CN113964242B - Device for processing photoelectric detector - Google Patents

Abstract

The application discloses a device for processing a photoelectric detector, which comprises: a support plate horizontally arranged; a rotating part which is rotationally connected with the supporting plate; a plurality of clamping parts, install along circumference interval in the backup pad, this clamping part includes: the sliding rod is vertically arranged on the supporting plate; the sliding sleeve is connected with the sliding rod in a sliding manner; one end of the elastic piece is connected with the sliding sleeve, and the other end of the elastic piece is connected with the sliding rod or the supporting plate; the clamp is arranged on the sliding sleeve; a container arranged in an open manner and positioned on a track formed by projection of the clamp on the ground; and the pushing part is used for driving the clamp to enter or leave the container. The application can continuously operate, and has high automation degree and high efficiency.

Description

Device for processing photoelectric detector

Technical Field

The application relates to the technical field of detector production, in particular to a device for processing a photoelectric detector.

Background

In recent years, in order to meet the requirements of people on information transmission, optical communication networks are gradually developed towards high-speed and all-optical networks. The performance of semiconductor photodetectors as an important receiving device in optical communication networks affects the operation of the entire optical communication network.

The photoelectric detector is a sensor made by the principle that the conductivity of the irradiated material is changed due to illumination incidence; the method has wide application in various fields of industrial automatic control, photometry, missile guidance, infrared remote sensing and the like, and has important military value and wide civil market.

The processing steps of photodetectors generally include attaching nanowire materials to the photodetectors in a liquid medium, removing and drying to obtain semiconductor nanowire photodetectors.

In chinese patent application No.: 201510289807.6 a processing device of a semiconductor nanowire photoelectric detector comprises a liquid container, a clamping dripping device, a stirring device, a first driving device and a second driving device; the clamping dripping device is in power connection with the first driving device and driven by the first driving device to enter or leave the liquid container, and is provided with at least one photoelectric detector clamping position and at least one nanowire dripping port; the stirring device is positioned in the liquid container and is in power connection with the second driving device, and the second driving device drives the liquid in the liquid container to rotate. The technical scheme has low processing efficiency and needs to be further improved.

Disclosure of Invention

In order to solve at least one technical problem existing in the background art, the application provides a device for processing a photoelectric detector, which is high in efficiency.

The application provides a device for processing a photoelectric detector, which comprises:

a support plate horizontally arranged;

a rotating part which is rotationally connected with the supporting plate;

a plurality of clamping parts, install along circumference interval in the backup pad, this clamping part includes:

the sliding rod is vertically arranged on the supporting plate;

the sliding sleeve is connected with the sliding rod in a sliding manner;

an elastic member, one end of which is connected with the sliding sleeve and the other end of which is connected with the sliding rod or the supporting plate

The clamp is arranged on the sliding sleeve;

a container arranged in an open manner and positioned on a track formed by projection of the clamp on the ground;

and the pushing part is used for driving the clamp to enter or leave the container.

Preferably, the pushing part includes:

a pushing plate;

the output end of the first air cylinder is connected with the pushing plate;

and the fixed plate is arranged on the sliding sleeve and is positioned on the moving path of the pushing plate.

Preferably, the clamp includes:

the cross rod is horizontally arranged on the sliding sleeve;

the sliding block is provided with a sliding groove and is in sliding connection with the cross rod through the sliding groove;

the clamping assembly is arranged on the sliding block and used for clamping the detector;

the device also comprises a transfer part for separating the sliding block from the cross bar.

Preferably, the transfer unit includes:

a transfer plate;

the output end of the second cylinder is connected with the transfer plate; wherein, the moving track of the sliding block is intersected with the moving track of the transfer plate.

Preferably, the device further comprises a receiving bar disposed adjacent to the transfer plate and cooperating with the sliding groove; wherein the receiving bar is substantially coaxial with one of the rails when one of the clamping assemblies is positioned above the container.

Preferably, the device further comprises a drying box, wherein an inlet for the sliding block, the clamping component and the detector to enter is formed in the drying box; wherein the receiving rod is positioned in the drying box.

Preferably, the device further comprises a rotating part; the number of the receiving rods is multiple, the receiving rods are arranged at intervals along the circumferential direction in the horizontal direction, and the receiving rods are connected with the output end of the rotating part.

Preferably, a plurality of drying pipes are arranged in the drying box, the plurality of drying pipes are distributed at intervals along the circumferential direction, and air outlet holes facing the receiving rod are arranged on the drying pipes.

Preferably, the upper surface of the receiving rod near one end of the transfer plate is a downward inclined surface.

Preferably, the elastic member comprises two symmetrically arranged elastic strands.

The beneficial effects brought by one aspect of the application are as follows:

a corresponding liquid is placed in the container. The detector is clamped by a clamp. The supporting plate is driven to rotate by the rotating part. The support plate stops when a detector is positioned above the container.

