JP4713648B2 - Multi-point locking system - Google Patents

Description

  The present invention relates to a multi-point tightening lock device, and more particularly, to a multi-point tightening lock device used for a rack or the like for storing electrical equipment, electronic equipment and other various equipment.

  Usually, a rack of an electric device, an electronic device or the like has a hinge member attached to either the left or right side of the door or the casing, and the door is rotatably attached to the casing by these hinge members. A handle is mounted on the front side of the side portion, and a lock lever is rotatably disposed on the back side in conjunction with the handle. In this way, the door is connected to the opening surface of the housing via the hinge member so as to be openable and closable, and when the door is closed, the handle is turned to engage the lock lever with the receiving portion on the housing side, The packing interposed between the door and the casing is tightened and compressed. In addition, some lock handles of this type employ a multi-point tightening method in order to sufficiently compress the packing by sufficiently engaging the door-side lock lever and the housing-side receiving portion. . In this system, a lock lever and other locking members are provided in a manner that can be engaged with and disengaged from a receiving part on the housing side through a lock bar or the like over one or three sides on the rotation side of the back of the door handle. These lock members are operatively connected to the handle, and the lock lever and all the lock members can be engaged with and disengaged from the receiving portion on the housing side by rotating the handle. The packing interposed between the casing and the casing is compressed and deformed almost uniformly over the entire length of one or three sides on the rotating side of the back of the door. The door can be tightened with high sealing performance. Such a door lock handle and a multi-point tightening lock device are described in Patent Document 1, for example.

JP-A-6-336864

  However, in the conventional multi-point tightening type locking device, since the plurality of locking members are moved substantially parallel to the rear surface of the door by the turning operation of the handle, each locking member is positively moved with respect to the receiving portion on the housing side. There is a problem that it is difficult to completely seal the casing by pressing, and it is impossible to cope with a case where a high degree of sealing performance is required for the door and the casing.

  The present invention solves such a conventional problem, and in this type of multi-point tightening type locking device, a plurality of lock levers are positively pressed against the receiving portion on the housing side, thereby Is intended to be completely sealed.

In order to achieve the above object, the multi-point tightening type locking device of the present invention has a locking member at a plurality of locations on the side of the rotating side or the side and the end adjacent to the side on the back of the door. By moving the lock bar connected to each lock member in conjunction with the operation of the handle that is arranged and attached to the front of the door, along the side or the side and end of the back of the door, In the multi-point tightening type locking device of a type that engages and disengages each locking member with respect to the receiving portion on the housing side, each locking member is attached to the side portion on the back of the door or the side portion and the end portion. A case that is installed and fixed with both ends facing in the extending direction of each part, a slider that is slidable between one end and the other end of the case in the case, and one side of the case on the one side Pivoted through an axis parallel to the A lock lever that is pivotably attached so that one side portion is directed into the case and the other side portion is directed toward a receiving portion on the housing side, and the lock bar is coupled to the slider, The slider is slid through the lock bar by operating the handle, and the lock lever is guided to rotate by engagement of the slider and one side of the lock lever, and the other side is moved to the housing side. The gist is to press contact with the receiving part.
The locking device preferably further comprises the following configuration.
(1) A spring means for biasing the lock lever toward the inside of the case in a normal state is provided.
(2) The slider has an inclined surface guide at the tip, a guide hole is formed in the other side of the case in the sliding direction of the slider, and the slider and the lock bar are connected through the guide hole. .
(3) A lock bar guide that is installed and fixed on the back side of the door, has a groove with an inverted U-shaped cross section so as to be able to surround the periphery of the lock bar, and guides the advancing and retreating direction of the lock bar.
(4) The case, slider, lock lever, and lock bar of the lock member are formed so that they can be selectively attached to any of the left and right side portions of the door so that they can be used symmetrically or reversed in the left-right direction.
(5) A main body case that is formed so as to be able to be fitted and fixed to a handle mounting opening formed by cutting out a front side portion of the door, and that has an opening communicating the front side and the rear side of the door, and the main body case. And one end is pivotally supported on the main body case via an axis parallel to the front surface of the door, and a predetermined lying position in a plane perpendicular to the front surface of the door on the main body case. A handle that is rotatable between a predetermined raising position, a pivot that is coaxially supported with the handle, extends to the back side of the door through the opening of the main body case, and is between the back side and the front side of the door. An operating lever that can rotate integrally with the handle, and a substantially L-shaped cross-sectional shape, and a substantially intermediate portion of the cross-sectional shape in the vicinity of an edge that is the back side of the door on one side of the main body case Pivoted through an axis perpendicular to the handle axis Thus, around the shaft, one side part is rotatably attached to the operating lever and the other side part is rotatably attached to the receiving part on the housing side, and one side part is normally attached via a spring means. A lock lever that is pivotally biased so as to be able to press the operating lever, a stopper that is detachably provided on the pivot end of the handle on the main body case, and that holds the handle in a predetermined lying position; A cam pivotally supported on the main body case via the shaft of the handle, extending to the back side of the door through the opening of the main body case, and rotatable integrally with the handle between the back side and the front side of the door And a slide bar that is pivotally supported by the cam member so that the rotation of the cam member can be converted into a linear motion, and is capable of linearly moving back and forth along the back side of the door,
The lock bar of each lock member is connected to the slide bar.

  In the multi-point tightening type locking device according to the present invention, the lock handle is driven along the side of the back surface of the door in conjunction with the rotation of the door handle by the above-described configuration. By driving the bar, each slider is slid in each case at each location on the back of the door, and the entire lock lever is guided to rotate by engaging the slider with one side of the lock lever. Since the side part is pressed against the receiving part on the casing side, the casing can be completely sealed by positively pressing the lock levers at various positions on the back of the door against the receiving part on the casing side.

(A) Partially omitted rear view showing a multi-point tightening type locking device according to an embodiment of the present invention (b) Plan view of a door lock handle employed in the locking device (c) Plane of the locking device Figure (A) Plan sectional view of the locking device (b) Partially omitted rear sectional view of the locking device (A) Side sectional view of the locking device, particularly a terminal locking member (when not operating) (b) Side sectional view of the locking device, particularly a terminal locking member (when operating) Partial cross-sectional rear view of the locking device (A) Plan sectional drawing which shows the handle attachment port of the door to which the lock handle for doors employ | adopted to the same locking device is mounted | worn, and the receiving part by the side of a housing | casing (b) The rear view of the handle attachment port Side sectional view of the door lock handle used in the same locking device Top view of the lock handle for the door Rear view of the lock handle for the door Side view of the lock handle for the door (A) Plan view of a state in which the handle of the lock handle for the door is raised at a predetermined position (b) Plan view of a state in which the handle of the lock handle for the door is laid down at a predetermined position

  Next, an embodiment of the present invention will be described with reference to the drawings. In this embodiment, a rack for storing electrical equipment, electronic equipment, and the like is illustrated, and the multi-point tightening locking device of the present invention will be specifically described.

