CN210222563U - Online electric toothbrush semi-manufactured goods assembly test equipment - Google Patents

Abstract

The utility model discloses an avoid artifical maloperation, reduce work risk and use manpower sparingly cost's on-line electric toothbrush semi-manufactured goods assembly test equipment. The utility model discloses a test rack, be provided with operation controller in the test rack and with operation controller electric connection's annular transmission guide rail, the transmission has a plurality of tray on the annular transmission guide rail, annular transmission guide rail go up set gradually all with operation controller electric connection's feeding station, work station, ejection of compact station and backward flow station, work station presses tray transmission direction has set gradually standardized test fixture, simulation operating mode test fixture, triaxial soldering tin platform and defective products transmission device. The utility model discloses be applied to semi-manufactured goods electric toothbrush test equipment's technical field.

Description

Online electric toothbrush semi-manufactured goods assembly test equipment

Technical Field

The utility model relates to a test equipment, in particular to on-line electric toothbrush semi-manufactured goods assembly test equipment.

Background

Heretofore, the standard test jig, the working condition simulation test jig and the jumper solder for testing the internal components of the electric toothbrush have been manually operated. Each station requires an operator and stands side by side to form a flow line. Each operator takes one electric toothbrush internal component from the previous station, and after finishing the work of the operator, the electric toothbrush internal component is transferred to the next station.

The operation of the standardized test station and the operation of the working condition simulation test station are very similar. And the operator puts the internal components of the electric toothbrush into the test fixture, waits for the test fixture to finish working, and then transmits the internal components of the electric toothbrush to the operator at the next station or puts the internal components of the electric toothbrush into a defective product collection box according to the result displayed on the computer screen.

The jumper welding station works by welding a battery jumper point of the electric toothbrush together by using tin welding equipment.

However, the prior operation has the following disadvantages:

the work of the conventional standard test fixture station and the work of the simulation working condition test fixture station are very simple, an operator waits for the fixture to work most of the time, and the efficiency is very low; if one operator operates two types of jigs simultaneously, confusion is easy to occur, and misoperation such as missing test, repeated test, and taking defective products as good products occurs; if two identical jigs are used in one station, the productivity of the front station and the rear station cannot keep up.

The conventional jumper welding station is very simple in work, and the time for welding jumper points of an internal component of the electric toothbrush is very short, so that an operator mostly waits for the internal component of the electric toothbrush; the smoke generated by the soldering tin is harmful to human body. The high temperature that the soldering tin equipment produced also takes place the scald accident easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide an online electric toothbrush semi-manufactured goods assembly test equipment who avoids artifical maloperation, reduces the work risk and use manpower sparingly cost.

The utility model adopts the technical proposal that: the utility model discloses a test rack, be provided with operation controller in the test rack and with operation controller electric connection's annular transmission guide rail, the transmission has a plurality of tray on the annular transmission guide rail, annular transmission guide rail go up set gradually all with operation controller electric connection's feeding station, work station, ejection of compact station and backward flow station, work station presses tray transmission direction has set gradually standardized test fixture, simulation operating mode test fixture, triaxial soldering tin platform and defective products transmission device.

Further, every the tray all is provided with radio frequency identification, feeding station, standardized test fixture, simulation operating mode test fixture, triaxial soldering tin platform, defective products transmission device and ejection of compact station all are provided with radio frequency reader and tray transmission and block the cylinder.

Furthermore, the test frame is provided with an acrylic door, the acrylic door surrounds the working station, the acrylic door is provided with an electromagnetic lock and a safety bolt, the acrylic door is provided with a cantilever operation box, and the operation controller is arranged in the cantilever operation box.

Furthermore, the standardized test fixture comprises a dummy load device I and a standard fixture, the standard fixture comprises a moving frame I arranged at one end of the annular transmission guide rail, a longitudinal moving device I and a test box I connected with the longitudinal moving device I are arranged on the moving frame I, and a laser displacement sensor I is arranged in the test box I; the first dummy load device comprises a first transverse moving device and a first dummy load loader connected with the first transverse moving device, the first dummy load device further comprises a first driving device and a fixing frame, the first driving device is arranged below the annular transmission guide rail, the fixing frame is connected with the first driving device, a jig matched with the head of an internal component of a product in the tray is arranged at the top end of the fixing frame, a notch is formed in the fixing frame, and the first test box can move to the position above the notch.

