CN218875579U - Online continuous cutting mechanism - Google Patents

Abstract

The utility model relates to an automated production field especially relates to an online cut mechanism in succession, include by the control system control speed on the automation equipment tailor the part and locate and tailor the part discharge end and by tailorring the driven part of drawing the material of part, tailor the part including the cutter axle of cutting out axle and adjustable position, the cutter axle is along radially being equipped with a plurality of blades, draws the material part including drawing the rubber tyer axle of material axle and adjustable position and locating the rubber tyer axle and draw the guide membrane roller of material axle side, the rubber tyer axle with draw and be equipped with the tray between the material axle. The utility model discloses the setting is tailor the part and is drawn the material part, is controlled by the control system on the automation equipment and is cut the speed of axle and cutter shaft, drives simultaneously and draws material axle and rubber tye axle to come in and draw the material, cuts the product through arranging of cutter epaxial blade, can effectively guarantee the product uniformity, improves production efficiency.

Description

Online continuous cutting mechanism

Technical Field

The utility model relates to an automated production field especially relates to an online mechanism of cutting in succession.

Background

Some paper/membrane class products need specific length, avoid extravagant material, and when some paper/membrane class products need big fixed length/ration to cut in batches now, adopt traditional artifical mode to cut out, but the artifical uniformity that can't accomplish the product, and production efficiency is low, adopts the cutter to cut out a bit, nevertheless need stop carrying the product constantly according to length, just can ensure the product uniformity of cutting out, and efficiency is not high.

SUMMERY OF THE UTILITY MODEL

Based on this, when it is necessary to cut to some paper/membrane class products need big fixed length/ration in batches, adopt traditional artifical mode to tailor, but the artifical uniformity that can't accomplish the product, and production efficiency is low, adopt the cutter to tailor a bit, nevertheless need stop carrying the product constantly according to length, just can ensure the product uniformity of tailorring out, the problem that efficiency is not high, provide an online mechanism of cutting in succession, tailor the part rotational speed through control, and then ensured the uniformity of tailorring the product, through adjusting the rotational speed of tailorring the part, tailor the product of different length, and convenient for operation.

In order to achieve the above object, the utility model provides a following technical scheme, an online cut mechanism in succession should cut the mechanism on locating the automation equipment that paper/membrane class product need big batch fixed length/ration cut in succession on to control system by automation equipment controls, include: the automatic cutting device comprises a cutting part and a pulling part, wherein the rotating speed of the cutting part is controlled by a control system on the automatic equipment, the pulling part is arranged at the discharge end of the cutting part and is driven by the cutting part, the cutting part comprises a cutting shaft which is horizontally arranged up and down and a cutting shaft with an adjustable position, and the cutting shaft is radially provided with a plurality of blades; the material pulling part comprises a material pulling shaft, a rubber wheel shaft and a film guide roller, the material pulling shaft is horizontally arranged from top to bottom, the position of the rubber wheel shaft can be adjusted, the film guide roller is arranged on the side of the rubber wheel shaft and the side of the material pulling shaft, and a tray which is at the same horizontal height with the discharge end of the cutting part is arranged between the rubber wheel shaft and the material pulling shaft.

Preferably, tailor the part and still include the riser that two intervals set up and the roof of connecting two risers, the below of two risers be equipped with tailor the hub connection tailor the bearing, the top of two risers is equipped with the spout that runs through the riser top, is formed with the lug on two inside walls of spout, the spout internal slip be equipped with the gliding regulating block of lug cooperation, the regulating block is equipped with the cutter bearing of being connected with the cutter hub connection.

Preferably, the cutter shaft key is connected with a cutter frame, the cutter frame is provided with a plurality of cutter grooves, and the blades are fixed in the cutter grooves through a cutter pressing plate.

