CN108609258B - Drawer type remote communication module verification tray and detection cabinet - Google Patents

Abstract

The invention provides a drawer type remote communication module verification tray and a detection cabinet, wherein the verification tray comprises: the device comprises a shielding shell, a base, a detection part, an inspection part capable of installing an inspection local communication module and an inspected part capable of installing an inspected remote communication module; the detection part and the accompanying part are both arranged on the base, and the detected part is arranged on the outer side of the base and is connected with the base; the shielding shell is connected with the base in an openable mode, when the shielding shell is covered with the base, the detection part and the accompanying part are located in the shielding shell, and the detected part is located outside the shielding shell. The detection trays can be arranged and assembled in an array manner according to the detection task quantity requirement, so that the detection efficiency is effectively improved, and large-scale and batch automatic detection is realized; meanwhile, the problem that manual detection is greatly influenced by human factor interference can be avoided, so that the detection result is more accurate.

Description

Drawer type remote communication module verification tray and detection cabinet

technical field

The invention relates to the technical field of electric energy measurement, in particular to a drawer-type remote communication module verification tray and a detection cabinet.

Background technique

The remote communication module of the electricity consumption information acquisition system includes: concentrator type I remote communication unit, concentrator type II remote communication unit, special variant III type remote communication unit, three-phase smart meter remote communication unit, and its communication mode is wireless public network, It is mainly divided into GPRS module and 4G module, which is responsible for completing the long-distance communication between Chengtong energy meter, concentrator, special transformer and the main station.

With the deepening of the construction of smart grid and power consumption information collection system, the demand for intelligent power consumption information collection of smart energy meters is increasing. more important role. The acquisition and communication unit has a huge demand, and it has a wide range of applications and many technical solutions. The asset management of the acquisition and communication unit has always been one of the weak links in the power grid field. The quality and management level of the communication unit directly affect the operation and development of the acquisition system. Both the electricity information collection terminal and the smart electric energy meter have achieved automatic full inspection and quality control. However, at present, the communication unit is attached to the collection terminal or electric energy meter for bidding and supply, and the full inspection has not been carried out, and there is no effective operation and maintenance management method. And special automatic testing equipment.

At present, there is no unified normative requirement for the full performance inspection of the communication unit before arrival and the sampling inspection after the arrival, and the full inspection and acceptance of the communication unit has not yet been realized, which forms a loophole in the quality control of the actual operation of the communication unit. In addition, at present, the performance of the module is mainly tested by manual methods. The coverage of the test items is narrow, and the module testing process is greatly affected by human factors. The test results are difficult to guarantee and control, and relying on simple testing equipment and manual operations can only be adapted. The detection of a small number of sample modules has low detection efficiency and cannot meet the detection requirements of a large number of modules.

SUMMARY OF THE INVENTION

In view of this, the present invention proposes a drawer-type remote communication module verification tray and a detection cabinet, aiming to solve the problems of low detection efficiency and low accuracy caused by the current manual detection of modules.

In one aspect, the present invention provides a drawer-type telecommunication module verification tray, the verification tray includes: a shielding shell, a base, a detection part, an accompany inspection part that can be installed with a local communication module for accompany inspection, and a remote communication module that can be installed to be inspected. The inspected part; wherein, the inspection part and the accompanying inspection part are both arranged on the base, and the inspected part is arranged on the outside of the base and connected with the base; the shielding shell and the base can be opened and closed. When the shell is closed with the base, the detection part and the accompanying detection part are located in the shielding shell and the inspected part is located outside the shielding shell.

Further, in the above drawer-type telecommunication module verification tray, the shielding shell is slidably connected with the base, so that the base can be ejected or retracted relative to the shielding shell.

Further, in the above-mentioned drawer type remote communication module verification tray, the accompanying inspection part includes: a first jack and a first antenna butt; wherein, the first jack and the first antenna butt are both arranged on the base, and, The first jack is opposite to the first antenna butt, the first jack can be plugged with the pin of the escort local communication module, and the first antenna butt can be connected to the connector of the escort local communication module.

Further, in the above-mentioned drawer type remote communication module verification tray, the inspected part includes: a base, a remote module docking mechanism and a SIM card docking device; wherein, the base is connected with the base; the remote module docking mechanism is arranged on the base, and the remote module The docking mechanism can be butted with the inspected telecommunication module; the SIM card docking device is connected with the base, and the SIM card docking device can be butted or separated from the SIM socket contacts of the inspected telecommunication module.