Furthermore, the simulation working condition test fixture comprises a second dummy load device and a simulation fixture, the simulation fixture comprises a second moving frame arranged at one end of the annular transmission guide rail, a second longitudinal moving device and a second test box connected with the second longitudinal moving device are arranged on the second moving frame, the second dummy load device comprises a second transverse moving device and a second dummy load loader connected with the second transverse moving device which are arranged at the lower end of the first moving frame, a second driving device below the annular transmission guide rail, a plurality of groups of product front end clamping claw cylinders connected with the second driving device and a load cylinder which is arranged on the second moving frame and located at the rear end of the second test box, and a product inner assembly head load block is arranged at the lower end of the load cylinder.

Further, the triaxial soldering tin platform include triaxial mobile device and with the automatic weld machine that triaxial mobile device is connected, the triaxial soldering tin platform still includes the soldering tin locating rack, the soldering tin locating rack set up in annular transmission guide rail's top, the soldering tin locating rack be equipped with the welding breach of automatic weld machine looks adaptation.

Further, defective products transmission device including set up in annular transmission guide rail below drive arrangement three and with drive arrangement three-phase connection's tray jacking board, one side of tray jacking board is provided with the tray push pedal, the opposite side of tray jacking board is provided with defective products and collects the track, the orbital end of defective products collection is provided with a plurality of pilot lamp.

Further, the feeding station comprises a feeding hole, a first safety light curtain and a laser displacement sensor are arranged on the feeding hole, and the laser displacement sensor faces the tray at the feeding hole; the ejection of compact station includes the discharge gate, the discharge gate is provided with safe light curtain two, the head and the tail both ends of the guide rail of backward flow station respectively with ejection of compact station guide rail end with feeding station guide rail front end is connected, the guide rail tail end of backward flow station is provided with tray transmission and blocks the cylinder.

The utility model has the advantages that: because the utility model comprises a testing frame, the testing frame is provided with an operation controller and an annular transmission guide rail which is electrically connected with the operation controller, a plurality of trays are driven on the annular transmission guide rail, a feeding station, a working station, a discharging station and a backflow station which are electrically connected with the operation controller are sequentially arranged on the annular transmission guide rail, the working station is sequentially provided with a standardized test jig, a simulated working condition test jig, a three-axis soldering tin platform and a defective product transmission device according to the transmission direction of the tray, therefore, the utility model eliminates the manual misoperation of missing test, repeated test, and taking defective products as good products through automatic control, in addition, the automatic weld wire jumper makes the people keep away from the smog harm and the scald risk that produce when soldering tin, through the utility model discloses can reduce 3 operators, reduce the human cost.

Drawings

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

fig. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic structural diagram of a standardized test fixture;

FIG. 4 is a schematic structural diagram of a simulated condition test fixture;

FIG. 5 is a schematic diagram of a three-axis solder platform;

FIG. 6 is a schematic structural diagram of a defective product conveying device;

FIG. 7 is a schematic structural view of a tray;

fig. 8 is a schematic structural view of a jig on a fixing frame.

Detailed Description

As shown in fig. 1 to 8, in this embodiment, the present invention includes a testing rack 1 disposed on the left and right sides, the two sides have the same function and symmetrical appearance, the testing rack 1 on both sides shares a set of testing system, so as to save the cost of testing hardware, the testing system adopts independent power supply, so that when one side of the device fails, the other side can still work; every all be provided with operation controller on the test rack 1 and with operation controller electric connection's annular transmission guide rail 2, the transmission has a plurality of tray 3 on the annular transmission guide rail 2, annular transmission guide rail 2 go up set gradually all with operation controller electric connection's feeding station 4, work station, ejection of compact station 5 and backward flow station 6, work station presses 3 transmission direction of tray has set gradually standardized test fixture 7, simulation operating mode test fixture 8, triaxial soldering tin platform 9 and defective products transmission device 10.

