CN210011076U - Automatic change asynchronous tripping machine - Google Patents

Abstract

The utility model discloses an automatic change asynchronous tripping machine, it includes: the device comprises a machine table, a first machine table and a second machine table, wherein the first machine table is arranged at the front end of the second machine table; the conveying mechanism is arranged at the front end of the second machine table and comprises a first conveying assembly, a second conveying assembly and a limiting assembly; the skip cutting mechanism is arranged at the upper end of the first machine table and comprises a cutting assembly and a die adjusting assembly; the power mechanism comprises a jump-cut power assembly and a transmission power assembly, the jump-cut power assembly is arranged in the first machine table, and the transmission power assembly is arranged in the second machine table; and the control panel is arranged at the upper end of the second machine table. The utility model discloses a transport mechanism, jump and cut mechanism and power unit and closely cooperate each other, the transport and the cutting of product are accomplished to one-stop formula, and degree of automation is high, and precision is good, and the practicality is strong.

Description

Automatic change asynchronous tripping machine

Technical Field

The utility model relates to a jump cutting machine technical field, in particular to change asynchronous jump cutting machine.

Background

With the continuous development of the times and the continuous improvement of the scientific and technical level, the industrial level in the world is rapidly developed, people invent a plurality of industrial devices to replace manual labor, so that the hands of people are slowly liberated, and the heavy labor can be completed by the devices. The jump cutting machine is one of the inventions, and the jump cutting processing technology is widely applied to the fields of medical treatment, automobile, electronics, electrical appliances and product manufacturing at present, particularly to the field of plane manufacturing, and the jump cutting processing is more widely applied. The conventional jump cutting machine has many disadvantages, one of which is that the precision is not enough, the requirement of a user on the cutting precision cannot be met, and the cut product has a large error; secondly, the existing jump cutting machine adopts 8 rollers for conveying, so that the occupied space is large, and a large amount of production cost is wasted; thirdly, its degree of automation is low, can't satisfy pay-off, processing, divides the material and collects in an organic whole.

Therefore, it is necessary to provide an automatic asynchronous tripping machine with high automation degree, high precision and strong practicability, so as to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem to the defect that exists among the above-mentioned prior art, provide an automatic change asynchronous jump cutter, closely cooperate each other through transport mechanism, jump cutter structure and power unit, the transport and the cutting of product are accomplished to one-stop formula, and degree of automation is high, and precision is good to solve the problem that proposes in the above-mentioned background art.

In order to solve the technical problem, the utility model discloses the technical scheme who takes as follows:

an automated asynchronous tripping machine, comprising:

the device comprises a machine table, a positioning mechanism and a control mechanism, wherein the machine table comprises a first machine table and a second machine table, the first machine table is arranged at the front end of the second machine table and is used for supporting the fixed jump-cutting mechanism, the control panel, the power mechanism and the conveying mechanism;

the conveying mechanism is arranged at the front end of the second machine table, comprises a first conveying assembly, a second conveying assembly and a limiting assembly, and is used for discharging, feeding and receiving products;

the skip cutting mechanism is arranged at the upper end of the first machine table, comprises a cutting assembly and a die adjusting assembly and is used for cutting a product on the conveying mechanism;

the power mechanism comprises a jump-cut power assembly and a transmission power assembly, the jump-cut power assembly is arranged in the first machine table, the transmission power assembly is arranged in the second machine table and is used for providing power sources for the transmission mechanism and the jump-cut mechanism;

and the control panel is arranged at the upper end of the second machine table and is used for controlling the conveying mechanism, the skip-cutting mechanism and the power mechanism.

As a further elaboration of the above technical solution:

in the above technical solution, the first conveying assembly comprises a product discharging roller, a first feeding roller, a second feeding roller and a bottom paper receiving roller, the second conveying assembly comprises a new film discharging roller, a third feeding roller, a fourth feeding roller, a product receiving roller and a waste receiving roller, the product discharging roller is arranged above the bottom paper receiving roller, the first feeding roller and the second feeding roller are arranged obliquely above the product discharging roller, the first feeding roller and the second feeding roller are arranged adjacently up and down, a gap is formed between the first feeding roller and the second feeding roller, the waste receiving roller is arranged above the new film discharging roller, the product receiving roller is arranged obliquely above the waste receiving roller, the third feeding roller and the fourth feeding roller are arranged obliquely above the bottom paper receiving roller, the third feeding roller and the fourth feeding roller are arranged adjacently up and down, a gap exists between the third feeding roller and the fourth feeding roller, and the first conveying assembly and the second conveying assembly are connected with the power mechanism.

