CN219162707U - Test machine - Google Patents

Abstract

The embodiment of the application provides a test machine, which comprises a base, an upper cover, a mounting plate and at least one fixing device, wherein the base is provided with a placement position for placing an electronic device, the upper cover is used for covering the base in a test, the mounting plate is arranged on the upper cover, the at least one fixing device is arranged on the mounting plate, the fixing device is used for fixing a mobile scanner in a detachable mode, and the fixing device can be opposite to the placement position so that the mobile scanner can scan information of the electronic device. According to the test machine table, the movable scanner can be fixed through the fixing device, so that the movable scanner is opposite to an electronic device placed on the base, the movable scanner can accurately scan information of the electronic device, the scanning accuracy is improved, and the scanning efficiency and the production efficiency are further improved. In addition, the fixing device can fix the movable scanner, and the movable scanner can also be separated from the fixing device, so that the same movable scanner can be fixed by the fixing devices of different test machines, thereby being beneficial to reducing the cost.

Description

Test machine

Technical Field

The application belongs to the technical field of production of electronic devices, and particularly relates to a test machine.

Background

In a production line for producing electronic devices, a worker usually manually controls a scanner to scan a sequential bar code of the electronic device, but due to the large manual control activity, the scanner and the sequential bar code of the electronic device are easily misaligned, so that the scanning error is caused, and the scanning efficiency and the production efficiency are reduced.

Disclosure of Invention

An object of the embodiment of the application is to provide a test machine, which can solve the problem of reduced scanning efficiency and production efficiency caused by manual scanning errors in the related art.

The embodiment of the application provides a test machine, including base, upper cover, mounting panel and at least one fixing device, the base is equipped with the place that is used for placing electronic device, the upper cover is used for closing in the test the base, the mounting panel set up in the upper cover, at least one fixing device set up in the mounting panel, fixing device is used for fixing the mobile scanner with the detachable mode, just fixing device can with place the position phase, so that the mobile scanner scans electronic device's information.

In the embodiment of the application, the test machine can fix the mobile scanner through the fixing device, so that the mobile scanner is opposite to an electronic device placed on the base, the mobile scanner can accurately scan information of the electronic device, the scanning accuracy is improved, and the scanning efficiency and the production efficiency are further improved. In addition, the fixing device can fix the mobile scanner, and the mobile scanner can also be separated from the fixing device, so that the same mobile scanner can be fixed by different fixing devices to scan information of electronic devices corresponding to different fixing devices, multi-position scanning is realized, and compared with the scheme that each fixing device is independently provided with the mobile scanner and the mobile scanner is not detachable, the number of the mobile scanners is reduced, and the cost is reduced.

Drawings

FIG. 1 is a schematic structural diagram of a test machine disclosed in an embodiment of the present application;

FIG. 2 is a schematic diagram of a part of a test machine according to an embodiment of the present disclosure;

FIG. 3 is a schematic structural view of a holding device according to an embodiment of the present disclosure;

FIG. 4 is a schematic view of a holding device according to an embodiment of the present disclosure in another view;

fig. 5 is an exploded view of a holding device disclosed in an embodiment of the present application.

Reference numerals illustrate:

100-base,

200-upper cover, 210-mounting plate, 211-opening,

300-holding device,

310-base, 311-base, 3111-first bar-shaped hole, 312-support, 3121-second bar-shaped hole, 320-clamp, 321-clamp, 322-locking hole,

330-slide member,

340-rotating part, 341-first rotating part, a-first connecting hole, b-second connecting hole, e-third connecting hole, 342-second rotating part, c-shaft hole, d-arc hole,

400-electronic device,

500-moving scanner.

Detailed Description

Technical solutions in the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application are within the scope of the protection of the present application.

The terms first, second and the like in the description and in the claims, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present application may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type and not limited to the number of objects, e.g., the first object may be one or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

The test machine provided in the embodiment of the present application is described in detail below with reference to the accompanying drawings by means of specific embodiments and application scenarios thereof.

