CN212381509U - Monitoring cabinet and monitoring system based on cabinet space occupation detection - Google Patents

Abstract

The utility model is suitable for a rack equipment discloses control rack and monitored control system based on rack space occupies detection, wherein, the control rack is including the rack body that has a plurality of equipment fixing positions, the control rack still including set up in this internal installing support of rack, can by install in the detection piece that the equipment of equipment fixing position triggered and with the detection module that the detection piece is connected, the installing support interval is provided with a plurality of adjustable mounted position's connection structure, the detection piece passes through connection structure detachable connect in the installing support. The utility model provides a control rack and monitored control system based on rack space occupies and detects, control rack simple structure, the management operation of being convenient for, and the cost is lower, can carry out accurate detection to the occupation condition of U position simultaneously.

Description

Monitoring cabinet and monitoring system based on cabinet space occupation detection

Technical Field

The utility model belongs to rack equipment field especially relates to control rack and monitored control system based on rack space occupies the detection.

Background

In the current digital and information age, a large amount of information is transmitted through a network, and a data center becomes an important component in information transmission. In order to facilitate management, network devices such as servers and network communication devices in a data center need to be stored in a cabinet, and background management personnel need to monitor and manage the occupation condition of a U bit (i.e., a device installation position) of the cabinet and assets such as servers stored in the cabinet.

In the prior art, asset management and U bit occupation are generally managed in the forms of asset tags, infrared monitoring or NFC technology, but these management technologies or methods are all insufficient, for example, the asset tags have high use cost, are tedious to manage, and are prone to careless omission due to manual operation; infrared monitoring requires attaching source infrared tags to a server and a U position, so that the cost is high and the service life is limited by a battery; the NFC (Near Field Communication)/RFID (Radio Frequency Identification) technology cannot accurately detect U bits, and cannot detect devices occupying multiple U bits.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of above-mentioned technical problem at least, provide control rack and monitored control system based on rack space occupies the detection, its simple structure, the management operation of being convenient for, and the cost is lower, can carry out accurate detection to the occupation condition of U position simultaneously.

The technical scheme of the utility model is that: monitoring rack based on rack space occupies detection, including the rack body that has a plurality of equipment fixing position, the monitoring rack still including set up in this internal installing support of rack, can by install in the detection piece that the equipment of equipment fixing position triggered and with the detection module that the detection piece is connected, the installing support interval is provided with the connection structure of a plurality of adjustable mounted position, the detection piece passes through connection structure detachable connect in the installing support.

Optionally, the connecting structure includes a fixing seat adjustably connected to the mounting bracket and used for connecting the detecting element, and the fixing seat is provided with a fixing groove for inserting the detecting element; or, connection structure including fixed connection in installing support just is used for connecting the fixing base of detection piece, the fixing base with through spout and sliding rail connection between the detection piece.

Optionally, a conductive member that can contact with an electrode of the detection member after the detection member is inserted into the fixing groove is disposed in the fixing groove, and the conductive member is connected to the detection module.

Optionally, a conductive groove for inserting the electrode is formed in the groove bottom of the fixing groove, and the conductive piece is arranged in the conductive groove and is in interference connection with the electrode; and/or, the detection piece is connected with the fixing groove in an interference fit manner or in a buckling manner.

Optionally, the connection structure further includes an adjusting stud disposed on two sides of the mounting bracket, an adjusting spring sleeved on the adjusting stud, and an adjusting nut screwed on the adjusting stud, wherein two sides of the fixing seat are provided with convex edges, the convex edges are provided with through holes for the adjusting stud to pass through, one end of the adjusting spring abuts against the mounting bracket, the other end of the adjusting spring abuts against the back of the convex edge, and the adjusting nut screwed on the adjusting stud abuts against the front of the convex edge.

Optionally, the mounting bracket is provided with a wiring groove, the connecting structure is arranged on the front surface of the mounting bracket, the front surface of the mounting bracket faces the equipment mounting position, and the wiring groove is arranged on the back surface of the mounting bracket.

Optionally, the installing support still is provided with and is used for adjusting the installing support with the regulation structure of equipment fixing position interval, adjust the structure including be used for with this body coupling's of rack connecting plate with set up in the regulating plate of installing support both sides, the regulating plate or/and the connecting plate level is provided with at least two regulation holes that are used for supplying the fastener to pass, the regulating plate pass through the fastener connect in the connecting plate.