In this embodiment, each tray 3 is provided with a radio frequency tag, each tray 3 bears an internal component of the electric toothbrush, each radio frequency tag stores a unique code, when the test equipment operates, information of the internal component of the electric toothbrush is bound with the code of the tray, the feeding station 4, the standardized test fixture 7, the simulated working condition test fixture 8, the three-axis soldering tin platform 9, the defective product transmission device 10 and the discharging station 5 are provided with a radio frequency reader, a tray in-place sensor and a tray transmission blocking cylinder, the radio frequency reader is used for reading the information of the radio frequency tag of the tray 3, and the tray transmission blocking cylinder is used for blocking the tray 3 from operating on the annular transmission guide rail 2; when the tray 3 bearing the internal components of the electric toothbrush reaches three stations of a standardized test fixture 7, a simulated working condition test fixture 8 and a triaxial soldering tin platform 9, radio frequency tag information of the tray 3 is read by radio frequency below the tray 3, whether the internal components of the electric toothbrush on the tray 3 need to work at the station is judged, if not, the tray is released to the lower station, and if so, the internal components of the electric toothbrush are fixed.

In this embodiment, the test rack 1 is provided with an acrylic door 12, the acrylic door 12 surrounds the work station, each acrylic door 12 is provided with an electromagnetic lock, the acrylic door 12 is locked when the test equipment operates, so that an operator cannot open the acrylic door, in addition, each acrylic door 12 is provided with a safety bolt, if the door is opened when the test equipment operates, the test equipment immediately stops and cuts off compressed air in the equipment, so as to protect the safety of the operator, a cantilever operation box 13 is arranged on the acrylic door 12, the operation controller is arranged in the cantilever operation box 13, and a display, a keyboard and mouse, a touch screen, a button set and a three-color lamp are arranged on the cantilever operation box 13; the display is used for reflecting the state, data and record of the test system; the keyboard and the mouse are used for operating the test system computer; the touch screen is used for reflecting the equipment state and operating the equipment; the button group is used for operating starting, stopping and the like of the equipment; the three-color lamp is used for reflecting the running state of the equipment.

In this embodiment, the standardized testing jig 7 includes a dummy load device i and a standard jig, the standard jig includes a first moving frame 71 disposed at one end of the annular transmission guide rail 2, a first longitudinal moving device 72 and a first testing box 73 connected to the first longitudinal moving device 72 are disposed on the first moving frame 71, and a first laser displacement sensor is disposed in the first testing box 73; the first dummy load device comprises a first transverse moving device 74 arranged at the lower end of the first moving frame 71 and a first dummy load loader 75 connected with the first transverse moving device 74, the first dummy load device further comprises a first driving device 76 arranged below the annular transmission guide rail 2 and a first fixing frame 77 connected with the first driving device 76, a jig 78 matched with the head of an internal component of a product in the tray 3 is arranged at the top end of the first fixing frame 77, a notch 79 is arranged on the fixing frame 77, and the first test box 73 can move to the position above the notch 79.

In this embodiment, the simulated condition testing fixture 8 includes a dummy load device II and a simulated fixture, the simulation jig comprises a second moving frame 81 arranged at one end of the annular transmission guide rail 2, a second longitudinal moving device 82 and a second test box 83 connected with the second longitudinal moving device 82 are arranged on the second moving frame 81, the second dummy load device comprises a second traverse device 84 arranged at the lower end of the first moving frame 71 and a second dummy load loader 85 connected with the second traverse device 84, the second dummy load device further comprises a second driving device 86 below the annular transmission guide rail 2, a plurality of groups of product front end clamping claw air cylinders 87 connected with the second driving device 86, and a load air cylinder 88 arranged on the second moving frame 81 and located at the rear end of the second test box 83, wherein a product inner assembly head part load block 89 is arranged at the lower end of the load air cylinder 88.

In this embodiment, triaxial soldering tin platform 9 include triaxial mobile device 91 and with automatic weld machine 92 that triaxial mobile device 91 is connected, triaxial soldering tin platform 9 still includes soldering tin locating rack 93, soldering tin locating rack 93 set up in annular transmission guide rail 2's top, soldering tin locating rack 93 be equipped with welding breach 94 of automatic weld machine 92 looks adaptation.

