CN217820610U - Novel full-automatic temperature control circular telegram test module - Google Patents

Abstract

The utility model discloses a novel full-automatic temperature control power-on test module, which is used for power-on test and power acquisition of a laser module and is connected with a control system, and comprises a first test device, a second test device and a laser module material tray; the first testing device comprises a fixing frame, a heating assembly pushing device, a first probe assembly pushing device, the heating assembly pushing device, the first probe assembly pushing device is fixed with the fixing frame respectively, the heating assembly is fixedly connected with the heating assembly pushing device, the first probe assembly is fixedly connected with the first probe assembly pushing device, the first probe assembly is provided with a plurality of electrified elastic probes, the heating assembly is provided with an electric heater which is tightly attached to each other, and a ceramic insulation heat conduction block is provided with a plurality of open slots matched with the appearance of the laser module. The utility model discloses an automatic function of accuse temperature test, the test speed is fast, easily observes, reduces the loss that the accident produced to the efficiency of mill has been improved.

Description

Novel full-automatic temperature control circular telegram test module

Technical Field

The utility model relates to a laser module automated inspection technical field specifically is a novel full-automatic control by temperature change circular telegram test module.

Background

Automation is a main force of an industrial production line, and along with the development of industrial technology, the automation technology is mature day by day. The high and low temperature control test room on the market today has large volume and large floor area, and the number of the devices which can be matched cannot meet the limited space. The utilization rate of the field is influenced, the capacity and benefits of a factory are directly influenced, and the industrial full-standardization and full-automatic level is difficult to achieve. Especially in the demarcation device industry, a large number of laser modules which need to be assembled need to be subjected to strict temperature tests, and although a large number of modules can be contained in a common high-low temperature room, the module appearance is not easy to observe, and if a batch number fails, the product loss is easily too large, and the number of people is large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel full-automatic control by temperature change circular telegram test module has realized the function of automatic temperature control test, and the test speed is fast, easily observes, reduces the loss that the accident produced to improve efficiency, the productivity of mill, possible one a plurality of, alone many management, reach saving cost, easy operation's purpose.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a novel full-automatic temperature control power-on test module is used for power-on test and power collection of a laser module, is connected with a control system and comprises a first test device, a second test device and a laser module material tray; the first testing device comprises a fixing frame, a heating assembly pushing device, a first probe assembly and a first probe assembly pushing device, wherein the heating assembly pushing device and the first probe assembly pushing device are respectively fixed with the fixing frame, the heating assembly is fixedly connected with the heating assembly pushing device, the first probe assembly is fixedly connected with the first probe assembly pushing device, the first probe assembly is provided with a plurality of electrified elastic probes, the heating assembly is provided with an electric heater and a ceramic insulating heat-conducting block which are tightly attached to each other, and the ceramic insulating heat-conducting block is provided with a plurality of open slots matched with the appearance of the laser module; the second testing device comprises a workbench, a second probe assembly and a second probe assembly pushing device, the second probe assembly is fixedly connected with the second probe assembly pushing device, and the second probe assembly is provided with a plurality of electrified round-head probes; the laser module material tray comprises a material tray body, a plurality of laser module control panels and a plurality of power acquisition photocells, wherein the laser module to be detected is arranged on each of the laser module control panels, the power acquisition photocells are respectively opposite to light emitting points of the laser module to be detected, and the positions of the laser module control panels are matched with the heating assembly, the first probe assembly and the second probe assembly; the heating assembly, the heating assembly pushing device, the first probe assembly pushing device, the second probe assembly pushing device, the laser module control panel and the power acquisition photocell are respectively connected with a control system, and the control system is connected with a power supply.

