CN218456630U - Deposit subassembly and including its shielding cabinet - Google Patents

Abstract

The utility model relates to a deposit equipment technical field discloses a deposit subassembly and including its shielding cabinet, and the deposit subassembly includes that a plurality of vertical orientation of edge pile up the deposit unit that sets up, and the deposit unit includes box holder and drawer box, and the top of box holder has uncovered, and in two arbitrary adjacent deposit units, the bottom lid of the box holder of top located the uncovered department of the box holder of below to form and deposit the chamber, locate to deposit the intracavity with drawer box slidable. Based on the structure, the register assembly adopts the modular design of the register units, and can be formed by selecting a proper number of register units to be stacked according to the use requirement, so that the register assembly is adaptive to shielding cabinets with different specifications and sizes, and meets diversified register requirements; secondly, this deposit subassembly's box holder has uncovered, encloses through the box holder that sets up from top to bottom and encloses into jointly and deposit the chamber, has reduced the manufacturing cost of box holder to can make the structure of depositing the unit more compact, can place the unit of depositing of more quantity in the certain shielding cabinet of space size.

Description

Deposit subassembly and including its shielding cabinet

Technical Field

The utility model relates to a deposit equipment technical field, especially relate to a deposit subassembly and including its shielding cabinet.

Background

The storage cabinet is a storage device for storing articles, especially for communication equipment, and is provided with a storage cavity for placing articles, and a shielding cabinet for isolating electromagnetic wave transmission, and the principle of the shielding cabinet is to limit electromagnetic radiation within a certain specified space range by using conductive or magnetic conductive materials. A storage module having a storage cavity is generally disposed within the shielded enclosure for storing the communication device.

The design of the existing shielding cabinet is simple and crude, the deposit component has the following defects, and the deposit component is of an integral structure and can not be detached, so that the existing shielding cabinet is difficult to be applied to shielding cabinets of different specifications and sizes.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a deposit subassembly.

In order to achieve the above object, the utility model provides a deposit subassembly, it includes the deposit unit, the deposit unit includes box holder and drawer box, the drawer box includes box body, box door and locates the box body with linkage subassembly between the box door, the box holder has the spout, the spout has notch forward, locate box body slidable in the spout, the box door articulate in notch department, the linkage subassembly makes when the box body slides forward the box door orientation deviates from the direction upset of notch, and make when the box body slides backward the box door orientation is close to the direction upset of notch.

In some embodiments of the present application, the linkage assembly includes a guide groove disposed on an outer side wall of the box body and a first guide portion disposed on an inner side wall of the box door, the first guide portion is slidably disposed in the guide groove, and when the first guide portion slides toward one end of the guide groove, the box door is turned toward a direction away from the notch; when the first guide part slides towards the other end of the guide groove, the box door turns towards the direction close to the notch.

In some embodiments of the present application, the linkage assembly includes a first guiding portion disposed on an outer side wall of the box body and a guiding groove disposed on an inner side wall of the box door, the first guiding portion is slidably disposed in the guiding groove, and when the first guiding portion slides toward one end of the guiding groove, the box door is turned toward a direction away from the notch; when the first guide part slides towards the other end of the guide groove, the box door turns towards the direction close to the notch.

In some embodiments of the present application, the guide groove includes a first groove section and a second groove section that are connected in sequence, a predetermined angle is formed between the first groove section and the second groove section, when the first guide portion is located in the first groove section, the box door forms a certain angle with a horizontal plane, and when the first guide portion is located in the second groove section, the box door is parallel to the horizontal plane.

In some embodiments of the present application, the guide groove has a first notch portion, and the first notch portion is penetrated by the first guide portion.

In some embodiments of the present application, the guide groove is provided in an arc shape.

In some embodiments of the present application, an end of the cassette body facing the cassette door has a cassette opening.

In some embodiments of the present application, the box body has a second notch portion near a bottom wall of the box opening.

In some embodiments of the present application, the outer side wall of the box body has a second guiding portion, and the inner side wall of the box frame has a limiting portion corresponding to the second guiding portion, and the limiting portion is used for limiting the box body to slide along the extending direction of the sliding groove.

In some embodiments of the present application, the plurality of limiting portions are provided, and the plurality of limiting portions are arranged in a uniform manner along the extending direction of the sliding groove.

In some embodiments of the present application, the register unit is provided in plural, and plural register units are stacked in a vertical direction.

In some embodiments of the present application, the top of the box rack has an opening, and in any two adjacent register units, the bottom of the box rack above is covered at the opening of the box rack below to form a storage cavity, and the drawer box is slidably disposed in the storage cavity.

In some embodiments of the present application, the top of the box holder has a convex portion, and the bottom of the box holder has a slot portion, into which the convex portion is inserted, so that any two adjacent box holders of the register units are clamped.