  As shown in FIG. 1, the housing 31 of the rack 3 has an opening 310 on the front surface, and a step is provided between the opening 310 and a side portion 311 of the opening 310 to form the side portion 311 in a groove shape. A packing 313 is attached to the front surface of the edge 312 of the opening 310. The door 32 covers the entire front surface of the housing 31, and a draining portion 33 is provided between the side portion 321 of the door 32 and the groove-shaped side portion 311 of the housing 31. In the multi-point tightening type locking device 2, the lock members 21 are arranged at a plurality of positions on the side of the rotation side on the back surface of the door 32, and lock bars 25 connected to these lock members 21 extend along the side portions. For the door in which the lock bar 25 is attached to the side portion of the door 32 in a form in which the plurality of lock members 21 are engaged and disengaged by the forward and backward movement of the lock bar 25 using the edge 312 of the opening of the housing 31 as a receiving portion. It is operatively connected to the lock handle 1 and interlocks with the operation of the handle 12.

  In the case of this locking device 2, a three-point tightening method is adopted in conjunction with the tightening by the door lock handle 1, two terminal lock members 21, 21, and one terminal driving these terminal lock members 21, 21. And a lock bar 25.

  The two terminal lock members 21 and 21 are common, and each includes a terminal case 22, a terminal slider 23 (see FIG. 2), and a terminal lock lever 24.

  As shown in FIG. 2, the terminal case 22 includes a base 221 and a case body 225. The base 221 is formed in a flat plate shape elongated in the vertical direction so that it can be screwed to the side portion of the back surface of the door 32, and screw insertion holes are formed at both upper and lower ends thereof. In addition, a holding portion having an arcuate cross section is formed on one side of the base 221 so as to hold a shaft insertion portion 243 of the terminal lock lever 24 described later, and the shaft insertion portion 243 is inserted into both upper and lower ends of the holding portion. A holding portion having a circular arc cross section is formed so as to hold the shaft 240. The case main body 225 is formed in a vertically elongated box shape so as to be attachable on the base 221, and a slide space is formed between the base 221 and the case main body 225 so that the terminal slider 23 can slide in the vertical direction. The face of the case body 225 facing the base 221 is fully opened, and the opening 226 is cut into a substantially rectangular shape so that the terminal lock lever 24 can be continuously fitted from the middle to one side of the opposite face. It is lacking. In addition, grooves 227 and 227 are formed on both sides of the opening 226 on one side of the case body 225 so as to hold the shaft 240 together with the holding portions on the upper and lower ends of the base 221, and the side opposite to this side A guide hole 228 for moving and guiding the terminal slider 23 in the vertical direction is formed in the part. Furthermore, screw insertion holes 229 and 229 communicating with the screw insertion holes at the upper and lower ends of the base 221 are formed at the centers of the upper and lower ends of the case body 225. In this way, the terminal case 22 is formed so as to be usable by reversing the left-right direction so that it can be selectively attached to any of the left and right sides of the door 32.

  The terminal slider 23 has a length shorter than half of the entire length of the terminal case 22 in the vertical direction, and is formed so as to be able to fit in the slide space of the terminal case 22. In this case, the outer peripheral surface of the terminal slider 23 is formed in a flat shape so as to be able to contact each surface in the slide space, and in particular, the contact surface with respect to the base 221 is formed in a concave shape at the center. Further, as shown in FIG. 3, the upper surface of the terminal slider 23 is formed in an inclined surface shape in which the base 221 side is the upper side and the opposite side to the base 221 is the lower side, and guides the rotation direction of the terminal lock lever 24. The surface 232 is formed, and the lower surface is formed in a planar shape so as to be in surface contact with the lower surface of the case body 225. Further, cylindrical pin insertion holes 231 and 231 are formed on both side surfaces of the terminal slider 23, more specifically, at positions slightly above the vertical center. In this way, the terminal slider 23 is formed symmetrically so that it can be selectively attached to either of the left and right sides of the door 32. The terminal slider 23 is slidably arranged in the case body 225 in the orientation as described above from the lower surface of the case body 225 upward or vice versa.

  The terminal lock lever 24 has a substantially L-shaped cross section as shown in FIGS. 1C, 2A, and 2B, and is provided on one side of the terminal case 22 (of the terminal lock lever 24). The substantially intermediate portion of the cross-sectional shape is pivotally supported via a shaft 240 parallel to the arrangement direction of the terminal lock member 21, and around the shaft 240, one side portion faces the terminal slider 23 and the other side portion is It is rotatably attached to the receiving part 312 on the housing side, and one side part is normally urged to rotate so as to be able to press the terminal slider 23 via the spring means (244). In this case, as shown in FIG. 2, the terminal lock lever 24 includes a pressed portion 241 formed in a trapezoidal flat plate shape that can be disposed in the opening 226 of the case body 225 of the terminal case 22, and the pressed portion. A convex pressing portion 242 that is formed on one side portion of 241, wraps around in the direction of approximately 90 degrees from the opening portion 226 of the case body 225 from the one side portion, and protrudes to the outside of one side portion of the terminal case 22; It consists of a pair of shaft insertion portions 243 and 243 formed between the pressed portion 241 and the pressing portion 242 at an interval of about 90 degrees and inserted through the shaft 240 in the vertical direction. It has a letter-shaped cross section. In this way, the terminal lock lever 24 is formed to be usable by reversing the left-right direction so that it can be selectively attached to either the left or right side portion of the door 32. The terminal lock lever 24 is inserted into the shaft insertion portions 243 and 243 with the shaft 240 inserted into the opening 226 of the case body 225 of the terminal case 22, and the shaft 240 is arranged on each side of the body case 225. The side portion of the terminal lock lever 24 on the pressed portion 241 side is passed through the grooves 227 and 227 so that the side portion on the pressed portion 241 side of the terminal lock lever 24 faces a predetermined position in the opening 226 of the case body 225, so The side portion of the case wraps around the outside of one side portion of the case main body 225 and is pivotally attached to a predetermined position. The coil spring 244 of the spring means wound around the shaft 240 in a normal state. , The side portion on the pressed portion 241 side is urged to rotate toward a predetermined position in the opening 226 of the case body 225.

  In this way, the case body 225 is placed on the base 221, and the terminal slider 23 is slidably disposed in the case body 225 from the lower surface of the case body 225 upward or vice versa. 24, the shaft insertion portions 243 and 243 and the shaft 240 are held by the grooves 227 and 227 of the case body 225 and the holding portions of the base 221, and the side portion on the pressed portion 241 side is inside the case body 225. The side portion on the pressing portion 242 side is rotatably attached to the outside of the case main body 225, and the side portion of the pressed portion 241 is guided on the upper surface of the terminal slider by the vertical movement of the terminal slider 23. By being engaged and guided by the surface 232, the side portion of the pressing portion 242 is rotated toward the outside of the case body 225 or the inside of the case body 225.

