CN216017278U - Sub-pushing and blanking device for PCB cutting plate - Google Patents

Abstract

The utility model discloses a sub-pushing and blanking device of a PCB cutting board, which comprises a sub-pushing and blanking mechanism, wherein the sub-pushing and blanking mechanism comprises: the bidirectional pushing mechanism is arranged at the output end of the PCB cutting mechanism and used for pushing the PCB to the left end and the right end; a side direction push mechanism for side direction propelling movement PCB board, side direction push mechanism is provided with two sets ofly, and is two sets of side direction push mechanism bilateral symmetry sets up in two-way push mechanism's both sides, through setting up divide push feed mechanism about through two-way push mechanism cooperation two sets of side direction push mechanism use, two-way push mechanism can control reciprocal PCB board meeting to side direction push mechanism, the side direction push mechanism of both sides can carry out propelling movement in turn to the PCB board of its upper end respectively, realize two sides to the PCB board and alternate the unloading and collect, need not artifical unloading, reduce artifical intensity of labour and cost, the mechanism of two sides unloading can effectively improve machine unloading efficiency, effectively strengthen device's practicality, be favorable to improving the economic benefits of enterprise.

Description

Sub-pushing and blanking device for PCB cutting plate

Technical Field

The utility model relates to a PCB board processing technology field specifically is a branch of PCB cutting board pushes away unloader.

Background

A PCB, i.e. a printed wiring board, which is called a printed board for short, is one of important parts in the electronic industry. Almost every kind of electronic equipment, as small as electronic watches, calculators, as large as computers, communication electronics, military weaponry systems, has electronic components such as integrated circuits, and printed boards are used to electrically interconnect the various components. The printed circuit board consists of an insulating bottom plate, a connecting lead and a welding disc for assembling and welding electronic elements, and has double functions of a conductive circuit and the insulating bottom plate. The circuit can replace complex wiring to realize electrical connection among elements in the circuit, thereby simplifying the assembly and welding work of electronic products, reducing the wiring workload in the traditional mode and greatly lightening the labor intensity of workers; and the volume of the whole machine is reduced, the product cost is reduced, and the quality and the reliability of the electronic equipment are improved.

The PCB board need cut through PCB board cutting mechanism and cut its size and maintain in the production preparation process, the PCB board after cutting needs carry out the unloading operation to it after panel guillootine output is seen off, artifical unloading is used mostly to present PCB board unloading, artifical unloading speed is slow and intensity of labour is big, for reducing artifical unloading cost or utilize unloading equipment to carry out the machine unloading, and the machine unloading only can carry out the unilateral unloading to the PCB board, the slow inefficiency problem of unloading speed can't be solved, the practicality of device is relatively poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a branch of PCB cutting board pushes away unloader to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above purpose, the utility model provides the following technical scheme: the utility model provides a branch of PCB cutting board pushes away unloader, pushes away the unloading mechanism including dividing, divide and push away the unloading mechanism and include:

the bidirectional pushing mechanism is arranged at the output end of the PCB cutting mechanism and used for pushing the PCB to the left end and the right end;

a side direction push mechanism for side direction propelling movement PCB board, side direction push mechanism is provided with two sets ofly, two sets of side direction push mechanism bilateral symmetry sets up in two-way push mechanism's both sides.

Further, the bidirectional pushing mechanism comprises a bidirectional frame and a bidirectional pushing assembly arranged on the bidirectional frame.

Further, the bidirectional framework comprises a bidirectional framework, a bidirectional support bracket is arranged in the middle of the bidirectional framework, and a bidirectional top frame is arranged at the top end of the bidirectional framework.

