CN210365859U - Bidirectional plate separator - Google Patents

Abstract

The utility model belongs to the technical field of PCB divides board equipment, a bidirectional plate separator is related to, which comprises a frame, be equipped with product conveying mechanism in the frame, follow vertical feed mechanism, vertical board mechanism, vertical receiving mechanism, horizontal feed mechanism and the horizontal board mechanism that divides that product conveying mechanism set gradually, the product is in carry forward on the product conveying mechanism, vertical feed mechanism with vertical receiving mechanism supports the both ends and the forward transport of product respectively, vertically divide board mechanism to vertically cut apart into many banding semi-manufactured goods with the product, horizontal feed mechanism supports semi-manufactured goods one end and pushes it transversely divide the processing position of board mechanism, transversely divide board mechanism to obtain a plurality of finished products with semi-manufactured goods transversely cut apart. The utility model discloses longitudinally cut apart and transversely cut apart the product in proper order with the help of product conveying mechanism, avoid some human misoperation and the quality problems who causes, can cut apart the product with high efficiency and obtain a plurality of finished products.

Description

Bidirectional plate separator

Technical Field

The utility model belongs to the technical field of PCB divides the board equipment, especially, relate to a bidirectional plate separator.

Background

In order to facilitate production, the processing of the PCB board generally includes manufacturing a plurality of small PCB boards on a large board, and manufacturing V-CUT grooves on the large board for dividing the small PCB boards. After the product is manufactured, the product is divided into a plurality of small PCB boards along the V-CUT groove manually or by a board dividing machine. In the prior art, the plate dividing machine is used for producing the long-strip-shaped plate which needs to be manually assisted to send the whole plate into the plate dividing machine to be divided into a strip, and then the long-strip-shaped plate is manually assisted to send the plate into the plate dividing machine to be divided into a plurality of small PCB plates. By adopting the plate dividing machine in the prior art, one plate can be divided and processed only by manual multiple-time assistance and repeated division by utilizing the plate dividing machine, so that the problem of low processing efficiency exists.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bidirectional plate separator aims at solving the plate separator who adopts among the prior art, and a plate need be supplementary and utilize this plate separator repetition to cut apart and just can accomplish through artifical a lot of and cut apart processing, consequently has the technical problem that machining efficiency hangs down.

In order to achieve the above object, an embodiment of the present invention provides a bidirectional plate separator, which includes a frame, wherein a product conveying mechanism, a longitudinal feeding mechanism, a longitudinal plate separating mechanism, a longitudinal receiving mechanism, a transverse feeding mechanism and a transverse plate separating mechanism are sequentially arranged along the product conveying mechanism;

the product is conveyed forwards on the product conveying mechanism, when the product to be cut reaches a processing station of the longitudinal plate dividing mechanism, the longitudinal feeding mechanism and the longitudinal receiving mechanism respectively abut against two ends of the product and convey forwards, and the longitudinal plate dividing mechanism longitudinally divides the product into a plurality of strip-shaped semi-finished products;

and a strip-shaped semi-finished product is sequentially conveyed forwards on the product conveying mechanism, when the semi-finished product reaches the inlet end of the transverse plate separating mechanism, the transverse plate separating mechanism props against one end of the semi-finished product and pushes the semi-finished product into a processing position of the transverse plate separating mechanism, and the transverse plate separating mechanism transversely separates the semi-finished product to obtain a plurality of finished products.

Optionally, the longitudinal plate separating mechanism includes a longitudinal upper knife assembly and a longitudinal lower knife assembly that are fixed on the rack and are arranged oppositely, the longitudinal upper knife assembly is erected on the longitudinal lower knife assembly, when a product is longitudinally divided, the longitudinal lower knife assembly is supported on the lower bottom surface of the product and is still, and the longitudinal upper knife assembly slides on the upper top surface of the product to complete cutting.