  As shown in FIG. 4, the lock bar 25 is an elongated bar having a length that can be disposed along the side of the back surface of the door 32 and that can be operatively connected to each terminal lock member 21. A connecting portion to the slide bar 17 of the door lock handle 1 is provided. A flat bar is adopted as the lock bar 25, and a pin 251 forming a connecting portion is fixed to the lock bar 25 via a connection plate 252 at a predetermined position in the middle. Further, at both ends of the lock bar 25, a pin 253 projects from one surface, and a protective pad 254 is attached to the other surface. In this case, the pin 253 is a cylindrical pin that can be inserted into the pin insertion hole 231 of the terminal slider 23. The pin 253 forms an attachment hole in the lock bar 25 and is fixed by caulking in the attachment hole. The protective pad 254 is formed of a synthetic resin material into a substantially rectangular plate shape, and a mounting shaft is integrally formed on one surface thereof. The protective pad 254 forms a mounting hole in the lock bar 25, and the mounting hole is formed in the mounting hole. Press-fit to fix. In this way, the lock bar 25 is formed so as to be usable by reversing the left-right direction so that it can be selectively attached to any of the left and right sides of the door 32. The lock bar 25 is inserted into the pin insertion holes 231 of the terminal slider 23 through the guide holes 228 on the side of the terminal case 22 in the two terminal lock members 21 and 21, respectively. Connected. Further, when installing the lock bar 25, a lock bar guide 26 is employed for the lock bar 25. The lock bar guide 26 has a groove shape that can surround the lock bar 25, and is installed on the side of the back surface of the door 32 so that the movement of the lock bar 25 in a predetermined direction can be guided. In this case, the lock bar guide 26 is formed in a planar shape that can be installed on the back surface of the door 32, and a fixing portion 261 having a mounting hole in the approximate center thereof, and a guide portion 262 extending in an inverted U shape at one end of the fixing portion 261. It consists of. In this way, the lock bar guide 26 is formed so as to be usable by reversing the left and right direction so that it can be selectively attached to either the left or right side portion of the door 32. The lock cover guide 26 is installed and fixed on the side of the back surface of the door 32 so that the guide portion 262 is aligned with the arrangement of the lock bar 25, surrounds the lock bar 25, and guides the lock bar 25 forward and backward. .

  As described above, the lock device 2 has the two terminal lock members 21 and 21 installed and fixed at the upper and lower two positions on the side of the rotation side on the back surface of the door 32, and the lock bars 25 and 25 are attached to the respective terminal lock members 21 and 21. The lock bar 25 and the slide bar 17 of the door lock handle 1 which will be described later are operatively connected via a pin 251 to operate the handle 12 attached to the front surface of the door 32. In conjunction with this, the lock bar 25 (connected to each terminal lock member 21, 21) is driven forward and backward along the side of the back surface of the door 32, thereby receiving each terminal lock member 21, 21 on the housing side. The portion 312 is engaged and disengaged.

  FIGS. 1A and 1B show a door lock handle 1 which is operatively connected to the lock device 2 and constitutes a multi-point tightening mechanism together with the lock device 2. The door lock handle 1 includes a main body case 11, a handle 12, an operation lever 13, a lock lever 14, a stopper 15, a cam member 16, a slider 17, and the like, and the handle of the side portion 321 of the door 32 through the main body case 11. It is attached to the attachment port 322, and is configured as an outside lock handle that is disposed outside the internal space of the housing 31, and is operatively connected to the multi-point tightening lock device 2 to rotate the handle 12. Accordingly, the terminal lock members 21 and 21 of the lock device 2 together with the lock lever 14 can be engaged with and disengaged from the edge portion 312 of the opening 310 that forms the receiving portion on the housing side.

  In the door lock handle 1, as shown in FIG. 5, the handle attachment port 322 of the door 32 is cut out in a rectangular shape that is long in the vertical direction at a predetermined position in the middle in the vertical direction on the side portion 321 of the door 32. In addition, attachment holes 323 and 323 are formed one by one in the center of the upper and lower ends. As shown in FIGS. 6 and 7, the main body case 11 is formed so as to be fitted and fixed to a handle attachment port 322 formed in a cutout in the side portion 321 of the door 32, and communicates the front side and the back side of the door 32. An opening 110 is formed. The body case 11 has an embedded portion 111 formed in a substantially rectangular frame shape so as to be fitted to the handle mounting port 322 of the door 32, and a cover around the front side of the handle mounting port 322 continuously to the embedded portion 111. An attachment portion 112 formed in a substantially rectangular frame shape that is slightly larger than the embedding portion 111 so as to be attachable, and an opening portion 110 communicating with each other is formed between the embedding portion 111 and the attachment portion 112. A cylindrical hole 119 is formed in the lower part of the opening 110 substantially parallel to the opening 110. A shaft / pin holder 113 is detachably attached to the opening 110 on one side portion at the upper portion on the embedded portion 111 side, and a groove shape is formed in the middle portion (vertical direction) on the embedded portion 111 side. A shape portion 114 is formed, and a shaft / slide bar holder 115 is detachably attached to the groove shape shape portion 114 with a screw. In this case, the shaft / pin holder 113 has a shaft hole formed on the lower surface, a pin hole formed on one side surface, and one side of the upper side of the opening 110 on the embedded portion 111 side. A pin hole is attached with the other side facing. The shaft / pin holder 113 can be attached to the upper side of the opening portion 110 on the embedded portion 111 side with a screw on the other side portion so that the left-right direction is reversed. The shaft / slide bar holder 115 is formed so as to be able to fit in the groove-shaped portion 114 on the embedded portion 111 side of the opening 110, and between the upper surface and the lower surface, the shaft / slide bar holder 115 is used for the shaft / pin holder shaft. A hole for a shaft facing the other hole is formed through, and a hole for a slide bar is formed through the other side. The shaft / slide bar holder 115 can be attached to the groove-shaped portion 114 by reversing the horizontal direction. The opening 110 also has a slide bar insertion portion 116 formed therethrough at the upper portion on the embedded portion 111 side, facing the slider hole of the shaft / slide bar holder 115, and on both sides on the embedded portion 111 side. The shaft insertion holes 117 and 117 are formed directly below the groove-shaped part 114 at the middle part of the part, and further, slightly below the shaft / pin holder 113 on the embedded part 111 side at the upper part on both sides on the adherend part 112 side. Shaft mounting holes 118, 118 are formed. A hole 119 is formed in a cylindrical shape in the lower part of the opening 110, that is, in the lower part of the main body case 11 so as to open the front side of the adherend part 112, and the opening 110 is formed at the end of the hole 119 on the embedded part 111 side. A groove 119 </ b> P communicating with is continuously formed. Furthermore, the upper and lower ends of the main body case 11 on the adherend portion 112 side are projected in the vertical direction, and screw holes 11U and 11D communicating with the mounting holes 323 and 323 above and below the handle mounting port 322 are respectively provided on the back side. It is formed. In this way, the main body case 11 is formed symmetrically so that it can be selectively attached to either of the left and right sides of the door 32, and a part of the main body case 11 can be used by inverting the left and right directions.

