CN217451921U - Novel bilateral pin cutter of electronic component - Google Patents

Abstract

The utility model discloses a novel bilateral pin cutter of electronic component, including the frame, set up at the conveying mechanism of frame top surface, through push rod subassembly movable mounting hold-down mechanism on the frame, be used for fixing a position the positioning mechanism and the cutting mechanism of the component fixed part that awaits measuring to install useless fill and set up the negative pressure dust catcher on the frame bottom the cutting mechanism. The utility model discloses a conveying mechanism and hold-down mechanism's design makes the device can high-efficient completion electronic component in the bilateral pin excision operation of adding man-hour, and this device compresses tightly the design through belt conveying and belt when the foot operation of cutting, can effectively accomplish the location clamp work of waiting to process the component, helps improving the cutting effect of this device when the pin cutting then.

Description

Novel bilateral pin cutter of electronic component

Technical Field

The utility model relates to an electronic component processing technology field specifically is a novel bilateral pin cutter of electronic component.

Background

Electronic components are the basic elements that make up electronic products and are essential elements in electronic circuits, and commonly used electronic components are: resistors, capacitors, inductors, potentiometers, transformers, etc.

Electronic component has unnecessary pin after processing, and the staff all cuts unnecessary pin with the pin cutter usually, for example the chinese utility model patent document of publication No. CN210586891U discloses a double-end pin cutter is used in electronic component processing, above-mentioned pin cutter has improved the pin cutter efficiency to the component to a certain extent, but above-mentioned pin cutter still remains to improve on realizing the assembly line operation mode, and the current pin cutter is not convenient for carry out the regulation of processing specification and can not treat the electronic component of processing when using effectively to fix a position the clamp tightly simultaneously.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel bilateral pin cutter of electronic component to the pin cutter processing specification that appears in solving above-mentioned background art is not convenient for adjust and can not treat the electronic component of processing and carry out the tight problem of effective location clamp.

In order to solve the technical problem, the utility model discloses an adopt following technical scheme to realize:

the utility model provides a novel bilateral pin cutter of electronic component, includes the frame, still includes:

the conveying mechanism is arranged on the top surface of the machine base;

the pressing mechanism is movably arranged on the base, is symmetrical to the conveying mechanism and can translate above the plane of the conveying mechanism; the pressing mechanism comprises a frame consisting of two long edges and two transmission sleeves, a main conveying belt which is fixedly arranged on the two transmission sleeves and is parallel to the long edges, and a transmission motor connected with the end part of one transmission sleeve;

the positioning mechanisms are arranged on the conveying mechanism and the pressing mechanism respectively, each positioning mechanism comprises edge pressing assemblies arranged on two sides of the conveying main belt and a screw rod driving assembly which is perpendicular to the edge pressing assemblies and is movably connected with the edge pressing assemblies, the edge pressing assemblies are arranged on two wide edges and are parallel to the conveying main belt, and the screw rod driving assemblies drive the two edge pressing assemblies to move relatively by taking the conveying main belt as an axis;

and the cutting mechanism is arranged on the conveying mechanism and is used for cutting the element to be processed.

Furthermore, the pressing mechanism further comprises a push rod assembly, the push rod assembly comprises a pressing push rod fixedly installed on the side edge of the pressing mechanism and a connecting column fixedly installed on two side edges of the base and corresponding to the pressing push rod, a screw hole matched with the pressing push rod is formed in the connecting column, the pressing push rod can move up and down in the connecting column, and the pressing mechanism is driven to translate above the plane of the conveying mechanism.

Furthermore, transmission roller shafts are arranged at two end parts of the transmission sleeve and between the main conveying belt and the transmission sleeve, and autorotation pulleys are arranged between the main conveying belt and the transmission roller shafts. The conveying main belt can do circular motion through the matching of the transmission motor, the transmission roller shaft and the transmission sleeve.