Optionally, vertical lower knife tackle spare includes first direction slide, first slidable mounting seat, first promotion cylinder and vertical lower cutter, first direction slide is fixed in the frame, first slidable mounting seat slides and sets up on the first direction slide, the cutter is fixed under the vertical direction the top of first slidable mounting seat, first promotion cylinder fixed mounting be in on the first direction slide, and the output pole fixed connection of first promotion cylinder first slidable mounting seat is in with the drive first slidable mounting seat with the cutter is in under the vertical direction the first direction slide reciprocates.

Optionally, the longitudinal upper cutter assembly comprises a gantry slide seat, a second sliding installation seat, a first driving motor, a first pulley set and a longitudinal upper cutter, the gantry slide seat is fixed on the rack, two ends of the first pulley set are fixed on the gantry slide seat, the second sliding installation seat is arranged on the gantry slide seat in a sliding manner, the second sliding installation seat is connected with the first pulley set, the longitudinal upper cutter is rotatably arranged in the second sliding installation seat, the first driving motor is fixed on the gantry slide seat, and an output shaft of the first driving motor is fixedly connected with the first pulley set so as to drive the second sliding installation seat and the longitudinal upper cutter to move left and right on the gantry slide seat.

Optionally, the transverse plate separating mechanism comprises a transverse plate separating power assembly and a transverse cutter holder which are fixed on the rack, a transverse cutter assembly and a transverse lower cutter assembly which are arranged oppositely are mounted on the transverse cutter holder, the transverse plate separating power assembly is in transmission connection with the transverse lower cutter assembly, when the semi-finished product is transversely divided, the transverse plate separating power assembly drives the transverse lower cutter assembly to rotate, and under the cooperation of the transverse cutter assembly, the semi-finished product flowing through is transversely cut.

Optionally, the transverse plate-dividing power assembly includes a second driving motor, a driving wheel and a rotating wheel, the second driving motor is fixed on the frame, the driving wheel is fixedly connected to an output shaft of the second driving motor, the driving wheel is rotatably mounted on the frame, the rotating wheel is fixed on the transverse lower knife assembly, the driving wheel is connected with the driving wheel through a belt, and the driving wheel is meshed with the rotating wheel.

Optionally, the structure of the transverse cutter assembly is the same as that of the transverse lower cutter assembly, the transverse cutter assembly comprises an upper rotating shaft and a plurality of upper transverse cutters arranged on the upper rotating shaft, and two ends of the upper rotating shaft are rotatably arranged in the transverse cutter seats; the transverse lower cutter assembly comprises a lower rotating shaft and a plurality of lower transverse cutters arranged on the lower rotating shaft, two ends of the lower rotating shaft are rotatably arranged in the transverse cutter seats, and the rotating wheel is fixed at one end of the lower rotating shaft.

Optionally, the longitudinal feeding mechanism and the longitudinal receiving mechanism have the same structure, the longitudinal feeding mechanism includes a third driving motor, a third guiding slide seat, a first lead screw, a third sliding mount, a third lifting cylinder and a feeding support block, the third guiding slide seat is mounted on the frame, the third sliding mount seat is slidably disposed on the third guiding slide seat, the first lead screw is rotatably disposed in the third guiding slide seat, the first lead screw is in transmission connection with the third sliding mount seat, the third lifting cylinder is fixed on the third sliding mount seat, the feeding support block is fixed on an output rod of the third lifting cylinder, the third driving motor is mounted on the third guiding slide seat, and an output shaft of the third driving motor is fixedly connected with the first lead screw to drive the first lead screw to rotate, then the third sliding installation seat, the third lifting cylinder and the feeding abutting block are driven to move back and forth on the third guide sliding seat;

the longitudinal material receiving mechanism comprises a fourth driving motor, a fourth guide sliding seat, a second screw rod, a fourth sliding installation seat, a fourth lifting cylinder and a material receiving abutting block, the fourth guide sliding seat is arranged on the machine frame, the fourth sliding installation seat is arranged on the fourth guide sliding seat in a sliding manner, the second screw rod is rotatably arranged in the fourth guide sliding seat, the second screw rod is in transmission connection with the fourth sliding installation seat, the fourth lifting cylinder is fixed on the fourth sliding installation seat, the material receiving supporting block is fixed on an output rod of the fourth lifting cylinder, the fourth driving motor is arranged on the fourth guide sliding seat, and an output shaft of the fourth driving motor is fixedly connected with the second screw rod to drive the second screw rod to rotate, so that the fourth sliding installation seat, the fourth lifting cylinder and the material receiving abutting block are driven to move back and forth on the fourth guide sliding seat.