In the above technical scheme, spacing subassembly includes first spacing roller bearing, the spacing roller bearing of second, the spacing roller bearing of third, the spacing roller bearing of fourth, the spacing roller bearing of fifth and the spacing roller bearing of sixth, first spacing roller bearing sets up in the top of product blowing gyro wheel and is located the right side of first pay-off gyro wheel, the spacing roller bearing of second sets up between product blowing gyro wheel and the bottom stock material receiving gyro wheel, the spacing roller bearing of third sets up in the oblique upper left side of new membrane blowing gyro wheel, the spacing roller bearing of fourth and the spacing roller bearing of fifth all set up in the left side of fourth pay-off gyro wheel, the spacing roller bearing of fifth is located between the spacing roller bearing of fourth and the fourth pay-off gyro wheel, the spacing roller bearing of sixth sets up in the right side of third pay-off gyro wheel.

In the above technical solution, the cutting assembly and the die adjusting assembly, the die adjusting assembly is disposed at the lower end of the cutting assembly, the die adjusting assembly includes a lower plate, an adjusting block, and an upper plate, the adjusting block is disposed at both sides of the upper end of the lower plate, the upper plate is disposed at the upper end of the adjusting block, the upper surface of the adjusting block is an inclined surface, the adjusting block includes a first adjusting block and a second adjusting block, the first adjusting block and the second adjusting block are disposed opposite to each other and form a concave surface with the second adjusting block, the lower end of the upper plate is a convex surface structure, the concave surface and the convex surface are used in cooperation, the outer sides of the first adjusting block and the second adjusting block are connected with a lead screw, the lead screw is connected with a power mechanism, the skip cutting assembly includes a tool support, a tool fixing plate, a tool connecting plate, a tool mounting plate and a tool, the undersides of both ends of the tool support, the cutter fixing plate, the cutter connecting plate, the cutter mounting plate and the cutter are sequentially arranged at the lower end of the cutter support from top to bottom.

In the technical scheme, the conveying power assembly is arranged inside the second machine table and comprises a product discharging roller power piece, a bottom paper receiving roller power piece, a new film discharging roller power piece, a product receiving roller power piece and a waste receiving roller power piece, wherein the product discharging roller power piece, the bottom paper receiving roller power piece, the new film discharging roller power piece, the product receiving roller power piece and the waste receiving roller power piece all comprise roller motors and roller transmission bearings arranged at the front ends of the roller motors; the skip-cutting power assembly is arranged inside the first machine table and comprises a die adjusting assembly power piece and a skip-cutting assembly power piece, the power part of the mould adjusting component comprises a mould adjusting motor and a mould adjusting transmission bearing arranged at the front end of the mould adjusting motor, the other end of the die adjusting transmission bearing is connected with the screw rod, the skip-cutting power assembly comprises a skip-cutting motor, a skip-cutting transmission bearing, a skip-cutting transmission wheel, a skip-cutting transmission belt, a skip-cutting transmission rod, a skip-cutting cam and a cutter bracket power connection plate, the skip-cut transmission bearing is sleeved on a rotating shaft of the skip-cut motor, the skip-cut transmission bearing is connected with the skip-cut transmission wheel through a skip-cut transmission belt, the skip-cutting driving wheel is sleeved on the skip-cutting driving rod, the skip-cutting cam is arranged on two sides of the skip-cutting driving rod, the jump cutting cam is fixed on a power connecting plate of the cutter bracket, and the power connecting plate of the cutter bracket is connected with the cutter bracket.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses novel structure, reasonable in design, through transport mechanism, jump cut mechanism and power unit closely cooperate each other, specifically be through the first conveying subassembly operation of power unit drive transport mechanism, will wait to cut the product and carry to the station of jump cut mechanism, it cuts the work to wait to cut the product to drive the jump cut mechanism through power unit, after cutting finishes, power unit drives the second conveying subassembly operation of transport mechanism, separate and collect the product that finishes cutting and waste material, realize the transportation, the function of cutting and collecting one-stop work, degree of automation is high, good precision, meanwhile, through adopting 6 conveying rollers to replace the structural design of 8 conveying rollers of prior art, under the condition that guarantees that the function is not influenced, the quantity of conveying rollers and motor has been reduced, production cost is reduced, through adopting the structural design of cutting subassembly and accent mould subassembly, adjust the mould through transferring the mould subassembly, precision when having improved the cutting, the practicality is strong.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a flow chart of the operation of the transfer mechanism of the present invention;