Furthermore, the edge pressing assembly comprises an adjusting plate and an annular pressing belt, the plane of the adjusting plate is perpendicular to the plane of the annular pressing belt, and the edge pressing assembly is connected with the screw rod driving assembly through the adjusting plate; pulleys at two ends of the annular pressing belt are connected to the transmission sleeve in a sliding mode through the driven sleeve.

Further, the screw rod driving assembly comprises a driving motor arranged on the outer side of one long edge and a driving screw rod connected with the driving motor, the driving screw rod penetrates through the adjusting plate and is perpendicular to the adjusting plate, threads are arranged on the surface of the driving screw rod, and the threads on two sides of the conveying main belt are reversely arranged. The reverse threads are arranged, so that the blank pressing assemblies can move relatively on two sides of the conveying main belt when the driving motor rotates the driving screw rod.

Furthermore, the cutting mechanism comprises cutting seats arranged on two long edges of the conveying mechanism, the two sides of the middle position of each cutting seat are provided with a servo motor and a cutting disc which are connected with each other, and distance adjusting push rods are arranged on the two sides of each cutting seat. The roll adjustment push rod is convenient for carry out quick adjustment to the processing specification of device when the processing operation, through regulatory function's realization to effectively promote the practicality and the commonality of this device.

Furthermore, the vacuum cleaner also comprises a negative pressure dust collector arranged on the machine base, the negative pressure dust collector is connected with a negative pressure dust collecting pipe arranged above the servo motor, and a hole is formed in the negative pressure dust collecting pipe.

Furthermore, the upper surface of the negative pressure dust suction pipe is a dust suction surface which is opposite to the cutting disc and is provided with a 45-degree inclination angle.

Furthermore, the machine also comprises a waste receiving hopper arranged below the cutting mechanism, and the waste receiving hopper is arranged on the machine base.

Compared with the prior art, the utility model discloses the beneficial effect who reaches is:

through conveying mechanism, hold-down mechanism, positioning mechanism and cutting mechanism's cooperation, place the processing component on conveying mechanism instead, through hold-down mechanism and conveying mechanism, with the firm fixing on the device of electronic component, the blank holder subassembly is adjusted to the lead screw drive assembly among the rethread positioning mechanism, make blank holder subassembly and electronic component fixed part position correspond, accomplish the location and further compress tightly, carry out cutting work through cutting mechanism at last, on the one hand can accomplish the pipelined operation when electronic component cuts the foot high-efficiently, on the other hand can effectively accomplish the location of treating the processing component and press from both sides tight work, help improving the cutting effect of this device when the pin cuts then. Simultaneously through roll adjustment push rod and lead screw drive assembly's design, be convenient for carry out quick adjustment to the processing specification of device when the processing operation, through regulatory function's realization to effectively promote the practicality and the commonality of this device.

Drawings

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

FIG. 2 is a schematic front view of the structure of FIG. 1 according to the present invention;

fig. 3 is a structural view of the device for removing the pressing mechanism 3 according to the present invention;

fig. 4 is a schematic structural view of the pressing mechanism 3 of the present invention;

fig. 5 is a schematic structural view of the blank holder assembly 51 of the present invention;

fig. 6 is a schematic structural view of the transmission motor and the screw rod driving assembly of the present invention;

fig. 7 is a schematic structural view of the cutting mechanism 6 of the present invention;

fig. 8 is a schematic structural diagram of a to-be-processed element according to the present invention.

In the figure: a machine base 1; a conveying mechanism 2; a pressing mechanism 3; a frame 31; a drive sleeve 311; a drive motor 32; a conveyance main belt 33; a driving roller shaft 34; a push rod assembly 4; a push rod assembly 41; a connecting post 42; a positioning mechanism 5; a blank holder assembly 51; an adjusting plate 511; an endless press belt 512; a driven sleeve 513; a lead screw drive assembly 52; a drive motor 521; a drive screw 522; a cutting mechanism 6; a cutting base 61; a distance-adjusting push rod 62; a servo motor 63; a cutting disk 64; a negative pressure dust collector 7; a negative pressure suction pipe 71; a waste receiving hopper 8; the element to be machined 9; fixing the strap 91.