Optionally, the horizontal feeding mechanism includes a fifth lifting cylinder and a feeding pushing block, the fifth lifting cylinder is mounted on the fourth sliding mounting seat, and the feeding pushing block is fixed on an output rod of the fifth lifting cylinder.

Optionally, the product conveying mechanism includes a front-stage product conveying assembly, a middle-stage semi-finished product conveying assembly, and a rear-stage finished product conveying assembly, the longitudinal plate separating mechanism is disposed between the product conveying assembly and the semi-finished product conveying assembly, and the transverse plate separating mechanism is disposed between the semi-finished product conveying assembly and the finished product conveying assembly.

The embodiment of the utility model provides an above-mentioned one or more technical scheme in the bidirectional plate separator have one of following technological effect at least: compared with the prior art, the utility model discloses the manual work when having removed from cutting apart of bidirectional plate separator moves the board, and operating personnel only need put the product on product conveying mechanism, and the product can be in product conveying mechanism automatic movement and accomplish the cutting and see-off in vertical plate separating mechanism and horizontal plate separating mechanism in proper order, specifically, utilize vertical plate separating mechanism to vertically cut apart into many banding semi-manufactured goods with the product earlier, recycle horizontal plate separating mechanism and obtain a plurality of finished products with semi-manufactured goods horizontal segmentation. Therefore, the bidirectional plate separator can reduce the time for moving the product, reduce the labor intensity, avoid the quality problem caused by manual misoperation, ensure the processing quality and efficiently divide the product into a plurality of finished products.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural view of a bidirectional plate separator according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a longitudinal plate separating mechanism provided in the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a transverse plate dividing mechanism according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the vertical feeding mechanism provided by the embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the longitudinal receiving mechanism and the transverse receiving mechanism provided by the embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

1-frame 2-product conveying mechanism 21-product conveying assembly

22-semi-finished product conveying assembly 23-finished product conveying assembly 3-longitudinal feeding mechanism

31-third drive motor 32-third guide slide 33-first screw

34-third sliding installation seat 35-third lifting cylinder 36-feeding support block

4-longitudinal plate dividing mechanism 41-longitudinal lower knife assembly 411-first guide slide

412-first sliding installation seat 413-first lifting cylinder 414-longitudinal lower cutter

42-longitudinal upper cutter assembly 421-portal frame sliding seat 422-second sliding installation seat

423-first drive motor 424-first pulley block 425-longitudinal upper cutter

5-longitudinal receiving mechanism 51-fourth driving motor 52-fourth guiding sliding seat

53-second screw rod 54-fourth sliding installation seat 55-fourth lifting cylinder

56-material receiving and holding block 6-transverse feeding mechanism 61-fifth lifting cylinder

62-feeding pushing block 7-transverse plate separating mechanism 71-transverse plate separating power assembly

711-second driving motor 712-driving wheel 713-driving wheel

714-rotating wheel 72-transversal cutter holder 73-transversal cutter assembly

731-upper rotating shaft 732-upper transverse cutter 74-transverse lower cutter assembly

741-lower rotating shaft 742-lower transverse cutter

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" 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" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