Optionally, the mounting bracket is connected to the upright post of the cabinet body, and the connecting structures are sequentially arranged at intervals along the length direction of the mounting bracket.

Optionally, the detection member is a microswitch or a travel switch or a contact switch.

The utility model also provides a monitored control system based on rack space occupies the detection, including server and the foretell control rack based on rack space occupies the detection.

The utility model provides a control rack and monitored control system based on rack space occupies detection, the control rack will detect the piece and pass through connection structure detachable connection on the installing support, and detect the piece and can carry out appropriate adjustment to the mounted position and the installation quantity that detect the piece according to the size and the mounted position of installing in this internal equipment of rack, make equipment fixing trigger rather than corresponding detection piece behind the equipment fixing position of rack body, and monitor through the detection module who is connected with the detection piece, thereby the complicated and higher shortcoming of cost of management among the prior art has been solved, have simple structure and the characteristics of management simple operation, and can adjust to different equipment, improve the accuracy of control.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of a monitoring cabinet based on cabinet space occupation detection according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a monitoring cabinet (without a cabinet body) based on cabinet space occupation detection according to an embodiment of the present invention;

fig. 3 is a front view of a monitoring cabinet (without a cabinet body) based on cabinet space occupation detection provided by an embodiment of the present invention;

fig. 4 is a top view of a monitoring cabinet (a first possible implementation of a fixing base, without a cabinet body) based on cabinet space occupation detection provided by an embodiment of the present invention;

fig. 5 is a top view of a monitoring cabinet (a second possible implementation of a fixing base, without a cabinet body) based on cabinet space occupation detection provided by an embodiment of the present invention;

fig. 6 is a schematic perspective view of a fixing base of a monitoring cabinet based on cabinet space occupation detection according to an embodiment of the present invention;

fig. 7 is a front view of a fixing seat of a monitoring cabinet based on cabinet space occupation detection provided by an embodiment of the present invention;

fig. 8 is a top view of a fixing base of a monitoring cabinet based on cabinet space occupation detection according to an embodiment of the present invention;

fig. 9 is a top view of the detecting element of the monitoring cabinet based on the cabinet space occupation detection provided by the embodiment of the present invention.

In the figure:

10. a cabinet body; 101. an equipment installation position; 102. a column; 103. a groove;

20. mounting a bracket; 201. an adjusting plate; 202. a connecting plate; 203. an installation opening; 204. a wiring groove;

21. a fixed seat; 211. fixing grooves; 212. a conductive slot; 213. a limiting bulge; 214. a conductive member; 215. a convex edge; 216. adjusting the stud; 217. adjusting the nut; 218. adjusting the spring;

22. a detection member; 221. a switch body; 222. fixing a contact point; 223. an action reed; 224. a roller; 225. an electrode; 226. and a limiting groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that the terms "disposed" and "connected" should be interpreted broadly, and may be, for example, directly disposed or connected, or indirectly disposed or connected through intervening elements or intervening structures.

In addition, in the embodiments of the present invention, if there are terms of orientation or positional relationship indicated by "longitudinal", "lateral", "length", "width", "thickness", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., it is based on the orientation or positional relationship shown in the drawings or the conventional placement state or use state, and it is only for convenience of description and simplification of the description, but does not indicate or imply that the structures, features, devices or elements referred to must have a specific orientation or positional relationship, nor must be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The various features and embodiments described in the detailed description may be combined in any suitable manner, for example, different embodiments may be formed by combining different features/embodiments, and various combinations of features/embodiments are not separately described in order to avoid unnecessary repetition in the present disclosure.