Detailed Description

The present invention will be further described with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Example 1

As shown in fig. 1-3, a novel electronic component bilateral pin cutting machine includes a rectangular parallelepiped base 1, and further includes a conveying mechanism 2, a pressing mechanism 3, a positioning mechanism 5, and a cutting mechanism 6. Wherein, conveying mechanism 2 fixed mounting is at 1 top surface of frame, hold-down mechanism 3 sets up in conveying mechanism 2 top through push rod subassembly 4, push rod subassembly 4 is including exerting pressure push rod 41 and spliced pole 42, 41 fixed connection of the push rod of exerting pressure are on conveying mechanism, and respectively there are two on the conveying mechanism both sides, spliced pole 42 sets up on two sides of frame 1, every side all sets up two, be provided with on the spliced pole 42 with the 41 assorted screw of the push rod of exerting pressure, four push rod subassemblies 4 erect hold-down mechanism 3 in conveying mechanism 2 top, at the novel electronic component bilateral pin cutter during operation, electronic component is in between conveying mechanism 2 and hold-down mechanism 3, and can adjust the distance between hold-down mechanism 3 and conveying mechanism 2 through push rod subassembly 4, reach preliminary fixed electronic component's purpose. The positioning mechanism 5 is installed on the conveying mechanism 2 and the pressing mechanism 3. The cutting mechanism 6 is located near the middle of the top surface of the machine base 1 and is arranged axisymmetrically on the two long sides of the conveying mechanism 2.

The conveying mechanism 2 and the pressing mechanism 3 have the same structure except for different installation positions, and are symmetrical about the plane of the element to be processed. As shown in fig. 4, taking the pressing mechanism 3 as an example, the pressing mechanism 3 includes a frame 31, a transmission motor 32 and a main conveying belt 33, the frame 31 is composed of two long sides and transmission sleeves 311 connecting the ends of the two long sides, the cross sections of the two transmission sleeves 311 are regular polygons, and the transmission sleeves 311 are connected with the two long sides through transmission roller shafts 34, so that the transmission sleeves 311 can rotate along the axis. The drive motor 32 is disposed on the frame 31 and is connected to an end of a drive sleeve 311. The conveying main belt 33 is arranged in the middle of the frame 31 through a conveying wheel and a driven wheel and is parallel to the two long edges, the conveying wheel is arranged in the middle of a transmission sleeve 311 with a transmission motor 32 through a transmission roller shaft 34, the driven wheel is arranged in the middle of the opposite transmission sleeve 311 through the transmission roller shaft 34, and the conveying wheel and the driven wheel are both in an I shape. After the transmission motor 32 is powered on, the transmission motor 32 drives the transmission sleeve 311 to rotate through the transmission roller shaft 34, and drives the main conveying belt 33 to do circular motion around the conveying wheel and the driven wheel, so as to convey the electronic component forward.

