CN220763121U - Cutting equipment for processing computer chip - Google Patents

Abstract

The utility model discloses cutting equipment for processing a computer chip, which relates to the technical field of chip processing and comprises a cutting platform, a feeding bracket and a cutting part, wherein the cutting platform is arranged on the feeding bracket, clamping notches are formed in two sides of the cutting platform, and the cutting part is arranged on the feeding bracket and is positioned at one end part of the cutting platform; the feeding device also comprises two groups of pushing mechanisms, wherein the two pushing mechanisms are symmetrically arranged on the feeding bracket; the pushing mechanism comprises two groups of belt transmission parts, two groups of pressing assemblies corresponding to the two clamping notches respectively and a horizontal frame body fixed on the feeding support, wherein each group of belt transmission parts is provided with a push rod part, the top of the pressing assemblies are in sliding fit with the horizontal frame body, and the lower end parts of the pressing assemblies are connected with the push rod parts and can stretch out and draw back. The utility model has simple structure, the computer chip can be continuously cut, and the cut computer chip parts have the same size, high efficiency and strong practicability.

Description

Cutting equipment for processing computer chip

Technical Field

The utility model relates to the technical field of chip processing, in particular to cutting equipment for computer chip processing.

Background

The computer chip is a thin sheet made of silicon material, one chip is formed by connecting hundreds of microcircuits together, the volume is small, the microcircuits for generating pulse current are distributed on the chip, and the computer chip can complete the operations required for controlling the computer, the automation device and other various equipment by utilizing the microcircuits.

In the manufacturing process, in order to improve the manufacturing efficiency, the computer chips are manufactured into a whole connected together, so that the computer chips need to be cut in the subsequent process; the existing cutting equipment conveys the long-strip-shaped computer chip to the cutting assembly through the rotation of the roller, and because the roller is in line contact with the computer chip, the roller is easy to generate relative movement with the computer chip during rotation, so that the moving distance of the computer chip is misplaced, and the cutting is inaccurate.

Disclosure of Invention

The utility model aims to provide cutting equipment for processing a computer chip, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the cutting device for processing the computer chip comprises a cutting platform, a feeding support and a cutting part, wherein the cutting platform is arranged on the feeding support, clamping notches are formed in two sides of the cutting platform, the cutting part is arranged on the feeding support and positioned at one end part of the cutting platform, and the cutting part is used for cutting the part of the computer chip positioned at the tail end of the cutting platform in a downward cutting mode; the cutting platform is arranged on the upper end face of the cutting platform, and the cutting platform is arranged on the feeding support in a symmetrical mode; the pushing mechanism comprises two groups of belt transmission parts, two groups of pressing assemblies corresponding to the two clamping notches respectively and a horizontal frame body fixed on the feeding support, wherein each group of belt transmission parts is provided with a push rod part which can move around the belt transmission parts under the driving of the belt transmission parts, the top of the pressing assemblies are in sliding fit with the horizontal frame body, and the lower end parts of the pressing assemblies are connected with the push rod parts and the pressing assemblies can stretch out and draw back.

Based on the technical scheme, the utility model also provides the following optional technical schemes:

in one alternative: the belt transmission piece comprises two rod shaft pieces, belt wheel parts are arranged at the end parts of the two rod shaft pieces, a ring belt part encircling the outer wall of the belt wheel parts is arranged between the two belt wheel parts, and the push rod part is arranged on the side wall of the ring belt part and is connected with the inner framework of the ring belt part.

In one alternative: the pressing assembly comprises a pressing rod part and a vertical frame body, wherein one end of the vertical frame body is provided with a sliding sleeve part and the sliding sleeve part is sleeved on the horizontal frame body in a sliding manner, the inside of the vertical frame body is provided with a pushing rod part sliding on the sliding sleeve part, one end of the pressing rod part is fixedly connected with the sliding block, the other end of the pressing rod part is provided with a pressing block, and the pushing rod part rotates to penetrate through the pressing rod part.