  The handle 12 is formed to be able to fit into the opening 110 of the main body case 11, and one end of the handle 12 is pivotally supported on the main body case 11 via a shaft 121 parallel to the front surface of the door 32, and is perpendicular to the front surface of the door 32. It is attached so as to be rotatable between a predetermined lying position and a predetermined raising position in a plane. The operation lever 13 is pivotally supported coaxially with the handle 12, extends to the back side of the door 32 through the opening 110 of the main body case 11, and rotates integrally with the handle 12 between the back side and the front side of the door 32. Installed as possible. In this case, the handle 12 and the operating lever 13 are integrally formed. The handle 12 is formed so that it can be integrally fitted to the adherend portion 112 side of the opening 110 of the main body case 11, and a locking step portion 122 that can be engaged with the stopper 15 at the rotating end (lower end) of the handle 3. In addition, an oblique guide portion 123 for pressing the stopper 15 from above and turning it downward is formed inside the locking step portion 122. Further, an operating lever 13 is formed integrally with the upper portion of the inner side surface of the handle 12. The actuating lever 13 is formed in a substantially trapezoidal shape or a substantially triangular shape at the upper part of the inner side surface of the handle 12 and protrudes from the upper part of the inner side surface of the handle 12. A shaft insertion portion 124 is formed at a position overlapping the upper end portion of the operating lever 13 at the upper end portion of the handle 12. The operating lever 13 has three attachments for connecting a cam member 16 to be described later to the lower position of the shaft insertion portion 124, the position of the protruding end, and the position where the lower end of the operating lever 13 and the handle 12 overlap each other. Holes 135, 135, 135 are formed. In this way, the handle 12 with the operating lever 13 is formed symmetrically so that it can be selectively attached to either the left or right side portion of the door 32. The actuating lever 13 is disposed in the upper portion of the opening 110 of the main body case 11, and the handle 12 is fitted from the upper portion of the opening 110 of the main body case 11 to the intermediate portion so that the main body case 11 is attached. The shaft 121 is passed between the shaft mounting hole 118 on the upper side of the portion 112 and the shaft insertion portion 124 on the upper portion of the handle 12, and a coil spring (not shown) is wound on the shaft 121 (this coil spring). One end is locked to the back surface of the main body case 11, and the other end is locked to the back surface of the handle 12. By doing in this way, the handle 12 is rotatable between a predetermined lying position fitted into the opening 110 of the main body case 11 and a predetermined raising position at an appropriate angle upward from this position. Further, in a normal state, the handle 12 is attached by being urged to rotate from the opening 110 of the main body case 11 toward a predetermined raising position. Note that the coil spring of the handle 12 has a function as a stopper in that the handle 12 is normally held in a predetermined raised position. The operating lever 13 integrated with the handle 12 is attached to the opening 110 of the main body case 11 around the shaft 121 of the handle 12 so that the protruding end of the operating lever 13 is positioned at a predetermined position on the embedded portion 111 side of the opening 110. The actuating lever 13 is disposed so as to be rotatable (movable back and forth) to a predetermined position on the part 112 side, and in a normal state, is urged to rotate toward the adherent part 112 side of the opening 110.

  As shown in FIGS. 7 and 8, the lock lever 14 has a substantially L-shaped cross-sectional shape, and a substantially L-shaped cross-sectional shape in the vicinity of the edge that is the back side of the door 32 on one side of the main body case 11. Of the handle 12 is pivotally supported via a shaft 140 perpendicular to the shaft 121 of the handle 12, around the shaft 140, one side portion faces the operating lever 13, and the other side portion is the housing side. It is attached to the receiving portion 312 so as to be rotatable, and one side portion is normally urged to rotate so as to be able to press the operating lever 13 via the spring means 144. In this case, the lock lever 14 is formed on a pressed portion 141 formed in a vertically long rectangular flat plate that can be disposed in the opening 110 of the main body case 11 and one side portion of the pressed portion 141. A convex pressing part 142 that protrudes from one side in a direction of approximately 90 degrees, and is formed between the pressed part 141 and the pressing part 142 at an interval of approximately 90 degrees, and is formed in the vertical direction with a shaft 140. Is formed of a pair of shaft insertion portions 143 and 143, and the whole has a substantially L-shaped cross-sectional shape. In this way, the lock lever 14 is formed to be usable by reversing the left-right direction so that it can be selectively attached to either the left or right side portion of the door 32. In the lock lever 14, the shaft 140 is inserted between the shaft insertion portions 143 and 143, and the shaft 140 is connected to the shaft hole of the shaft / pin holder 113 on the embedded portion 111 side of the opening 110 of the main body case 11. Attached to the shaft hole of the slide bar holder 115, the side of the lock lever 14 on the pressed portion 141 side is located at a predetermined position in the opening 110 of the main body case 11 around the shaft 140. A side portion of the pressing portion 142 facing the outside of one side portion of the main body case 11 is attached so as to be rotatable toward a predetermined position, and the spring means wound around the shaft 140 in advance is attached. The coil spring 144 normally biases the side portion on the pressed portion 141 side toward a predetermined position in the opening 110 of the main body case 11 by the coil spring 144.

  As shown in FIG. 6, the stopper 15 is provided in the main body case 11 so as to be able to be engaged with and disengaged from the rotation end of the handle 12, and normally holds the handle 12 in a predetermined lying position via a spring means. Yes. The stopper 15 has a substantially rectangular plate shape that can be integrally fitted to the lower portion of the opening 110 of the main body case 11 on the adherend portion 112 side, and the lower end of the stopper 15 slightly enters the opening 110 of the main body case 11. In addition, a pair of arms 151 and 151 protrude from the back surface, and shaft insertion holes 152 and 152 are formed at the protruding ends. In this way, the stopper 15 is formed symmetrically so that it can be selectively attached to either the left or right side portion of the door 32. Then, the pair of arms 151 and 151 are inserted into the opening 110 of the main body case 11 and are fitted into the lower part of the opening 110 of the main body case 11 on the adherent portion 112 side. A shaft 150 is passed between the shaft insertion holes 117 and 117 in the middle part of both sides of the shaft and the shaft insertion holes 152 and 152 of the stopper 15, and a coil spring (not shown) is wound around the shaft 150. One end of the coil spring is locked to the lower surface of the groove-shaped portion 114 in the middle of the main body case 11, and the other end is locked to the lower portion of the back surface of the stopper 15. 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. By doing so, the stopper 15 is pivotally supported at the lower part of the opening 110 of the main body case 11 so as to be slightly inserted into the opening 110, and the lower end of the stopper 15 is supported by the main body case. The stopper 11 is prevented from popping out from the opening 110 by being brought into contact with the inner surface of the opening 110 of the handle 11, and the rotating end of the handle 12 is detachably attached. Then, the handle 12 is pushed back from a predetermined raising position with respect to the opening 110 of the main body case 11 toward a predetermined lying position within the opening 110 of the main body case 11, thereby turning the handle 12, that is, the handle 12. When the lower end guide portion 123 hits the upper end portion of the stopper 15 and pivots and displaces the stopper 15 downward, and the lower end of the handle 12 gets over the upper end portion of the stopper 15, the stopper 15 is elastically restored to its original position. The engaging step 122 at the lower end of the handle 12 is engaged with the upper end of the stopper 15, and the coil spring on the stopper 15 side has a stronger spring force than the coil spring on the handle 12 side. At a predetermined lying position). When the front lower portion of the stopper 15 is pushed from this state, the stopper 15 is rotated and displaced downward, the engagement between the locking step 122 at the lower end of the handle 12 and the upper end of the stopper 15 is released, and the handle 12 The main body case 11 is projected and rotated from a predetermined lying position in the main body case 11 to a predetermined raising position. Further, the lock unit 154 is mounted under the stopper 15, that is, in the cylindrical hole 119 under the main body case 11. The lock unit 8 includes a rotor 155 that can be rotated with a predetermined key, and a rotor cam 156 that is fixed to the rear end of the rotor 155 at a right angle to the axial direction of the rotor 155 and that can rotate integrally with the rotor 155. The rotor cam 156 is disposed under the opening 110 of the main body case 11 through the groove 119P at the rear end of the hole 119. Then, by rotating the rotor 155 in a predetermined direction by a predetermined key, the rotor cam 156 protrudes to a lock position that restricts the movement (in this case, rotation) of the stopper 15 in the main body case 11, and the predetermined collapse The handle 12 of the position is locked (the rotation in the raising direction is locked), and the rotor 155 is rotated in the opposite direction, whereby the rotor cam 156 allows the stopper 15 to move (in this case, the rotation) in the main body case 11. The handle 12 is reversed to the unlock position to unlock the handle 12 at the predetermined lying position.