The positioning mechanism 5 is disposed on both the conveying mechanism 2 and the pressing mechanism 3, as shown in fig. 5 and 6, taking the positioning mechanism 5 mounted on the pressing mechanism 3 as an example, the positioning mechanism 5 includes a pressing assembly 51 and a screw rod driving assembly 52, and the screw rod driving assembly 52 is movably connected with the pressing assembly 51. The edge pressing assembly 51 comprises two parts which are symmetrically arranged on two sides of the conveying main belt 33 and are parallel to the conveying main belt 33, the edge pressing assembly 51 comprises adjusting plates 511 and an annular pressing belt 512, the adjusting plates 511 are arranged on two sides of the annular pressing belt 512 and are perpendicular to the plane of the annular pressing belt 512, the annular pressing belt 512 is provided with a driven sleeve 513 between two driven wheels and the driving sleeve 311 through two driven wheels arranged on the driving sleeve 311 provided with the driving roller shaft 34, and the two driven wheels can slide along the driving sleeve 311. The screw rod driving assembly 52 is perpendicular to two long sides of the frame 31 and is arranged in the middle of the long sides, the screw rod driving assembly 52 comprises a driving motor 521 and a driving screw rod 522, two ends of the driving screw rod 522 are rotatably connected with the frame 31, threads are arranged on the surface of the driving screw rod 522, the threads on two sides of the conveying main belt 33 are reversely arranged, the driving screw rod 522 is in threaded connection with the edge pressing assembly 51 through an adjusting plate 511, and one end of the driving motor 521 and one end of the driving screw rod 522 are arranged on one long side of the pressing mechanism 3. After the power is on, the driving motor 521 drives the driving screw 522, and then the driving screw 522 drives the edge pressing assembly 51, so that the edge pressing assembly 51 moves relatively on the transmission sleeve 311 with the main conveying belt 33 as a symmetry axis, thereby accurately pressing the annular pressing belt 512 to the fixing belt positions on the two sides of the electronic component, and cooperating with the pressing mechanism 3 to accurately position and firmly fix the electronic component between the conveying mechanism 2 and the pressing mechanism 3.

As shown in fig. 7, the cutting mechanism 6 includes a cutting base 61, a distance adjusting push rod 62, a servo motor 63 and a cutting disc 64, the servo motor 63 and the cutting disc 64 are installed on two sides of the cutting base 61, the distance adjusting push rods 62 are arranged at two ends of the cutting base 61 on one side of the servo motor 63, one end of an output shaft of the servo motor 63 is fixedly connected with the cutting disc 64, the position of the cutting disc 64 is adjusted through the distance adjusting push rod 62, after the position is adjusted, the cutting disc 64 is driven to rotate through the servo motor 63, and the electronic double-side cutting processing is performed.

As shown in fig. 1-3 and 7, the present invention further provides a vacuum cleaner 7 at one end of the frame 1 near the cutting mechanism 6, and a waste receiving bucket 8 is provided in the frame 1 at the lower end of the cutting mechanism 6. The upper part of a servo motor 63 of the cutting mechanism 6 is also provided with a negative pressure dust suction pipe 71, the negative pressure dust suction pipe 71 is connected with a negative pressure dust suction machine 7 through a pipeline, the upper surface of the negative pressure dust suction pipe 71 is a dust suction surface, the dust suction surface is obliquely arranged, the inclination angle is 45 degrees, dust suction holes are formed in the surface of the dust suction surface, after the negative pressure dust suction machine 7 is electrified, small particles generated during cutting are absorbed and scattered waste materials are generated through the matching of the negative pressure dust suction machine 7 and the negative pressure dust suction pipe 71, and massive leftover materials are collected through robbers, so that the cleanness of the working environment is kept.

The working principle is as follows:

before use, the two annular press belts 512 in the conveying mechanism 2 and the two annular press belts 512 in the pressing mechanism 3 respectively correspond to the positions of the two fixing belts 91 in the element to be processed 9 by synchronously controlling the screw rod driving components 52 in the conveying mechanism 2 and the pressing mechanism 3 in advance and adjusting the screw rod driving components 52, after the screw rod driving components 52 are adjusted, the cutting positions of the two cutting discs 64 are respectively adjusted by controlling the distance adjusting push rods 62 in the two cutting mechanisms 6, after the adjustment, one end of the element to be processed is advanced into the conveying mechanism 2 in advance, after the advance, the pressing mechanism 3 effectively presses the element to be processed on the top surface of the conveying mechanism 2 by controlling the push rod components 4, after the pressing, the conveying mechanism 2 and the driving motors 32 in the pressing mechanism 3 work at the same speed, wherein the driving roller shaft 34 at the conveying mechanism 2 rotates anticlockwise, the transmission roller shaft 34 at the pressing mechanism 3 rotates clockwise, after the transmission motor 32 works, the element to be processed is conveyed forwards at a set speed, in the process of the forward conveying, the negative pressure dust collector 7 and the two servo motors 63 work synchronously, and then the assembly line type cutting operation of the element to be processed is executed.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be considered as the protection scope of the present invention.