Pushing the clamp to descend by using the pushing part, and allowing the detector to enter the container. After the liquid has adhered to the detector. The pushing part is separated from the clamp. Under the action of the elastic force of the elastic piece, the clamp and the sliding sleeve are driven to ascend and separate from the container.

And then, the supporting plate is driven to rotate by the rotating part continuously, and the left and right are repeated continuously. The application can continuously operate, and has high automation degree and high efficiency.

Drawings

FIG. 1 is a schematic diagram of one aspect of the present disclosure;

FIG. 2 is a schematic view of a slider moving onto a receiving rod according to the present disclosure;

FIG. 3 is a schematic view of the structure of the detector of the present disclosure after it leaves the container;

fig. 4 is a front view of a slider of the present disclosure.

Detailed Description

It should be noted that, under the condition of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other; the following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left" and "right", etc., are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the positions or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-4, an apparatus for processing a photodetector according to the present application includes:

a support plate 1 horizontally arranged; a rotating part 2, which can be a motor, is rotatably connected with the supporting plate 1; a plurality of clamping portions installed on the support plate 1 at intervals along the circumferential direction, the clamping portions including:

a slide bar 3 vertically installed on the support plate 1; a sliding sleeve 4 which is in sliding connection with the sliding rod 3; one end of the elastic piece 5 is connected with the sliding sleeve 4, and the other end of the elastic piece is connected with the sliding rod 3 or the supporting plate 1; a clamp mounted on the sliding sleeve 4; a container 6, which is arranged in an open manner and is positioned on a track formed by projection of the clamp on the ground; a pushing part for driving the clamp to enter or leave the container 6.

A corresponding liquid is placed in the container 6. The probe T is held by a jig. The support plate 1 is rotated by the rotating part 2. When one detector T is located above the container 6, the support plate 1 stops.

The pushing part pushes the clamp to descend so that the detector enters the container 6. After the liquid has adhered to the detector. The pushing part is separated from the clamp. Under the action of the elastic force of the elastic piece 5, the clamp and the sliding sleeve 4 are driven to ascend and are separated from the container 6.

Then, the support plate 1 is driven to rotate by the rotating part 2 continuously, and the left and right are repeated continuously. The embodiment can continuously operate, and has high automation degree and high efficiency.

The pushing section includes:

a push plate 7; the output end of the first air cylinder 8 is connected with the pushing plate 7; and a fixed plate 9 which is arranged on the sliding sleeve 4 and is positioned on the moving path of the pushing plate 7. When a detector is located above the container 6, the movement is stopped. The pushing plate 7 is driven to descend by the first air cylinder 8 and is contacted with the fixed plate 9, the fixed plate 9 and the sliding sleeve 4 are driven to descend, and the detector enters the container 6. After the detector is attached with liquid, the first air cylinder 8 drives the pushing plate 7 to ascend. Under the elastic force of the elastic piece 5, the sliding sleeve 4 and the clamp are lifted to drive the detector to separate from the container 6.

As a further improvement to the above example, in one embodiment, the clamp includes:

a cross bar 10 horizontally mounted on the sliding sleeve 4; a sliding block 11, wherein a sliding groove is arranged on the sliding block 11, and the sliding block 11 is in sliding connection with the cross rod 10 through the sliding groove; a clamping assembly 12 mounted on the slider 11 for clamping the probe; the device further comprises a transfer portion for disengaging the slider 11 from the crossbar 10.

As in fig. 2, after the probe has attached the liquid. After the other detector is located above the container 6, the support plate 1 stops rotating. The detector attached with the liquid is pushed down to the cross bar 10 by the transfer part, so that the collection is convenient. It is also convenient to place a new clamp on the rail 10. The automatic control device is convenient to operate continuously, high in automation degree and high in efficiency.

The new probe can be clamped by the clamping assembly 12 and then the slide 11 is pushed onto the rail 10 waiting for the attachment of liquid.

As a further improvement of the above example, in one embodiment, the transfer portion includes:

a transfer plate 13; a second cylinder 14, the output end of which is connected with the transfer plate 13; wherein the moving track of the sliding block 11 intersects with the moving track of the transfer plate 13. As shown in fig. 1, 2, 3, the detector on the right has attached liquid. When the left detector moves to the upper part of the container 6, the second cylinder 14 drives the transfer plate 13 to move, and the right detector and the sliding block 11 are pushed to the lower cross bar 10. After pushing, the transfer plate 13 is returned to its original position. The novel slide block 11 and the detector are conveniently placed, and continuous operation is convenient.

As a further improvement of the above example, in one embodiment, the device further comprises a receiving rod 15, the receiving rod 15 being arranged close to the transfer plate 13 and cooperating with the sliding groove, the receiving rod 15 being adapted to receive the slider 11; wherein the receiving bar 15 is substantially coaxial with one of the crossbars 10 when one of the clamping assemblies 12 is positioned above the container 6. As shown in fig. 2, 3, when the transfer plate 13 pushes the slider 11 and the detector, the slider 11 can be pushed onto the receiving rod 15. And the subsequent treatment is convenient. As shown in fig. 2, the distance between the left receiving rod 15 and the right cross rod 10 is smaller, which facilitates the movement of the slider 11 onto the receiving rod 15.