In some embodiments of the present application, the bottom of the box holder has a reinforcing rib, and the bottom of the reinforcing rib is formed with the catching groove portion.

In some embodiments of the present application, the cartridge frame has a first mounting hole, the register assembly further comprises a mounting plate having a second mounting hole corresponding to the first mounting hole, and a fastener passing through the second mounting hole and into the first mounting hole to connect the cartridge frame and the mounting plate.

In some embodiments of the present application, the side wall of the box holder has a recessed portion, and the recessed portion of the box holder forms a positioning groove.

In some embodiments of the present application, the top of the box holder has a clamping groove portion, and the bottom of the box holder has a clamping convex portion, and the clamping convex portion is inserted into the clamping groove portion, so that any two adjacent box holders of the register units are clamped.

In some embodiments of the present application, the cassette racks of any two adjacent register units are connected by screwing, bonding, plugging, or magnetism.

In some embodiments of the present application, the register assembly further includes a driving device and a controller, the driving device is disposed on the box frame, and is electrically connected to the controller, for driving the box body to slide.

In some embodiments of the present application, the driving device includes a motor, a screw rod, and a slider slidably disposed on the screw rod, the bottom of the box holder has a first through slot, the slider passes through the first through slot and is connected to the drawer box, and the motor is configured to drive the slider to drive the drawer box to slide.

Another object of the utility model is to provide a shielding cabinet, it is including shielding cabinet body and foretell deposit subassembly, shielding cabinet body includes the cabinet body and cabinet door, the cabinet body has the chamber that holds, the cabinet door is used for the switching hold the accent in chamber, and with the cabinet body makes up into the shielding body, deposit the unit and locate hold the intracavity.

The utility model provides a deposit subassembly, compared with the prior art, its beneficial effect lies in:

1. the box body and the box door of the drawer box form linkage by adopting the linkage assembly, the mechanical structure linkage is more reliable, the box body and the box door are prevented from interfering or colliding, a plurality of driving devices are not required, the structure is simpler and more compact, and the communication equipment is more convenient to take and place.

2. This deposit subassembly adopts this modularized design of unit of depositing, the modularization equipment of being convenient for to the shielding cabinet of the different specification sizes of adaptation satisfies diversified deposit demand.

3. The utility model also provides a shielding cabinet, owing to adopted foretell locker module, the adjustment in locker space is more nimble, and the structure is more compact, satisfies different use scenes.

Drawings

Fig. 1 is a schematic overall structural diagram of a shielding cabinet according to an embodiment of the present invention;

fig. 2 is a schematic front view of a shielding cabinet according to an embodiment of the present invention;

fig. 3 is a rear view schematically illustrating a shielding cabinet according to an embodiment of the present invention;

fig. 4 is a schematic view of a split structure of the shielding cabinet according to the embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a register module according to an embodiment of the present invention;

FIG. 6 is a schematic view of another embodiment of a register module according to the present invention;

fig. 7 is a schematic view of a split structure of a register assembly according to an embodiment of the present invention;

fig. 8 is a schematic structural view of the register unit in the second state of the drawer box according to the embodiment of the present invention;

fig. 9 is a schematic structural view of the register unit when the drawer box is in the first state according to the embodiment of the present invention;

fig. 10 is a schematic view of a split structure of a register unit according to an embodiment of the present invention;

fig. 11 is a schematic structural view of a box holder according to an embodiment of the present invention;

fig. 12 is another schematic structural view of the box holder according to the embodiment of the present invention;

FIG. 13 is a schematic top view of a register unit (with the cassette body and the cassette door omitted) according to an embodiment of the present invention;

fig. 14 is a schematic structural diagram of a cartridge body according to an embodiment of the present invention;

fig. 15 is another schematic structural diagram of the cartridge body according to the embodiment of the present invention;

fig. 16 is a schematic structural view of a box door according to an embodiment of the present invention;

fig. 17 is a schematic structural diagram of the shielding cabinet according to the embodiment of the present invention.

In the figure: 10. a shielding cabinet body; 100. a cabinet body; 110. a wiring hole; 120. a handle; 130. supporting legs; 140. an accommodating chamber; 141. a connecting portion; 141a, a fourth mounting hole; 150. an elastic shielding strip; 200. a cabinet door; 30. a register component; 300. a registering unit; 310. a box frame; 311. a snap projection; 312. a slot clamping part; 313. opening the mouth; 314. a chute; 314a, notches; 314b, a connection hole; 314c, a placement groove; 315. a first through groove; 316. a limiting part; 317. a first mounting hole; 318. a reinforcing rib plate; 319. positioning a groove; 320. a drawer box; 321. a box body; 321a, a guide groove; 321b, a first groove section; 321c, a second groove section; 321d, a first notch portion; 321e, a box opening; 321f, a second notch; 321g, a second guide part; 321h and a second through groove; 321i, a trigger part; 322. a box door; 322a, connecting column; 322b, a first guide part; 323. a linkage assembly; 330. a drive device; 331. a motor; 332. a screw rod; 333. a slider; 340. mounting a plate; 341. a second mounting hole; 342. a third mounting hole; 350. a guide bar; 500. and a controller.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It will be understood that in the description of the present application, the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application. The terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, i.e. a feature defined as "first", "second" may explicitly or implicitly include one or more of such features. Further, unless otherwise specified, "a plurality" means two or more.