  As shown in FIG. 6, the cam member 16 is pivotally supported by the main body case 11 via the shaft 121 of the handle 12, and extends to the back side of the door 32 through the opening 110 of the main body case 11. And the front side are attached so as to be rotatable integrally with the handle 12. The entire cam member 16 including the outer shape of the actuating lever 13 is formed in a substantially square shape, and one corner projects upward from the upper side of the actuating lever 13 (the edge connecting the upper end of the handle 12 and the projecting end of the actuating lever 13). Is done. On both side surfaces of the cam member 16, a common hole is formed at a position corresponding to each mounting hole 135, 135, 135 of the operating lever 13, and a pin insertion hole 161 is formed at one corner protruding above the operating lever 13. It is formed. In this way, the cam member 16 is formed symmetrically so that it can be selectively attached to either the left or right side portion of the door 32. The cam member 16 is screwed on one side surface of the operating lever 13 through mounting holes 135, 135, 135 (the reference number of the cam member 16 is not provided) between the two, and is inside the opening 110 of the main body case 11. Is supported together with the handle 12. As shown in FIG. 6, the slide bar 17 is formed of an elongated plate having a predetermined length, and an intermediate portion is formed to be slightly wider. An attachment hole 171 for connecting to the multi-point tightening type locking device 2 is formed at the upper end portion of the slide bar 17, and a long hole 172 (long in the width direction of the slide bar 17) is formed at the intermediate portion. In this way, the slide bar 17 is formed symmetrically so that it can be selectively attached to either the left or right side portion of the door 32. The slide bar 17 is passed between the slider insertion portion 116 at the top of the main body case 11 and the intermediate shaft on the embedded portion 111 side of the opening 110 and the slider hole of the slide bar holder 115, and the cam member A pin 173 that protrudes and is fixed to the side surface of the shaft / pin holder 113 at the upper portion of the embedded portion 111 is inserted into the elongated hole 172 at the middle portion of the slide bar 17 and the pin insertion portion 161 at the upper portion of 16. The rotation of 16 is pivotally supported so that it can be converted into a linear motion, and is attached so as to be linearly movable in the vertical direction of the main body case 11.

  As shown in FIG. 9, the door lock handle 1 is attached to the side portion 321 (the handle attachment port 322) of the door 32 via the main body case 11, and the handle 12 is located on the front side of the door 32. It is pivotally supported by the part 321 through a shaft 121 parallel to the front surface of the door 32, and is rotatable between a predetermined lying position and a predetermined raising position in a plane perpendicular to the front surface of the door 32. At the same time, the rotating end of the handle 12 is held at a predetermined lying position by the stopper 15, and the operation lever 13 is attached to the side portion 321 on the front surface of the door 32 via the shaft 121 of the handle 12. It extends to the back side and is pivotally supported integrally with the handle 12 between the back side and the front side of the door 32 (see FIG. 6), and the lock lever 14 is attached to the side of the back side of the door 32. Against the axis 121 It is pivotally supported via a corner shaft 140 and is configured to be rotatable around the shaft 140 such that one side portion faces the operating lever 13 and the other side portion faces the receiving portion 312 on the housing side. The Then, by rotating the handle 12 to a predetermined lying position on the main body case 11, the operation lever 13 is rotated from the front side to the back side of the door 32, and the rotation of the operation lever 32 causes the lock lever 14 to move. One side is pressed, the entire lock lever 14 is rotated, and the other side can be pressed against the receiving portion 312 on the housing side.

  In this way, the door lock handle 1 is attached to the door 32, and the handle 12 on the side of the front side of the door 32 is rotated with the door 32 closed (relative to the housing 31). The lock lever 14 on the side of the back surface of the door 32 rotates and can be engaged with and disengaged from the receiving portion 312 formed at the opening edge of the front surface of the housing 31 to open and close the door 32. In this case, when the door 32 is opened, as shown in FIG. 10A, the handle 12 is detached from the stopper 15 and the lock lever 14 is pressed by the biasing force of the coil spring 144 of the lock lever 14. The side portion on the side of the portion 141 is turned and displaced toward the inside of the main body case 11, and the operating lever 13 is turned and displaced toward the front side from the back side of the door 32 by being pressed by the side portion on the pressed portion 141 side. At the same time, the handle 12 integrated with the operating lever 13 is rotationally displaced (pressed) from a predetermined lying position on the main body case 11 toward a predetermined raising position, and at the same time, a coil spring on the shaft 121 of the handle 12. The urging force is completely raised to a predetermined trigger position. That is, the handle 12 protrudes 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 (predetermined lying position), whereby the operating lever 13 is integrated with the handle 12 as shown in FIG. Is rotated from the front side to the back side of the door 32, the lock lever 14 (pressed portion 141) in the main body case 11 is pressed by the operating lever 13, and the lock lever 14 (pressing portion 142) is It is rotated toward the receiving part 312 on the body side. Then, by pushing the handle 12 into the opening 110 of the main body case 11 to a predetermined lying position, the operating lever 13 pushes the lock lever 14 (the pressed portion 141) in the main body case 11, and the lock lever 14 is moved to the housing side. The pressing portion 142 of the lock lever 14 is strongly pressed against the receiving portion 312 on the housing side. In this case, the lock lever 14 is pressed against the housing-side receiving portion 312 from the back side to the front side, and the door 32 is strongly pulled toward the housing 31 by this pressure contact, so that the opening edge of the housing 31 is closed. The packing 313 is completely compressed, and the opening 310 of the housing 31 is completely sealed. During this time, the rotating end of the handle 12, that is, the guide portion 123 at the lower end of the handle 12 hits the upper end portion of the stopper 15, and the stopper 15 is rotated and displaced downward, and the lower end of the handle 12 gets over the upper end portion of the stopper 15. When the stopper 15 is elastically restored to the original position, the locking step 122 at the lower end of the handle 12 is engaged with the upper end of the stopper 15, and the coil spring on the stopper 15 side has a spring force more than the coil spring on the handle 12 side. Since it is strong, the handle 12 is fixed in the case body 11 (predetermined lying position). As a result, the door 32 is closed to the front surface of the housing 31, and the completely sealed state of the opening 310 of the housing 31 is maintained. In this case, by inserting a predetermined key into the lock unit 154 below the stopper 15 and rotating the rotor 155 to the locked position of the rotor cam 156, the movement of the stopper 15 is restricted, and the handle 12 is rotated in the raising direction. The movement is locked and the door 32 is locked. From this state, by inserting a predetermined key into the lock unit 154 and rotating the rotor 155 to the unlock position of the rotor cam 156, the stopper 15 is allowed to move, and the handle 12 is unlocked. The door 32 is unlocked. When the front lower portion of the stopper 15 is pushed, the stopper 15 is pivotally displaced downward, the engagement between the locking step 122 at the lower end of the handle 12 and the upper end of the stopper 15 is released, and the coil of the lock lever 14 is released. The side of the lock lever 14 on the pressed portion 141 side is rotated toward the inside of the main body case 11 by the rotation biasing by the spring 144, and the operating lever 13 is pressed by the side portion on the pressed portion 141 side. The door 32 is rotated from the rear side to the front side, and the handle 12 is integrally rotated with the operation lever 13 from a predetermined lying position on the main body case 11 to a predetermined raising position (pressing). At the same time, the biasing force of the coil spring on the shaft 121 of the handle 12 is completely raised to a predetermined trigger position. That is, the handle 12 protrudes from the front of the door 32, and the closed state of the door 32 is released.