As the utility model discloses preferred scheme, heating element pusher include first push rod slip table cylinder, first push rod slip table cylinder be equipped with preceding spacing piece, back spacing piece, spacing end the spiral shell, first push rod slip table cylinder still be equipped with import air current governing valve, export air current governing valve. According to the scheme, a first push rod sliding table air cylinder is fixed on a fixing frame, a front limiting block and a rear limiting block are respectively used for adjusting and limiting the front-back telescopic distance of the air cylinder, and a limiting screw is used for finely adjusting the extending length; the inlet air flow regulating valve and the outlet air flow regulating valve are used for controlling the telescopic action of the air cylinder.

As the utility model discloses preferred scheme, heating element electric heater include collets, copper heat conduction piece, locate the heating rod in the copper heat conduction piece, the collets fix on heating element pusher, copper heat conduction piece fixed with the collets, ceramic insulation heat conduction piece paste tightly fixedly with copper heat conduction piece.

As the utility model discloses preferred scheme, first probe subassembly pusher include second push rod slip table cylinder, second push rod slip table cylinder fix on the mount, second push rod slip table cylinder stretch out the end and be fixed with the connecting plate, second push rod slip table cylinder still be equipped with import air current regulating valve, export air current regulating valve, first probe subassembly include circuit board mounting, a plurality of probe welding circuit board, probe fixed insulation spare, circuit board mounting fixed with the connecting plate, probe welding circuit board, probe fixed insulation spare fix respectively on the circuit board mounting, a plurality of probe welding circuit board be equipped with circular telegram elasticity probe respectively, circular telegram elasticity probe connection power positive pole. The inlet air flow regulating valve and the outlet air flow regulating valve are used for controlling the telescopic action of the air cylinder.

As the utility model discloses preferred scheme, second probe subassembly pusher include third push rod slip table cylinder, base mounting, epoxy base, epoxy mounting panel, third push rod slip table cylinder fix on the workstation, the base mounting fix and stretch out the end at third push rod slip table cylinder, the epoxy base fix on the base mounting, the epoxy mounting panel fix on the epoxy base, a plurality of circular telegram button head probes fix on the epoxy mounting panel and connect the power negative pole.

As the utility model discloses preferred scheme, laser instrument module control panel center be equipped with anodal pad, circular telegram elasticity probe correspond the setting with anodal pad.

The product of the scheme is connected with a control system; firstly, respectively fixing a first push rod sliding table air cylinder and a second push rod sliding table air cylinder on a fixing frame through nuts, screwing 4 air flow regulating valves into the two air cylinders at one time, and adjusting the front-back telescopic distance of the first push rod sliding table air cylinder through a front limiting block, a back limiting block and a limiting stop screw; the insulating block is arranged between the brass block and the first push rod sliding table cylinder and plays an insulating role; the ceramic insulating heat-conducting block is arranged on the brass block, and the heating rod is uniformly filled in the brass block by coating liquid silica gel, so that the function of regulating the temperature is achieved; fixing the bottom of the connecting plate with a circuit board fixing piece by using an inner hexagon screw, and fixing the assembled probe welding circuit board, the probe fixing insulating piece and the electrified elastic probe on the circuit board fixing piece by using the inner hexagon screw;

inserting an electrified round-head probe into a mounting plate hole of the epoxy plate, locking the electrified round-head probe on an epoxy plate base by using an inner hexagonal nut, and connecting the electrified round-head probe to the front end of a cylinder of a third push rod sliding table by using a base fixing piece, wherein the epoxy plate material used here is convenient to insulate the cylinder, and the cylinder of the third push rod sliding table is fixed on a workbench;

the first testing device and the second testing device are assembled to enable the components to be oppositely arranged, at the moment, a plurality of power acquisition photocells are required to be sequentially placed under a complete available module consisting of a laser module control board and a laser module, a laser module circuit board is arranged upwards, light emitting points are arranged downwards and sequentially placed in corresponding laser module material trays, and the laser module material trays can be independently placed on a fixing device or on assembly line equipment;