It should be noted that, in the description of the present application, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

As shown in fig. 1 to 3, an embodiment of the present invention provides a shielding cabinet, which includes a shielding cabinet body 10 and a register assembly 30. As shown in fig. 1 to 3, the shielding cabinet body 10 includes a cabinet body 100 and a cabinet door 200, the cabinet body 100 has an accommodating cavity 140, and the cabinet door 200 is hinged to the cabinet body 100 for opening and closing a cavity opening of the accommodating cavity 140 and combining with the cabinet body 100 to form a shielding body. Of course, the cabinet door 200 may be mounted on the cabinet 100 by other methods such as clamping. The main bodies of the cabinet body 100 and the cabinet door 200 are made of electromagnetic shielding materials, and the electromagnetic shielding materials commonly used in the market are metal materials, such as seamless metal plates. The edge of the accommodating cavity 140 is preferably provided with a ring of elastic shielding strip 150 made of electromagnetic shielding material, the elastic shielding strip 150 is in conductive butt joint with the cabinet door 200, and the reliable abutting action between the elastic shielding strip 150 and the cabinet door 200 can be ensured by utilizing the elastic deformation of the elastic shielding strip 150. Specifically, the elastic shielding strip 150 includes a sponge and a conductive cloth, the conductive cloth is wrapped around the sponge, the sponge can elastically deform, and the conductive cloth is in conductive contact with the cabinet door 200, so that a sealed electromagnetic shielding container is formed when the cabinet door 200 is covered with the cabinet body 100. The cabinet 100 is preferably a rectangular metal housing preferably sized as a common luggage case, with the top of the cabinet 100 preferably provided with a handle 120 and the four corners of the bottom preferably provided with support feet 130. Thus, the accommodating cavity 140 is defined as a completely enclosed shielding space, and signals of communication devices such as mobile phones, tablets, computers, recording pens, hosts and the like placed in the space can be completely shielded.

As shown in fig. 1, fig. 2, fig. 4 to fig. 7, optionally, in the present embodiment, the register assembly 30 is disposed in the accommodating cavity 140, and the register assembly includes a plurality of register units 300 stacked in a vertical direction for storing the communication device, and the register units 300 are independent from each other. The register units 300 can be modularized, a preset number of register units 300 can be stacked according to the requirements of the use scene, more diversified use requirements are met, and the space in the shielding cabinet can be adjusted more flexibly. Any two adjacent register units 300 can be detachably connected through plugging, clamping, threaded connection and the like.

As shown in fig. 5 to 12, optionally, in the present embodiment, the register unit 30 further includes a controller 500, the register unit 300 includes a box holder 310, a drawer box 320, and a driving device 330, and the driving device 330 is disposed on the box holder 310 and electrically connected to the controller 500 for driving the drawer box 320 to open and close. Of course, the sliding of the drawer box 320 may be achieved by a manual push-pull manner without providing the driving device 330. The cassette holder 310 has a card protrusion 311 on the top, and the cassette holder 310 has a card slot 312 on the bottom, and for any two adjacent register units 300, the card protrusion 311 on the top of the cassette holder 310 of the lower register unit 300 is inserted into the card slot 312 on the bottom of the cassette holder 310 of the upper register unit 300, so that the two adjacent register units 300 can be quickly aligned and plugged, thereby facilitating the stacking and assembling of the register units 300. The controller 500 may be a processor such as a single chip microcomputer.

Considering that the snap-in projection 311 and the snap-in groove 312 are the assembly stress points for assembling the box holder 310, as shown in fig. 12, alternatively, in the present embodiment, the bottom of the box holder has a plurality of reinforcing ribs 318, and the reinforcing ribs 318 may be preferably arranged in a plurality and arranged uniformly along the extending direction of the box holder 310, and the bottom of the reinforcing ribs 318 is formed with the snap-in groove 312 with downward notches. Thus, the structural strength of the cassette holder 310 can be increased, and the possibility of deformation and damage of the cassette holder 310 can be reduced when a plurality of cassette holders 310 are assembled.