Further, in the above-mentioned drawer type remote communication module verification tray, the remote module docking mechanism includes: a second jack and a second antenna butt; wherein, the second jack and the second antenna dock are oppositely arranged, and the second jack can be Plugged with the pins of the remote communication module under inspection, the second antenna docking device can be connected with the connector of the remote communication module under inspection.

Further, in the above-mentioned drawer-type telecommunication module verification tray, the SIM card docking device is rotatably connected with the base, so as to be connected with or separated from the SIM socket contacts of the telecommunication module under test.

Further, in the above-mentioned drawer type telecommunication module verification tray, the base is provided with a groove, and the SIM card docking device is rotatably connected to the inner wall of the groove, so that when the SIM card docking device extends out of the groove, it can communicate with the inspected. The SIM socket contacts of the telecommunication module are butted together, and when the SIM card docking device is retracted into the groove, it can be separated from the SIM socket contacts of the examined telecommunication module.

Further, in the above-mentioned drawer type remote communication module verification tray, the inspected part further includes: a cover opening hook, which is a bending part, the first bending part of the bending part is connected with the base, and the second bending part of the bending part is connected to the base. The bent portion is in a suspended state, and the second bent portion is engaged with the SIM card compartment cover of the tested remote communication module during the process of installing the tested remote communication module to the remote module docking mechanism, and is installed on the tested remote communication module. After completion, open the SIM card compartment cover of the remote communication module to be inspected.

Further, in the above-mentioned drawer-type remote communication module verification tray, the detection part includes: a plurality of measurement boards, each of which is connected to the base, and each of the measurement boards is arranged at intervals.

In the present invention, the detection part and the accompanying inspection part are arranged on the base, the inspected part is connected to the outside of the base, and the base and the shielding shell are connected in an openable and closable manner, so as to facilitate the disassembly and assembly of the accompanying inspection local communication module, and, When the shielding case is closed with the base, the remote communication module to be inspected is in the process of performance testing. At this time, the detection part and the inspected part are both located in the shielding case, so that the shielding case can be used to accompany the inspection local in the process of performance testing. Shielding the communication signal of the communication module to prevent the attenuation of the communication signal and ensure the accuracy of the test results; at the same time, the type of measurement board can be freely matched according to the test purpose to complete the electrical performance, communication performance and power consumption of the tested remote communication module. In particular, the verification tray adopts a drawer-type design, occupies a small space, and can be arranged and assembled in an array according to the requirements of the inspection task, which effectively improves the inspection efficiency and realizes large-scale, batch automatic inspection; It can avoid the problem that the manual detection is greatly affected by the interference of human factors, so that the detection results are more accurate.

On the other hand, the present invention also provides a detection cabinet, the detection cabinet includes: a cabinet body and a plurality of drawer type remote communication module verification trays; wherein, the cabinet body is provided with a plurality of storage compartments, and each drawer type remote communication module verification tray is provided. The trays are arranged in each storage compartment one by one, and the bases of each drawer-type remote communication module verification tray can be ejected or retracted relative to the cabinet.

In the present invention, the drawer-type remote communication module verification tray is installed in the detection cabinet in an array, which can improve the detection efficiency, thereby realizing large-scale batch detection. The drawer-type detection cabinet of the remote communication module verification tray also has corresponding technical effects.

Description of drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are for the purpose of illustrating preferred embodiments only and are not to be considered limiting of the invention. Also, the same components are denoted by the same reference numerals throughout the drawings. In the attached image:

1 is a schematic structural diagram of a drawer-type remote communication module verification tray provided in an embodiment of the present invention when the verification tray is opened;

2 is a schematic structural diagram of a drawer-type telecommunication module for verifying that the tray cover is closed according to an embodiment of the present invention;

3 is a schematic cross-sectional view of the connection between the shielding case and the base in the drawer-type telecommunication module verification tray provided by the embodiment of the present invention;

4 is a schematic diagram of the hooking of the cover opening hook and the SIM card compartment cover in the drawer-type telecommunication module verification tray provided by the embodiment of the present invention;

5 is a schematic diagram of a SIM card compartment cover being hooked open in a drawer-type telecommunication module verification tray provided by an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a drawer-type detection cabinet according to an embodiment of the present invention.

Detailed ways

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited by the embodiments set forth herein. Rather, these embodiments are provided so that the present disclosure will be more thoroughly understood, and will fully convey the scope of the present disclosure to those skilled in the art. It should be noted that the embodiments of the present invention and the features of the embodiments may be combined with each other under the condition of no conflict. The present invention will be described in detail below with reference to the accompanying drawings and in conjunction with the embodiments.