As shown in fig. 1 to fig. 3, the monitoring cabinet based on the occupied space detection of the cabinet provided by the embodiment of the present invention includes a cabinet body 10 having a plurality of equipment installation sites 101 (i.e. U sites of the cabinet body 10), a mounting bracket 20 disposed in the cabinet body 10, a detection member 22 capable of being triggered by equipment installed in the equipment installation sites 101, and a detection module (not shown in the figure) connected to the detection member 22, wherein the mounting bracket 20 may be connected to a side wall in the cabinet body 10 or may be connected to a column 102 of the cabinet body 10; the mounting bracket 20 is provided with a plurality of connection structures capable of adjusting the mounting positions at intervals, and the detecting member 22 is detachably connected to the mounting bracket 20 through the connection structures. Before the device is installed in the device installation site 101, the detection member 22 may be connected to the installation bracket 20 through a connection structure on the installation bracket 20 corresponding to the device installation site 101 to be occupied by the device according to the condition of the device installation site 101 occupied by the device (i.e., how many U bits the device needs to occupy). In a specific application, one device may correspond to only one detecting element 22, or may correspond to a plurality of detecting elements 22, or of course, as shown in fig. 2, the detecting elements 22 may be directly connected to all the connecting structures of the mounting bracket 20, and then the device is mounted on the device mounting location 101. Equipment is put into in rack body 10 and is installed in equipment fixing position 101 back, positions such as the side of equipment or tip can trigger detection piece 22, detection piece 22 alright with corresponding signal transmission to detection module, and detection module can receive the signal that each detection piece 22 on the installing support 20 sent, and generate the occupation information of rack body 10 and upload to the server or send to management terminal, make managers can learn the occupation condition in rack body 10 space in real time, realize promptly that the occupation condition to equipment fixing position 101 (being the U bit) of rack body 10 carries out real time monitoring. It is understood that the position where the device can trigger the detecting member 22 after the device is installed in the device installation site 101 is not limited to the side or end of the device, but not only refers to the side of the device (including the front, back, left, and right sides), but also includes the top and bottom surfaces of the device near the side. Such design, can make equipment put into and install in rack body 10 back, directly monitor the occupation condition of equipment fixing position 101 through detection piece 22, compare in prior art, the embodiment of the utility model provides a need not to use the asset label, also need not paste infrared label on equipment or equipment fixing position 101, have simple structure, the convenient and lower characteristics of cost of management operation to detection piece 22 is detachable design, and detection piece 22 can set up according to the size of a dimension of equipment, and the practicality is good, and to the equipment fixing position 101 of not installing equipment, can lift idle detection piece 22 off, install detection piece 22 in installing support 20 when the installation again, thereby further reduce cost. Meanwhile, when the monitoring cabinet is maintained, one of the detection pieces 22 can be replaced and maintained, so that the maintenance convenience is improved.

Specifically, as shown in fig. 2, the mounting brackets 20 are connected to the pillars 102 of the cabinet body 10, and the connecting structures are sequentially arranged at intervals along the length direction of the mounting brackets 20. In this embodiment, the mounting bracket 20 has a long structure, and the mounting bracket 20 may be made of a metal material, such as carbon steel, stainless steel, or aluminum alloy, and may of course be made of a polymer material such as plastic; the upright 102 in this embodiment is provided with a groove 103 along its length for receiving the mounting bracket 20. referring to fig. 4, the upright 102 may be substantially U-shaped in cross-section. In a specific application, the columns 102 may be disposed on two sides of the equipment installation site 101, and the installation bracket 20 may be disposed on one of the columns 102, or may be disposed on both of the columns 102.