fig. 3 is a schematic structural diagram of the skip-cutting mechanism of the present invention.

Detailed Description

The present invention will be described in further detail with reference to fig. 1 to 3.

The embodiments described by referring to the drawings are exemplary and intended to be used for explaining the present application and are not to be construed as limiting the present application. In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and thus should not be considered limiting. 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 present application, "a plurality" means two or more unless specifically limited otherwise. In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; 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 application can be understood by those of ordinary skill in the art as appropriate. In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly above and obliquely above the second feature, or simply meaning that the first feature is at a lesser level than the second feature.

As shown in fig. 1-3, an automated asynchronous tripping machine, comprising:

the cutting machine comprises a machine table 1, wherein the machine table 1 comprises a first machine table 11 and a second machine table 12, the first machine table 11 is arranged at the front end of the second machine table 12 and is used for supporting a fixed skip cutting mechanism 2, a control panel 3, a power mechanism and a transmission mechanism 4;

the conveying mechanism 5 is arranged at the front end of the second machine table 12, and comprises a first conveying assembly 41, a second conveying assembly 42 and a limiting assembly 43, and is used for discharging, feeding and receiving products;

the skip-cutting mechanism 2 is arranged at the upper end of the first machine table 11, and comprises a cutting assembly 21 and a die adjusting assembly 22, and the skip-cutting mechanism 2 is used for cutting products on the conveying mechanism 4;

the power mechanism comprises a jump-cut power assembly and a transmission power assembly, the jump-cut power assembly is arranged inside the first machine table 11, the transmission power assembly is arranged inside the second machine table 12 and is used for providing power sources for the transmission mechanism 4 and the jump-cut mechanism 2;

and the control panel is arranged at the upper end of the second machine table and is used for controlling the conveying mechanism 4, the jump-cutting mechanism 3 and the power mechanism.

As a further improvement of the present invention, the first conveying assembly 41 includes a product discharging roller 411, a first feeding roller 412, a second feeding roller 413 and a base paper receiving roller 414, the second conveying assembly 42 includes a new film discharging roller 421, a third feeding roller 422, a fourth feeding roller 423, a product receiving roller 424 and a waste receiving roller 425, the product discharging roller 411 is disposed above the base paper receiving roller 414, the first feeding roller 412 and the second feeding roller 412 are disposed at the upper right side of the product discharging roller 411, the first feeding roller 412 and the second feeding roller 412 are disposed adjacent to each other in the vertical direction and a gap is formed between the first feeding roller 412 and the second feeding roller 412, the waste receiving roller 425 is disposed above the new film discharging roller 421, the product receiving roller 424 is disposed at the upper right side of the waste receiving roller 425, the third feeding roller 422 and the fourth feeding roller 423 are arranged on the oblique upper left side of the waste paper receiving roller 425, the third feeding roller 422 and the fourth feeding roller 423 are arranged in an up-down adjacent mode, a gap exists between the third feeding roller 422 and the fourth feeding roller 423, and the first conveying assembly 41 and the second conveying assembly 42 are connected with a power mechanism.

As a further improvement of the utility model, spacing subassembly 43 includes first spacing roller 431, the spacing roller 432 of second, the spacing roller 433 of third, the spacing roller 434 of fourth, the spacing roller 435 of fifth and the spacing roller 436 of sixth, first spacing roller 431 sets up in the top of product blowing gyro wheel 411 and is located the right side of first pay-off gyro wheel 412, the spacing roller 432 of second sets up between product blowing gyro wheel 411 and base stock material receiving gyro wheel 414, the spacing roller 433 of third sets up in the oblique upper left side of new membrane blowing gyro wheel 421, the spacing roller 434 of fourth and the spacing roller 435 of fifth all set up in the left side of fourth pay-off gyro wheel 423, the spacing roller 435 of fifth is located between the spacing roller 434 of fourth and the fourth pay-off gyro wheel 423, the spacing roller 436 of sixth sets up in the right side of third pay-off gyro wheel 422.