  As shown in FIG. 4, the multi-point tightening type locking device 2 operatively connected to the door lock handle 1 is connected to the operation of the handle 12 attached to the front surface of the door 32. The lock bar 25 connected to each terminal lock member 21 arranged on the upper and lower sides of the back side is guided by the lock bar guide 26, and moves forward and backward along the side part on the back side of the door 32, thereby locking each terminal lock. The member 21 is disengaged from the receiving portion 312 on the housing side. In this case, when the door 32 is opened, the handle 12 is detached from the stopper 15, and the side of the lock lever 14 on the pressed portion 141 side is moved by the biasing force of the lock lever 14 by the coil spring 144. The operating lever 13 is turned and displaced from the back side of the door 32 toward the front side by being pressed by the side portion on the pressed portion 141 side, and the cam is integrated with the operating lever 13. The member 16 is rotationally displaced from the back side of the door 32 toward the front side. Then, due to the rotational displacement of the cam member 16, the slide bar 17 is displaced downward along the side portion of the back surface of the door 32, and the lock bar 25 connected to the slide bar 17 is interlocked with the lock bar guide. The guide 26 is displaced downward along the side of the back surface of the door 32. Due to the downward displacement of the lock bar 25, as shown in FIG. 3A, the terminal sliders 23 are slid downward in the sliding spaces of the upper and lower terminal cases 22, and the guides of the terminal sliders 23 are guided. Each terminal lock lever 24 is not on the surface 232. Accordingly, each terminal lock lever 24 is rotationally displaced at a predetermined position in the opening 226 of the case main body 225 by the rotational bias of the coil spring 244, so that the pressing portion 242 is displaced. The side portion on the side is separated from the receiving portion 312 on the housing side. From this state, by turning the handle 12 toward the main body case 11 (predetermined lying position), the operating lever 13 is rotated integrally with the handle 12 from the front side to the back side of the door 32, The cam member 16 integrated with the operating lever 13 is rotated from the front side to the back side of the door 32. Then, as the cam member 16 rotates, the slide bar 17 is displaced upward along the side of the back surface of the door 32, and the lock bar 25 connected to the slide bar 17 is interlocked with the lock bar guide 26. Guided and sent upward along the side of the back surface of the door 32. By sending the lock bar 25 upward, each terminal slider 233 is slid upward in the slide space of each upper and lower terminal case 22, and at the same time, as shown in FIG. The side portion of the lever 24 on the pressed portion 241 side is engaged and guided on the guide surface 232 of the terminal slider 23, and each terminal lock lever 24 (the pressed portion 241) is pressed, and each terminal lock lever 24 ( The pressing part 242) is rotated toward the receiving part 312 on the housing side. Then, by pushing the handle 12 into the opening portion 110 of the main body case 11 to a predetermined lying position, the terminal lock levers 24 (pressed parts) of the terminal cases 22 are interposed via the cam member 16, the slide bar 17, and the lock bar 25. The terminal lock levers 24 are pressed against and engaged with the receiving portions 312 on the housing side, and the pressing portions 242 of the terminal lock levers 24 are pressed strongly against the receiving portions 312 on the housing side. In this case, the terminal lock lever 24 is pressed against the receiving portion 312 on the housing side from the back side to the front side, and the door 32 is strongly pulled toward the housing 31 by this pressure contact, and the opening edge of the housing 31 is The packing 313 is completely compressed, and the opening 310 of the housing 31 is completely sealed. During this time, the rotating end of the handle 12, that is, the guide portion 123 at the lower end of the handle 12 hits the upper end portion of the stopper 15, and the stopper 15 is rotated and displaced downward, and the lower end of the handle 12 gets over the upper end portion of the stopper 15. When the stopper 15 is elastically restored to the original position, the locking step 122 at the lower end of the handle 12 is engaged with the upper end of the stopper 15, and the coil spring on the stopper 15 side has a spring force more than the coil spring on the handle 12 side. Since it is strong, the handle 12 is fixed in the main body case 11 (predetermined lying position). As a result, the door 32 is closed to the front surface of the housing 31, and the completely sealed state of the opening 310 of the housing 31 is maintained. From this state, when the front lower portion of the stopper 15 is pushed, the stopper 15 is rotated and displaced downward, the engagement between the locking step 123 at the lower end of the handle 12 and the upper end of the stopper 15 is released, and the lock Due to the rotation bias of the lever 14 by the coil spring 144, the side portion of the lock lever 14 on the pressed portion 141 side is rotated toward the inside of the main body case 11, and is pressed by the side portion on the pressed portion 141 side. The cam member 16 is rotated from the back side of the door 32 toward the front side, and the rotation of the cam member 16 causes the slide bar 17 to be slid downward along the side of the back side of the door 32. The lock bar 25 connected to the slide bar 17 is interlocked and moved downward along the side of the back surface of the door 32 by the guide of the lock bar guide 26. Due to the downward movement of the lock bar 25, the terminal sliders 23 are slid downward in the slide spaces of the upper and lower terminal cases 22, and the guide surfaces 232 of the terminal sliders 23 are engaged with the terminal lock levers 24. Is released. Accordingly, each terminal lock lever 24 is rotationally displaced to a predetermined position in the opening 226 of the terminal case 22 by the biasing force of the coil spring 244, so that the pressing portion 242. The side portion on the side is separated from the receiving portion 312 on the housing side. That is, the closed state of the door 32 is released.