Referring to fig. 1 to 5, the test machine disclosed in the embodiments of the present application includes a base 100, an upper cover 200, a mounting plate 210 and at least one holding device 300, wherein the base 100 is used as a mounting base of the upper cover 200, the mounting plate 210 and the holding device 300, the base 100 is provided with a placement position for placing the electronic device 400, the upper cover 200 is used for covering the base 100 during testing, so that the upper cover 200 and the base 100 together form a testing space, and the mobile scanner 500 scans the electronic device 400 in the testing space. Optionally, the upper cover 200 is rotatably connected to the base 100, and the upper cover 200 is rotatable relative to the base 100 to cover the base 100; the upper cover 200 may also be slidably connected to the base 100, and the upper cover 200 may be slid with respect to the base 100 to cover the base 100.

The mounting plate 210 is disposed on the upper cover 200, and at least one holding device 300 is disposed on the mounting plate 210, so that the mounting plate 210 and the holding device 300 can move along with the upper cover 200. The holding device 300 is used for detachably fixing the mobile scanner 500, and the holding device 300 can be opposite to the placement position, so that the mobile scanner 500 scans information of the electronic device 400. Specifically, in the case that the upper cover 200 covers the base 100, the holding device 300 is opposite to the placement position, and the mobile scanner 500 can directly scan the information of the electronic device 400. Alternatively, the holding device 300 may be a clamping device, or may be another device capable of temporarily fixing the mobile scanner 500, that is, the mobile scanner 500 may be fixed to the holding device 300, or may be detached from the holding device 300.

The mobile scanner 500 may be a mobile scanning gun or other kinds of scanning devices; the electronic device 400 may be a circuit board and the mobile scanner 500 is used to scan bar code information on the circuit board.

In this embodiment, the test machine may fix the mobile scanner 500 through the fixing device 300, so that the mobile scanner 500 is opposite to the electronic device 400 placed on the base 100, and the mobile scanner 500 can accurately scan the information of the electronic device 400, thereby improving the scanning accuracy and further improving the scanning efficiency and the production efficiency. In addition, the fixing device 300 can fix the mobile scanner 500, and the mobile scanner 500 can also be separated from the fixing device 300, so that the same mobile scanner 500 can be fixed by different fixing devices 300 to scan information of electronic devices 400 corresponding to different fixing devices 300, thereby realizing multi-position scanning, and compared with the scheme that each fixing device 300 is independently provided with the mobile scanner 500 and the mobile scanner 500 is not detachable, the number of the mobile scanners 500 is reduced, which is beneficial to reducing the cost.

In an alternative embodiment, as shown in fig. 3-5, the holding device 300 includes a base 310 and a clamping member 320, the base 310 is disposed on the mounting board 210, the clamping member 320 is connected to the base 310, and the clamping member 320 may include a first clamping portion and a second clamping portion, where the first clamping portion and the second clamping portion are movably connected, and the first clamping portion and the second clamping portion may jointly clamp the mobile scanner 500. In another embodiment, the clamping member 320 is provided with a clamping opening 321, and the clamping opening 321 is used for inserting or extending the mobile scanner 500. Alternatively, the clamping opening 321 may have a square structure, a circular structure, or the like, and the clamping opening 321 may be adapted to the external shape of the mobile scanner 500. By adopting the embodiment, the mobile scanner 500 can be directly inserted into the clamping opening 321, so that the clamping and fixing of the mobile scanner 500 by the clamping piece 320 is realized, the mobile scanner 500 is not required to be independently clamped by two clamping parts, the structure is simple, the use is convenient, the acting force of the clamping piece 320 on the mobile scanner 500 is moderate, and the damage to the mobile scanner 500 caused by overlarge clamping acting force of the two clamping parts on the mobile scanner 500 is avoided.