As a further improvement to the above example, in one embodiment, the apparatus further comprises a drying box 16, and an inlet 1601 for the slider 11, the clamping assembly 12, and the detector is provided on the drying box 16; wherein the receiving lever 15 is located in the drying box 16. The slide block 11 and the detector enter the drying box 16 through the inlet 1601, so that the drying treatment is convenient.

As a further improvement to the above-described embodiment, in one embodiment the device further comprises a rotating part 17; wherein the number of the receiving rods 15 is plural, and the receiving rods are circumferentially spaced in the horizontal direction and are connected to the output end of the rotating part 17. The receiving rods 15 are driven to move by the rotating parts 17, so that the sliding blocks 11 and the detectors can be conveniently received by different receiving rods 15. When one of the receiving bars 15 approaches the crossbar 10, as shown in fig. 2, it is stopped and turned after receiving.

As the receiving rod 15 is continuously rotated, the detector is dried uniformly.

As a further improvement of the above embodiment, in one embodiment, a plurality of drying pipes 18 are disposed in the drying box 16, and the plurality of drying pipes 18 are circumferentially spaced, and the drying pipes are provided with air outlet holes facing the receiving rod 15. As shown in fig. 3, the receiving rod 15 has just received the slider 11 and the detector. And drying the detector by using a drying pipe.

As a further improvement of the above example, in one embodiment, the upper surface of the receiving rod 15 near one end of the transfer plate 13 is a downward inclined surface. As shown in fig. 2, the slider 11 is conveniently moved from the cross bar 10 to the receiving bar 15.

As a further development of the above-described example, in one embodiment the elastic element 5 comprises two symmetrically arranged bungee cords. The two elastic ropes provide stable elastic force.

The foregoing is only a preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art, who is within the scope of the present application, should make equivalent substitutions or modifications according to the technical scheme of the present application and the inventive concept thereof, and should be covered by the scope of the present application.

Claims (10)

1. An apparatus for photodetector fabrication, comprising:

a support plate horizontally arranged;

a rotating part which is rotationally connected with the supporting plate;

a plurality of clamping parts, install along circumference interval in the backup pad, this clamping part includes:

the sliding rod is vertically arranged on the supporting plate;

the sliding sleeve is connected with the sliding rod in a sliding manner;

one end of the elastic piece is connected with the sliding sleeve, and the other end of the elastic piece is connected with the sliding rod or the supporting plate;

the clamp is arranged on the sliding sleeve;

a container arranged in an open manner and positioned on a track formed by projection of the clamp on the ground;

and the pushing part is used for driving the clamp to enter or leave the container.

2. The apparatus for photodetector processing according to claim 1, wherein said pushing section comprises:

a pushing plate;

the output end of the first air cylinder is connected with the pushing plate;

and the fixed plate is arranged on the sliding sleeve and is positioned on the moving path of the pushing plate.

3. The apparatus for photodetector fabrication of claim 1, wherein said fixture comprises:

the cross rod is horizontally arranged on the sliding sleeve;

the sliding block is provided with a sliding groove and is in sliding connection with the cross rod through the sliding groove;

the clamping assembly is arranged on the sliding block and used for clamping the detector;

the device also comprises a transfer part for separating the sliding block from the cross bar.

4. The apparatus for photodetector processing according to claim 3, wherein said transfer section comprises:

a transfer plate;

the output end of the second cylinder is connected with the transfer plate; wherein, the moving track of the sliding block is intersected with the moving track of the transfer plate.

5. The apparatus for processing a photo detector according to claim 3 or 4, further comprising a receiving bar disposed adjacent to the transfer plate, cooperating with the sliding groove, the receiving bar for receiving the slider; wherein the receiving bar is substantially coaxial with one of the rails when one of the clamping assemblies is positioned above the container.

6. The apparatus for processing a photodetector of claim 5, further comprising a drying box, said drying box having an inlet for said slider, clamping assembly, detector; wherein the receiving rod is positioned in the drying box.

7. The apparatus for photodetector manufacturing according to claim 6, further comprising a rotating portion; the number of the receiving rods is multiple, the receiving rods are arranged at intervals along the circumferential direction in the horizontal direction, and the receiving rods are connected with the output end of the rotating part.

8. The apparatus for processing a photodetector of claim 7, wherein a plurality of drying pipes are provided in said drying box, said plurality of drying pipes being circumferentially spaced apart, and said drying pipes being provided with air outlet holes facing said receiving rod.

9. The apparatus for processing a photo detector as claimed in claim 5, wherein the receiving bar has a downward inclined surface formed on an upper surface of an end thereof adjacent to the transfer plate.

10. The apparatus for photodetector manufacturing of claim 1, wherein said elastic member comprises two symmetrically arranged bungee cords.