In an embodiment of the present invention, as shown in fig. 1 to 5, a bidirectional plate separator includes a frame 1, a product conveying mechanism 2 is disposed on the frame 1, and a longitudinal feeding mechanism 3, a longitudinal plate separating mechanism 4, a longitudinal receiving mechanism 5, a transverse feeding mechanism 6 and a transverse plate separating mechanism 7 are sequentially disposed along the product conveying mechanism 2;

the product is conveyed forwards on the product conveying mechanism 2, when the product to be divided reaches a processing station of the longitudinal plate dividing mechanism 4, the longitudinal feeding mechanism 3 and the longitudinal receiving mechanism 5 respectively abut against two ends of the product and convey forwards, and the longitudinal plate dividing mechanism 4 longitudinally divides the product into a plurality of strip-shaped semi-finished products;

and a strip-shaped semi-finished product is sequentially conveyed forwards on the product conveying mechanism 2, when the semi-finished product reaches the inlet end of the transverse plate dividing mechanism 7, the transverse material feeding mechanism 6 props against one end of the semi-finished product and pushes the semi-finished product into a processing station of the transverse plate dividing mechanism 7, and the transverse plate dividing mechanism 7 transversely divides the semi-finished product into a plurality of finished products.

In another embodiment of the present invention, the longitudinal board dividing mechanism 4 of the bidirectional board dividing machine includes a longitudinal upper knife assembly 42 and a longitudinal lower knife assembly 41 fixed on the frame 1 and disposed oppositely, the longitudinal upper knife assembly 42 is erected on the longitudinal lower knife assembly 41, when the product is longitudinally divided, the longitudinal lower knife assembly 41 is supported to the lower bottom surface of the product and is stationary, and the longitudinal upper knife assembly 42 slides on the upper top surface of the product to complete the cutting.

Further, the longitudinal lower blade assembly 41 includes a first guiding slide seat 411, a first sliding installation seat 412, a first lifting cylinder 413 and a longitudinal lower blade 414, the first guiding slide seat 411 is fixed on the frame 1, the first sliding installation seat 412 is slidably disposed on the first guiding slide seat 411, the longitudinal lower blade 414 is fixed at the top end of the first sliding installation seat 412, the first lifting cylinder 413 is fixedly installed on the first guiding slide seat 411, and an output rod of the first lifting cylinder 413 is fixedly connected to the first sliding installation seat 412 to drive the first sliding installation seat 412 and the longitudinal lower blade 414 to move up and down on the first guiding slide seat 411.

Further, the longitudinal upper knife assembly 42 comprises a gantry slide 421, a second slide mounting seat 422, a first driving motor 423, a first pulley set 424 and a longitudinal upper knife 425, the gantry slide seat 421 is fixed on the machine frame 1, two ends of the first belt pulley group 424 are fixed on the gantry slide seat 421, the second sliding installation seat 422 is slidably arranged on the gantry slide seat 421, and the second sliding installation seat 422 is connected with the first pulley group 424, the longitudinal upper cutter 425 is rotatably arranged in the second sliding installation seat 422, the first driving motor 423 is fixed on the gantry sliding seat 421, and the output shaft of the first driving motor 423 is fixedly connected with the first pulley group 424, so as to drive the second sliding installation seat 422 and the longitudinal upper cutter 425 to move left and right on the portal frame sliding seat 421.

In another embodiment of the present invention, the transverse board dividing mechanism 7 of the bidirectional board dividing machine includes a transverse board dividing power assembly 71 and a transverse cutter holder 72 fixed on the frame 1, a transverse cutter assembly 73 and a transverse lower cutter assembly 74 which are arranged relatively are installed on the transverse cutter holder 72, the transverse board dividing power assembly 71 is in transmission connection with the transverse lower cutter assembly 74, when the semi-finished product is transversely cut, the transverse board dividing power assembly 71 drives the transverse lower cutter assembly 74 to rotate, and under the cooperation of the transverse cutter assembly 73, the semi-finished product flowing through is transversely cut.

Further, the transverse board-dividing power assembly 71 includes a second driving motor 711, a driving wheel 712, a driving wheel 713 and a rotating wheel 714, the second driving motor 711 is fixed on the frame 1, the driving wheel 712 is fixedly connected to an output shaft of the second driving motor 711, the driving wheel 713 is rotatably mounted on the frame 1, the rotating wheel 725 is fixed on the transverse lower blade assembly 74, the driving wheel 713 is connected with the driving wheel 712 through a belt, and the driving wheel 713 is meshed with the rotating wheel 714.

