CN219676104U - Automatic change probe disassembly body - Google Patents

Abstract

The utility model relates to the technical field of probes, in particular to an automatic probe disassembling mechanism, which has the innovation points that: the utility model has the advantages that the probe head can be quickly and automatically disassembled, and meanwhile, the front pushing cavity with the forward opening is arranged on the rear wall of the moving groove, so that the probe head can be automatically disassembled, the damage caused by manual disassembly is avoided, the service life of the probe head is prolonged, and the working efficiency is improved.

Description

Automatic change probe disassembly body

Technical Field

The utility model relates to the technical field of probes, in particular to an automatic probe disassembling mechanism.

Background

The probe is a contact medium for electric test and is a high-end precise electronic hardware component, and the existing probe mechanism generally comprises a rack and a plurality of probe mounting plates; wherein, the frame is located the both sides of probe mounting panel, and a plurality of probe mounting panels arrange side by side, and can install a plurality of probes on the every row of probe mounting panel, because the probe is less, damages easily when dismantling.

The patent of publication No. CN215768702U discloses a gang probe with dismantle protection machanism, including mounting bracket and mounting bracket inner chamber one side is provided with the probe, the mounting hole has been run through to mounting bracket upper end one side, and the mounting hole inner chamber both sides are provided with a pair of arm lock relatively, and arm lock one side is provided with the telescopic link. The telescopic rod moves to drive the clamping arm to move, so that the probe is convenient to detach, and the probe is small, and the probe can be detached after the rotating wheel is rotated, so that a certain protection effect is achieved, and the damage to the probe caused by manual detachment is prevented.

Disclosure of Invention

The object of the present utility model is to provide an automated probe removal mechanism for overcoming the above-mentioned drawbacks of the prior art.

The automatic probe disassembling mechanism comprises a main box body, wherein a movable opening with a forward opening and a U-shaped opening shape is formed in the front end face of the main box body, a movable groove is penetrated between the lower wall of the movable opening and the lower end face of the main box body, a detachable fixed block is arranged in the movable opening, and a probe head is fixedly arranged on the lower end face of the fixed block;

the probe head passes the movable groove extends to outside the terminal surface under the main tank body, be equipped with down the chamber in the upper wall of movable opening right side, it is right to be equipped with the opening respectively to push down the chamber and be the driven groove of U type open-ended form to push down the chamber, the driven groove keeps away from push down the lower wall of one side of chamber and be equipped with the opening upwards and be the lower spout of U type open-ended form, two wall connection are about the movable groove downside down the spout is equipped with the movable chamber respectively.

Preferably, a movable pressing block is arranged in the pressing cavity, a pressing plate is fixedly arranged on the lower end face of the pressing block, the pressing plate extends into the movable opening, a pressing magnet is fixedly arranged on the upper wall of the pressing cavity, and a pressing spring is arranged between the upper wall of the pressing magnet and the upper end face of the pressing block.

Preferably, the left end face and the right end face of the lower pressing block are fixedly provided with driven plates, the driven plates extend into the driven grooves, the lower end face of each driven plate is fixedly provided with a lower sliding rod, and the lower sliding rods extend into the lower sliding grooves.

Preferably, the movable plate is arranged in the movable cavity, the upper wall of the movable cavity is provided with a translation groove with a downward opening and a U-shaped opening, the upper end face of the movable plate is fixedly provided with a translation plate, the translation plate extends into the translation groove, and a translation spring is arranged between one side surface of the translation plate, which is close to the movable groove, and one side wall of the translation groove, which is close to the movable groove.

Preferably, a fixed baffle is fixedly arranged on the lower wall of the front side of the movable opening.

Preferably, the rear wall of the movable groove is provided with a front pushing cavity with a forward opening and a U-shaped opening, and a movable front pushing plate is arranged in the front pushing cavity.

Preferably, a front push groove is formed in the rear wall of the front push cavity, a movable front push block is arranged in the front push groove, a front push magnet is fixedly arranged on the front wall of the front push groove, a front push spring is arranged between the rear end face of the front push magnet and the front end face of the front push block, and a front push rod is connected between the front end face of the front push block and the rear end face of the front push plate.

Compared with the prior art, the utility model has the advantages that:

1. according to the utility model, the movable pressing block is arranged in the pressing cavity, and the pressing plate is fixedly arranged on the lower end surface of the pressing block, so that the probe head can be quickly fixed, and meanwhile, quick and automatic disassembly can be realized.

2. According to the utility model, the front pushing cavity with the forward opening is arranged on the rear wall of the moving groove, so that the probe head can be automatically disassembled, the damage caused by manual disassembly is avoided, the service life of the probe head is prolonged, and the working efficiency is improved.