In one alternative: the horizontal frame body is provided with a touch switch which is electrically connected with the cutting part; when the sliding sleeve part touches the touch switch, the touch switch controls the cutting part to perform cutting action.

In one alternative: the cutting part comprises a cutting tool and a cutting cylinder, the cutting cylinder is arranged on the feeding support, the cutting tool is detachably arranged on the telescopic end of the cutting cylinder, the cutting tool corresponds to the end part of the cutting platform, and a material collecting groove positioned on the lower side of the cutting tool is arranged at the end part of the cutting platform.

In one alternative: the utility model discloses a cutting platform, including cutting platform, slide, roller, spring part, slide side, guide assembly includes two relative side guides, side guide includes slip recess, slide and montant portion, the recess of sliding is seted up on cutting platform's terminal surface, and the slide is established and is being cut out the width direction of platform relatively at the inside just slide of slip recess and slide, the slide avris is connected through the spring part with the recess end wall that slides, and montant portion is established on the slide and montant portion outside cover has the roller.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the pushing mechanism drives the computer chip to intermittently move on the cutting platform in a reciprocating clamping and conveying mode, so that the computer chip is prevented from moving relative to the pushing mechanism, the distance of each movement of the computer chip is ensured to be equal, and the sizes of the cut computer chips are consistent.

2. The utility model has simple structure, the computer chip can be continuously cut, and the cut computer chip parts have the same size, high efficiency and strong practicability.

Drawings

Fig. 1 is a schematic view of the overall structure of the device according to an embodiment of the present utility model.

Fig. 2 is a schematic view of a clipping platform according to an embodiment of the utility model.

Fig. 3 is a schematic structural diagram of a pushing mechanism according to an embodiment of the present utility model.

Reference numerals annotate: cutting platform 100, clamping notch 110, feeding support 200, pushing mechanism 300, rod shaft 310, pulley 320, endless belt 330, horizontal frame 340, press bar 350, press block 360, vertical frame 370, touch switch 380, cutting tool 400, cutting cylinder 410, collection tank 500, side guide 700, sliding groove 710, slide 720, vertical rod 730, spring 740.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in further detail with reference to the accompanying drawings and examples; in the drawings or description, similar or identical parts are provided with the same reference numerals, and in practical applications, the shape, thickness or height of each part may be enlarged or reduced. The examples set forth herein are intended to be illustrative of the utility model and are not intended to limit the scope of the utility model. Any obvious modifications or alterations to the utility model, as would be apparent, are made without departing from the spirit and scope of the present utility model.

In one embodiment, as shown in fig. 1 to 3, a cutting device for processing a computer chip includes a cutting platform 100, a feeding support 200, and a cutting part, where the cutting platform 100 is disposed on the feeding support 200, and two sides of the cutting platform 100 are respectively provided with a clamping notch 110, the cutting part is disposed on the feeding support 200 and is located at one end of the cutting platform 100, and the cutting part is used for cutting a part of the computer chip located at the tail end of the cutting platform 100 in a down-cutting manner; the cutting platform comprises a cutting platform 100, a feeding bracket 200 and two pushing mechanisms 300, wherein the two pushing mechanisms 300 are symmetrically arranged on the feeding bracket 200 by taking the upper end surface of the cutting platform 100 as a symmetry center; the pushing mechanism 300 comprises two groups of belt driving members, two groups of pressing assemblies corresponding to the two clamping notches 110 respectively, and a horizontal frame 340 fixed on the feeding bracket 200, wherein each group of belt driving members is provided with a push rod part 331, the push rod part 331 can move around the belt driving members under the driving of the belt driving members, the top of the pressing assembly is in sliding fit with the horizontal frame 340, the lower end part of the pressing assembly is connected with the push rod part 331, and the pressing assembly can stretch out and draw back;