during testing, the first push rod sliding table cylinder is controlled to be pushed out outwards, the open slots of the ceramic insulation heat conduction blocks are used for respectively embracing the laser module, then the third push rod sliding table cylinder on the right side is controlled, the electrified round-head probe is just pushed out to abut against one side (the module shell is a negative pole) of the laser module to be connected with the negative pole, the second push rod sliding table cylinder is controlled to be pushed downwards at the moment, the electrified elastic probe (the wiring is connected with the positive pole) is shot at the positive pole pad in the center of the control board of the laser module, a closed circuit is formed at the moment, and the laser module emits light and irradiates on the power acquisition photocell corresponding to the bottom to acquire power; the laser module power under this scheme device circular telegram back at first can testing normal atmospheric temperature state, control the heating rod once more and adjust to the required test temperature state of high temperature after gathering the completion, carry out the laser module power test under the current temperature once more.

Compared with the prior art, the beneficial effects of the utility model are that: the automatic temperature control testing function is realized, the testing speed is high, the observation is easy, and the loss caused by accidents is reduced, so that the efficiency and the capacity of a factory are improved, a plurality of plants and a plurality of persons can be managed, and the purposes of saving cost and being simple to operate are achieved.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural diagram of the first testing apparatus of the present invention.

Fig. 3 is a schematic structural diagram of a first probe assembly according to the present invention.

Fig. 4 is a schematic structural diagram of the second testing device of the present invention.

Fig. 5 is a schematic structural diagram of the positive pad of the laser module control panel of the present invention.

In the figure: 1. first testing arrangement 2, second testing arrangement 3, laser module charging tray

4. Fixing frame 5, heating assembly 6 and heating assembly pushing device

7. First probe assembly 8 and first probe assembly pushing device

21. Workstation 22, second probe subassembly 23, second probe subassembly pusher 24, circular telegram button head probe 25, third push rod slip table cylinder 26, base mounting 27, epoxy board base 28, epoxy board mounting panel 31, laser instrument module

32. The material tray body 33, the laser module control board 34, the power acquisition photocell 35, the positive electrode bonding pad 51, the ceramic insulating heat-conducting block 52 and the open slot

53. Insulating block 54, copper heat conduction block 55, heating rod

61. First push rod sliding table cylinder 62, front limiting block 63 and rear limiting block

64. Limit stop screw 71, energizing elastic probe 72 and circuit board fixing piece

73. Probe-welded circuit board 74 and probe-fixing insulator

81. Second push rod slip table cylinder 82, connecting plate.

Detailed Description

In order to facilitate understanding of the invention, the invention will be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which can be embodied in many different forms and are not limited to the embodiments described herein, but rather are provided for the purpose of making the disclosure more thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present, that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, and that the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Referring to fig. 1-5, the present invention provides a technical solution:

a novel full-automatic temperature control power-on test module is used for power-on test and power collection of a laser module, is connected with a control system and comprises a first test device 1, a second test device 2 and a laser module material tray 3; the first testing device 1 comprises a fixing frame 4, a heating assembly 5, a heating assembly pushing device 6, a first probe assembly 7 and a first probe assembly pushing device 8, wherein the heating assembly pushing device 6 and the first probe assembly pushing device 8 are respectively fixed with the fixing frame 4, the heating assembly 5 is fixedly connected with the heating assembly pushing device 6, the first probe assembly 7 is fixedly connected with the first probe assembly pushing device 8, the first probe assembly 7 is provided with a plurality of electrified elastic probes 71, the heating assembly 5 is provided with an electric heater and a ceramic insulating heat-conducting block 51 which are mutually attached, and the ceramic insulating heat-conducting block 51 is provided with a plurality of open slots 52 matched with the appearance of the laser module 31; the second testing device 2 comprises a workbench 21, a second probe assembly 22 and a second probe assembly pushing device 23, the second probe assembly 22 is fixedly connected with the second probe assembly pushing device 23, and the second probe assembly 22 is provided with a plurality of electrified round-head probes 24; the laser module tray 3 comprises a tray body 32, a plurality of laser module control boards 33 and a plurality of power acquisition photocells 34, the laser module 31 to be detected is respectively arranged on the laser module control boards 33, the power acquisition photocells 34 are respectively opposite to light emitting points of the laser module 31 to be detected, and the laser module control boards 33 are matched with the heating component 5, the first probe component 7 and the second probe component 22; heating element 5, heating element pusher 6, first probe subassembly 7, first probe subassembly pusher 8, second probe subassembly 22, second probe subassembly pusher 23, laser instrument module control panel 33, power acquisition photocell 34 are connected with control system respectively, and control system connects the power.