Further, the structure of the transverse cutter assembly 73 is the same as that of the transverse lower cutter assembly 74, the transverse cutter assembly 73 includes an upper rotating shaft 731 and a plurality of transverse cutters 732 arranged on the upper rotating shaft 731, and both ends of the upper rotating shaft 731 are rotatably arranged in the transverse cutter holder 72; the transverse lower blade assembly 74 includes a lower rotating shaft 741 and a plurality of lower transverse blades 742 disposed on the lower rotating shaft 741, both ends of the lower rotating shaft 741 are rotatably disposed in the transverse blade holder 72, and the rotating wheel 714 is fixed at one end of the lower rotating shaft 741.

In another embodiment of the present invention, the longitudinal feeding mechanism 3 and the longitudinal receiving mechanism 5 of the bidirectional plate separator are identical in structure.

Further, the longitudinal feeding mechanism 3 includes a third driving motor 31, a third guiding slide 32, a first lead screw 33, a third sliding mount 34, a third lifting cylinder 35 and a feeding support block 36, the third guiding slide 32 is mounted on the frame 1, the third sliding mount 34 is slidably disposed on the third guiding slide 32, the first lead screw 33 is rotatably disposed in the third guiding slide 32, the first lead screw 33 is in transmission connection with the third sliding mount 34, the third lifting cylinder 35 is fixed on the third sliding mount 34, the feeding support block 36 is fixed on an output rod of the third lifting cylinder 35, the third driving motor 31 is mounted on the third guiding slide 32, and an output shaft of the third driving motor 31 is fixedly connected to the first lead screw 33 to drive the first lead screw 33 to rotate, and then drives the third sliding installation seat 34, the third lifting cylinder 35 and the feeding abutting block 36 to move back and forth on the third guiding sliding seat 32.

Further, the longitudinal material receiving mechanism 5 includes a fourth driving motor 51, a fourth guiding slide 52, a second lead screw 53, a fourth sliding mount 54, a fourth lifting cylinder 55 and a material receiving supporting block 56, the fourth guiding slide 52 is mounted on the frame 1, the fourth sliding mount 54 is slidably disposed on the fourth guiding slide 52, the second lead screw 53 is rotatably disposed in the fourth guiding slide 52, the second lead screw 53 is in transmission connection with the fourth sliding mount 54, the fourth lifting cylinder 55 is fixed on the fourth sliding mount 54, the supporting block 56 is fixed on an output rod of the fourth lifting cylinder 55, the fourth driving motor 51 is mounted on the fourth guiding slide 52, and an output shaft of the fourth driving motor 51 is fixedly connected to the second lead screw 53 to drive the second lead screw 53 to rotate, and then drives the fourth sliding installation seat 54, the fourth lifting cylinder 55 and the material receiving and holding block 56 to move back and forth on the fourth guiding slide seat 52.

In another embodiment of the present invention, the lateral feeding mechanism 6 of the bidirectional plate separator comprises a fifth lifting cylinder 61 and a feeding pushing block 62, the fifth lifting cylinder 61 is installed on the fourth sliding installation seat 54, and the feeding pushing block 62 is fixed on the output rod of the fifth lifting cylinder 61.

In another embodiment of the present invention, the product conveying mechanism 2 of the bidirectional plate separator includes a front product conveying assembly 21, a middle semi-finished product conveying assembly 22 and a rear product conveying assembly 23, the longitudinal plate separating mechanism 4 is disposed between the product conveying assembly 21 and the semi-finished product conveying assembly 22, and the transverse plate separating mechanism 7 is disposed between the semi-finished product conveying assembly 22 and the finished product conveying assembly 23. Specifically, the product conveying assembly 21, the semi-finished product conveying assembly 22 and the finished product conveying assembly 23 all adopt a structure of a motor-driven conveyor belt, and since the structure is a general prior art, the description is omitted here. In addition, according to practical application, the middle of the conveyor belts in the product conveying assembly 21 and the semi-finished product conveying assembly 22 are hollow, and only the conveyor belts on two sides are used for conveying products or semi-finished products so as to provide space for the longitudinal feeding mechanism 3 and the longitudinal receiving mechanism 5 to respectively abut against two ends of the products and convey the products forwards, and provide space for the transverse feeding mechanism 6 to abut against one end of the semi-finished products and push the semi-finished products into a processing position of the transverse plate dividing mechanism 7. The conveyor belt in the finished product conveying assembly 23 is a conveyor belt with a bearing plane, so that a plurality of finished products obtained by final segmentation can be conveniently received.