Claims (9)

1. The utility model provides a novel bilateral pin cutter of electronic component, includes the frame, its characterized in that still includes:

the conveying mechanism is arranged on the top surface of the machine base;

the pressing mechanism is movably arranged on the base, is symmetrical to the conveying mechanism and can translate above the plane of the conveying mechanism; the pressing mechanism comprises a frame consisting of two long edges and two transmission sleeves, a main conveying belt which is fixedly arranged on the two transmission sleeves and is parallel to the long edges, and a transmission motor connected with the end part of one transmission sleeve;

the positioning mechanisms are arranged on the conveying mechanism and the pressing mechanism respectively, each positioning mechanism comprises edge pressing assemblies arranged on two sides of the conveying main belt and a screw rod driving assembly which is perpendicular to the edge pressing assemblies and is movably connected with the edge pressing assemblies, the edge pressing assemblies are arranged on two wide edges and are parallel to the conveying main belt, and the screw rod driving assemblies drive the two edge pressing assemblies to move relatively by taking the conveying main belt as an axis;

and the cutting mechanism is arranged on the conveying mechanism and is used for cutting the element to be processed.

2. The novel bilateral pin cutter for the electronic components as claimed in claim 1, further comprising a push rod assembly, wherein the push rod assembly comprises a pressing push rod fixedly mounted on the side of the pressing mechanism and a connecting column fixedly mounted on the two side edges of the base and corresponding to the pressing push rod, a screw hole matched with the pressing push rod is formed in the connecting column, the pressing push rod can move up and down in the connecting column to drive the pressing mechanism to move horizontally above the plane of the conveying mechanism.

3. The double-sided pin cutter for the electronic components as claimed in claim 1, wherein transmission roller shafts are provided at both ends of the transmission sleeve and between the transmission main belt and the transmission sleeve, and rotation pulleys are further provided between the transmission main belt and the transmission roller shafts.

4. The novel electronic component double-side pin cutter according to claim 1, wherein the edge pressing assembly comprises an adjusting plate and an annular pressing belt, the plane of the adjusting plate is perpendicular to the plane of the annular pressing belt, and the edge pressing assembly is connected with the screw rod driving assembly through the adjusting plate; pulleys at two ends of the annular pressing belt are connected to the transmission sleeve in a sliding mode through the driven sleeve.

5. The novel electronic component double-side pin cutter according to claim 4, wherein the screw rod driving assembly comprises a driving motor installed on the outer side of one long side and a driving screw rod connected with the driving motor, the driving screw rod penetrates through and is perpendicular to the adjusting plate, the surface of the driving screw rod is provided with threads, and the threads on two sides of the conveying main belt are reversely arranged.

6. A novel bilateral pin cutter for electronic components as claimed in claim 1 wherein the cutting mechanism comprises a cutting seat mounted on two long sides of the conveying mechanism, a servo motor and a cutting disc connected with each other are disposed on two sides of the middle position of the cutting seat, and distance adjusting push rods are disposed on two sides of the cutting seat.

7. The novel bilateral pin cutter for the electronic components as claimed in claim 6, further comprising a negative pressure dust collector arranged on the base, wherein the negative pressure dust collector is connected with a negative pressure dust suction pipe arranged above the servo motor, and a hole is arranged on the negative pressure dust suction pipe.

8. The bilateral pin cutter for the electronic components as claimed in claim 7, wherein the upper surface of the negative pressure dust suction pipe is a dust suction surface opposite to the cutting disc and provided with an inclination angle of 45 °.

9. The double-sided pin cutter for the electronic components as claimed in claim 1, further comprising a waste receiving hopper disposed below the cutting mechanism, the waste receiving hopper being disposed on the base.

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