In particular, the detecting member 22 may be a micro switch, a travel switch or a proximity switch, but other contact type or non-contact type switches may be used. In this embodiment, a micro switch is taken as an example, as shown in fig. 9, the micro switch includes a switch body 221, a fixed contact 222 disposed at the front end of the switch body 221, an electrode 225 disposed at the rear end of the switch body 221, and an action reed 223 connected to the front end of the switch body 221, wherein one end of the action reed 223 is a connection end connected to the switch body 221, the other end of the action reed 223 is a roller end provided with a roller 224 and far away from the switch body 221, the roller 224 is disposed at the front side of the action reed 223 and can contact with a device mounted on the device mounting location 101, the fixed contact 222 can abut against the back side of the action reed 223, and the fixed contact 222 can be disposed at one side of the switch body 221 close to the connection. Further, the micro switch in this embodiment may be horizontally disposed, the action reed 223 may be made of a metal material, such as carbon steel, stainless steel, and the like, and the action reed 223 may face the equipment installation location 101, and a rotation direction of the roller 224 may be the same as a direction in which the equipment is inserted into the equipment installation location 101, that is, when the equipment is inserted into the equipment installation location 101, the equipment may contact with the roller 224 and roll the roller 224, so as to avoid direct rigid contact between the equipment and the action reed 223, and avoid scratching of the equipment by the action reed 223. When the equipment is inserted into the equipment installation position 101, the equipment can be firstly contacted with the roller 224, and the roller 224 can guide the equipment to be smoothly inserted into the equipment installation position 101; when the device contacts the roller 224, the device presses the roller end of the actuation reed 223 toward the switch body 221, so that the back surface of the actuation reed 223 presses the fixed contact 222, thereby triggering the micro switch. Furthermore, the roller 224 may be made of an insulating material, such as plastic, ceramic, and the like, and a buffer sleeve (not shown in the figure) may be sleeved on the action reed 223, where the buffer sleeve may be made of rubber, plastic, or foam, and the like, so as to prevent the equipment from being scratched when an operator carelessly contacts the equipment with the action reed 223, and at the same time, prevent static electricity from being generated between the action reed 223 and the roller 224 and the equipment, and further ensure the safety of the equipment.

Specifically, as shown in fig. 4 and fig. 6, as a first possible implementation manner of the connection structure of the present embodiment, the connection structure may include a fixing base 21 adjustably connected to the mounting bracket 20 and used for connecting the detection member 22, the fixing base 21 is provided with a fixing groove 211 for inserting the detection member 22, after the detection member 22 is inserted into the fixing groove 211, the fixing base 21 may adjust the distance between the detection member 22 and the equipment installation site 101, so that the detection member 22 can be triggered after different types and sizes of equipment are installed on the equipment installation site 101, thereby ensuring the detection accuracy of the detection member 22.

Specifically, as shown in fig. 6, a conductive member 214 is disposed in the fixing groove 211, and the conductive member 214 may be connected to a detection module (not shown), and when the detection member 22 is inserted into the fixing groove 211, an electrode 225 of the detection member 22 may contact the conductive member 214 to turn on the detection member 22, and connect the detection member 22 to the detection module, so that the detection member 22 can operate and transmit a signal to the detection module.

More specifically, as shown in fig. 7 to 9, the bottom of the fixing groove 211 is provided with a conductive groove 212 for inserting the electrode 225, and the conductive members 214 can be disposed in the conductive groove 212, in this embodiment, three electrodes 225 of the detecting member 22 are disposed at intervals, the number of the conductive members 214 can correspond to the number of the electrodes 225 of the detecting member 22, the number of the conductive grooves 212 can correspond to the number of the conductive members 214, the electrodes 225 of the detecting member 22 can be in a sheet shape and connected to the bottom of the detecting member 22, in a specific application, the shape of the electrodes 225 can be different from the shape of the detecting member 22, and the shapes, the disposition positions, the disposition numbers, and the like of the conductive grooves 212 and the conductive members 214 can be selected according to the electrodes 225 of the detecting member 22. When the detecting member 22 is inserted into the fixing groove 211, the electrode 225 of the detecting member 22 is inserted into the conductive groove 212 and connected to the conductive member 214 in the conductive groove 212. Further, after the electrode 225 of the detecting element 22 is inserted into the conductive slot 212, the electrode 225 may be connected with the conductive element 214 in an interference fit manner, so that the electrode 225 and the conductive element 214 may be always reliably connected, and the reliability of the detecting element 22 is improved.

Furthermore, the detecting element 22 may be connected to the fixing groove 211 by interference fit or snap fit, in this embodiment, as shown in fig. 7, a limiting protrusion 213 is disposed on a wall of the fixing groove 211, a limiting groove 226 (see fig. 9) engaged with the limiting protrusion 213 is disposed on an upper side of a wall of the detecting element 22, and after the detecting element 22 is inserted into the fixing groove 211, the limiting protrusion 213 may be snapped into the limiting groove 226, so that the detecting element 22 is more stably connected to the fixing groove 211. In a specific application, the limiting protrusion 213 may be disposed on a sidewall of the detecting member 22, and the limiting groove 226 may be disposed on a wall of the fixing groove 211.