The utility model discloses bidirectional plate separator's theory of operation does:

an operator places a product on the product conveying assembly 21 at the front section, the product conveying assembly 21 conveys the product forwards, when the product reaches the processing station of the longitudinal plate dividing mechanism 4, the third lifting cylinder 35 in the longitudinal feeding mechanism 3 pushes the feeding abutting block 36 to move upwards to be flush with the product, the third driving motor 31 in the longitudinal feeding mechanism 3 drives the first screw rod 33 to rotate, and then the third sliding mounting seat 34, the third lifting cylinder 35 and the feeding abutting block 36 are driven to move towards the product on the third guiding sliding seat 32 to reach one end of abutting against the product; meanwhile, the fourth lifting cylinder 55 in the longitudinal material receiving mechanism 5 pushes the material receiving abutting block 56 to move upward until the material receiving abutting block is flush with the product, and the fourth driving motor 51 in the longitudinal material receiving mechanism 5 drives the second lead screw 53 to rotate, so as to drive the fourth sliding installation seat 54, the fourth lifting cylinder 55 and the material receiving abutting block 56 to move to the product on the fourth guide slide seat 52 to abut against the other end of the product; namely, the longitudinal feeding mechanism 3 and the longitudinal receiving mechanism 5 respectively support against two ends of a product and convey the product forwards.

Meanwhile, the longitudinal plate dividing mechanism 4 divides the product longitudinally, and the first lifting cylinder 413 in the longitudinal lower knife assembly 41 drives the first sliding mounting seat 412 and the longitudinal lower knife 414 to move upwards on the first guiding slide seat 411 until the longitudinal lower knife 414 is kept still after abutting against the lower bottom surface of the product; the first driving motor 423 in the longitudinal upper knife assembly 42 drives the first pulley group 424 to rotate, so as to drive the second sliding mounting seat 422 and the longitudinal upper knife 425 to move left and right on the gantry sliding seat 421, and the longitudinal upper knife 425 slides on the upper top surface of the product to complete cutting, that is, the longitudinal plate dividing mechanism 4 longitudinally divides the product into a plurality of strip-shaped semi-finished products by using the longitudinal upper knife 425.

A strip-shaped semi-finished product is sequentially conveyed forwards on the semi-finished product conveying assembly 22 in the middle section, when the semi-finished product reaches the inlet end of the transverse plate dividing mechanism 7, the fifth lifting cylinder 61 in the transverse plate dividing mechanism 6 pushes the feeding pushing block 62 to move upwards to be flush with the semi-finished product, the fourth driving motor 51 drives the second screw 53 to rotate, then the fourth sliding mounting seat 54, the fifth lifting cylinder 61 and the feeding pushing block 62 are driven to move towards the semi-finished product on the fourth guide sliding seat 52 to abut against one end of the semi-finished product, then the transverse plate dividing mechanism 6 abuts against one end of the semi-finished product and pushes the semi-finished product into the processing station of the transverse plate dividing mechanism 7,

meanwhile, the transverse plate-dividing mechanism 7 transversely divides the semi-finished products, the second driving motor 711 in the transverse plate-dividing power assembly 71 drives the driving wheel 712 to rotate, and drives the driving wheel 713 to rotate through a belt, under the meshing action of the driving wheel 713 and the rotating wheel 714, the lower rotating shaft 741 and the plurality of lower transverse cutters 742 arranged on the lower rotating shaft 741 are driven to rotate, and the upper and lower top surfaces of the semi-finished products flowing through slide to complete cutting under the cooperation of the transverse cutter assembly 73, that is, the transverse plate-dividing mechanism 7 transversely divides the semi-finished products by the lower transverse cutters 742 and the upper transverse cutters 732 to obtain a plurality of finished products.