In an alternative embodiment, the clamping member 320 may be fixedly attached directly to the base 310, with the clamping member 320 being fixed in position relative to the mounting plate 210. In another embodiment, the holding device 300 further includes a slider 330, the slider 330 is disposed on the base 310, and the slider 330 and the clamping member 320 are slidably connected along the extending direction of the slider 330. Alternatively, the sliding member 330 is a strip-shaped member, the sliding member 330 may be provided with a strip-shaped slot, one end of a fastener (such as a bolt) penetrates the strip-shaped slot and is tightly fastened into the clamping member 320, so that the clamping member 320 is connected with the sliding member 330, and the fastener can slide along the strip-shaped slot, so that the clamping member 320 slides relative to the sliding member 330. With the present embodiment, the clamping member 320 can slide along the extending direction of the sliding member 330, so that the position of the clamping member 320 can be adjusted as required, and thus the scanning position of the moving scanner 500 along the extending direction of the sliding member 330 can be adjusted, and the accuracy of the scanning position can be ensured.

In an alternative embodiment, the clamping member 320 may be fixedly attached directly to the base 310, with the clamping member 320 being fixed in position relative to the mounting plate 210. In another embodiment, the holding device 300 further includes a rotating member 340, where the rotating member 340 includes a first rotating portion 341 and a second rotating portion 342 rotatably connected, the first rotating portion 341 is connected to the base 310, and the second rotating portion 342 is connected to the clamping member 320. Alternatively, the first rotating portion 341 may be fixedly connected to the base 310 by welding or the like, and the second rotating portion 342 may be fixedly connected to the clamping member 320 by welding or the like. Alternatively, the second rotating portion 342 is fixedly connected to the slider 330, that is, the second rotating portion 342 is indirectly connected to the holder 320 through the slider 330. With the present embodiment, the clamping member 320 can rotate relative to the base 310, so that the rotation position of the clamping member 320 can be adjusted as required, thereby adjusting the scanning direction of the mobile scanner 500 and ensuring the scanning accuracy.

In an alternative embodiment, one of the first rotating portion 341 and the second rotating portion 342 may be provided with a cylindrical groove, the other one is provided with a cylindrical protrusion, the cylindrical protrusion may extend into the cylindrical groove, and the cylindrical protrusion may rotate in the cylindrical groove, thereby achieving the relative rotation of the first rotating portion 341 and the second rotating portion 342.

In another embodiment, as shown in fig. 5, the first rotating portion 341 is provided with a first connecting hole a and a second connecting hole b, the second rotating portion 342 is provided with an arc hole d and a shaft hole c, the central line of the circumference where the arc hole d is located is collinear with the axis of the shaft hole c, one end of the first fastening member sequentially penetrates through the shaft hole c and the first connecting hole a, and one end of the second fastening member sequentially penetrates through the arc hole d and the second connecting hole b, so that the first fastening member provides rotating support for the second rotating portion 342, the second rotating portion 342 can rotate around the axis of the shaft hole c relative to the first rotating portion 341, meanwhile, the second fastening member can slide in the arc hole d, and the rotating range of the second rotating portion 342 relative to the first rotating portion 341 is determined by the central angle corresponding to the arc hole d. Wherein, the first fastener and the second fastener can be threaded fasteners (such as bolts and the like). Alternatively, the axis of the shaft hole c is in a direction parallel to the direction in which the holder 320 slides with respect to the slider 330.

By adopting the embodiment, not only the first fastener provides rotation support for the second rotation part 342, but also the second fastener can provide rotation support for the second rotation part 342 by providing the arc-shaped hole d for the second rotation part 342, so that the whole structure is simple, the relative rotation of the first rotation part 341 and the second rotation part 342 can be ensured, and the connection stability of the first rotation part and the second rotation part 342 can be ensured. The second rotating portion 342 can be detached from the first rotating portion 341 or the first rotating portion 341 and the second rotating portion 342 can be connected to each other according to maintenance requirements.