Furthermore, the bidirectional pushing assembly is arranged on the bidirectional supporting bracket, bidirectional supporting plates matched with the bidirectional pushing assembly are symmetrically arranged at the left end and the right end of the bidirectional supporting bracket, the bidirectional pushing assembly comprises a bidirectional driven assembly and a bidirectional driving assembly which are symmetrically arranged at the left end and the right end, the bidirectional driven assembly comprises a bidirectional driven plate, the bidirectional driven plate is fixedly connected to the top end of the bidirectional supporting plate, the top end of the bidirectional driven plate is rotatably connected with a bidirectional driven wheel through a bidirectional rotating seat, the bidirectional driving assembly comprises a bidirectional driving plate, the bidirectional driving plate is fixedly connected to the top end of the bidirectional supporting plate, a bidirectional driving motor is arranged at the bottom end of the bidirectional driving plate, the output end of the bidirectional driving motor penetrates through the bidirectional driving plate to be provided with a bidirectional driving wheel, the bidirectional pushing assembly further comprises a bidirectional sliding piece, the bidirectional sliding piece comprises a bidirectional pushing belt, the bidirectional pushing belt pulley is connected to the bidirectional driven wheel and the bidirectional driving wheel, the bidirectional pushing belt is detachably connected with the bidirectional sliding plate through the bidirectional clamping plate, the top end of the bidirectional sliding plate is provided with a bidirectional pushing plate, the bidirectional top plate matched with the bidirectional pushing plate is arranged on the bidirectional top frame, the bidirectional top plate is provided with a bidirectional sliding groove, and the bidirectional pushing plate penetrates through the bidirectional sliding groove and extends to the top end of the bidirectional top plate.

Furthermore, two groups of bidirectional guide rails which are symmetrical front and back are arranged on the bidirectional support bracket, bidirectional sliding holes which are matched with the bidirectional guide rails are formed in the bidirectional sliding plate, and the bidirectional sliding plate is connected to the bidirectional guide rails in a sliding mode through the bidirectional sliding holes.

Further, the lateral pushing mechanism comprises a lateral frame and a lateral pushing assembly arranged on the lateral frame.

Further, the lateral framework comprises a lateral framework, a lateral support bracket is arranged at the middle part of the lateral framework, and a lateral top frame is arranged at the top end of the lateral framework.

Further, the lateral pushing assembly is arranged on a lateral supporting bracket, lateral supporting plates matched with the lateral pushing assembly are symmetrically arranged at the front end and the rear end of the lateral supporting bracket, the lateral pushing assembly comprises a lateral driven assembly and a lateral driving assembly which are arranged in bilateral symmetry, the lateral driven assembly comprises a lateral driven plate, the lateral driven plate is fixedly connected to the top end of the lateral supporting plate, the top end of the lateral driven plate is rotatably connected with a lateral driven wheel through a lateral rotating seat, the lateral driving assembly comprises a lateral driving plate, the lateral driving plate is fixedly connected to the top end of the lateral supporting plate, a lateral driving motor is arranged at the bottom end of the lateral driving plate, an output end of the lateral driving motor penetrates through the lateral driving plate to be provided with a lateral driving wheel, the lateral pushing assembly further comprises a lateral sliding piece, and the lateral sliding piece comprises a lateral pushing belt, the side direction propelling belt band pulley is connected on the side direction is followed driving wheel and side direction drive wheel, the side direction propelling belt is gone up and can be dismantled through the side direction cardboard and be connected with the side direction slide, the top of side direction slide is provided with the side direction push pedal, be provided with the side direction roof with the mutual adaptation of side direction push pedal on the side direction roof frame, be provided with the side direction spout on the side direction roof, the side direction push pedal passes the side direction spout and extends to the top of side direction roof.

Furthermore, two groups of lateral guide rails which are bilaterally symmetrical are arranged on the lateral support bracket, lateral sliding holes which are matched with the lateral guide rails are formed in the lateral sliding plates, and the lateral sliding plates are connected to the lateral guide rails in a sliding mode through the lateral sliding holes.

Further, the bottom ends of the bidirectional framework and the lateral framework are respectively provided with a plurality of bidirectional supporting feet and lateral supporting feet.

Compared with the prior art, this practical beneficial effect is:

the PCB cutting mechanism conveys the cut PCB to a bidirectional push plate on the bidirectional push mechanism, the bidirectional driving component drives a bidirectional sliding piece to drive the bidirectional push plate to move along the left and right directions, the PCB is transferred to the lateral push plate on the lateral push mechanism, the lateral driving component operates to drive the lateral sliding piece to drive the lateral push plate to move along the front and back directions, the PCB is rotated to a blanking collection point to realize blanking of the PCB, the bidirectional push mechanism is matched with the left and right groups of lateral push mechanisms to use, the bidirectional push mechanism can reciprocate from left to right to connect the PCB to the lateral push mechanism, the lateral push mechanisms on the two sides can respectively push the PCB on the upper end of the bidirectional push mechanism alternately, the bilateral alternate blanking collection of the PCB is realized, and manual blanking is not needed, the labor intensity and cost of workers are reduced, the blanking efficiency of the machine can be effectively improved by the bilateral blanking mechanism, the practicability of the device is effectively enhanced, and the economic benefit of enterprises is favorably improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic view of the overall appearance structure of the present invention;