Example of verification tray:

Referring to FIG. 1 and FIG. 2 , the drawings show the preferred structure of the drawer-type telecommunication module verification tray provided in this embodiment. As shown in the figure, the inspection tray includes: a shielding shell 1, a base 2, a detection part 3, an accompanying inspection part 5 that can be installed with a local communication module 4 to be inspected, and a inspected part 7 that can be installed with a remote communication module 6 to be inspected. Wherein, the detection part 3 and the accompanying inspection part 5 are both arranged on the base 2, and a partition 8 can be provided between the detection part 3 and the accompanying inspection part 5, so as to separate the detection part 3 and the accompanying inspection part 5 on the base 2 is divided into two areas. The inspected portion 7 is provided outside the base 2 and is connected to the base 2 . The accompanying inspection local communication module 4 installed in the accompanying inspection part 5 and the inspected remote communication module 6 installed in the inspected part 7 can be connected with the controller, and the inspection part 3 can be used for the electrical performance of the inspected remote communication module 6, Communication performance, power consumption and other items are tested. The shielding shell 1 and the base 2 are connected in an openable and closable manner, and when the shielding shell 1 and the base 2 are closed, the remote communication module 6 to be tested is in the process of performance testing. The parts 5 are located in the shielding case 1 , and the inspected part 7 is located outside the shielding case 1 .

In this embodiment, the detection part 3 and the accompanying inspection part 5 are arranged on the base 2 , the inspected part 7 is connected to the outside of the base 2 , and the base 2 and the shielding shell 1 are connected in an openable and closable manner, which is convenient for accompanying inspection locally. The disassembly and assembly of the communication module 4, and when the shielding shell 1 is covered with the base 2, the remote communication module 6 to be inspected is in the process of performance testing. At this time, the detection part 3 and the accompanying inspection part 5 are located in the shielding shell 1 In order to realize the shielding of the communication signal of the accompanying inspection local communication module 4 by the shielding shell 1 in the process of performance inspection, to prevent external signal interference, thereby ensuring the accuracy of the inspection results; the inspection tray can be arrayed according to the demand of inspection tasks. It can effectively improve the detection efficiency and realize large-scale, batch automatic detection; at the same time, it can also avoid the problem that manual detection is greatly affected by the interference of human factors, so that the detection results are more accurate.

In the above embodiment, the shielding case 1 is slidably connected to the base 2 , and the base 2 can be connected to a controller (not shown in the figure), and the controller controls the base 2 to eject or retract relative to the shielding case 1 . In specific implementation, referring to FIG. 3 , the outer wall of the base 2 may be provided with a sliding rail 21 , the inner wall of the shielding shell 1 may be provided with a sliding groove 11 , and the sliding rail 21 is slidably disposed in the sliding groove 11 , that is, the shielding shell 1 and the The base 2 can be ejected or retracted like a drawer.

In the above-mentioned embodiment, the accompanying inspection part 5 may include: a first jack 51 and a first antenna butt 52 . The first jack 51 and the first antenna butt 52 are both disposed on the base 2, and the first jack 51 and the first antenna butt 52 are oppositely disposed with a certain distance therebetween to place the Check local communication module 4. The first jack 51 can be plugged with the pins of the escort local communication module 4, and the first antenna docking device 52 can be connected to the connector of the escort local communication module 4, so as to realize the local communication between the escort inspection unit 5 and the escort inspector. Docking of module 4. In specific implementation, the first antenna docking device 52 can be in the form of a floating joint, so as to improve the docking success rate, and at the same time, it can also avoid damage to the antenna joint of the local communication module 4 accompanying the inspection. The first antenna dock 52 can be connected with a controller, and the controller controls the action of the floating joint of the first antenna dock 52 . It should be noted that the structures of the first jack 51 and the first antenna docking connector 52 are well known to those skilled in the art, and will not be repeated here.