Drawings

FIG. 1 is an external schematic front view of the present utility model;

FIG. 2 is an external schematic bottom view of the present utility model;

FIG. 3 is an external schematic side view of the present utility model;

FIG. 4 is a schematic structural view of an automated probe removal mechanism of the present utility model;

FIG. 5 is a schematic illustration of A-A of FIG. 1 in accordance with the present utility model;

FIG. 6 is a schematic diagram of B-B of FIG. 2 in accordance with the present utility model.

In the figure:

11. a main case; 12. a probe head; 13. a moving plate; 14. a fixed baffle; 15. a lower pressing plate; 16. a fixed block; 17. a moving groove; 18. moving the opening; 19. pressing the block; 20. pressing down the magnet; 21. pressing down the spring; 22. a pressing cavity; 23. a push-forward cavity; 24. a front push plate; 25. pushing the magnet forward; 26. a front push rod; 27. a front pushing block; 28. a push-forward spring; 29. a push-forward groove; 30. a lower slide bar; 31. a translation groove; 32. a translation plate; 33. a translation spring; 34. a lower chute; 35. a driven groove; 36. a driven plate; 37. the cavity is moved.

Detailed Description

Reference will now be made in detail to embodiments of the present utility model, examples of which are illustrated in the accompanying drawings. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element in question must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

Example 1

Referring to fig. 1-6, in a first embodiment of the present utility model, an example of an automatic probe disassembling mechanism is provided, including a main case 11, a front end surface of the main case 11 is provided with a moving opening 18 with a forward opening and a U-shaped opening, a moving slot 17 is penetrated between a lower wall of the moving opening 18 and a lower end surface of the main case 11, a detachable fixing block 16 is provided in the moving opening 18, and a probe head 12 is fixedly provided on a lower end surface of the fixing block 16;

the probe head 12 passes through the movable groove 17 and extends out of the lower end face of the main box 11, a pressing cavity 22 is arranged in the upper wall on the right side of the movable opening 18, the left wall and the right wall of the pressing cavity 22 are respectively provided with a driven groove 35 which is opened towards the pressing cavity 22 and is U-shaped and opened, the lower wall of one side of the driven groove 35, which is far away from the pressing cavity 22, is provided with a lower chute 34 which is opened upwards and is U-shaped and opened, and the left wall and the right wall of the lower side of the movable groove 17 are connected with the lower chute 34 respectively provided with a movable cavity 37.

The upper end of the probe head 12 is fixed in the fixed block 16, when the fixed block 16 moves backwards through the moving opening 18, the probe head 12 is driven to move backwards, and when the fixed block 16 is fixed at the rear side of the moving opening 18, the probe head 12 is fixed at the rear side of the moving groove 17, so that quick installation is realized.

Example 2

Referring to fig. 1-6, in this embodiment of the present utility model, based on the previous embodiment, specifically, a movable lower pressing block 19 is disposed in the lower pressing cavity 22, a lower pressing plate 15 is fixedly disposed on a lower end surface of the lower pressing block 19, the lower pressing plate 15 extends into the moving opening 18, a lower pressing magnet 20 is fixedly disposed on an upper wall of the lower pressing cavity 22, a lower pressing spring 21 is disposed between an upper wall of the lower pressing magnet 20 and an upper end surface of the lower pressing block 19, driven plates 36 are fixedly disposed on left and right end surfaces of the lower pressing block 19, the driven plates 36 extend into the driven grooves 35, a lower sliding rod 30 is fixedly disposed on a lower end surface of the driven plates 36, the lower sliding rod 30 extends into the lower sliding groove 34, a movable moving plate 13 is disposed in the moving cavity 37, a translating groove 31 with a downward opening and a U-shaped opening is fixedly disposed on an upper end surface of the moving plate 13, the translating plate 32 extends into the translating groove 31, a translating groove 32 is disposed between the translating plate 32 and the translating groove 31, and one side surface of the translating plate 32, which is close to the translating groove 17, which is disposed near the translating groove 33.

When the probe head 12 needs to be fixed, the lower pressing block 19 moves downwards under the action of the pressing spring 21, then drives the lower pressing plate 15 to move downwards, then fixes the fixed block 16, simultaneously drives the driven plate 36 to move downwards, then drives the lower sliding rod 30 to move downwards, then drives the movable plate 13 to move towards the direction close to the movable groove 17, then fixes the probe head 12, when the probe head 12 needs to be dismounted, the pressing magnet 20 is electrified, then drives the lower pressing block 19 to move upwards, then drives the lower pressing plate 15 to move upwards, then enables the fixed block 16 to move forwards, simultaneously drives the driven plate 36 to move upwards, then drives the lower sliding rod 30 to move upwards, then enables the translation plate 32 to move away from the movable groove 17 under the action of the translation spring 33, then drives the movable plate 13 to move away from the movable groove 17, and then enables the probe head 12 to move forwards for dismounting.