Finally, a plurality of finished products fall onto the finished product conveying assembly 23 at the rear stage, and the finished products are output by the finished product conveying assembly 23, so that the processing is completed.

To sum up, the utility model discloses the manual work when having removed from cutting apart of bidirectional plate separator moves the board, with the help of product conveying mechanism carries the product and is in proper order vertical plate separator constructs with accomplish the cutting and see-off and obtain a plurality of finished products in the horizontal plate separator constructs. The bidirectional plate dividing machine can reduce the time for moving products, reduce labor intensity, avoid quality problems caused by manual misoperation, ensure processing quality and efficiently divide the products to obtain a plurality of finished products.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a bidirectional plate separator, includes the frame, be equipped with product conveying mechanism in the frame, its characterized in that: the longitudinal feeding mechanism, the longitudinal plate dividing mechanism, the longitudinal receiving mechanism, the transverse feeding mechanism and the transverse plate dividing mechanism are sequentially arranged along the product conveying mechanism;

the product is conveyed forwards on the product conveying mechanism, when the product to be cut reaches a processing station of the longitudinal plate dividing mechanism, the longitudinal feeding mechanism and the longitudinal receiving mechanism respectively abut against two ends of the product and convey forwards, and the longitudinal plate dividing mechanism longitudinally divides the product into a plurality of strip-shaped semi-finished products;

and a strip-shaped semi-finished product is sequentially conveyed forwards on the product conveying mechanism, when the semi-finished product reaches the inlet end of the transverse plate separating mechanism, the transverse plate separating mechanism props against one end of the semi-finished product and pushes the semi-finished product into a processing position of the transverse plate separating mechanism, and the transverse plate separating mechanism transversely separates the semi-finished product to obtain a plurality of finished products.

2. The bidirectional plate separator as set forth in claim 1, wherein: the longitudinal plate separating mechanism comprises a longitudinal upper cutter assembly and a longitudinal lower cutter assembly which are fixed on the rack and are arranged oppositely, the longitudinal upper cutter assembly is erected on the longitudinal lower cutter assembly, when a product is longitudinally divided, the longitudinal lower cutter assembly is abutted against the lower bottom surface of the product and is still, and the longitudinal upper cutter assembly slides on the upper top surface of the product to finish cutting.

3. The bidirectional plate separator as set forth in claim 2, wherein: the vertical lower cutter assembly comprises a first guide sliding seat, a first sliding installation seat, a first lifting air cylinder and a vertical lower cutter, the first guide sliding seat is fixed on the rack, the first sliding installation seat is slidably arranged on the first guide sliding seat, the vertical lower cutter is fixed at the top end of the first sliding installation seat, the first lifting air cylinder is fixedly arranged on the first guide sliding seat, and an output rod of the first lifting air cylinder is fixedly connected with the first sliding installation seat to drive the first sliding installation seat and the vertical lower cutter to move up and down the first guide sliding seat.

4. The bidirectional plate separator as set forth in claim 2, wherein: the longitudinal upper cutter assembly comprises a portal frame sliding seat, a second sliding installation seat, a first driving motor, a first belt pulley group and a longitudinal upper cutter, the portal frame sliding seat is fixed on the rack, two ends of the first belt pulley group are fixed on the portal frame sliding seat, the second sliding installation seat is arranged on the portal frame sliding seat in a sliding mode, the second sliding installation seat is connected with the first belt pulley group, the longitudinal upper cutter is rotatably arranged in the second sliding installation seat, the first driving motor is fixed on the portal frame sliding seat, and an output shaft of the first driving motor is fixedly connected with the first belt pulley group so as to drive the second sliding installation seat and the longitudinal upper cutter to move left and right on the portal frame sliding seat.