Preferably, one end of the cutting shaft and one end of the cutter shaft are provided with a first driven gear which is in meshed transmission, the cutting shaft is further provided with a driving gear which is connected with a driving device on the automatic equipment, and the cutting shaft is further provided with a first transmission gear which drives the material pulling shaft to rotate.

Preferably, draw the material part and still include two backup pads, two backup pads below be equipped with draw the material bearing of expecting the hub connection, two backup pad tops are equipped with the bearing frame of being connected with the rubber tyer hub connection, the bearing frame top is equipped with the base, the base both sides are equipped with the guide arm of passing the bearing frame and being connected with the backup pad, the base middle part is equipped with the mounting groove, the mounting groove internal rotation is equipped with the briquetting with the bearing frame butt.

Preferably, one end of the material pulling shaft and one end of the rubber wheel shaft are provided with a second driven gear in meshing transmission, a supporting plate positioned on one side of the second driven gear is provided with a second transmission gear in meshing transmission with the first transmission gear, and the second transmission gear is in meshing transmission with the second driven gear on the material pulling shaft.

Preferably, rubber coating wheels are arranged on two sides of the rubber wheel shaft.

Preferably, the two ends of the film guide roller are rotatably connected with movable connecting plates respectively connected with the two supporting plates.

Preferably, the tray is provided with a movable opening for the rubber coating wheel to pass through and abut against the material pulling shaft.

Compared with the prior art, the beneficial effects of the utility model are that: the automatic material cutting machine is characterized in that a cutting component and a material pulling component are arranged, the speed of a cutting shaft and a cutter shaft is controlled by a control system on automatic equipment, the material pulling shaft and a rubber wheel shaft are driven to enter and pull materials simultaneously, products are cut through arrangement of blades on the cutter shaft, product consistency can be effectively guaranteed, and production efficiency is improved.

The paper or film products are driven by single power to finish on-line automatic cutting, the power is consistent, the stability is good, and the consistency of the product cutting duration is effectively guaranteed.

Drawings

Fig. 1 is a schematic view of the structure at a viewing angle of the present invention;

fig. 2 is a schematic structural view of another view angle of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

Referring to fig. 1 and fig. 2, the present embodiment provides an on-line continuous cutting mechanism, which is disposed on an automatic device for cutting paper/film products at a fixed length/fixed quantity in a large batch, and is controlled by a control system on the automatic device, and includes a cutting component 10 whose rotation speed is controlled by the control system on the automatic device, and a pulling component 20 disposed at a discharge end of the cutting component 10 and driven by the cutting component 10; the cutting component 10 comprises two vertical plates 101 arranged at intervals and a top plate 102 connected to the tops of the two vertical plates 101, cutting bearings 103 are arranged below the two vertical plates 101, the cutting bearings 103 are connected with the cutting shafts 103, sliding grooves 1011 penetrating through the tops of the vertical plates 101 are formed above the two vertical plates 101, convex blocks are formed on two inner side walls of the sliding grooves 1011, adjusting blocks 1012 sliding in cooperation with the convex blocks are arranged in the sliding grooves 1011 in a sliding mode, the adjusting blocks 1012 are provided with cutter bearings, the cutter bearings are connected with cutter shafts 108, the adjusting blocks 1012 are connected with the top plate 102 through bolts, the upper and lower positions of the adjusting blocks 1012 can be adjusted through the bolts, further, the distance between the cutting shafts 103 and the cutter shafts 108 can be adjusted, and products can be effectively guaranteed to be cut by the cutter shafts 108; in addition, the cutter shaft 108 is in key connection with the cutter frame 1081, the cutter frame 1081 is uniformly provided with a plurality of cutter grooves, the cutter grooves along the radial direction of the cutter shaft 108 are internally provided with the blades 104, the blades 104 are fixed in the cutter grooves through the cutter pressing plate, the number of the blades 104 is set according to the length of a cut product, the set number of the blades 104 are uniformly arranged in the cutter grooves, and then the products with the same length are cut according to the rotating speed of the cutter shaft 108;