In this embodiment, the defective product conveying device 10 includes a third driving device 101 disposed below the annular transmission guide rail 2 and a tray lifting plate 102 connected to the third driving device 101, a tray pushing plate 103 is disposed on one side of the tray lifting plate 102, a defective product collecting rail 104 is disposed on the other side of the tray lifting plate 102, and a plurality of indicator lights are disposed at the end of the defective product collecting rail 104.

In this embodiment, the feeding station 4 includes a feeding hole 41, the feeding hole 41 is provided with a first safety light curtain and a second laser displacement sensor, the first laser displacement sensor faces the tray 3 at the feeding hole 41, the first safety light curtain is used to protect an operator from being damaged by test equipment and obtain a good operating space, and the test equipment checks whether internal components of the electric toothbrush are correctly placed through the second laser displacement sensor; the test equipment acquires the information of the tray 3 by using a radio frequency reader; the operator correctly places the internal components of the electric toothbrush on the tray 3 in the feeding area and leaves the safety light curtain, the testing equipment checks that the internal components of the electric toothbrush are correctly placed, and after the information of the tray 3 is acquired, the tray is released to the working area; the discharging station 5 comprises a discharging hole 51, the discharging hole 51 is provided with two pairs of safety light curtains II so as to protect an operator from being damaged by equipment and obtain a good operating space, the electric toothbrush internal components and the tray 3 which are welded through testing and wire jumping are transferred to the discharging station 5, and the electric toothbrush internal components on the tray 3 are taken away by the operator and leave the safety light curtains. The empty tray 3 will be released to the reflow station 6; the head and tail ends of the guide rail of the backflow station 6 are respectively connected with the tail end of the guide rail of the discharge station 5 and the front end of the guide rail of the feeding station 4, the tail end of the guide rail of the backflow station 6 is also provided with a tray transmission blocking cylinder, an empty tray 3 is stacked in the backflow station 6, and when the feeding station 4 needs the tray 3, the tray 3 is released to the feeding station 4

The utility model discloses a working process does:

after the cantilever operation box 13 starts the test software, the operator starts the equipment and waits for the equipment initialization to be completed.

The operator places the tray 3 on feeding station 4 with electric toothbrush inner assembly in to leave safe light curtain, the electric toothbrush inner assembly of two inspection of laser displacement sensor places correct back, acquires the code of tray 3 and binds with electric toothbrush inner assembly through the radio frequency reader, then conveys work station with tray 3, and return flow station 6 releases an empty tray 3 to feeding station 4 simultaneously.

Tray 3 bearing internal components of the electric toothbrush reaches standardized test fixture 7 first, standardized test fixture, tray 3 and internal components of the electric toothbrush are fixed by fixture 78 in fixing frame 77 and fixing frame 77 first 7, dummy load loader 75 is loaded on the head of the internal components of the electric toothbrush, test box 73 is connected with the internal components of the electric toothbrush and vibrates the internal components, high-precision laser displacement sensor detects the vibration angle and frequency of the internal components of the electric toothbrush, after the test is completed, standardized test fixture 7 binds the test result with the code of tray 3, then internal components and tray of the electric toothbrush are released, 3 reaches simulated working condition test fixture 8, and meanwhile, feeding station 4 releases tray 3 bearing internal components of the electric toothbrush to the station.

The tray 3 bearing the internal components of the electric toothbrush reaches a simulated working condition test fixture 8, the simulated working condition test fixture 8 firstly fixes the tray 3 and the internal components of the electric toothbrush through a product front end clamping claw cylinder 87, a dummy load loader II 85 is loaded on the head of the internal components of the electric toothbrush, the load cylinder 8 descends to enable a head load block 89 of the internal components of the product to press the dummy load loader II 85, a test box II 83 is connected with the internal components of the electric toothbrush and enables the internal components to vibrate, the test box II 83 receives and judges data fed back by the internal components of the electric toothbrush, after the test is finished, the simulated working condition test fixture 8 binds the test result with the code of the tray 3, then the internal components and the tray of the electric toothbrush are released, 3 is sent to the three-axis soldering tin platform 9, and the standardized testing jig 7 releases the internal components and the tray 3 of the electric toothbrush which are tested to the station.