FIG. 2 is a schematic view of a bi-directional frame structure according to the present invention;

FIG. 3 is a schematic diagram of a bi-directional pushing assembly according to the present invention;

FIG. 4 is a schematic side frame structure of the present invention;

FIG. 5 is a schematic structural diagram of a lateral pushing assembly according to the present invention.

In the figure: 1. a bidirectional pushing mechanism; 11. a bidirectional frame; 111. a bi-directional architecture; 1111. a bi-directional leg; 112. a bi-directional support bracket; 1121. a bidirectional support plate; 113. a bidirectional top frame; 1131. a bidirectional top plate; 11311. a bidirectional chute; 12. a bidirectional pushing component; 121. a bi-directional driven assembly; 1211. a bidirectional driven plate; 1212. a bidirectional rotating seat; 1213. a bidirectional driven wheel; 122. a bi-directional drive assembly; 1221. a bi-directional drive plate; 1222. a bi-directional drive motor; 1223. a bidirectional drive wheel; 123. a bidirectional guide rail; 124. a bidirectional slider; 1241. a bi-directional push belt; 12411. a bidirectional snap-gauge; 1242. a bidirectional slide plate; 12421. a bidirectional slide hole; 1243. a bidirectional push plate; 2. a lateral pushing mechanism; 21. a lateral frame; 211. a lateral framework; 2111. a lateral leg; 212. a lateral support bracket; 2121. a lateral support plate; 213. a lateral top frame; 2131. a lateral top plate; 21311. a lateral chute; 22. a lateral pushing assembly; 221. a lateral driven assembly; 2211. a lateral driven plate; 2212. a lateral rotation seat; 2213. a lateral driven wheel; 222. a lateral drive assembly; 2221. a lateral drive plate; 2222. a lateral drive motor; 2223. a lateral drive wheel; 223. a lateral guide rail; 224. a lateral slide; 2241. a lateral push belt; 22411. a lateral clamping plate; 2242. a lateral slide plate; 22421. a lateral slide hole; 2243. a lateral push plate; 3. divide and push away unloading mechanism.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be 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 meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments obtained by persons skilled in the art based on the embodiments in the present application without any creative work belong to the protection scope of the present application.

Referring to fig. 1-5, the present invention provides a technical solution of a sub-pushing and blanking device for PCB boards: the utility model provides a branch of PCB cutting board pushes away unloader, pushes away feed mechanism 3 including dividing, divides to push away feed mechanism 3 and includes:

the bidirectional pushing mechanism 1 is arranged at the output end of the PCB cutting mechanism and used for pushing the PCB to the left end and the right end, the bidirectional pushing mechanism 1 comprises a bidirectional frame 11 and a bidirectional pushing component 12 arranged on the bidirectional frame 11, the bidirectional frame 11 comprises a bidirectional framework 111, a bidirectional supporting bracket 112 is arranged at the middle part of the bidirectional framework 111, a bidirectional top frame 113 is arranged at the top end of the bidirectional framework 111, the bidirectional pushing component 12 is arranged on the bidirectional supporting bracket 112, bidirectional supporting plates 1121 which are mutually matched with the bidirectional pushing component 12 are symmetrically arranged at the left end and the right end of the bidirectional supporting bracket 112, the bidirectional pushing component 12 comprises a bidirectional driven component 121 and a bidirectional driving component 122 which are symmetrically arranged from left to right, the bidirectional driven component 121 comprises a bidirectional driven plate 1211, the bidirectional driven plate 1211 is fixedly connected to the top end of the bidirectional supporting plate 1121, the top end of the bidirectional driven plate 1211 is rotatably connected with a bidirectional driven wheel 1213 through a bidirectional rotating seat 1212, the bidirectional driving assembly 122 comprises a bidirectional driving plate 1221, the bidirectional driving plate 1221 is fixedly connected to the top end of a bidirectional supporting plate 1121, the bottom end of the bidirectional driving plate 1221 is provided with a bidirectional driving motor 1222, the output end of the bidirectional driving motor 1222 passes through the bidirectional driving plate 1221 to be provided with a bidirectional driving wheel 1223, the bidirectional pushing assembly 12 further comprises a bidirectional sliding member 124, the bidirectional sliding member 124 comprises a bidirectional pushing belt 1241, the bidirectional pushing belt 1241 is connected to a bidirectional driven wheel 1213 and the bidirectional driving wheel 1223 through a pulley, a bidirectional sliding plate 1242 is detachably connected to the bidirectional pushing belt 1241 through a bidirectional clamping plate 12411, the top end of the bidirectional sliding plate 1242 is provided with a bidirectional pushing plate 1243, a bidirectional top frame 113 is provided with a bidirectional top plate 1131 mutually matched with the bidirectional pushing plate 1243, the bidirectional top plate 1131 is provided with a bidirectional sliding slot 11311, the bidirectional pushing plate 1243 passes through the bidirectional sliding slot 11311 to extend to the top end of the bidirectional top plate 1131, the bidirectional supporting bracket 112 is provided with two sets of bidirectional guide rails 123 which are symmetrical front and back, the bidirectional sliding plate 1242 is provided with a bidirectional sliding hole 12421 which is matched with the bidirectional guide rail 123, and the bidirectional sliding plate 1242 is slidably connected to the bidirectional guide rail 123 through the bidirectional sliding hole 12421.

The lateral pushing mechanism 2 is used for laterally pushing a PCB, two groups of lateral pushing mechanisms 2 are arranged on the lateral pushing mechanism 2, the two groups of lateral pushing mechanisms 2 are bilaterally and symmetrically arranged on two sides of a bidirectional pushing mechanism 1, the lateral pushing mechanism 2 comprises a lateral frame 21 and lateral pushing assemblies 22 arranged on the lateral frame 21, the lateral frame 21 comprises a lateral framework 211, a lateral bearing bracket 212 is arranged at the middle part of the lateral framework 211, a lateral top frame 213 is arranged at the top end of the lateral framework 211, the lateral pushing assemblies 22 are arranged on the lateral bearing bracket 212, lateral support plates 2121 matched with the lateral pushing assemblies 22 are symmetrically arranged at the front end and the rear end of the lateral bearing bracket 212, the lateral pushing assemblies 22 comprise lateral driven assemblies 221 and lateral driving assemblies 222 which are bilaterally and symmetrically arranged, the lateral driven assemblies 221 comprise lateral driven plates 2211, and the lateral driven plates 2211 are fixedly connected to the top ends of the lateral support plates 2121, a lateral driven wheel 2213 is rotatably connected to the top end of the lateral driven plate 2211 through a lateral rotating seat 2212, the lateral driving assembly 222 comprises a lateral driving plate 2221, the lateral driving plate 2221 is fixedly connected to the top end of a lateral support plate 2121, a lateral driving motor 2222 is arranged at the bottom end of the lateral driving plate 2221, the output end of the lateral driving motor 2222 penetrates through the lateral driving plate 2221 to be provided with a lateral driving wheel 2223, the lateral pushing assembly 22 further comprises a lateral sliding member 224, the lateral sliding member 224 comprises a lateral pushing belt 2241, the lateral pushing belt 2241 is connected to the lateral driven wheel 2213 and the lateral driving wheel 2223 through a lateral clamping plate 22411, a lateral sliding plate 2242 is detachably connected to the lateral pushing belt 2241, a lateral pushing plate 2243 is arranged at the top end of the lateral sliding plate 2242, a lateral top plate 2131 mutually matched with the lateral pushing plate 2243 is arranged on the lateral top frame 213, a lateral sliding slot 21311 is arranged on the lateral top plate 2131, the lateral pushing plate 2243 extends to the top end of the lateral top plate 2131 through the lateral sliding slot 21311, two sets of lateral guide rails 223 are arranged on the lateral support bracket 212 in bilateral symmetry, lateral sliding plates 2242 are provided with lateral sliding holes 22421 matched with the lateral guide rails 223, the lateral sliding plates 2242 are connected to the lateral guide rails 223 in a sliding mode through the lateral sliding holes 22421, and the bottom ends of the bidirectional framework 111 and the lateral framework 211 are respectively provided with a plurality of bidirectional supporting legs 1111 and lateral supporting legs 2111 for supporting the sub-pushing and discharging mechanism 3.