in order to realize the single power drive of the cutting shaft 103, the cutting shaft 108 and the material pulling shaft 202 on the material pulling part 20 and ensure the consistency of the cut products, one end of the cutting shaft 103 and one end of the cutting shaft 108 are provided with a first driven gear 105 which is in meshed transmission, the cutting shaft 103 is also provided with a driving gear 106 which is connected with a driving device on the automatic equipment, the cutting shaft 103 is also provided with a first transmission gear 107 which drives the material pulling shaft 202 to rotate, and the driving gear 106 is connected with the driving device on the automatic equipment to realize the operation of the single power drive of the cutting part 10 and the material pulling part 20, thereby improving the production efficiency, reasonably reducing the energy consumption and simultaneously ensuring the cutting stability.

The pulling part 20 is mainly used for pulling cut products, so that the cut products flow out and are prevented from being blocked at the discharge end of the cutting part 10, the pulling part 20 comprises two supporting plates 201 which are arranged at intervals, a pulling bearing is arranged below the two supporting plates 201, the pulling shaft 202 is connected to the pulling bearing, a bearing seat 2011 is arranged at the top of each of the two supporting plates 201, a rubber wheel shaft 203 is installed on the bearing seat 2011, rubber wheels 2031 which are abutted to the pulling shaft 202 are arranged on two sides of the rubber wheel shaft 203, a base 2012 is arranged at the top of the bearing seat 2011, guide rods which penetrate through the bearing seat 2011 and are connected with the supporting plates 201 are arranged on two sides of the base 2012, an installation groove is arranged in the middle of the base 2012, a pressing block 2013 which is abutted to the bearing seat 2011 is rotationally arranged in the installation groove, the pressing block 2013 can be adjusted through the guide rods, so that the distance between the pulling shaft 202 and the rubber wheel shaft 203 can be adjusted, and the rubber wheels 2031 is driven to pull the cut products when the pulling shaft 202 rotates;

in addition, in order to avoid that the product is cut and cannot reach between the material pulling shaft 202 and the rubber coating wheel 2031, the material pulling shaft 202 and the rubber coating wheel 2031 are effectively ensured to be capable of pulling and conveying the product, a tray 204 which is at the same horizontal height with the discharge end of the cutting component 10 is arranged between the rubber coating shaft 203 and the material pulling shaft 202, the tray 204 is provided with a movable opening for the rubber coating wheel 2031 to pass through and abut against the material pulling shaft 202, and the tray 204 is fixed on the two supporting plates 201.

Further, in order to ensure that the cut product can smoothly flow out from between the rubber wheel shaft 203 and the pulling shaft 202, the two supporting plates 201 are connected with the movable connecting plates 205, the movable connecting plates 205 are fixed on the supporting plates 201 through bolts, the upper and lower positions of the movable connecting plates 205 can be adjusted through loose bolts, the movable connecting plates 205 are provided with bearings, the bearings are connected with the film guide rollers 206, the product can be rapidly guided out in one direction through the film guide rollers 206, and the working efficiency is improved.

In addition, in order to enable the cutting shaft 103 to drive the material pulling shaft 202 and enable the material pulling shaft 202 to drive the rubber wheel shaft 203 to rotate for material pulling, a second driven gear 207 in meshing transmission is arranged at one end of the material pulling shaft 202 and one end of the rubber wheel shaft 203, a second transmission gear 208 in meshing transmission with the first transmission gear 107 is arranged on the supporting plate 201 on one side of the second driven gear 207, and the second transmission gear 208 is in meshing transmission with the second driven gear 207 on the material pulling shaft 202.