Tray 3 that is bearing electric toothbrush internal component reachs three-axis soldering tin platform 9, three-axis soldering tin platform 9 is earlier fixed with tray 3 and electric toothbrush internal component through soldering tin locating rack 93, three-axis mobile device 91 removes the jumper wire welding point of electric toothbrush internal component with automatic soldering tin machine 92, automatic soldering tin machine 92 links together the jumper wire welding point, three-axis soldering tin platform 9 accomplishes work and binds the code of result and tray 3, then release electric toothbrush internal component and support, 3 to defective products transmission device 10, simulation operating mode test fixture 8 releases one electric toothbrush internal component and tray 3 to this three-axis soldering tin platform 9 of accomplishing the test simultaneously.

The tray 3 carrying the internal components of the electric toothbrush reaches the defective product conveying device 10, the defective product conveying device 3 drives the internal components of the electric toothbrush and the tray 3 which are judged to be defective through the third driving device 101 to drive the tray lifting plate 102 to lift the internal components of the electric toothbrush and the tray 3 which are judged to be defective, and then the internal components of the electric toothbrush and the tray 3 which are judged to be defective are conveyed into the defective product collecting track 104 through the tray push plate 103; releasing the internal components and the tray of the electric toothbrush judged to be 'passed' to the discharging station 51, and simultaneously releasing one internal component and the tray 3 of the electric toothbrush which are completely welded to the position by the three-axis soldering tin platform 9; the tray 3 carrying the defective electric toothbrush internal components reaches the defective product collecting rail 104 and is collected, three indicating lamps are arranged at the tail end of the defective product collecting rail 104 and respectively represent the defective products of standardization, simulation working conditions and jumper wire welding, an operator places the defective electric toothbrush internal components into corresponding collecting boxes through the prompting of the indicating lamps, and places the empty tray 3 into the reflow station 6

Tray 3, carrying the internal components of the electric toothbrush, arrives at discharge station 51, and discharge station 51 prompts the operator to take the internal components of the electric toothbrush away, and after the operator takes the internal components of the electric toothbrush away and leaves the safety light curtain, empty tray 3 will be released to return flow station 6.

The empty trays 3 are conveyed to the reflow station 6 and collected in this zone. When a tray 3 is needed by the feeding station 4, the reflow station 6 will release one tray 3 to the feeding station 4.

To sum up, the utility model has the advantages of it is following:

1. the labor cost is reduced, the production efficiency is improved, and operators are protected from being damaged by soldering tin pollution;

2. the automatic on-line test is realized by adopting a mode that the tray 3 is used for loading toothbrush internal components for conveying by a conveyor belt;

3. the radio frequency label on the tray is used as a carrier for information binding, so that the test result and the production process can be traced in the whole process, and the production analysis and tracking are convenient to carry out;

4. the multi-station series production speeds up the beat;

5. the defective products are sorted by the radio frequency tags, and the fault problem of product modification is informed to an operator through different indicating lamps;

6. the circular transmission guide rail 2 realizes the recycling of the tray 3;

7. and the laser displacement sensor calculates the difference value measured by 2 points to obtain the test values of vibration frequency, amplitude and the like.

The utility model discloses be applied to semi-manufactured goods electric toothbrush test equipment's technical field.

While the embodiments of the present invention have been described in terms of practical embodiments, they are not intended to limit the scope of the invention, and modifications of the embodiments and combinations with other embodiments will be apparent to those skilled in the art in light of the present description.

Claims (8)

1. The utility model provides an online electric toothbrush semi-manufactured goods assembly test equipment which characterized in that: it includes test rack (1), be provided with operation controller on test rack (1) and with operation controller electric connection's annular transmission guide rail (2), the transmission has a plurality of tray (3) on annular transmission guide rail (2), annular transmission guide rail (2) go up set gradually all with operation controller electric connection's feeding station (4), work station, ejection of compact station (5) and backward flow station (6), the work station is pressed tray (3) transmission direction has set gradually standardized test fixture (7), simulation operating mode test fixture (8), triaxial soldering tin platform (9) and defective products transmission device (10).