As a second possible implementation manner of the connection structure of the present embodiment, the connection structure may include a fixing base 21 fixedly connected to the mounting bracket 20 and used for connecting the detecting member 22, and the fixing base 21 and the detecting member 22 are connected through a sliding chute and a sliding rail.

Specifically, fixing base 21 or detection piece 22 can set up the state warning light, and after detection piece 22 connected in fixing base 21, the color of state warning light can be lighted or switched over to the state warning light to indicate operating personnel detection piece 22 has connected, in the specific application, fixing base 21 also can set up bee calling organ, and after detection piece 22 connected in fixing base 21, bee calling organ sounds and indicates operating personnel. When the device installed in the device installation site 101 is pressed against and triggers the detection member 22, the corresponding status notification lamp may be turned on or switched in color. For example, when the detecting member 22 is not triggered, the corresponding status indicator light is displayed in red, and when the detecting member 22 is triggered by the corresponding device, the corresponding status indicator light may be switched to green or may flash.

Specifically, as shown in fig. 4 and fig. 6, as a first possible implementation manner of the fixing base 21 of the present embodiment, protruding edges 215 are disposed on two sides of the fixing base 21, and the protruding edges 215 are provided with through holes through which fasteners can be used to pass to connect the fixing base 21 to the mounting bracket 20. In this embodiment, the fixing base 21 is a rectangular parallelepiped structure, and the convex edges 215 may be disposed on two sides of the fixing base 21 in the length direction.

Specifically, as shown in fig. 5, as a second possible implementation manner of the fixing base 21 of this embodiment, the connecting structure further includes an adjusting stud 216 disposed on two sides of the mounting bracket 20, an adjusting spring 218 sleeved on the adjusting stud 216, and an adjusting nut 217 screwed to the adjusting stud 216, two sides of the fixing base 21 are provided with a protruding edge 215, the protruding edge 215 is provided with a through hole for the adjusting stud 216 to pass through, one end of the adjusting spring 218 abuts against the mounting bracket 20, the other end of the adjusting spring 218 abuts against the back surface of the protruding edge 215, and the adjusting nut 217 is screwed to the adjusting stud 216 and abuts against the front surface of the protruding edge 215. The adjusting spring 218 may be always in a compressed state, and when the device is installed in the device installation location 101 and the detecting element 22 cannot be triggered, the adjusting nut 217 may be unscrewed (i.e. in a direction away from the adjusting stud 216), and the fixing base 21 moves in a direction of the device under the action of the compressed adjusting spring 218, so that the detecting element 22 connected to the fixing base 21 approaches the device and triggers the detecting element 22. Due to the design, equipment with different models and sizes can be installed on the equipment installation position 101 to trigger the detection piece 22, adverse effects caused by manufacturing tolerances of the equipment or the cabinet body 10 and the like can be eliminated, and the practicability of the monitoring cabinet is improved.

Further, after the detection piece 22 is connected with the fixing seat 21, the state prompting lamp can switch states (such as lighting or switching display colors), after the equipment is installed on the equipment installation position 101, the distance between the detection piece 22 and the equipment installation position 101 can be adjusted, so that the equipment triggers the detection piece 22, at the moment, the state prompting lamp can switch states again (such as switching display colors or flickering), prompts an operator that the current equipment triggers the detection piece 22, and facilitates the operator to adjust the detection piece 22.

Specifically, as shown in fig. 4, the mounting bracket 20 is provided with a wiring slot 204, the fixing seat 21 is disposed on the front surface of the mounting bracket 20, the front surface of the mounting bracket 20 faces the equipment mounting location 101, and the wiring slot 204 is disposed on the back surface of the mounting bracket 20. In this embodiment, the wiring groove 204 is a groove body formed by bending the side edge of the mounting bracket 20 to the back surface, and in specific application, a plate may be connected to the back surface of the mounting bracket 20 by using a fixed connection manner such as welding, so as to form the wiring groove 204 for wiring.

As shown in fig. 4, the conductive device 214 in this embodiment can extend out of the fixing base 21, a routing opening (not shown in the figure) for the conductive device 214 to extend into is disposed on the mounting bracket 20, and the conductive device 214 can extend into the routing slot 204 through the routing opening and be connected to the detection module along the routing slot 204 through a wire.