As shown in fig. 5 to 7, optionally, in the present embodiment, the cartridge holder 310 has a first mounting hole 317, the register assembly 30 further includes a mounting plate 340 and a fastener, the mounting plate 340 has a second mounting hole 341 corresponding to the first mounting hole 317, and the fastener passes through the second mounting hole 341 and into the first mounting hole 317 to connect the cartridge holder 310 and the mounting plate 340. It should be understood that all of the cassette holders 310 may be connected to the mounting plate 340, and some of the cassette holders 310 may be connected to the mounting plate 340, such as the uppermost cassette holder 310 and the lowermost cassette holder 310 connected to the mounting plate 340, as long as the cassette holders 310 can be assembled by the mounting plate 340. In this manner, after a predetermined number of register units 300 are completed, the plurality of register units 300 can be assembled by the mounting plates 340 and the fastening members located at both sides of the cassette holder 310. Of course, the adjacent box frames 310 may also be stacked and assembled by means of inserting through the insertion posts and the insertion holes, threaded connection through the threaded holes and the bolts, adhesion, magnetic connection through the magnetic attraction, and the like.

As shown in fig. 4 to 7, optionally, in the present embodiment, the mounting plate 340 has a third mounting hole 342, the connecting portion 141 is disposed at the opening of the accommodating cavity 140, the connecting portion has a fourth mounting hole 141a, and a fastener passes through the third mounting hole 342 and the fourth mounting hole 141a, thereby connecting the cabinet 100 and the register unit 30. Based on this, the register assembly 30 can be stably installed in the accommodating cavity 140. With respect to the above-mentioned connection structure, it should be understood by those skilled in the art that the present application is not limited to the connection between the cabinet 100 and the register unit 30, and the prior art structure capable of detachably connecting the two components is included in the protection scope of the present application.

As shown in fig. 7 to 9, optionally, in this embodiment, the top of the box holder 310 has an opening 313, the bottom of the box holder 310 of the upper register unit 300 is covered on the opening 313 of the box holder 310 of the lower register unit 300, so as to form a storage cavity together with the box holder 310 of the lower register unit 300, and the drawer box 320 is slidably disposed in the storage cavity, that is, the top of the box holder 310 of the upper register unit 300 forms the top cavity wall of the storage cavity, and the box holder 310 of the lower register unit 300 forms the cavity wall of the other portion of the storage cavity. Therefore, on one hand, the manufacturing cost of the box frame 310 is reduced, so that the cost of the whole shielding cabinet is reduced; on the other hand, the register unit 300 can be made more compact, and a larger number of register units 300 can be placed in the same size of the accommodating chamber 140.

The arrangement positions of the protruding portions 311 and the slot portions 312 affect the alignment between the cassette holders 310, if the protruding portions 311 and the slot portions 312 are only arranged on the left and right sides of the cassette holders 310, the cassette holders 310 may have a situation that the front and rear sides are not aligned yet, and if the protruding portions 311 and the slot portions 312 are only arranged on the front and rear sides of the cassette holders 310, the cassette holders 310 may have a situation that the left and right sides are not aligned yet, as shown in fig. 5 to 7.

As shown in fig. 8 to 12, alternatively, in the present embodiment, the cassette holder 310 has a slide groove 314 extending in a certain direction, and the slide groove 314 has a notch 314a facing forward, and specifically, when the register unit 300 is located in the accommodating chamber 140, the notch 314a faces the opening of the accommodating chamber 140. The drawer box 320 includes a box body 321 and a box door 322, the box body 321 is disposed in the sliding slot 314 and can slide back and forth along the extending direction thereof, the driving device 330 can drive the box body 321 to slide, the box door 322 is hinged on the box frame 310, specifically, the box door 322 has a connecting column 322a, the notch 314a of the box frame 310 has a connecting hole 314b, the connecting column 322a can be rotatably inserted into the connecting hole 314b, so that the box door 322 is hinged at the notch 314a, the box door 322 can make the box body 321 slide forward at least partially or completely without limitation when opening the notch 314a, and the box door 322 can make the box body 321 be located in a relatively closed space when closing the notch 314a, thereby protecting the communication device.

As shown in fig. 8, 10 and 13, optionally, in this embodiment, the driving device 330 includes a motor 331, a screw 332 and a slider 333 slidably disposed on the screw 332, the bottom of the box holder 310 has a first through slot 315, the slider 333 passes through the first through slot 315 to be connected to the drawer box 320, specifically, to be connected to the bottom of the box body 321, and the motor 331 is configured to drive the slider 333 to drive the drawer box 320 to slide. Based on this, the motor 331 drives the box 321 to slide through the transmission of the screw rod 332. Of course, the driving device 330 can also be a push rod or other driving means, as long as it can drive the box body 321 to slide along the sliding slot 314.