Heating element pusher 6 includes first push rod slip table cylinder 61, and first push rod slip table cylinder 61 is equipped with preceding spacing block 62, back spacing block 63, spacing only spiral shell 64, and first push rod slip table cylinder 61 still is equipped with import air current governing valve, export air current governing valve.

The electric heater of the heating assembly 5 comprises an insulating block 53, a copper heat-conducting block 54 and a heating rod 55 arranged in the copper heat-conducting block 54, wherein the insulating block 53 is fixed on the heating assembly pushing device 6, the copper heat-conducting block 54 is fixed with the insulating block 53, and the ceramic insulating heat-conducting block 51 is tightly fixed with the copper heat-conducting block 54.

First probe subassembly pusher 8 includes second push rod slip table cylinder 81, second push rod slip table cylinder 81 is fixed on mount 4, second push rod slip table cylinder 81 stretches out the end and is fixed with connecting plate 82, second push rod slip table cylinder 81 still is equipped with import air current regulating valve, export air current regulating valve, first probe subassembly 7 includes circuit board mounting 72, a plurality of probe welded circuit boards 73, probe fixed insulation 74, circuit board mounting 72 is fixed with connecting plate 82, probe welded circuit board 73, probe fixed insulation 74 is fixed respectively on circuit board mounting 72, a plurality of probe welded circuit boards 73 are equipped with circular telegram elasticity probe 71 respectively, circular telegram elasticity probe 71 connects the power positive pole.

Second probe subassembly pusher 23 includes third push rod slip table cylinder 25, base mounting 26, epoxy base 27, epoxy mounting panel 28, third push rod slip table cylinder 25 is fixed on workstation 21, base mounting 26 fixes and stretches out the end at third push rod slip table cylinder 25, epoxy base 27 is fixed on base mounting 26, epoxy mounting panel 28 is fixed on epoxy base 27, a plurality of circular head probes 24 of circular head of circular telegram are fixed on epoxy mounting panel 28 and are connected the power negative pole.

The center of the laser module control board 33 is provided with a positive electrode bonding pad 35, and the electrifying elastic probe 71 is arranged corresponding to the positive electrode bonding pad 35.

The utility model discloses specific use:

after the laser module 31 and the power acquisition photocell 34 to be tested are installed as required, during testing, the first push rod sliding table cylinder 61 is controlled to be pushed out outwards, the open grooves 52 of the ceramic insulating heat-conducting block 51 are used for respectively embracing the laser module 31, then the third push rod sliding table cylinder 25 on the right side is controlled, the electrified round-head probe 24 just extends out of one side (the module shell is a cathode) which is propped against the laser module 31 to be connected with the cathode, at the moment, the second push rod sliding table cylinder 81 is controlled to be pushed downwards, the electrified elastic probe 71 (the connection is connected with the anode) is shot at the anode bonding pad 35 in the center of the control plate 33 of the laser module, at the moment, a closed circuit is formed, and the laser module 31 emits light and irradiates the power acquisition photocell 34 corresponding to the bottom to acquire power; the laser module power under the normal atmospheric temperature state can at first be tested to this scheme device circular telegram back, controls heating rod 55 once more and adjusts to the required test temperature state of high temperature after the collection is accomplished, carries out the laser module power test under the current temperature once more.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a novel full-automatic control by temperature change circular telegram test module for laser instrument module circular telegram test acquisition power, connection control system, its characterized in that: the device comprises a first testing device, a second testing device and a laser module material tray;