In an alternative embodiment, the base 310 includes a base 311 and a support 312, where the base 311 is fixedly connected to the mounting plate 210 and the support 312 is fixedly connected to the clamping member 320. In another embodiment, the base 311 is slidably connected to the mounting plate 210 along a first direction, the supporting portion 312 is slidably connected to the clamping member 320 along a second direction, and optionally, the supporting portion 312 is slidably connected to the first rotating portion 341 of the rotating member 340 along a second direction, where the first direction intersects the second direction. Alternatively, the first direction may be perpendicular to the second direction, and the first direction and the second direction may be perpendicular to the direction in which the axis of the shaft hole c is located, respectively.

With the present embodiment, the position of the base 311 with respect to the mounting plate 210 in the first direction, that is, the position of the holding device 300 with respect to the mounting plate 210 in the first direction can be adjusted as needed, thereby adjusting the position of the mobile scanner 500 in the first direction; alternatively, the position of the clamp 320 relative to the support 312 in the second direction is adjusted as needed to adjust the position of the mobile scanner 500 in the second direction. In summary, the position of the mobile scanner 500 is adjusted as needed to ensure scan accuracy.

In an alternative embodiment, the seat 311 may be slidably connected to the mounting plate 210 by a first sliding rail and a first sliding block that are slidably engaged in a first direction, and similarly, the support 312 may be slidably connected to the clamping member 320 by a second sliding rail and a second sliding block that are slidably engaged in a second direction.

In another embodiment, the base 311 is provided with a first strip-shaped hole 3111, the first strip-shaped hole 3111 extends along a first direction, one end of the third fastener penetrates through the first strip-shaped hole 3111 and the mounting plate 210 in sequence, and the base 310 is movable relative to the mounting plate 210 along the extending direction of the first strip-shaped hole 3111; and/or, the supporting portion 312 is provided with a second strip-shaped hole 3121, the second strip-shaped hole 3121 extends along the second direction, one end of the fourth fastening member penetrates the second strip-shaped hole 3121, and the clamping member 320 is movable relative to the base 310 along the extending direction of the second strip-shaped hole 3121. Wherein, the third fastener and the fourth fastener can be threaded fasteners (such as bolts and the like). Alternatively, the first rotating portion 341 is provided with a third connecting hole e, and one end of the fourth fastener sequentially penetrates through the second strip-shaped hole 3121 and the third connecting hole e, so that the first rotating portion 341 is connected to the supporting portion 312, and the first rotating portion 341 can move relative to the supporting portion 312 along the extending direction of the second strip-shaped hole 3121, and the clamping member 320 can move relative to the supporting portion 312 along with the first rotating portion 341.

With the embodiment, by utilizing the structure that the first bar-shaped hole 3111 and the third fastener are matched, not only the position of the fixing device 300 relative to the mounting plate 210 can be adjusted, but also the third fastener can be used for pressing the seat body 311 and the mounting plate 210 by adjusting the third fastener, so that the relative position of the seat body 311 and the mounting plate 210 is fixed, and the position of the fixing device 300 is prevented from being deviated due to the fact that the connection flexibility between the seat body 311 and the mounting plate 210 is high; similarly, with the structure that the second bar-shaped hole 3121 and the fourth fastener cooperate, not only the position of the clamping member 320 relative to the supporting portion 312 in the second direction can be adjusted, but also the fourth fastener can press the supporting portion 312 by adjusting the fourth fastener, so that the relative position of the clamping member 320 and the supporting portion 312 in the second direction is fixed, and the position of the moving scanner 500 is prevented from being shifted due to the greater flexibility of connection between the supporting portion 312 and the clamping member 320.

Alternatively, at least two first strip-shaped holes 3111 and at least two second strip-shaped holes 3121 may be arranged at intervals, the number of the third fastening members and the number of the fourth fastening members are at least two, the first strip-shaped holes 3111 are in one-to-one correspondence with the third fastening members, and the second strip-shaped holes 3121 are in one-to-one correspondence with the fourth fastening members. Further alternatively, the first rotating portion 341 is provided with at least two third connection holes e, which are in one-to-one correspondence with the second bar-shaped holes 3121.