In the above embodiment, the inspected part 7 may include: a base 71 , a remote module docking mechanism 72 and a SIM card docking device 73 . Wherein, the base 71 is connected to the outside of the base 2. In a specific implementation, the base 71 may include: a first vertical plate 711 and a bottom plate 712, the first vertical plate 711 may be integrated with the base 2, and the bottom plate 712 is connected to the first vertical plate 712. The outer side of the plate 711, and the bottom plate 712 may form a certain angle with the first vertical plate 711, such as 90°. The remote module docking mechanism 72 is disposed on the bottom plate 712 of the base 71 , and the remote module docking mechanism 72 can be docked with the remote communication module 6 under inspection. The SIM card docking device 73 is connected to the first vertical plate 711 of the base 71 . During the specific implementation, the first vertical plate 711 may be provided with a groove 74 , and the groove 74 is provided with a rotating shaft 76 . The connection end of the SIM card docking device 73 Connected with the rotating shaft 76, the rotation of the rotating shaft 76 can be controlled by the controller. 4 and 5, when the SIM card docking device 73 is required to be in contact with the SIM socket contacts of the checked remote communication module 6, the controller controls the rotating shaft 76 to rotate, thereby driving the SIM card docking device 73 to rotate, so that the SIM card The docking device 73 extends out of the groove 74. When the SIM card docking device 73 is fully extended, the probe 731 of the SIM card docking device 73 is connected with the SIM socket contacts of the telecommunication module 6 under inspection; When the device 73 is separated from the SIM socket contacts of the tested remote communication module 6, the controller controls the rotating shaft 76 to rotate in the opposite direction, thereby driving the SIM card docking device 73 to rotate in the opposite direction, so that the SIM card docking device 73 is retracted into the groove 74, and then the probe 731 of the docking end of the SIM card docking device 73 is separated from the SIM socket contact of the tested telecommunication module 6, thereby realizing the extension or retraction of the SIM card docking device 73, which is convenient for the tested remote communication module. The disassembly and assembly of 6 also saves a certain amount of space. It should be noted that the structure of the SIM card docking device 73 is well known to those skilled in the art, and details are not repeated here.

The base 71 may also include: a second vertical plate 713, two adjacent sides of the second vertical plate 713 are respectively connected with the first vertical plate 711 and the bottom plate 712, so as to form a semi-closed structure with the first vertical plate 711 and the bottom plate 712 space to protect the devices in the semi-enclosed space to a certain extent.

In the above embodiment, the remote module docking mechanism 72 may include: a second jack 721 and a second antenna docking device 722 . The second jack 721 and the second antenna butt 722 are both disposed on the bottom plate 712, and the second jack 721 and the second antenna butt 722 are disposed opposite to each other with a certain distance therebetween to place the inspected Remote Communication Module 6. The second jack 721 can be plugged with the pins of the remote communication module 6 to be inspected, and the second antenna docking device 722 can be connected to the connector of the remote communication module 6 to be inspected, so as to realize the remote communication between the inspected part 7 and the inspected part Docking of module 6. In specific implementation, the second antenna docking device 722 can be in the form of a floating joint, so as to improve the docking success rate, and at the same time, it can also avoid damage to the antenna joint of the local communication module 6 under inspection. The second antenna dock 722 can be connected with a controller, and the controller controls the action of the floating joint of the second antenna dock 722 . It should be noted that the structures of the second jack 721 and the second antenna docking connector 722 are well known to those skilled in the art, and will not be repeated here.

In the above-mentioned embodiments, the inspected part 7 may further include: a cover opening hook 75 for opening the SIM card compartment cover 61 of the inspected remote communication module 6, the cover opening hook 75 is a bending part, and the first part of the bending part is a bending part. The bent portion 751 is connected to the first vertical plate 711 of the base 71 . In a specific implementation, the position where the first bent portion 751 is connected to the first vertical plate 711 is located above the groove 74 . The second bending part 752 of the bending part is in a suspended state, and when the SIM card docking device 73 extends out of the groove 74 , the SIM card docking device 73 does not interfere with the second bending part 752 . Referring to FIG. 4 , a step 753 is provided at the end of the second bending portion 752. When the remote communication module 6 under inspection is installed to the remote module docking mechanism 72 in a top-to-bottom motion state, the second bending portion is The step 753 at the end of the 752 is hooked with the SIM card compartment cover 61 of the telecommunication module 6 to be inspected. Referring to FIG. 5 , as the remote communication module 6 to be inspected moves downward gradually, the opening degree of the SIM card compartment cover 61 gradually increases until the remote communication module 6 to be inspected is installed to the remote module docking mechanism 72 , and the SIM card compartment cover is opened. 61 is completely hooked.