As a further improvement of the present invention, the mold adjusting assembly 42 is disposed at the lower end of the cutting assembly 41, the mold adjusting assembly 42 comprises a lower plate 421, an adjusting block 422 and an upper mold plate 423, the adjusting block 422 is disposed at both sides of the upper end of the lower plate 421, the upper mold plate 423 is disposed at the upper end of the adjusting block 422, the upper surface of the adjusting block 422 is an inclined surface, the adjusting block 422 comprises a first adjusting block and a second adjusting block, the first adjusting block and the second adjusting block are disposed opposite to each other and form a concave surface, the lower end of the upper mold plate 423 is a convex surface structure, the concave surface and the convex surface are used in cooperation, the outer sides of the first adjusting block and the second adjusting block are connected with a lead screw, the lead screw is connected with a power mechanism, the skip cutting assembly 41 comprises a cutter support 411, a cutter fixing plate 412, a cutter connecting plate 413, a cutter mounting plate 414 and a cutter 415, the lower sides of the two ends of the cutter support 411 are connected with a power mechanism, and the cutter fixing plate 412, the cutter connecting plate 413, the cutter mounting plate 414 and the cutter 415 are sequentially arranged at the lower end of the cutter support 411 from top to bottom.

As a further improvement of the present invention, the conveying power assembly is disposed inside the second machine table 12, and the conveying power assembly includes a product discharge roller power component, a bottom paper material receiving roller power component, a new film discharge roller power component, a product material receiving roller power component and a waste material receiving roller power component, and the product discharge roller power component, the bottom paper material receiving roller power component, the new film discharge roller power component, the product material receiving roller power component and the waste material receiving roller power component all include a roller motor and a roller transmission bearing disposed at the front end of the roller motor; the skip-cutting power assembly is arranged inside the first machine table 11 and comprises a die adjusting assembly power part and a skip-cutting assembly power part, the power part of the mould adjusting component comprises a mould adjusting motor and a mould adjusting transmission bearing arranged at the front end of the mould adjusting motor, the other end of the die adjusting transmission bearing is connected with the screw rod, the skip-cutting power assembly comprises a skip-cutting motor, a skip-cutting transmission bearing, a skip-cutting transmission wheel, a skip-cutting transmission belt, a skip-cutting transmission rod, a skip-cutting cam and a cutter bracket power connection plate, the skip-cut transmission bearing is sleeved on a rotating shaft of the skip-cut motor, the skip-cut transmission bearing is connected with the skip-cut transmission wheel through a skip-cut transmission belt, the skip-cutting driving wheel is sleeved on the skip-cutting driving rod, the skip-cutting cam is arranged on two sides of the skip-cutting driving rod, the skip-cut cam is fixed on a cutter support power connecting plate, and the cutter support power connecting plate is connected with a cutter support 411.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (5)

1. An automatic change asynchronous tripping machine which characterized in that it includes:

the device comprises a machine table, a positioning mechanism and a control mechanism, wherein the machine table comprises a first machine table and a second machine table, the first machine table is arranged at the front end of the second machine table and is used for supporting the fixed jump-cutting mechanism, the control panel, the power mechanism and the conveying mechanism;

the conveying mechanism is arranged at the front end of the second machine table, comprises a first conveying assembly, a second conveying assembly and a limiting assembly, and is used for discharging, feeding and receiving products;

the skip cutting mechanism is arranged at the upper end of the first machine table, comprises a cutting assembly and a die adjusting assembly and is used for cutting a product on the conveying mechanism;

the power mechanism comprises a jump-cut power assembly and a transmission power assembly, the jump-cut power assembly is arranged in the first machine table, the transmission power assembly is arranged in the second machine table and is used for providing power sources for the transmission mechanism and the jump-cut mechanism;

and the control panel is arranged at the upper end of the second machine table and is used for controlling the conveying mechanism, the skip-cutting mechanism and the power mechanism.