In an alternative embodiment, the holding device 300 further includes a sliding member 330 and a rotating member 340, the sliding member 330 is slidably connected with the clamping member 320 along the extending direction of the sliding member 330, the base 310 is connected with the sliding member 330 through the rotating member 340, so that the sliding member 330 rotates relative to the base 310, and the base 310 and the mounting plate 210, the base 310 and the rotating member 340, the rotating member 340 and the sliding member 330, and the sliding member 330 and the clamping member 320 may be fixedly connected by welding or other non-detachable manners.

In another embodiment, the base 310 is detachably connected to the mounting plate 210, and/or the base 310 is detachably connected to the rotating member 340, and/or the rotating member 340 is detachably connected to the sliding member 330, and/or the sliding member 330 is detachably connected to the clamping member 320. Alternatively, the base 311 and the mounting plate 210, the supporting portion 312 and the rotating member 340, the second rotating portion 342 and the sliding member 330, and the sliding member 330 and the clamping member 320 may be detachably connected by using threaded fasteners (such as bolts), although other manners of detachably connecting may be used. With the present embodiment, the components of the holding device 300 can be assembled or disassembled as needed to facilitate maintenance and assembly of the holding device 300.

In the solution of the present application, the holding device 300 further includes a locking member movably disposed on the clamping member 320, where the locking member is used to lock the position of the moving scanner 500 relative to the clamping member 320. Optionally, the clamping member 320 is provided with a locking hole 322, the locking hole 322 is in communication with the clamping port 321, and the locking member may penetrate the locking hole 322 to abut against the moving scanner 500, thereby locking the position of the moving scanner 500 relative to the clamping member 320. Further alternatively, the locking hole 322 may be a threaded hole, the locking member may be a threaded fastener (e.g., a bolt, etc.), and screwing the locking member from outside the clamping member 320 may adjust the length of the portion of the locking member protruding from the locking hole 322, thereby adjusting the abutment force of the locking member against the mobile scanner 500. With the embodiment, after the mobile scanner 500 is inserted into the clamping opening 321, the mobile scanner 500 can be locked by the locking member, so that the position of the mobile scanner 500 relative to the clamping member 320 is fixed, and the mobile scanner 500 is prevented from being displaced during the scanning process.

Of course, in other embodiments, the holding device 300 may not be provided with a locking member, and only the clamping opening 321 is matched with the mobile scanner 500 to fix the mobile scanner 500.

In an alternative embodiment, one locking piece may be provided, or the number of the locking pieces is at least two, each locking piece is arranged on the clamping piece 320 at intervals, alternatively, at least two locking holes 322 are arranged on the clamping piece 320 at intervals, and the locking holes 322 are in one-to-one correspondence with the locking pieces. In the latter embodiment, different locking members are used to lock different positions of the mobile scanner 500, so as to ensure that the whole of the mobile scanner 500 is fixed relative to the clamping member 320, ensure the whole stability of the mobile scanner 500, and avoid displacement of any position of the mobile scanner 500 during scanning.

In an alternative embodiment, the holding device 300 is disposed on a side of the mounting plate 210 facing the base 100, or, as shown in fig. 1 and 2, the holding device 300 is disposed on a side of the mounting plate 210 facing away from the base 100, and the mounting plate 210 is provided with an opening 211 for emitting the scanning light of the mobile scanner 500, where the opening 211 may be opposite to the placement position. Optionally, the holding device 300 is disposed between the mounting plate 210 and the upper cover 200, and the opening 211 is opposite to the placement position when the upper cover 200 covers the base 100, and the scanning light of the moving scanner 500 can scan the information of the electronic device 400 located on the placement position through the opening 211. In the latter embodiment, the fixing device 300 is limited to the side facing away from the base 100 by the mounting plate 210, so that the situation that the moving scanner 500 is too close to the electronic device 400 to cause the moving scanner 500 to collide with the electronic device 400 easily when the fixing device 300 protrudes from the side of the mounting plate 210 facing towards the base 100 is avoided, and the safety performance of the electronic device 400 and the moving scanner 500 is ensured.