In the above-mentioned embodiments, the detection unit 3 may include: a plurality of measuring plates 31, each of which is connected to the base 2, and the measuring plates 31 are arranged at intervals along the length direction of the base 2, and each measuring plate 31 can be connected to the controller. In specific implementation, each measuring board 31 is inserted on the base 2 , which can make the structure simple and compact, and is convenient for replacement and maintenance. The measurement board 31 can usually be a detection electrical backplane, an AC isolation power supply board, a DC power supply board, a power consumption measurement board, or a pin level and timing measurement board, etc. The type of the measurement board 31 can be freely matched according to the detection purpose. Complete the inspection of the electrical performance, communication performance, power consumption and other items of the inspected remote communication module. The specific components of the measuring board 31 and the connection relationship between the components are well known to those skilled in the art, and will not be repeated here.

To sum up, in this embodiment, the detection part and the accompanying inspection part are arranged on the base, the inspected part is connected to the outer side of the base, and the base and the shielding shell are connected in an openable and closable manner, which is convenient for the disassembly of the local communication module of the accompanying inspection. When the shielding case is closed with the base, the remote communication module to be inspected is in the process of performance testing. At this time, the detection part and the inspected part are both located in the shielding case, so as to realize the shielding case in the process of performance testing. Shield the communication signal of the local communication module to accompany the inspection to prevent the attenuation of the communication signal, thereby ensuring the accuracy of the test results; at the same time, the type of the measurement board can be freely matched according to the test purpose to complete the electrical performance and communication of the remote communication module to be inspected. Detection of performance, power consumption and other items; especially, the verification tray adopts a drawer-type design, which occupies a small space and can be arranged and assembled in an array according to the demand of the detection task, which effectively improves the detection efficiency and realizes large-scale and batch automation. At the same time, it can also avoid the problem that manual detection is greatly affected by the interference of human factors, so that the detection results are more accurate.

Example of detection cabinet:

Referring to FIG. 6 , the figure shows the preferred structure of the drawer-type detection cabinet provided in this embodiment. As shown in the figure, the detection cabinet includes: a cabinet body 8 and a plurality of drawer-type remote communication module verification trays. The cabinet body 8 is provided with a plurality of storage compartments, and each storage compartment is distributed in an array. The number of storage compartments is equal to the number of drawer type remote communication module verification trays. Each storage compartment is placed with a drawer type remote communication module verification tray, that is, the drawer type remote communication module verification tray is installed in the cabinet in an array. 8, and the base 2 of the drawer-type telecommunication module verification tray can be ejected or retracted relative to the cabinet 8. During specific implementation, the shielding shell 1 of the drawer-type telecommunication module verification tray can be made into one body with the cabinet body 8 . The size of the storage compartment is adapted to the size of the drawer type remote communication module verification tray, and it is appropriate to just accommodate the drawer type remote communication module verification tray.

The specific working steps of the drawer test cabinet are as follows:

(1) The drawer-type remote communication module verification tray is ejected from the cabinet 8;

(2) Open the SIM card compartment cover 61 of the tested telecommunication module 6 through the cover opening hook 75, while keeping the SIM card compartment cover 61 open;

(3) Insert the tested remote communication module 6 into the tested part 7 of the test tray, and complete the docking with the second jack 721 and the second antenna docking device 722 of the remote module docking mechanism 72;

(4) The drawer type remote communication module verification tray is retracted into the cabinet 8, and the shielding of the detection part 3 and the accompanying inspection part 5 in the verification tray is completed at the same time;

(5) The SIM card docking device 73 is rotated, so that the probe 731 is docked on the SIM socket contact of the picked-up telecommunication module, thereby completing the SIM card docking;

(6) The second antenna docking device 722 operates, so that the floating joint of the second antenna docking device 722 is connected to the joint of the telecommunication module 6 under inspection;

(7) After the checked remote communication module is verified, the second antenna docking device 722 moves and is separated from the picked up long-distance communication module 6;

(8) The SIM card docking device 73 rotates in the opposite direction, and is detached from the SIM socket contacts of the detected telecommunication module 6;

(9) Take out the picked up remote communication module 6, and use the cover opening hook 75 on the verification tray to push the SIM card compartment cover 61 back to the closed state.

In the above working process, the test process, power supply, the actions of the first antenna docking device 52, the second antenna docking device 722, and the SIM card docking device 73 can be controlled uniformly or separately for each verification tray through the external controller, and control The automatic ejection and automatic retraction of the target inspection tray, and the unified analysis of the inspection results. It can also be equipped with an automatic feeding robot, which cooperates with the drawer-type inspection cabinet, and completes the automatic loading and removal of the inspected remote communication module 6 through the mechanical arm, thereby realizing a batch automatic inspection system.