As shown in fig. 9 and 10, the drawer box 320 can reach the first state and the second state by the driving of the driving device 330, when the drawer box 320 reaches the first state, the box door 322 is turned over by a predetermined angle toward a direction away from the notch 314a and opens the notch 314a, and the box body 321 at least partially extends out of the notch 314a, specifically, the box body 321 can partially extend out of the notch 314a and can also completely extend out of the notch 314a, so that a user can conveniently place a communication device such as a mobile phone into the box body 321; when the drawer box 320 reaches the second state, the box door 322 is turned toward a direction close to the slot 314a and closes the slot 314a, and the box body 321 is located in the slot 314a, at which time the communication device is located in the box holder 310, thereby functioning to store and protect the communication device.

In order to prevent the box body 321 from being obstructed or interfered by the box door 322 when sliding, as shown in fig. 10, optionally, in the present embodiment, the drawer box 320 includes a linkage assembly 323 disposed between the box body 321 and the box door 322, when the driving device 330 drives the box body 321 to slide forward, i.e., to slide toward the opening of the accommodating chamber 140, the box body 321 drives the box door 322 to turn toward a direction away from the notch 314a through the linkage assembly 323, and when the driving device 330 drives the box body 321 to slide backward, i.e., to slide toward the accommodating chamber 140, the box body 321 drives the box door 322 to turn toward a direction close to the notch 314a through the linkage assembly 323. So, need not to set up solitary drive arrangement 330 for box door 322, only need set up and be used for driving the gliding drive arrangement 330 of box body 321, can realize the upset that the slip of box body 321 drove box door 322 through linkage assembly 323, mechanical structure linkage is more reliable, reduces box body 321 and box door 322 and takes place the possibility of interfering or colliding, hinders the slip of box body 321 when preventing the drive arrangement 330 that drives the upset of box door 322 to avoid the damage of box body 321 and box door 322.

Of course, in other embodiments, the driving device 330 may also be configured to drive the cassette door 322 to flip, when the driving device 330 drives the cassette door 322 to flip in a direction away from the slot 314a, the cassette door 322 drives the cassette body 321 to slide forward through the linkage assembly 323, and when the driving device 330 drives the cassette door 322 to flip in a direction close to the slot 314a, the cassette door 322 drives the cassette body 321 to slide backward through the linkage assembly 323.

As shown in fig. 10 and 14 to 16, optionally, in the present embodiment, the linkage assembly 323 includes a guide groove 321a disposed on an outer side wall of the box body 321 and a first guide portion 322b disposed on an inner side wall of the box door 322, the first guide portion 322b may be embodied in the form of a boss, a pin, a flange, and the like, and is slidably disposed in the guide groove 321a, when the first guide portion 322b slides toward one end of the guide groove 321a, the box door 322 is turned toward a direction away from the notch 314a, and when the first guide portion 322b slides toward the other end of the guide groove 321a, the box door 322 is turned toward a direction close to the notch 314a.

In other embodiments, the guiding groove 321a may be disposed on an inner sidewall of the box door 322, and the first guiding portion 322b is disposed on an outer sidewall of the box body 321, so as to achieve the function of sliding the box body 321 to drive the box door 322 to turn over or the box door 322 to turn over to drive the box body 321 to slide.

Of course, the linkage assembly 323 can also be a link structure or other configurations, as long as the box body 321 can slide and drive the box door 322 to turn over.

As shown in fig. 14 and 15, alternatively, in the present embodiment, the guide slot 321a includes a first slot segment 321b and a second slot segment 321c connected in sequence, the first slot segment 321b and the second slot segment 321c form a predetermined angle therebetween, and the predetermined angle may be a right angle or an obtuse angle, when the first guide portion 322b is located in the first slot segment 321b, the box door 322 is at an angle with respect to the horizontal plane, and when the first guide portion 322b is located in the second slot segment 321c, the box door 322 is parallel to the horizontal plane. So, when drive arrangement 330 drive box body 321 slided forward, first guide 322b slides in first groove section 321b, and because the limiting displacement of guide way 321a, first guide 322b moves along with box body 321 forward to make box door 322 overturn towards the direction that deviates from notch 314a, when first guide 322b slides to in the second groove section 321c, box door 322 overturns to the surface and is parallel with the horizontal plane, thereby can not hinder box body 321 to slide to stretching out notch 314a. When the driving device 330 drives the box 321 to slide backward, the first guiding portion 322b slides from the second slot section 321c into the first slot section 321b, so that the box door 322 turns to close the slot 314a toward the direction close to the slot 314a. Of course, the guide groove 321a may have an arc shape, more groove segments, or other configurations, as long as it is achieved that the cassette door 322 is parallel to the horizontal plane when the first guide portion 322b reaches the first predetermined position in the guide groove 321a, and the cassette door 322 closes the notch 314a when the first guide portion 322b reaches the second predetermined position in the guide groove 321 a.