2. The automatic asynchronous skip machine as recited in claim 1, wherein the first conveying assembly comprises a product feeding roller, a first feeding roller, a second feeding roller and a bottom paper receiving roller, the second conveying assembly comprises a new film feeding roller, a third feeding roller, a fourth feeding roller, a product receiving roller and a waste receiving roller, the product feeding roller is disposed above the bottom paper receiving roller, the first feeding roller and the second feeding roller are disposed on the oblique upper right side of the product feeding roller, the first feeding roller and the second feeding roller are disposed adjacent to each other in the vertical direction with a gap between the first feeding roller and the second feeding roller, the bottom paper receiving roller is disposed above the new film feeding roller, the product receiving roller is disposed on the oblique upper right side of the bottom paper receiving roller, the third feeding roller and the fourth feeding roller are disposed on the oblique upper left side of the bottom paper receiving roller, the third feeding roller and the fourth feeding roller are arranged adjacently up and down, a gap exists between the third feeding roller and the fourth feeding roller, and the first conveying assembly and the second conveying assembly are connected with the power mechanism.

3. The automatic asynchronous jump cutting machine of claim 2, wherein the limiting component comprises a first limiting roller, a second limiting roller, a third limiting roller, a fourth limiting roller, a fifth limiting roller and a sixth limiting roller, the first limiting roller is arranged above the product discharging roller and positioned on the right side of the first feeding roller, the second limiting roller is arranged between the product discharging roller and the bottom paper receiving roller, the third limiting roller is arranged on the oblique upper left side of the new film discharging roller, the fourth limiting roller and the fifth limiting roller are both arranged on the left side of the fourth feeding roller, the fifth limiting roller is positioned between the fourth limiting roller and the fourth feeding roller, and the sixth limiting roller is arranged on the right side of the third feeding roller.

4. The automatic asynchronous jump cutting machine of claim 3, characterized in that the cutting assembly and the die adjustment assembly are arranged at the lower end of the cutting assembly, the die adjustment assembly comprises a lower plate, an adjusting block and an upper template, the adjusting block is arranged at two sides of the upper end of the lower plate, the upper template is arranged at the upper end of the adjusting block, the upper surface of the adjusting block is an inclined plane, the adjusting block comprises a first adjusting block and a second adjusting block, the first adjusting block and the second adjusting block are arranged oppositely, the first adjusting block and the second adjusting block form a concave surface, the lower end of the upper template is of a convex surface structure, the concave surface and the convex surface are matched for use, a lead screw is connected to the outer side of the first adjusting block and the second adjusting block, the lead screw is connected with a power mechanism, the jump cutting assembly comprises a tool support, a tool fixing plate, and a concave surface is arranged at the upper end of the adjusting block, the cutter fixing plate, the cutter connecting plate, the cutter mounting plate and the cutter are sequentially arranged at the lower end of the cutter support from top to bottom.

5. The automatic asynchronous tripping machine of claim 4, wherein the conveying power assembly comprises a product discharging roller power part, a base paper receiving roller power part, a new film discharging roller power part, a product receiving roller power part and a waste receiving roller power part, and the product discharging roller power part, the base paper receiving roller power part, the new film discharging roller power part, the product receiving roller power part and the waste receiving roller power part all comprise roller motors and roller transmission bearings arranged at the front ends of the roller motors; the skip cutting mechanism comprises a die adjusting component power part and a skip cutting component power part, the die adjusting component power part comprises a die adjusting motor and a die adjusting transmission bearing arranged at the front end of the die adjusting motor, the other end of the die adjusting transmission bearing is connected with a lead screw, the skip cutting power part comprises a skip cutting motor, a skip cutting transmission bearing, a skip cutting transmission wheel, a skip cutting transmission belt, a skip cutting transmission rod, a skip cutting cam and a cutter support power connection plate, the skip cutting transmission bearing is sleeved on a rotating shaft of the skip cutting motor, the skip cutting transmission bearing is connected with the skip cutting transmission wheel through the skip cutting transmission belt, the skip cutting transmission wheel is sleeved on the skip cutting transmission rod, the skip cutting cam is arranged on two sides of the skip cutting transmission rod, the skip cutting cam is fixed on the cutter support power connection plate, and the cutter support power connection plate is connected with a cutter support.

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