To sum up, in this embodiment, the drawer-type remote communication module verification tray is installed in the detection cabinet in an array, which can improve the detection efficiency, and thus can realize large-scale batch detection. Because the drawer-type remote communication module verification tray has the above effects, Therefore, the drawer-type detection cabinet with the drawer-type remote communication module verification tray also has corresponding technical effects.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Thus, provided that these modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include these modifications and variations.

Claims (10)

1. A drawer-style telecommunications module certification tray, comprising: the device comprises a shielding shell (1), a base (2), a detection part (3), an inspection part (5) capable of mounting an inspection local communication module (4) and an inspected part (7) capable of mounting an inspected remote communication module (6); wherein,

the detection part (3) and the inspection accompanying part (5) are both arranged on the base (2), and the inspected part (7) is arranged on the outer side of the base (2) and connected with the base (2);

the shielding shell (1) is connected with the base (2) in an openable and closable manner, and when the shielding shell (1) is covered with the base (2), the detection part (3) and the inspection accompanying part (5) are located in the shielding shell (1) and the inspected part (7) is located outside the shielding shell (1).

2. The drawer telecommunications module certification tray of claim 1,

the shielding shell (1) is slidably connected with the base (2) so that the base (2) can be ejected or retracted relative to the shielding shell (1).

3. The drawer-type telecommunication module certification tray according to claim 1, wherein the accompanying part (5) comprises: a first jack (51) and a first antenna connector (52); wherein,

the first jack (51) and the first antenna butt connector (52) are arranged on the base (2), the first jack (51) and the first antenna butt connector (52) are oppositely arranged, the first jack (51) can be plugged with a pin of the inspection-accompanying local communication module (4), and the first antenna butt connector (52) can be butted with a joint of the inspection-accompanying local communication module (4).

4. The drawer-type telecommunication module certification tray according to claim 1, wherein the inspected portion (7) comprises: a base (71), a remote module docking mechanism (72) and a SIM card dockee (73); wherein,

the base (71) is connected with the base (2);

the remote module docking mechanism (72) is arranged on the base (71), and the remote module docking mechanism (72) can be docked with the detected remote communication module (6);

the SIM card docking device (73) is connected with the base (71), and the SIM card docking device (73) can be docked with or separated from the SIM socket contact of the detected remote communication module (6).

5. The drawer-style telecommunications module certification tray of claim 4, wherein the remote module docking mechanism (72) includes: a second jack (721) and a second antenna dock (722); wherein,

the second jack (721) and the second antenna butt-joint device (722) are arranged oppositely, the second jack (721) can be plugged with a pin of the detected remote communication module (6), and the second antenna butt-joint device (722) can be butted with a joint of the detected remote communication module (6).

6. The drawer telecommunications module certification tray of claim 4,

the SIM card dockee (73) is rotatably connected with the base (71) to be mated with or separated from a SIM socket contact of the tested telecommunication module (6).

7. The drawer telecommunications module certification tray of claim 6,

the base (71) is provided with a groove (74), the SIM card butt-joint device (73) is rotatably connected with the inner wall of the groove (74), so that the SIM card butt-joint device (73) can be butted with the SIM socket contact of the detected remote communication module (6) when extending out of the groove (74), and the SIM card butt-joint device (73) can be separated from the SIM socket contact of the detected remote communication module (6) when retracting into the groove (74).

8. The drawer-type telecommunication module certification tray according to any one of claims 4 to 7, wherein the inspected portion (7) further comprises:

uncap collude (75), it is the piece of bending, the first portion of bending (751) of the piece of bending with base (71) are connected, the second portion of bending (752) of bending is the suspension state, the second portion of bending (752) is in examine telecommunications module (6) install extremely the in-process of telecommunications module docking mechanism (72) with examine the SIM card storehouse lid (61) of telecommunications module (6) and collude mutually, and examine after telecommunications module (6) installation is accomplished will examine the SIM card storehouse lid (61) of telecommunications module (6) collude and open.

9. The drawer-type telecommunication module certification tray according to claim 1, wherein the detection part (3) comprises:

the measuring device comprises a plurality of measuring plates (31), wherein each measuring plate (31) is connected with the base (2), and each measuring plate (31) is arranged at intervals.

10. A drawer-type detection cabinet is characterized by comprising: -a cabinet (8) and a plurality of drawer-type telecommunications module certification trays according to any one of claims 1 to 9; wherein,

the cabinet body (8) is provided with a plurality of storage grids, each drawer type telecommunication module verification tray is arranged in each storage grid one by one, and a base (2) of each drawer type telecommunication module verification tray can be popped out or retracted relative to the cabinet body (8).

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