2. The on-line electric toothbrush semi-finished product assembly test equipment of claim 1, characterized in that: every tray (3) all is provided with radio frequency identification, feeding station (4), standardized test fixture (7), simulation operating mode test fixture (8), triaxial soldering tin platform (9), defective products transmission device (10) and ejection of compact station (5) all are provided with radio frequency reader and tray transmission and block the cylinder.

3. The on-line electric toothbrush semi-finished product assembly test equipment of claim 1, characterized in that: test rack (1) is provided with ya keli door (12), ya keli door (12) will the work station surrounds, ya keli door (12) are provided with electromagnetic lock and safe bolt, be provided with cantilever control box (13) on yakeli door (12), operation controller set up in cantilever control box (13).

4. The on-line electric toothbrush semi-finished product assembly test equipment of claim 1, characterized in that: the standardized testing jig (7) comprises a dummy load device I and a standard jig, the standard jig comprises a moving frame I (71) arranged at one end of the annular transmission guide rail (2), a longitudinal moving device I (72) and a testing box I (73) connected with the longitudinal moving device I (72) are arranged on the moving frame I (71), and a laser displacement sensor I is arranged in the testing box I (73); the first dummy load device comprises a first transverse moving device (74) arranged at the lower end of the first moving frame (71) and a first dummy load loader (75) connected with the first transverse moving device (74), a first driving device (76) arranged below the annular transmission guide rail (2) and a first fixing frame (77) connected with the first driving device (76), a jig (78) matched with the head of an internal component of a product in the tray (3) is arranged at the top end of the first fixing frame (77), a notch (79) is formed in the fixing frame (77), and the first test box (73) can move to the position above the notch (79).

5. The on-line electric toothbrush semi-finished product assembly test equipment of claim 1, characterized in that: the simulation working condition test fixture (8) comprises a dummy load device II and a simulation fixture, the simulation fixture comprises a moving frame II (81) arranged at one end of the annular transmission guide rail (2), a longitudinal moving device II (82) and a test box II (83) connected with the longitudinal moving device II (82) are arranged on the moving frame II (81), the dummy load device II comprises a transverse moving device II (84) arranged at the lower end of the moving frame I (71) and a dummy load loader II (85) connected with the transverse moving device II (84), the dummy load device II further comprises a driving device II (86) below the annular transmission guide rail (2), a plurality of groups of product front end clamping claw cylinders (87) connected with the driving device II (86) and a load cylinder (88) arranged on the moving frame II (81) and located at the rear end of the test box II (83), the lower end of the load cylinder (88) is provided with a product inner assembly head load block (89).

6. The on-line electric toothbrush semi-finished product assembly test equipment of claim 1, characterized in that: triaxial soldering tin platform (9) include triaxial mobile device (91) and with automatic weld machine (92) that triaxial mobile device (91) is connected, triaxial soldering tin platform (9) still include soldering tin locating rack (93), soldering tin locating rack (93) set up in the top of annular drive guide rail (2), soldering tin locating rack (93) be equipped with welding breach (94) of automatic weld machine (92) looks adaptation.

7. The on-line electric toothbrush semi-finished product assembly test equipment of claim 1, characterized in that: defective products transmission device (10) including set up in drive arrangement three (101) of annular transmission guide rail (2) below and with tray jacking board (102) that drive arrangement three (101) are connected, one side of tray jacking board (102) is provided with tray push pedal (103), the opposite side of tray jacking board (102) is provided with defective products and collects track (104), the end that defective products collected track (104) is provided with a plurality of pilot lamp.

8. The on-line electric toothbrush semi-finished product assembly test equipment of claim 1, characterized in that: the feeding station (4) comprises a feeding hole (41), the feeding hole (41) is provided with a first safety light curtain and a second laser displacement sensor, and the laser displacement sensors are opposite to the tray (3) at the feeding hole (41); discharge station (5) include discharge gate (51), discharge gate (51) are provided with safe light curtain two, the head and the tail both ends of the guide rail of backward flow station (6) respectively with discharge station (5) guide rail end with feed station (4) guide rail front end is connected, the guide rail tail end of backward flow station (6) also is provided with tray transmission and blocks the cylinder.

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