in the embodiment of the utility model, a long-strip-shaped computer chip is arranged on the cutting platform 100, the belt transmission piece drives the push rod part 331 to move around the outer edge of the long-strip-shaped computer chip, when the push rod part 331 is positioned at the edge of the belt transmission piece, which is close to the cutting platform 100, the push rod part 331 pushes the compression component to stretch and move towards the cutting platform 100, the compression components at two sides of the cutting platform 100 are matched with each other to clamp the side part of the computer chip, and the push rod part 331 is driven by the belt transmission piece to move horizontally along the lower edge of the computer chip, so that the compression component can move horizontally and drive the computer chip to move; when the pressing component moves to the end of the clamping notch 110, the cutting part cuts the front end of the computer chip, and the push rod part 331 can move to the upper side of the belt transmission part and move back, so that the pressing component contracts and moves back to the original position along with the push rod part 331, the side part of the computer chip is convenient to clamp again, the computer chip can be intermittently conveyed to the end of the cutting platform 100, and the pressing component always keeps a clamping state with the computer chip when conveying the computer chip, so that the relative movement is avoided; therefore, the distance of each movement of the computer chips is equal, and the sizes of the computer chips cut by the cutting part are consistent.

In one embodiment, as shown in fig. 1 and 3, the belt transmission member includes two shaft members 310, the ends of the two shaft members 310 are respectively provided with a belt wheel portion 320, a belt band portion 330 surrounding the outer wall of the belt band portion 320 is arranged between the two belt wheel portions 320, and the push rod portion 331 is arranged on the side wall of the belt band portion 330 and is connected with the inner skeleton of the belt band portion 330; one of the rod members 310 is driven to rotate by a motor, so that the belt part 330 circularly moves between the two belt wheel parts 320, the push rod part 331 circularly moves along with the belt part 330, and the pressing assembly horizontally reciprocates along the horizontal frame 340 under the driving of the push rod part 331.

In one embodiment, as shown in fig. 1 and 3, the pressing assembly includes a pressing bar portion 350 and a vertical frame 370, one end of the vertical frame 370 has a sliding sleeve portion 341 and the sliding sleeve portion 341 slides on the horizontal frame 340, the vertical frame 370 has a pushing bar portion 331 sliding thereon, one end of the pressing bar portion 350 is fixedly connected with the sliding block 371 and the other end of the pressing bar portion 350 has a pressing block 360, and the pushing bar portion 331 rotates to penetrate the pressing bar portion 350; in the embodiment of the present utility model, the pressing lever portion 350 can move cyclically between the two pulley portions 320 along with the push lever portion 331; when the push rod portion 331 moves from one side of the belt wheel portion 320 to the other side of the belt wheel portion 320, the push rod portion 350 moves vertically relative to the vertical frame 370 through the slider 371, so that the computer chip can be clamped and conveyed. Wherein, the horizontal frame 340 has a touch switch 380 electrically connected to the cutting portion; when the sliding sleeve 341 touches the touch switch 380, the touch switch 380 controls the cutting portion to perform the cutting operation.

In one embodiment, as shown in fig. 1, the cutting part includes a cutting tool 400 and a cutting cylinder 410, the cutting cylinder 410 is disposed on the feeding bracket 200, and the cutting tool 400 is detachably mounted on a telescopic end of the cutting cylinder 410, the cutting tool 400 corresponds to an end of the cutting platform 100, and an aggregate tank 500 located at a lower side of the cutting tool 400 is disposed at the end of the cutting platform 100.