In conclusion, the online continuous cutting mechanism is provided with the cutting component 10 and the pulling component 20, the control system on the automatic equipment controls the speeds of the cutting shaft 103 and the cutting shaft 108, meanwhile, the pulling shaft 202 and the rubber wheel shaft 203 are driven to enter and pull materials, products are cut through the arrangement of the blades 104 on the cutting shaft 103, paper or film products are driven by single power to complete online automatic cutting, the power is consistent, the stability is good, the consistency of the length of the products during cutting is effectively guaranteed, and the production efficiency is improved.

All possible combinations of the technical features of the above embodiments may not be described for the sake of brevity, but should be considered as within the scope of the present disclosure as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. The utility model provides an online continuous cutting mechanism, should cut the mechanism on locating the automation equipment that paper/membrane class product need cut by length/ration in batches in succession on to by the control system on the automation equipment control, its characterized in that includes: the automatic cutting device comprises a cutting part and a pulling part, wherein the rotating speed of the cutting part is controlled by a control system on the automatic equipment, the pulling part is arranged at the discharge end of the cutting part and is driven by the cutting part, the cutting part comprises a cutting shaft which is horizontally arranged up and down and a cutting shaft with an adjustable position, and the cutting shaft is radially provided with a plurality of blades; the material pulling part comprises a material pulling shaft, a rubber wheel shaft and a film guide roller, wherein the material pulling shaft is horizontally arranged from top to bottom, the position of the rubber wheel shaft can be adjusted, the film guide roller is arranged on the side of the rubber wheel shaft and the material pulling shaft, and a tray which is at the same horizontal height with the discharge end of the cutting part is arranged between the rubber wheel shaft and the material pulling shaft.

2. The on-line continuous cutting mechanism according to claim 1, wherein the cutting part further comprises two spaced vertical plates and a top plate connecting the two vertical plates, a cutting bearing connected with the cutting shaft is arranged below the two vertical plates, a sliding groove penetrating through the tops of the vertical plates is arranged above the two vertical plates, a convex block is formed on two inner side walls of the sliding groove, a regulating block sliding in cooperation with the convex block is arranged in the sliding groove, and a cutter bearing connected with the cutter shaft is arranged on the regulating block.

3. The on-line continuous cutting mechanism as claimed in claim 2, wherein the cutter shaft is keyed with a cutter holder, the cutter holder is provided with a plurality of cutter grooves, and the cutter is fixed in the cutter grooves by a cutter pressing plate.

4. The on-line continuous cutting mechanism as claimed in claim 2, wherein the cutting shaft and one end of the cutting shaft are provided with a first driven gear for meshing transmission, the cutting shaft is further provided with a driving gear connected to a driving device of the automated equipment, and the cutting shaft is further provided with a first transmission gear for driving the pulling shaft to rotate.

5. The on-line continuous cutting mechanism according to claim 1, wherein the pulling member further comprises two support plates, a pulling bearing connected to the pulling shaft is provided below the two support plates, a bearing seat connected to the rubber wheel shaft is provided on top of the two support plates, a base is provided on top of the bearing seat, guide rods connected to the support plates through the bearing seat are provided on both sides of the base, a mounting groove is provided in the middle of the base, and a pressing block abutting against the bearing seat is rotatably provided in the mounting groove.

6. The on-line continuous cutting mechanism according to claim 4 or 5, wherein a second driven gear for meshing transmission is provided at one end of the pulling shaft and the rubber wheel shaft, a second transmission gear for meshing transmission with the first transmission gear is provided on the supporting plate at one side of the second driven gear, and the second transmission gear is meshed transmission with the second driven gear on the pulling shaft.

7. The on-line continuous cutting mechanism as claimed in claim 6, wherein rubber-covered wheels are provided at both sides of the rubber wheel shaft.

8. The on-line continuous cutting mechanism according to claim 1 or 5, wherein the film guide roller is rotatably connected at both ends with movable connection plates respectively connected to the two support plates.

9. The on-line continuous cutting mechanism as set forth in claim 1 or 6, wherein the tray is provided with a movable opening through which the wrapping wheel passes to abut against the take-up shaft.

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