The utility model uses the branch pushing and blanking mechanism 3 through the bidirectional pushing mechanism 1 to match with the left and right groups of lateral pushing mechanisms 2, in the using process, the PCB cutting mechanism conveys the cut PCB to the bidirectional push plate 1243 on the bidirectional pushing mechanism 1, the bidirectional driving component 122 drives the bidirectional sliding piece 124 to drive the bidirectional push plate 1243 to move along the left and right directions, the PCB is transferred to the lateral push plate 2243 on the lateral pushing mechanism 2, the lateral driving component 222 operates to drive the lateral sliding piece 224 to drive the lateral push plate 2243 to move along the front and back directions, the PCB is rotated to a blanking collection point to realize blanking of the PCB, the utility model is provided with the bidirectional pushing mechanism 1 to match with the left and right groups of lateral pushing mechanisms 2 for use, the bidirectional pushing mechanism 1 can reciprocate left and right to deliver the PCB to the lateral pushing mechanisms 2, the lateral pushing mechanisms 2 on the two sides can respectively push the PCB on the upper ends alternately, realize two sides unloading collection in turn to the PCB board, need not artifical unloading, reduce artifical intensity of labour and cost, the mechanism of two side unloading can effectively improve machine unloading efficiency, effectively strengthens the practicality of device, is favorable to improving the economic benefits of enterprise.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a branch of PCB cutting board pushes away unloader, pushes away unloading mechanism (3) including dividing, its characterized in that: divide and push away unloading mechanism (3) and include:

the bidirectional pushing mechanism (1) is arranged at the output end of the PCB cutting mechanism and used for pushing the PCB to the left end and the right end;

the lateral pushing mechanism (2) is used for laterally pushing the PCB, the lateral pushing mechanism (2) is provided with two groups, and the two groups are arranged on two sides of the bidirectional pushing mechanism (1) in a bilateral symmetry mode, wherein the lateral pushing mechanism (2) is arranged on the two sides of the bidirectional pushing mechanism (1).

2. The PCB cutting board sub-pushing blanking device according to claim 1, characterized in that: the bidirectional pushing mechanism (1) comprises a bidirectional frame (11) and a bidirectional pushing assembly (12) arranged on the bidirectional frame (11).

3. The PCB cutting board sub-pushing blanking device according to claim 2, characterized in that: the bidirectional framework (11) comprises a bidirectional framework (111), a bidirectional support bracket (112) is arranged in the middle of the bidirectional framework (111), and a bidirectional top frame (113) is arranged at the top end of the bidirectional framework (111).

4. The PCB cutting board sub-pushing blanking device according to claim 3, characterized in that: the bidirectional pushing assembly (12) is arranged on a bidirectional supporting bracket (112), bidirectional supporting plates (1121) matched with the bidirectional pushing assembly (12) are symmetrically arranged at the left end and the right end of the bidirectional supporting bracket (112), the bidirectional pushing assembly (12) comprises a bidirectional driven assembly (121) and a bidirectional driving assembly (122) which are symmetrically arranged left and right, the bidirectional driven assembly (121) comprises a bidirectional driven plate (1211), the bidirectional driven plate (1211) is fixedly connected to the top end of the bidirectional supporting plate (1121), the top end of the bidirectional driven plate (1211) is rotatably connected with a bidirectional driven wheel (1213) through a bidirectional rotating seat (1212), the bidirectional driving assembly (122) comprises a bidirectional driving plate (1221), the bidirectional driving plate (1221) is fixedly connected to the top end of the bidirectional supporting plate (1121), and a bidirectional driving motor (1222) is arranged at the bottom end of the bidirectional driving plate (1221), the output end of the bidirectional driving motor (1222) is provided with a bidirectional driving wheel (1223) through a bidirectional driving plate (1221), the bidirectional pushing assembly (12) further comprises a bidirectional slider (124), the bidirectional slider (124) comprising a bidirectional pushing belt (1241), the belt wheel of the bidirectional pushing belt (1241) is connected with a bidirectional driven wheel (1213) and a bidirectional driving wheel (1223), the bidirectional push belt (1241) is detachably connected with a bidirectional sliding plate (1242) through a bidirectional clamping plate (12411), a bidirectional push plate (1243) is arranged at the top end of the bidirectional sliding plate (1242), a bidirectional top plate (1131) which is matched with the bidirectional push plate (1243) is arranged on the bidirectional top frame (113), the bidirectional top plate (1131) is provided with a bidirectional sliding groove (11311), and the bidirectional push plate (1243) penetrates through the bidirectional sliding groove (11311) and extends to the top end of the bidirectional top plate (1131).