Example 3

Referring to fig. 1-6, in a third embodiment of the present utility model, based on the above two embodiments, a fixed baffle 14 is fixedly disposed on a lower wall of a front side of the moving opening 18, a front push cavity 23 with a front opening and a U-shaped opening is disposed on a rear wall of the moving slot 17, a movable front push plate 24 is disposed in the front push cavity 23, a front push groove 29 is disposed in a rear wall of the front push cavity 23, a movable front push block 27 is disposed in the front push groove 29, a front push magnet 25 is fixedly disposed on a front wall of the front push groove 29, a front push spring 28 is disposed between a rear end surface of the front push magnet 25 and a front end surface of the front push block 27, and a front push rod 26 is disposed between the front end surface of the front push block 27 and a rear end surface of the front push plate 24.

When the probe head 12 needs to be fixed, the forward pushing block 27 moves backwards under the action of the forward pushing spring 28, then drives the forward pushing rod 26 to move backwards, and then drives the forward pushing plate 24 to move backwards into the forward pushing cavity 23, so that the probe head 12 is convenient to fix, when the probe head 12 needs to be dismounted, the forward pushing magnet 25 is electrified, then drives the forward pushing block 27 to move forwards, then drives the forward pushing rod 26 to move forwards, then drives the forward pushing plate 24 to move forwards, and then pushes out the probe head 12 forwards, so that the automatic dismounting of the probe head 12 is realized, meanwhile, the probe head 12 is prevented from sliding off by the fixing baffle plate 14, and the probe head 12 can be quickly collected only by collecting the probe head 12 by staff in the later period.

The above embodiments are merely illustrative embodiments of the present utility model, but the technical features of the present utility model are not limited thereto, and any changes or modifications made by those skilled in the art within the scope of the present utility model are included in the scope of the present utility model.

Claims (7)

1. An automatic change probe disassembly body, includes main tank body (11), its characterized in that: the front end face of the main box body (11) is provided with a movable opening (18) with a forward opening, a movable groove (17) is arranged between the lower wall of the movable opening (18) and the lower end face of the main box body (11) in a penetrating way, a detachable fixed block (16) is arranged in the movable opening (18), and a probe head (12) is fixedly arranged on the lower end face of the fixed block (16);

the probe head (12) passes through the movable groove (17) and extends to the outside of the lower end face of the main box body (11), a pressing cavity (22) is arranged in the upper wall on the right side of the movable opening (18), driven grooves (35) with openings facing the pressing cavity (22) are respectively arranged on the left wall and the right wall of the pressing cavity (22), a lower sliding groove (34) with an upward opening is arranged on the lower wall of one side of the driven groove (35) away from the pressing cavity (22), and the left wall and the right wall of the lower side of the movable groove (17) are connected with the lower sliding groove (34) respectively provided with a movable cavity (37).

2. An automated probe removal mechanism according to claim 1, wherein: the movable pressing block (19) is arranged in the pressing cavity (22), the lower end face of the pressing block (19) is fixedly provided with a pressing plate (15), the pressing plate (15) extends into the moving opening (18), the pressing magnet (20) is fixedly arranged on the upper wall of the pressing cavity (22), and a pressing spring (21) is arranged between the upper wall of the pressing magnet (20) and the upper end face of the pressing block (19).

3. An automated probe removal mechanism according to claim 2, wherein: the left end face and the right end face of the lower pressing block (19) are fixedly provided with driven plates (36), the driven plates (36) extend into the driven grooves (35), the lower end face of the driven plates (36) is fixedly provided with lower sliding rods (30), and the lower sliding rods (30) extend into the lower sliding grooves (34).

4. An automated probe removal mechanism according to claim 3, wherein: be equipped with mobilizable movable plate (13) in removal chamber (37), the upper wall of removal chamber (37) is equipped with opening decurrent translation groove (31), the fixed translation board (32) that is equipped with of movable plate (13) up end, translation board (32) extend to in translation groove (31), translation board (32) are close to a side of removal groove (17) with translation groove (31) are close to be equipped with translation spring (33) between a side wall of removal groove (17).

5. An automated probe removal mechanism according to claim 4, wherein: the fixed baffle (14) is fixedly arranged on the lower wall of the front side of the movable opening (18).

6. An automated probe removal mechanism according to claim 5, wherein: the rear wall of the movable groove (17) is provided with a forward pushing cavity (23) with a forward opening, and a movable forward pushing plate (24) is arranged in the forward pushing cavity (23).

7. An automated probe removal mechanism according to claim 6, wherein: the novel push rod is characterized in that a forward push groove (29) is formed in the rear wall of the forward push cavity (23), a movable forward push block (27) is arranged in the forward push groove (29), a forward push magnet (25) is fixedly arranged on the front wall of the forward push groove (29), a forward push spring (28) is arranged between the rear end face of the forward push magnet (25) and the front end face of the forward push block (27), and a forward push rod (26) is connected between the front end face of the forward push block (27) and the rear end face of the forward push plate (24).