the first test device comprises a fixing frame, a heating assembly pushing device, a first probe assembly and a first probe assembly pushing device, wherein the heating assembly pushing device and the first probe assembly pushing device are respectively fixed with the fixing frame, the heating assembly is fixedly connected with the heating assembly pushing device, the first probe assembly is fixedly connected with the first probe assembly pushing device, the first probe assembly is provided with a plurality of electrified elastic probes, the heating assembly is provided with an electric heater and a ceramic insulating heat-conducting block which are tightly attached to each other, and the ceramic insulating heat-conducting block is provided with a plurality of open slots matched with the appearance of the laser module;

the second testing device comprises a workbench, a second probe assembly and a second probe assembly pushing device, the second probe assembly is fixedly connected with the second probe assembly pushing device, and the second probe assembly is provided with a plurality of electrified round-head probes;

the laser module material tray comprises a material tray body, a plurality of laser module control panels and a plurality of power acquisition photocells, wherein the laser module to be detected is arranged on each of the laser module control panels, the power acquisition photocells are respectively opposite to light emitting points of the laser module to be detected, and the positions of the laser module control panels are matched with the heating assembly, the first probe assembly and the second probe assembly;

the heating assembly, the heating assembly pushing device, the first probe assembly pushing device, the second probe assembly pushing device, the laser module control panel and the power acquisition photocell are respectively connected with a control system, and the control system is connected with a power supply.

2. The novel full-automatic temperature-control power-on test module set of claim 1, characterized in that: heating element pusher include first push rod slip table cylinder, first push rod slip table cylinder be equipped with preceding spacing block, back spacing block, spacing end the spiral shell, first push rod slip table cylinder still be equipped with import air current governing valve, export air current governing valve.

3. The novel full-automatic temperature control power-on test module set of claim 1, characterized in that: the heating assembly electric heater comprises an insulating block, a copper heat-conducting block and a heating rod arranged in the copper heat-conducting block, wherein the insulating block is fixed on the heating assembly pushing device, the copper heat-conducting block is fixed with the insulating block, and the ceramic insulating heat-conducting block is tightly attached and fixed with the copper heat-conducting block.

4. The novel full-automatic temperature control power-on test module set of claim 1, characterized in that: first probe subassembly pusher include second push rod slip table cylinder, second push rod slip table cylinder fix on the mount, second push rod slip table cylinder stretch out the end and be fixed with the connecting plate, second push rod slip table cylinder still be equipped with import air current governing valve, export air current governing valve, first probe subassembly include circuit board mounting, a plurality of probe welded circuit board, the fixed insulating part of probe, circuit board mounting and connecting plate fixed, probe welded circuit board, the fixed insulating part of probe fix respectively on the circuit board mounting, a plurality of probe welded circuit board be equipped with circular telegram elasticity probe respectively, circular telegram elasticity probe connect the power positive pole.

5. The novel full-automatic temperature-control power-on test module set of claim 1, characterized in that: the probe subassembly pusher of second include third push rod slip table cylinder, base mounting, epoxy board base, epoxy board mounting panel, third push rod slip table cylinder fix on the workstation, the base mounting fix and stretch out the end at third push rod slip table cylinder, the epoxy board base fix on the base mounting, the epoxy board mounting panel fix on the epoxy board base, a plurality of circular head probes of circular telegram fix on the epoxy board mounting panel and connect the power negative pole.

6. The novel full-automatic temperature-control power-on test module set of claim 1, characterized in that: the center of the laser module control panel is provided with an anode bonding pad, and the electrified elastic probe and the anode bonding pad are correspondingly arranged.

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