5. The PCB cutting board sub-pushing blanking device according to claim 4, wherein: the bidirectional supporting bracket (112) is provided with two groups of bidirectional guide rails (123) which are symmetrical front and back, the bidirectional sliding plate (1242) is provided with bidirectional sliding holes (12421) which are matched with the bidirectional guide rails (123), and the bidirectional sliding plate (1242) is connected to the bidirectional guide rails (123) in a sliding mode through the bidirectional sliding holes (12421).

6. The PCB cutting board sub-pushing blanking device according to claim 5, wherein: the lateral pushing mechanism (2) comprises a lateral frame (21) and a lateral pushing assembly (22) arranged on the lateral frame (21).

7. The PCB cutting board sub-pushing blanking device according to claim 6, wherein: the lateral frame (21) comprises a lateral framework (211), a lateral support bracket (212) is arranged at the middle part of the lateral framework (211), and a lateral top frame (213) is arranged at the top end of the lateral framework (211).

8. The PCB cutting board sub-pushing blanking device according to claim 7, characterized in that: the lateral pushing assembly (22) is arranged on a lateral support bracket (212), lateral support plates (2121) matched with the lateral pushing assembly (22) are symmetrically arranged at the front end and the rear end of the lateral support bracket (212), the lateral pushing assembly (22) comprises a lateral driven assembly (221) and a lateral driving assembly (222) which are symmetrically arranged from left to right, the lateral driven assembly (221) comprises a lateral driven plate (2211), the lateral driven plate (2211) is fixedly connected to the top end of the lateral support plate (2121), the top end of the lateral driven plate (2211) is rotatably connected with a lateral driven wheel (2213) through a lateral rotating seat (2212), the lateral driving assembly (222) comprises a lateral driven plate (2221), the lateral driving plate (2221) is fixedly connected to the top end of the lateral support plate (2121), a lateral driving motor (2222) is arranged at the bottom end of the lateral driving plate (2221), the output end of the lateral driving motor (2222) is provided with a lateral driving wheel (2223) through a lateral driving plate (2221), the lateral pushing assembly (22) further comprises a lateral slide (224), the lateral slide (224) comprising a lateral pushing belt (2241), the lateral push belt (2241) is connected with a lateral driven wheel (2213) and a lateral driving wheel (2223) through belt wheels, the lateral push belt (2241) is detachably connected with a lateral sliding plate (2242) through a lateral clamping plate (22411), a lateral push plate (2243) is arranged at the top end of the lateral sliding plate (2242), a lateral top plate (2131) which is matched with the lateral push plate (2243) is arranged on the lateral top frame (213), the lateral top plate (2131) is provided with a lateral sliding groove (21311), and the lateral push plate (2243) penetrates through the lateral sliding groove (21311) and extends to the top end of the lateral top plate (2131).

9. The PCB cutting board sub-pushing blanking device according to claim 8, wherein: be provided with bilateral symmetry's two sets of side guide (223) on side direction support bracket (212), be provided with side direction slide hole (22421) with side guide (223) mutual adaptation on side direction slide board (2242), side direction slide board (2242) are through side direction slide hole (22421) sliding connection in side guide (223).

10. The PCB cutting board sub-pushing blanking device according to claim 3 or 7, characterized in that: the bottom ends of the bidirectional framework (111) and the lateral framework (211) are respectively provided with a plurality of bidirectional supporting legs (1111) and lateral supporting legs (2111).

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