5. The bidirectional plate separator as set forth in claim 1, wherein: the transverse plate separating mechanism comprises a transverse plate separating power assembly and a transverse cutter holder which are fixed on the rack, a transverse cutter assembly and a transverse lower cutter assembly which are oppositely arranged are installed on the transverse cutter holder, the transverse plate separating power assembly is in transmission connection with the transverse lower cutter assembly, when the semi-finished product is transversely cut, the transverse plate separating power assembly drives the transverse lower cutter assembly to rotate, and the semi-finished product flowing through is transversely cut under the cooperation of the transverse cutter assembly.

6. The bidirectional plate separator as recited in claim 5, wherein: the transverse plate dividing power assembly comprises a second driving motor, a driving wheel and a rotating wheel, the second driving motor is fixed on the rack, the driving wheel is fixedly connected to an output shaft of the second driving motor, the driving wheel is rotatably installed on the rack, the rotating wheel is fixed on the transverse lower cutter assembly, the driving wheel is connected with the driving wheel through a belt, and the driving wheel is meshed with the rotating wheel.

7. The bidirectional plate separator as recited in claim 6, wherein: the structure of the transverse cutter assembly is the same as that of the transverse lower cutter assembly, the transverse cutter assembly comprises an upper rotating shaft and a plurality of upper transverse cutters arranged on the upper rotating shaft, and two ends of the upper rotating shaft are rotatably arranged in the transverse cutter seats; the transverse lower cutter assembly comprises a lower rotating shaft and a plurality of lower transverse cutters arranged on the lower rotating shaft, two ends of the lower rotating shaft are rotatably arranged in the transverse cutter seats, and the rotating wheel is fixed at one end of the lower rotating shaft.

8. A bi-directional board separator according to any one of claims 1-7 wherein: the longitudinal feeding mechanism and the longitudinal receiving mechanism have the same structure, the longitudinal feeding mechanism comprises a third driving motor, a third guide sliding seat, a first screw rod, a third sliding installation seat, a third lifting cylinder and a feeding support block, the third guide sliding seat is installed on the machine frame, the third sliding installation seat is arranged on the third guide sliding seat in a sliding manner, the first screw rod is rotatably arranged in the third guide sliding seat, the first screw rod is in transmission connection with the third sliding installation seat, the third lifting cylinder is fixed on the third sliding installation seat, the feeding support block is fixed on an output rod of the third lifting cylinder, the third driving motor is installed on the third guide sliding seat, and an output shaft of the third driving motor is fixedly connected with the first screw rod to drive the first screw rod to rotate, then the third sliding installation seat, the third lifting cylinder and the feeding abutting block are driven to move back and forth on the third guide sliding seat;

the longitudinal material receiving mechanism comprises a fourth driving motor, a fourth guide sliding seat, a second screw rod, a fourth sliding installation seat, a fourth lifting cylinder and a material receiving abutting block, the fourth guide sliding seat is arranged on the machine frame, the fourth sliding installation seat is arranged on the fourth guide sliding seat in a sliding manner, the second screw rod is rotatably arranged in the fourth guide sliding seat, the second screw rod is in transmission connection with the fourth sliding installation seat, the fourth lifting cylinder is fixed on the fourth sliding installation seat, the material receiving supporting block is fixed on an output rod of the fourth lifting cylinder, the fourth driving motor is arranged on the fourth guide sliding seat, and an output shaft of the fourth driving motor is fixedly connected with the second screw rod to drive the second screw rod to rotate, so that the fourth sliding installation seat, the fourth lifting cylinder and the material receiving abutting block are driven to move back and forth on the fourth guide sliding seat.

9. The bidirectional plate separator as recited in claim 8, wherein: the transverse feeding mechanism comprises a fifth lifting cylinder and a feeding pushing block, the fifth lifting cylinder is installed on the fourth sliding installation seat, and the feeding pushing block is fixed on an output rod of the fifth lifting cylinder.

10. A bi-directional board separator according to any one of claims 1-7 wherein: the product conveying mechanism comprises a front-section product conveying assembly, a middle-section semi-finished product conveying assembly and a rear-section finished product conveying assembly, the longitudinal plate separating mechanism is arranged between the product conveying assembly and the semi-finished product conveying assembly, and the transverse plate separating mechanism is arranged between the semi-finished product conveying assembly and the finished product conveying assembly.

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