In one embodiment, as shown in fig. 1 and 2, the two end portions of the cutting platform 100 are provided with guide assemblies, the guide assemblies comprise two opposite side guide members 700, the side guide members 700 comprise sliding grooves 710, sliding seats 720 and vertical rod portions 730, the sliding grooves 710 are formed in the end surfaces of the cutting platform 100, the sliding seats 720 are arranged in the sliding grooves 710 and can slide in the width direction of the cutting platform 100, the side sides of the sliding seats 720 are connected with the end walls of the sliding grooves 710 through spring members 740, the vertical rod portions 730 are arranged on the sliding seats 720, and rotating rollers are sleeved outside the vertical rod portions 730; in the embodiment of the utility model, when the computer chip is placed on the cutting platform 100, the two vertical rod parts 730 can be propped against the side parts of the computer chip, and the computer chip can be transversely clamped under the action of the spring parts 740, so that the movement of the computer chip is guided.

The foregoing is merely specific embodiments of the disclosure, but the protection scope of the disclosure is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the disclosure, and it is intended to cover the scope of the disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims (6)

1. The cutting device for processing the computer chip comprises a cutting platform, a feeding support and a cutting part, and is characterized in that the cutting platform is arranged on the feeding support, clamping notches are formed in two sides of the cutting platform, the cutting part is arranged on the feeding support and is positioned at one end part of the cutting platform, and the cutting part is used for cutting the part of the computer chip positioned at the tail end of the cutting platform in a downward cutting mode; the cutting platform is arranged on the upper end face of the cutting platform, and the cutting platform is arranged on the feeding support in a symmetrical mode; the pushing mechanism comprises two groups of belt transmission parts, two groups of pressing assemblies corresponding to the two clamping notches respectively and a horizontal frame body fixed on the feeding support, wherein each group of belt transmission parts is provided with a push rod part which can move around the belt transmission parts under the driving of the belt transmission parts, the top of the pressing assemblies are in sliding fit with the horizontal frame body, and the lower end parts of the pressing assemblies are connected with the push rod parts and the pressing assemblies can stretch out and draw back.

2. The cutting device for processing computer chips as defined in claim 1, wherein the belt transmission member comprises two shaft members, the end portions of the two shaft members are each provided with a belt wheel portion, an endless belt portion surrounding an outer wall of the belt wheel portion is provided between the two belt wheel portions, and the push rod portion is provided on a side wall of the endless belt portion and connected to an inner skeleton of the endless belt portion.

3. The cutting device for processing a computer chip according to claim 2, wherein the pressing assembly comprises a pressing rod portion and a vertical frame body, one end of the vertical frame body is provided with a sliding sleeve portion and the sliding sleeve portion is sliding-sleeved on the horizontal frame body, the vertical frame body is internally provided with a pushing rod portion sliding on the sliding sleeve portion, one end of the pressing rod portion is fixedly connected with the sliding block, the other end of the pressing rod portion is provided with a pressing block, and the pushing rod portion rotates to penetrate through the pressing rod portion.

4. The cutting device for processing computer chips as defined in claim 3, wherein the horizontal frame body is provided with a touch switch electrically connected with the cutting part; when the sliding sleeve part touches the touch switch, the touch switch controls the cutting part to perform cutting action.

5. The cutting device for processing the computer chip according to claim 1, wherein the cutting portion comprises a cutting tool and a cutting cylinder, the cutting cylinder is arranged on the feeding bracket, the cutting tool is detachably mounted on a telescopic end of the cutting cylinder, the cutting tool corresponds to an end portion of the cutting platform, and a material collecting groove positioned on the lower side of the cutting tool is arranged at the end portion of the cutting platform.

6. The cutting device for processing the computer chip according to claim 1, wherein guide components are arranged at two end parts of the cutting platform, the guide components comprise two opposite side guide parts, each side guide part comprises a sliding groove, a sliding seat and a vertical rod part, the sliding grooves are formed in the end faces of the cutting platform, the sliding seat is arranged in the sliding grooves, the sliding seat can slide in the width direction of the cutting platform relatively, the side sides of the sliding seat are connected with the end walls of the sliding grooves through spring parts, the vertical rod parts are arranged on the sliding seat, and the outer sides of the vertical rod parts are sleeved with rotating rollers.