The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those of ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are also within the protection of the present application.

Claims (10)

1. The utility model provides a test machine, its characterized in that includes base (100), upper cover (200), mounting panel (210) and at least one holding device (300), base (100) are equipped with the position of placing that is used for placing electronic device (400), upper cover (200) are used for closing in the test base (100), mounting panel (210) set up in upper cover (200), at least one holding device (300) set up in mounting panel (210), holding device (300) are used for fixing mobile scanner (500) with the detachable mode, and holding device (300) can be with place the position is opposite, so that mobile scanner (500) scans the information of electronic device (400).

2. The test bench according to claim 1, characterized in that the holding device (300) comprises a base (310) and a clamping member (320), the base (310) is arranged on the mounting plate (210), the clamping member (320) is connected with the base (310), and the clamping member (320) is provided with a clamping opening (321), and the clamping opening (321) is used for inserting or extending the mobile scanner (500).

3. The test station according to claim 2, wherein the holding device (300) further comprises a slider (330), the slider (330) is disposed on the base (310), and the slider (330) is slidably connected to the clamping member (320) along an extension direction of the slider (330).

4. The test station according to claim 2, wherein the holding device (300) further comprises a rotating member (340), the rotating member (340) comprises a first rotating portion (341) and a second rotating portion (342) rotatably connected, the first rotating portion (341) is connected to the base (310), and the second rotating portion (342) is connected to the clamping member (320).

5. The test bench according to claim 4, wherein the first rotating portion (341) is provided with a first connecting hole (a) and a second connecting hole (b), the second rotating portion (342) is provided with an arc hole (d) and a shaft hole (c), a center line of a circumference where the arc hole (d) is located is collinear with an axis of the shaft hole (c), one end of the first fastener sequentially penetrates through the shaft hole (c) and the first connecting hole (a), one end of the second fastener sequentially penetrates through the arc hole (d) and the second connecting hole (b), and the second rotating portion (342) can rotate around the axis of the shaft hole (c) relative to the first rotating portion (341).

6. The test bench according to claim 2, characterized in that the base (310) comprises a base body (311) and a supporting part (312) which are connected, the base body (311) is slidably connected with the mounting plate (210) along a first direction, the supporting part (312) is slidably connected with the clamping member (320) along a second direction, and the first direction intersects the second direction.

7. The test bench according to claim 6, characterized in that the base (311) is provided with a first bar-shaped hole (3111), the first bar-shaped hole (3111) extends along the first direction, one end of the third fastener penetrates through the first bar-shaped hole (3111) and the mounting board (210) in sequence, and the base (310) is movable relative to the mounting board (210) along the extending direction of the first bar-shaped hole (3111);

and/or the supporting part (312) is provided with a second strip-shaped hole (3121), the second strip-shaped hole (3121) extends along the second direction, one end of the fourth fastening piece penetrates through the second strip-shaped hole (3121), and the clamping piece (320) can move relative to the base (310) along the extending direction of the second strip-shaped hole (3121).

8. The test station according to claim 2, wherein the holding device (300) further comprises a slider (330) and a rotating member (340), the slider (330) and the clamping member (320) are slidably connected along the extending direction of the slider (330), the base (310) is connected to the slider (330) by the rotating member (340) so that the slider (330) rotates relative to the base (310), and the base (310) is detachably connected to the mounting plate (210), and/or the base (310) is detachably connected to the rotating member (340), and/or the rotating member (340) is detachably connected to the clamping member (320), and/or the slider (330) is detachably connected to the clamping member (320).

9. The test station of claim 2, wherein the holding device (300) further comprises a locking member movably arranged to the clamping member (320), the locking member being adapted to lock the position of the mobile scanner (500) relative to the clamping member (320).

10. The testing machine according to claim 1, wherein the holding device (300) is disposed on a side of the mounting plate (210) facing away from the base (100), and the mounting plate (210) is provided with an opening (211) for emitting the scanning light of the mobile scanner, and the opening (211) can be opposite to the placement position.

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