As shown in fig. 14 and 15, in the present embodiment, the guide groove 321a has a first notch 321d, and specifically, the first notch 321d is provided at the first groove section 321b or the second groove section 321c, and the first notch 321d can be penetrated by the first guide portion 322 b. In this way, the first guide portion 322b is easily inserted into the guide groove 321a, thereby facilitating assembly of the cassette body 321 and the cassette door 322.

In view of the convenience of accessing the communication device, as shown in fig. 14, alternatively, in the present embodiment, the box body 321 defines a placing position for placing the communication device, and one end of the box body 321 facing the box door 322 has a box opening 321e, so that when the box door 322 is turned over and opens the notch 314a and the box body 321 extends out of the notch 314a, the user does not need to extend into the placing position to access the communication device, and the box opening 321e is set so that the user can directly access the communication device from the box opening 321e, which is more convenient and faster.

Considering that if the user places the communication device in the box body 321, the communication device such as a mobile phone, a tablet, a computer, etc. is flat, and when the communication device is placed in the placement position, the communication device will be attached to the inner bottom wall of the box body 321, which makes the communication device difficult to take, as shown in fig. 14 and fig. 15, optionally, in this embodiment, the bottom wall of the box body 321 close to the box opening 321e has a second notch portion 321f, and the second notch portion 321f is disposed toward the box opening 321e, and at least a part of the second notch portion is arc-shaped, but may also be other shapes such as triangle, trapezoid, etc., and it is only necessary to suspend a part of the area of the communication device when the communication device is placed in the placement position, and at this time, the communication device can be removed from the box body 321 only by clamping with a hand, and the taking is more convenient.

Considering that the box body 321 may move or loosen in the vertical direction during the sliding process, as shown in fig. 10, 11, 14 and 15, optionally, in this embodiment, the outer side wall of the box body 321 has a second guiding portion 321g, the inner side wall of the box frame 310 has a limiting portion 316 corresponding to the second guiding portion 321g, specifically, the second guiding portion 321g is a convex strip, the convex strip extends along the extending direction of the sliding slot 314, the limiting portion 316 is a limiting snap, and the limiting portion 316 is disposed above the second guiding portion 321g, so as to limit the box body 321 to slide along the extending direction of the sliding slot 314, and avoid the vertical movement or loosening. Of course, the box 321 and the box holder 310 may also be limited in the sliding direction of the box 321 by other arrangements such as a guide groove and a guide portion. Preferably, the limiting portion 316 is provided in a plurality of numbers, and the plurality of limiting portions 316 are arranged in a uniform array along the extending direction of the sliding slot 314, so as to ensure a better limiting and guiding effect.

Considering that in an actual usage scenario, when the drawer box 320 reaches the first state, the user may not put the communication device into the box body 321 for more than a limited period of time, and when the drawer reaches the second state, the communication device is not stored in the box body 321, which may cause the shielded cabinet to be easily mistakenly stored, as shown in fig. 13 to 15 and 17, optionally, in this embodiment, the shielded cabinet further includes a first sensor 710, and the first sensor 710 is electrically connected to the controller 500 for detecting whether the communication device is put into the drawer box 320. Specifically, the bottom of the box body 321 has a second through groove 321h, the second through groove 321h extends along the sliding direction of the box body 321, the cassette rack 310 is provided with a first sensor 710, the first sensor 710 is a photoelectric sensor or an infrared sensor, when the drawer box 320 is switched between the first state and the second state, a projection of the first sensor 710 along a direction perpendicular to the bottom surface of the box body 321 is partially overlapped with a projection of the second through groove 321h along a direction perpendicular to the bottom surface of the box body 321, or a projection of the first sensor 710 along a direction perpendicular to the bottom surface of the box body 321 is always located in a projection range of the second through groove 321h along a direction perpendicular to the bottom surface of the box body 321, that is, the first sensor 710 can always detect whether the communication device is placed in the placement position of the box body 321 through the second through groove 321h, thereby ensuring the detection accuracy of the first sensor 710. Of course, the first sensor 710 may be disposed at other positions, such as a side wall or a bottom wall of the box body 321, as long as it can detect whether the communication device is placed in the placement position of the box body 321. In addition, the first sensor 710 may be another sensor such as a pressure sensor, so long as it can receive a certain physical quantity (e.g., gravity) sent by the communication device and transmit a signal to the controller 500 to determine whether the communication device is placed.