  As described above, in the multi-point tightening type locking device 2, the terminal lock members 21 are arranged at a plurality of positions on the rear side of the door 32 on the rotating side, and are attached to the front of the door 32 (the door). In conjunction with the operation of the handle (for the lock handle), the lock bar 25 connected to each terminal lock member 21 is moved back and forth along the side of the back surface of the door 32 to move each terminal lock member 21 to the housing side. In particular, the door lock handle 1 is formed so as to be fitted and fixed to a handle attachment port 322 cut out in the side portion of the front surface of the door 32 so as to be fixed to the front surface of the door 32. A main body case 11 having an opening 110 that communicates the side and the back side, and is formed so as to be fitted to the main body case 11, and one end is pivotally supported by the main body case 11 via a shaft 121 parallel to the front surface of the door 32. Door 32 A handle 12 that is rotatable between a predetermined lying position and a predetermined raising position in a plane perpendicular to the front surface, and a door that is pivotally supported coaxially with the handle 12 and that is opened through the opening 110 of the main body case 11. 32, an operating lever 13 that extends integrally with the handle 12 between the back side and the front side of the door 32, has a substantially L-shaped cross-sectional shape, and is on one side of the body case 11. In the vicinity of the edge which becomes the back side of the door 32, a substantially intermediate portion having a cross-sectional shape is pivotally supported via a shaft 140 perpendicular to the shaft 121 of the handle 12, and the shaft 140 is rotated around one side. A part is rotatably attached to the operating lever 13 and the other side part is rotatably attached to the receiving part 312 on the housing side, and one side part can normally press the operating lever 13 via the spring means 144. Lock lever 14 that is urged to rotate The main body case 11 is detachably provided at the rotating end of the handle 12, and holds the handle 12 in a predetermined lying position, and also holds the handle 12 by rotating and energizing the handle 12 to a predetermined raising position. A stopper (spring means (coil spring)) is pivotally supported on the main body case 11 via the shaft 121 of the handle 12 and extends to the back side of the door 32 through the opening 110 of the main body case 11. The cam member 16 that can rotate integrally with the handle 12 between the side and the cam member 16 is pivotally supported so that the rotation of the cam member 16 can be converted into a linear motion. And a terminal bar 22 that is installed and fixed on the side part of the back surface of the door 32 with both ends facing in the direction in which the side part extends. ,end A terminal slider 23 that is slidably disposed between one end and the other end of the terminal case 22 in the terminal case 22, and one side of the terminal case 22 faces the terminal case 22 on the other side. Part is rotatably attached to the outside of the terminal case 22, and one side part is engaged and guided to the terminal slider 23 by the forward and backward movement of the terminal slider 23, and the other side part is outside the terminal case 22 or A terminal lock lever 24 that is rotated toward the inside of the terminal case 22 and can be engaged with and disengaged from the receiving portion 312 on the housing side is operatively connected to each terminal lock member 21 to the slide bar 17 of the door lock handle 1. The lock bar 25 is connected, and the operation lever 13 is rotated from the front side to the back side of the door 32 by rotating the handle 12 to a predetermined lying position. One side portion of the lock lever 14 (pressed portion 141) is pressed to rotate the entire lock lever 14, and the other side portion of the lock lever 14 (pressing portion 142) is moved with respect to the receiving portion 312 on the housing side. The door 32 is pressed toward the front side from the back side, and the door 32 is pulled toward the housing side by this pressure contact, and the packing 313 at the opening edge of the housing 31 is completely compressed. The slide bar 17 is slid along the side of the back surface of the door 32 through the cam member 16 that rotates in the direction of the door 32, and the lock bar 25 is driven by the slide bar 17 to In each terminal case 22, the pressed portion 241 of each terminal lock lever 24 is pushed by sliding each terminal slider 23, and the pressing portion 242 of each terminal lock lever 24 faces the receiving portion 312 on the housing side. Each terminal lock lever 24 is pressed against the receiving portion 312 on the casing side from the back side to the front side, and the door 32 is pulled toward the casing 31 by this pressing, and the opening edge of the casing 32 is Since the packing 313 is completely compressed, the lock lever 14 and each terminal lock lever 24 are positively pressed against the receiving portion 312 on the housing side, and the housing 31 (the opening 310) can be completely sealed. . Further, in this case, the handle 12 is held at a predetermined lying position on the main body case 11 only by rotating the handle 12 to engage with the stopper 15, and the housing side of the lock lever 14 and each terminal lock lever 24. On the contrary, the handle 12 can be fixed to the body case 11 only by releasing the engagement between the stopper 15 and the handle 12 by (pushing) the stopper 15. The lock lever 14 and each terminal lock lever 24 can be released from being pressed against the receiving portion 312 on the housing side by rotating and projecting to a predetermined raising position. The engaging / disengaging operation with respect to the receiving portions 312 on the 24 casings can be easily performed.

  Further, the door lock handle 1 is provided with a lock unit 154 in addition to the main body case 11 so as to restrict the movement of the stopper 15 and lock the rotation of the handle 12 at a predetermined lying position of the handle 12. Therefore, the pressing state of the lock lever 14 and each terminal lock lever 24 against the receiving portion 312 on the housing side is securely held, and the complete sealing state between the door 32 and the housing 31 (the opening 310 thereof) is reliably maintained. be able to.

  Further, the engagement type of the lock handle 1 for the door with respect to the receiving portion 312 on the housing side of the lock lever 14 is suitable for the outside handle attached to the outside of the housing 31 on the side of the door 32. A highly sealed state can be realized in the casing 31.

  Further, the terminal case 22, the terminal slider 23, the terminal lock lever 24, the lock bar 25, and the lock bar guide 26 of each terminal lock member 21 are symmetrical so that they can be selectively attached to either the left or right side portion of the door 32. Or the body case 11, the handle 12, the operation lever 13, the lock lever 14, the stopper 15, the cam member 16, and the slide bar 17 of the door lock handle 1, The multi-point tightening mechanism can be mounted on either the left or right side of the door 32 because it can be selectively attached to the left and right sides of the door 32 so that it can be used symmetrically or reversed in the left-right direction. Therefore, parts management is easy and cost reduction can be achieved. Needless to say, this multi-point tightening mechanism can be similarly applied to a type in which the door is opened and closed in the vertical direction.

  In this embodiment, the terminal lock members 21 are arranged at a plurality of positions on the side of the rotation side on the back surface of the door 32, and each terminal is interlocked with the operation of the handle 12 attached to the front surface of the door 32. The lock bar 25 connected to the lock member 21 is moved forward and backward along the side of the back surface of the door 32 to engage and disengage each terminal lock member 21 with the receiving portion 312 on the housing side. The terminal lock members 21 are arranged at a plurality of positions on the three sides of the back surface of the rear side, that is, the side portion on the rotation side and the end portion adjacent to the side portion including the side portion, and the handle 12 attached to the front surface of the door 32. In conjunction with this operation, each terminal lock member 21 is moved forward and backward by moving the lock bar 25 connected to each terminal lock member 21 along the side portion of the back surface of the door 32 and the end portion adjacent to the side portion. Is disengaged from the receiving portion 312 on the housing side. It may be in the format to be.