Specifically, as shown in fig. 4, the mounting bracket 20 is further provided with an adjusting structure for adjusting a distance between the mounting bracket 20 and the equipment installation site 101, the adjusting structure includes a connecting plate 202 for connecting with the cabinet body 10 and an adjusting plate 201 disposed on two sides of the mounting bracket 20, in this embodiment, the adjusting plate 201 may be formed by bending a side edge of the mounting bracket 20 to the back, the adjusting plate 201 may be a part of a trough 204, the adjusting plate 201 may be provided with at least two first adjusting holes (not shown in the figure) along the horizontal direction, the connecting plate 202 may be provided with a second adjusting hole (not shown in the figure), the connecting plate 202 may be fixedly connected to the cabinet body 10 by using fasteners, the adjusting plate 201 may be connected to the connecting plate 202 by sequentially passing through the first adjusting holes and the second adjusting holes by using fasteners, that is to connect. When the distance between the mounting bracket 20 and the equipment installation position 101 needs to be adjusted, the fastener can be unscrewed, and the first adjusting hole through which the fastener passes can be replaced, for example, when the mounting bracket 20 needs to be close to the equipment installation position 101, the fastener can be connected to the first adjusting hole far away from the equipment installation position 101, so that the mounting bracket 20 and the detection piece 22 can be integrally close to the equipment installation position 101.

In specific application, the first adjusting hole can be provided with one, the second adjusting hole is provided with two or more, of course, the first adjusting hole and the second adjusting hole can also be simultaneously provided with two or more, the first adjusting holes can be communicated with each other, and the second adjusting holes can be communicated with each other.

In a specific application, as shown in fig. 2, a mounting opening 203 may be provided at a position of the mounting bracket 20 opposite to the connection plate 202 to facilitate the detachment and installation of the connection plate 202.

The utility model also provides a monitored control system based on rack space occupies the detection, including server and the foretell control rack based on rack space occupies the detection. After equipment is put into cabinet body 10 and is installed in equipment fixing position 101, equipment can trigger corresponding detection piece 22, and detection piece 22 sends a signal to detection module, and detection module can generate the occupation information of cabinet body 10 and upload to the server in real time, managers alright in order to carry out real time monitoring through the equipment fixing position 101 of server in to cabinet body 10, realize asset management and occupation information monitoring in to cabinet body 10.

The utility model also provides a monitoring method based on rack space occupation detects adopts foretell monitored control system based on rack space occupation detects, including following step:

the detection pieces 22 are mounted at the designated positions of the mounting bracket 20 through a connecting structure, the designated positions can be determined according to the equipment mounting positions 101 of the equipment, the number of the detection pieces 22 can be determined according to the equipment mounting positions 101 (namely U positions) occupied by the equipment, and the number of the detection pieces 22 can be one, two or more;

the equipment is placed into the cabinet body 10 and is installed at the equipment installation position 101, the distance between the installation support 20 and the equipment installation position 101 can be adjusted through the adjusting structure, so that the equipment triggers the detection piece 22, and the distance between the specific detection piece 22 and the equipment installation position 101 can also be independently adjusted through the fixed seat 21, so that the equipment triggers the detection piece 22;

the detecting part 22 sends a signal to the detecting module, the detecting module generates occupancy information of the collected signal and synchronizes the occupancy information to the server, and the occupancy information is marked as occupancy information of the device on the server, so that the occupancy information corresponds to the device one to one.

Specifically, the mounting brackets 20 may be disposed on the pillars 102 on both sides of the cabinet body 10, and after the equipment is placed in the cabinet body 10 and mounted on the equipment mounting location 101, the adjusting structures on both sides of the equipment mounting location 101 may be adjusted at the same time or the distance between the detecting element 22 and the equipment mounting location 101 may be independently adjusted through the fixing seat 21, so that the equipment triggers the detecting elements 22 on both sides at the same time;

when the detecting members 22 on both sides are in the trigger state, the detecting module synchronizes the generated occupancy information to the server.