Considering that in an actual usage scenario, when a user puts in a communication device, the communication device may interfere with the box door 322 or the box body 321 when the drawer box 320 is switched from the first state to the second state due to an unreasonable placement position, for example, when the communication device is placed at the box opening 321e, the box door 322 is jammed when turning toward the notch 314a and cannot be turned to the notch 314a, or when the box body 321 slides backward, the communication device is jammed and cannot slide backward, as shown in fig. 17, optionally, in this embodiment, the shielding cabinet further includes a second sensor 720, and the second sensor 720 is electrically connected to the controller 500 for detecting whether a foreign object is jammed in the drawer box 320. Specifically, the second sensor 720 may be a current-voltage sensor, which is connected to the motor 331. When the motor 331 drives the box body 321 to slide forwards or backwards and drives the box door 322 to turn over, the box door 322 or the box body 321 interferes with the communication device, so that the current of the motor 331 is increased and exceeds a preset threshold value, the second sensor 720 detects that the current of the motor 331 exceeds the threshold value, and transmits a signal to the controller 500, so that a foreign matter clamping fault is determined to occur, and thus, the fault detection when the drawer box 320 is switched between the first state and the second state can be realized, and the subsequent fault resolution is facilitated. Of course, the second sensor 720 may also be an angle sensor, a position sensor, or other configurations, such as detecting that the turning angle of the box door 322 does not reach a predetermined angle, or the box 321 does not move to a predetermined travel, or the like, as long as it can detect that the position or state of the box 321 or the box door 322 is abnormal.

In order to prevent the box body 321 from sliding forward or backward beyond a limit, as shown in fig. 13 and 15, optionally, in the present embodiment, the shielding cabinet further includes a third sensor 730 disposed inside the drawer box 320, and the third sensor 730 is electrically connected to the controller 500 for detecting whether the drawer box 320 reaches the first state and the second state. Specifically, it is possible to detect whether the drawer box 320 reaches the first state and the second state by detecting whether the box body 321 reaches a first limit position where the box body 321 protrudes out of the slot 314a corresponding to the drawer box 320 reaching the first state and a second limit position where the box body 321 is located in the slot 314a corresponding to the drawer box 320 reaching the second state. The bottom of the box 321 has a trigger 321i, the box holder 310 has a placement groove 314c, the placement groove 314c extends along the extending direction of the sliding groove 314, the front and rear ends of the placement groove 314c are both provided with a third sensor 730, the third sensor 730 is a position sensor, such as an optical coupler, and the like, the trigger 321i is a baffle and the like, which can be detected by the position sensor to detect position information, when the box 321 slides to a first limit position, the trigger 321i reaches the third sensor 730 at the front end of the placement groove 314c, the third sensor 730 detects a position signal and transmits the position signal to the controller 500, the controller 500 controls the motor 331 to stop the box 321 from further sliding forward, when the box 321 slides to a second limit position, the trigger 321i reaches the third sensor 730 at the rear end of the placement groove 314c, and the controller 500 controls the motor 331 to stop the box 321 from further sliding backward. Of course, the shielding cabinet may also adopt other in-place sensing detection modes such as an infrared sensor, as long as the specific position information of the box body 321 can be detected and transmitted to the controller 500, and then it is determined that the drawer box 320 is in the first state or the second state.

To sum up, the utility model provides a deposit subassembly and include its shielding cabinet compares with prior art, includes following beneficial effect at least:

first, this deposit subassembly adopts this modular design of depositing the unit, can be according to the user demand, and the unit of depositing of selecting suitable quantity piles up and forms to the shielding cabinet of different specifications of adaptation size satisfies diversified deposit demand.

Secondly, the box frame of the deposit component is provided with an opening, and a storage cavity is enclosed by the box frames arranged up and down, so that the manufacturing cost of the box frame is reduced, and the cost of the whole deposit component is reduced; on the other hand, the structure of the register unit is more compact, and a larger number of register units can be placed in a shielding cabinet with a certain space.

Thirdly, because the drawer box is located in the box holder for sliding, when the drawer box is opened to controller control drive arrangement, the drawer box slides forward for the accent in the chamber of depositing of drawer box is opened, thereby it is more convenient to make the user get and put communication equipment, need not to stretch into and deposit the intracavity and get and put communication equipment, and user experience is better.

Fourthly, the box body of the drawer box and the box door are linked by the linkage assembly, the mechanical structure linkage is more reliable, the possibility of interference or collision between the box body and the box door is reduced, a plurality of driving devices are not needed, and the structure is simpler and more compact.

Fifth, the utility model provides a pair of shielding cabinet is owing to adopted foretell locker subassembly, and the adjustment in deposit space is more nimble, and the structure is more compact, satisfies different use scenes.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (21)

1. The utility model provides a deposit subassembly, a serial communication port, including depositing the unit, it includes box holder and drawer box to deposit the unit, the drawer box includes box body, box door and locates the box body with linkage subassembly between the box door, the box holder has the spout, the spout has notch forward, box body slidable locate in the spout, the box door articulate in notch department, the linkage subassembly makes when the box body slides forward the box door orientation deviates from the orientation upset of notch, and make when the box body slides backward the box door orientation is close to the orientation upset of notch.