  Moreover, in this embodiment, the main body case 11 and the handle 12 are each formed into a vertically elongated rectangular shape with respect to the door lock handle 1, but it goes without saying that this shape can be arbitrarily changed in design. . Further, although the operating lever 13 is formed integrally with the handle 12, it may be attached to the shaft 121 of the handle 12 (with a predetermined angle set with respect to the handle 12) as a separate body. Further, the lock lever 14 has the shape as described above. The lock lever 14 is pivotally supported on the side portion of the back surface of the door 32 via the shaft 140 perpendicular to the shaft 121 of the handle 12. One side portion of the lock lever 14 can be turned around 140 around the operating lever 13 and the other side portion can be turned around toward the receiving portion 312 on the housing side. Any structure can be used as long as the structure engages and engages, and the shape is arbitrary. Further, the stopper 15 of the handle 12 has the form as described above. However, the present invention is not particularly limited to this form. If the handle 12 can be held at a predetermined lying position, it is adopted for an existing flat type handle. Of course, it may be changed to other formats. In addition, a lock unit 154 that locks the stopper 15 is provided on the front side (main body case 11) of the door 32, and the movement of the stopper 15 is locked to lock the handle 12 in a predetermined lying position. Instead of the lock unit that locks the handle 12 itself, the handle 12 may be locked in a predetermined lying position. In addition, although the door lock handle 1 is illustrated as an outside handle, the door lock handle 1 can be similarly applied to a type attached to the inside of the housing 31.

  Furthermore, in this embodiment, the door lock handle 1 of a special type is adopted as the multi-point tightening lock device 2, but a handle device adopted in the existing multi-point tightening lock device can also be applied. .

DESCRIPTION OF SYMBOLS 1 Door lock handle 11 Main body case 110 Opening part 111 Embedded part 112 Adhered part 113 Shaft / pin holder 114 Groove shape part 115 Shaft / slide bar holder 116 Slide bar insertion part 117 Shaft insertion hole 118 Shaft attachment hole 119 Hole 119P Groove 11U, 11D Screw hole 12 Handle 121 Shaft 122 Locking step portion 123 Guide portion 124 Shaft insertion portion 13 Actuation lever 135 Mounting hole 14 Lock lever 140 Shaft 141 Pressed portion 142 Pressing portion 143 Shaft insertion portion 144 Coil spring (spring) means)
15 Stopper 150 Shaft 151 Arm 152 Shaft insertion hole 154 Lock unit 155 Rotor 156 Rotor cam 16 Cam member 161 Pin insertion hole 17 Slide bar 171 Mounting hole 172 Long hole 173 Pin 2 Multi-point tightening locking device 21 Terminal lock member 22 Terminal case 221 Base 225 Case body 226 Opening 227 Groove 228 Guide hole 229 Screw insertion hole 23 Terminal slider 231 Pin insertion hole 232 Guide surface 24 Terminal lock lever 240 Shaft 241 Pressed portion 242 Pressing portion 243 Shaft insertion portion 244 Coil spring (spring means )
25 Lock bar 251 Pin (connecting part)
252 Connecting plate 253 Pin 254 Protective pad 26 Lock bar guide 260 Mounting hole 261 Fixed portion 262 Guide portion 3 Rack 31 Housing 310 Opening 311 Side portion 312 Edge portion (Receiving portion on the housing side)
313 Packing 32 Door 321 Side 322 Handle attachment port 323 Attachment hole 33 Drainage part

Claims (6)

Locking members are arranged on the rear side of the door on the rotating side or on the side and the edges adjacent to the side, and each of the locks is interlocked with the operation of the handle attached to the front of the door. The lock bar connected to the member is driven back and forth along the side of the back of the door or along the side and the end of the door, thereby engaging and disengaging each lock member with respect to the receiving portion on the housing side. In the point tightening type locking device,
Each locking member is
A case that is installed and fixed to the side portion of the back surface of the door or the side portion and the end portion with both ends facing in the extending direction of the respective portions;
A slider disposed in the case so as to be slidable between one end and the other end of the case;
It is pivotally supported by one side of the case via an axis parallel to the one side, and around the axis, one side is directed into the case and the other side is directed to a receiving part on the housing side. And a lock lever that is pivotably attached,
The lock bar is connected to the slider,
The slider is slid through the lock bar by the operation of the handle, the lock lever is guided to rotate by the engagement between the slider and one side of the lock lever, and the other side is moved to the housing side. Press contact with the receiving part of
A multi-point tightening type locking device characterized by that.   The slider has an inclined surface-shaped guide at the tip, a guide hole is formed in the other side portion of the case in the sliding direction of the slider, and the slider and the lock bar are connected through the guide hole. The multi-point tightening lock device described in 1.   The multi-point tightening type locking device according to claim 1 or 2, further comprising spring means for biasing the lock lever into a case in a normal state.   The lock bar guide according to any one of claims 1 to 3, further comprising a lock bar guide that is installed and fixed on a rear side of the door, has a groove having an inverted U-shaped cross section so as to surround the lock bar, and guides the advancing and retreating direction of the lock bar. The multi-point tightening lock device described.   The case of the lock member, the slider, the lock lever, and the lock bar are each formed so as to be usable symmetrically or reversed in the left-right direction so as to be selectively attachable to any of the left and right sides of the door. 5. The multi-point tightening lock device according to any one of 4 above. The handle is formed so that it can be fitted and fixed in a handle mounting opening formed in the front side portion of the door, and has an opening that communicates the front side and the back side of the door. One end is pivotally supported on the main body case via an axis parallel to the front of the door, and a predetermined lying position and a predetermined cause are generated on a plane perpendicular to the front of the door on the main body case. A handle that is pivotable between positions, is pivotally supported coaxially with the handle, extends to the back side of the door through the opening of the main body case, and the handle between the back side and the front side of the door. An operation lever that can be rotated integrally with the handle, and a substantially L-shaped cross-sectional shape, and a substantially intermediate portion of the cross-sectional shape is provided near one edge of the main body case on the back side of the door. Pivoted through an axis perpendicular to the axis of Around the axis, one side is rotatably attached to the operating lever and the other side is rotatably attached to the receiving part on the housing side, and one side is in the normal state via a spring means. A lock lever that is pivotally biased so as to press the operating lever; a stopper that is removably provided on the pivot end of the handle on the main body case; and holds the handle at a predetermined lying position; and the main body case A cam member that is pivotally supported via the handle shaft, extends to the back side of the door through the opening of the main body case, and is rotatable integrally with the handle between the back side and the front side of the door; And a slide bar that is pivotally supported by the cam member so as to convert the rotation of the cam member into a linear motion, and is capable of linearly moving back and forth along the back side of the door,
The multi-point tightening type locking device according to any one of claims 1 to 5, wherein a lock bar of each lock member is connected to the slide bar.

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