The embodiment of the utility model provides a monitoring cabinet and monitoring system based on rack space occupation detection, monitoring cabinet will detect piece 22 through fixing base 21 detachable connect on installing support 20 to detect piece 22 can be according to the size and the mounted position of the equipment of installing in rack body 10 to detect piece 22 the mounted position and the installation quantity appropriately adjust; after equipment fixing in equipment fixing position 101, can adjust the interval between detection piece 22 and the equipment fixing position 101, so that equipment can trigger rather than corresponding detection piece 22, and the detection module of being connected through with detection piece 22 is synchronous to the server with occupation information, the realization is to carrying out real time monitoring to the space in rack body 10, thereby the complicated and higher shortcoming of cost of management that exists among the prior art has been solved, the characteristics that have simple structure and management simple operation, and can adjust to different equipment, improve the accuracy of control.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the present invention.

Claims (10)

1. Monitoring rack based on rack space occupies place and detects, including the rack body that has a plurality of equipment fixing position, its characterized in that, the monitoring rack still including set up in this internal installing support of rack, can by install in the detection piece that the equipment of equipment fixing position triggered and with the detection module that detection piece is connected, the installing support interval is provided with the connection structure of a plurality of adjustable mounted position, it passes through to detect the piece connection structure detachable connect in the installing support.

2. The monitoring cabinet based on cabinet space occupation detection as claimed in claim 1, wherein the connecting structure comprises a fixing seat adjustably connected to the mounting bracket and used for connecting the detecting member, and the fixing seat is provided with a fixing groove for inserting the detecting member; or, connection structure including fixed connection in installing support just is used for connecting the fixing base of detection piece, the fixing base with through spout and sliding rail connection between the detection piece.

3. The monitoring cabinet based on cabinet space occupation detection as claimed in claim 2, wherein a conductive member is disposed in the fixing groove and can contact with the electrode of the detecting member after the detecting member is inserted into the fixing groove, and the conductive member is connected to the detecting module.

4. The monitoring cabinet based on cabinet space occupation detection according to claim 3, wherein a conductive groove for inserting the electrode is formed at the bottom of the fixing groove, and the conductive piece is arranged in the conductive groove and is in interference connection with the electrode; and/or, the detection piece is connected with the fixing groove in an interference fit manner or in a buckling manner.

5. The monitoring cabinet based on cabinet space occupation detection according to claim 2, wherein the connecting structure further comprises adjusting studs disposed at two sides of the mounting bracket, adjusting springs sleeved on the adjusting studs, and adjusting nuts threadedly connected to the adjusting studs, wherein two sides of the fixing base are provided with convex edges, the convex edges are provided with through holes for the adjusting studs to pass through, one end of each adjusting spring abuts against the mounting bracket, the other end of each adjusting spring abuts against the back of the corresponding convex edge, and the adjusting nuts are threadedly connected to the adjusting studs and abut against the front of the corresponding convex edge.

6. The monitoring cabinet based on cabinet space occupation detection as claimed in any one of claims 1 to 5, wherein the mounting bracket is provided with a wiring slot, the connecting structure is arranged on a front surface of the mounting bracket, the front surface of the mounting bracket faces the equipment installation site, and the wiring slot is arranged on a back surface of the mounting bracket.

7. The monitoring cabinet based on cabinet space occupation detection as claimed in any one of claims 1 to 5, wherein the mounting bracket is further provided with an adjusting structure for adjusting the distance between the mounting bracket and the equipment mounting position, the adjusting structure comprises a connecting plate for connecting with the cabinet body and adjusting plates arranged on two sides of the mounting bracket, the adjusting plate or/and the connecting plate is horizontally provided with at least two adjusting holes for passing fasteners, and the adjusting plate is connected to the connecting plate through the fasteners.

8. The monitoring cabinet based on cabinet space occupation detection as claimed in any one of claims 1 to 5, wherein the mounting brackets are connected to the columns of the cabinet body, and the connecting structures are sequentially arranged at intervals along the length direction of the mounting brackets.

9. Monitoring cabinet based on cabinet space occupancy detection as claimed in any of the claims 1 to 5, wherein said detection member is a micro switch or a travel switch or a contact switch.

10. Monitoring system based on rack space occupancy detection, comprising a server, characterized in that the monitoring system further comprises a monitoring rack based on rack space occupancy detection as claimed in any one of claims 1 to 9.

Images