2. The register assembly of claim 1, wherein the linkage assembly comprises a guide slot disposed on an outer side wall of the box body and a first guide portion disposed on an inner side wall of the box door, the first guide portion is slidably disposed in the guide slot, and when the first guide portion slides toward one end of the guide slot, the box door is turned in a direction away from the slot opening; when the first guide part slides towards the other end of the guide groove, the box door turns towards the direction close to the notch.

3. The register assembly of claim 1, wherein the linkage assembly comprises a first guide portion disposed on an outer side wall of the box body and a guide slot disposed on an inner side wall of the box door, the first guide portion is slidably disposed in the guide slot, and when the first guide portion slides toward one end of the guide slot, the box door is turned in a direction away from the slot opening; when the first guide part slides towards the other end of the guide groove, the box door turns towards the direction close to the notch.

4. The register assembly of claim 2 or 3, wherein the guide slot comprises a first slot section and a second slot section connected in series, the first slot section and the second slot section forming a predetermined angle therebetween, the cassette door being angled relative to a horizontal plane when the first guide portion is positioned within the first slot section, and the cassette door being parallel to the horizontal plane when the first guide portion is positioned within the second slot section.

5. The register assembly according to claim 4, wherein said guide groove has a first notched portion through which said first guide portion can pass.

6. The register assembly of claim 4, wherein the guide slots are arranged in an arc.

7. The register file according to claim 1, wherein an end of said box body facing said box door has a box opening.

8. The register assembly of claim 7, wherein the bottom wall of the cassette body adjacent the cassette opening has a second notch portion.

9. The register assembly according to claim 1, wherein the outer sidewall of the box body has a second guiding portion, and the inner sidewall of the box holder has a limiting portion corresponding to the second guiding portion, the limiting portion being configured to limit the box body to slide along the extending direction of the sliding groove.

10. The register module according to claim 9, wherein said plurality of said position-restricting portions are provided in plurality, and said plurality of said position-restricting portions are arranged in a uniform manner along the extending direction of said slide groove.

11. The register file according to claim 1, wherein said register unit is provided in plural, and a plurality of said register units are stacked in a vertical direction.

12. The register assembly of claim 11, wherein said cassette holder has an open top, and wherein in any adjacent two of said register units, the bottom cover of the upper cassette holder is disposed in the open bottom of the lower cassette holder to form a storage cavity, and said drawer is slidably disposed in said storage cavity.

13. The register module according to claim 12, wherein said cassette holder has a latching portion at a top portion thereof, and a latching portion at a bottom portion thereof, said latching portion being inserted into said latching portion to latch said cassette holders of any adjacent two of said register units.

14. The register assembly according to claim 13, wherein the bottom of the cassette holder has a reinforcing rib, and the bottom of the reinforcing rib is formed with the catching groove.

15. The registration assembly of claim 13, wherein the cassette holder has a first mounting hole, the registration assembly further comprising a mounting plate having a second mounting hole corresponding to the first mounting hole and a fastener passing through the second mounting hole and into the first mounting hole to connect the cassette holder and the mounting plate.

16. The registration assembly of claim 12, wherein the side walls of the cassette holder have recesses, a plurality of the recesses of the cassette holder defining positioning slots, the registration assembly further comprising a guide strip disposed within the positioning slots.

17. The register file according to claim 12, wherein the cassette holder has a slot portion at a top thereof, and a convex portion at a bottom thereof, the convex portion being inserted into the slot portion to allow the cassette holders of any adjacent two of the register units to be engaged.

18. The registration assembly of claim 12, wherein the cassette frames of any two adjacent registration units are connected by screwing, gluing, plugging or magnetism.

19. The register file according to claim 1, further comprising a driving device and a controller, wherein the driving device is disposed on the box frame and electrically connected to the controller for driving the box body to slide.

20. The register assembly according to claim 19, wherein the driving device comprises a motor, a screw rod, and a sliding block slidably disposed on the screw rod, the bottom of the box holder has a first through slot, the sliding block is connected to the drawer box through the first through slot, and the motor is configured to drive the sliding block to slide the drawer box.

21. A shielding cabinet, characterized in that, includes shielding cabinet body and the subassembly of depositing of any one of claims 1-20, shielding cabinet body includes the cabinet body and cabinet door, the cabinet body has holds the chamber, the cabinet door is used for the switching hold the accent in chamber to with the cabinet body combination becomes the shielding body, deposit the unit and locate hold the intracavity.

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