opening which is inserted into the handle attachment hole formed notchally formed in the front side part of a door, and has an opening which communicates with the front side and the back side of a door,
The handle is formed to be fit to the main body case, one end pivotally supported by the main body case by the shaft,
The actuating lever is rotatable integrally with the handle between the rear side and the front side of the door in the opening,
The handle-side locking lever has a substantially L-shaped cross-sectional shape, and at one side of the main body case disposed on the rear side of the door, an approximately intermediate portion of the cross-sectional shape is pivoted by an axis perpendicular to the axis of the handle. It is formulaally supported, and one rotational end faces the said operation lever, the other rotational end faces the receiving part of a casing side, and it is rotatably attached, so that this one rotational end can press the said operation lever in a normal state. Pressurized by spring means,
The stopper is installed in the main body case to be stepped on and off the pivoting end of the handle,
The cam member is pivotally supported by the main body case by an axis of the handle, and is rotatable integrally with the handle in the opening.

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