CN109250560B - Tension-free towel slitting machine - Google Patents

Abstract

The invention discloses a tension-free towel slitting machine which comprises a cloth feeding frame base, a slitting machine frame, a cloth falling frame, universal wheels, supporting legs, a cloth feeding frame, a guide roller fixing plate, a baffle, a cloth penetrating guide roller, a first cloth guiding guide roller, a baffle connecting rod, a sliding rail, a second cloth guiding guide roller, a cloth feeding opposite side deviation correcting device induction mechanism, a cloth guiding plate, a third cloth guiding guide roller, a fourth cloth guiding guide roller, a fifth cloth guiding guide roller, a hydraulic driving mechanism of a cloth feeding opposite side deviation correcting device, a tightening mechanism, a knife anvil rod, an annular knife anvil, a pneumatic cold cutter, a cutter guide pipe, a first cloth drawing roller, a motor, a driving wheel, a belt, an eccentric connecting rod, a cloth swinging mechanism, a sixth cloth guiding guide roller, a second cloth drawing roller and a seventh cloth guiding guide roller. The tension-free towel slitting machine can solve the problems of high cutting energy consumption, uneven cutting, high cutting tension and the like of the traditional slitting machine.

Description

Tension-free towel slitting machine

Technical Field

The invention relates to a tension-free towel slitting machine.

Background

The existing towel slitting machine has the following defects: 1) a hydraulic cutter is mostly adopted, so that the heat generated in the cutting process is large, and the energy consumption is large; 2) when the middle part and the two ends of the towel cloth are cut, the stress is uneven, so that the middle part and the two ends of the cloth cover are cut unevenly; 3) deviation is easy to generate in the towel cloth cutting and moving process, so that the cutting is not uniform; 4) the rear part of the slitting machine is often connected with a cloth rolling machine, and the rolled thickness is consistent and changed in the cloth rolling process, so that the tension of different positions of the towel cloth is different, and the size of the towel cloth is reduced and cannot be controlled.

Disclosure of Invention

The invention aims to provide a tension-free towel slitting machine, which aims to solve the problems.

In order to achieve the purpose, the technical scheme of the invention is to design a tension-free towel slitting machine, which comprises a cloth feeding frame base, a slitting machine frame, a cloth dropping frame, universal wheels, supporting legs, a cloth feeding frame, a guide roller fixing plate, a baffle, a cloth penetrating guide roller, a first cloth guiding guide roller, a baffle connecting rod, a sliding rail, a second cloth guiding guide roller, a cloth feeding opposite side deviation correcting device induction mechanism, a cloth guiding plate, a third cloth guiding guide roller, a fourth cloth guiding guide roller, a fifth cloth guiding guide roller, a hydraulic driving mechanism of a cloth feeding opposite side deviation correcting device, a jacking mechanism, a knife anvil rod, an annular knife anvil, a pneumatic cold cutter, a cutter guide pipe, a first cloth pulling roller, a motor, a driving wheel, a belt, an eccentric connecting rod, a cloth swinging mechanism, a sixth cloth guiding guide roller, a second cloth pulling roller and a seventh cloth guiding guide roller; the cloth feeding frame base is positioned at the front end of the slitting machine frame; the doffing frame is positioned at the rear end of the slitting machine frame; the base of the cloth feeding frame, the frame of the slitting machine and the bottom of the cloth dropping frame are provided with universal wheels and supporting legs; a sliding rail is arranged on the base of the cloth feeding frame; the cloth feeding frame is arranged in the slide rail; guide roller fixing plates are arranged at two ends of the cloth feeding frame; the two ends of the cloth penetrating guide roller, the first cloth guiding guide roller and the baffle connecting rod are fixed on the guide roller fixing plate; the first cloth guiding guide roller is fixed on one side of the guide roller fixing plate, which is close to the slitting machine frame; two baffle plates are respectively fixed on the baffle plate connecting rod; the rear end of the cloth feeding frame is provided with a sensing mechanism of a cloth feeding opposite side deviation rectifying device; a second cloth guiding guide roller is arranged on a cloth feeding frame base at the rear end of the cloth feeding opposite side correcting device induction mechanism; the rear end of the second cloth guiding guide roller is provided with a cloth guiding plate which is parallel to the cloth feeding frame base and has a gap with the cloth feeding frame base; the rear end of the cloth guide plate is provided with a third cloth guide roller; the cloth feeding frame base at the rear end of the third cloth guiding guide roller is connected with the bottom of the frame of the slitting machine; the front end of the slitting machine frame is provided with a fourth cloth guiding guide roller; the upper end of the slitting machine frame is provided with a fifth cloth guiding guide roller; a knife anvil rod is arranged at the upper end of the slitting machine frame and positioned at the rear end of the fifth cloth guiding guide roller; the knife anvil rod is provided with a plurality of annular knife anvils; the middle part of the knife anvil rod is provided with a jacking mechanism; a cutter guide pipe is arranged vertically above the cutter anvil rod; the cutter guide pipe is fixed in the middle of the frame of the slitting machine; the cutter guide pipe is provided with a plurality of pneumatic cold cutters; each pneumatic cold cutter corresponds to each annular cutter anvil in the vertical direction one by one; two first cloth pulling rollers which are close to each other in parallel are arranged on the slitting machine frame at the rear end of the cutter guide pipe; a seventh cloth guide roller is arranged at the rear end of the first cloth drawing roller; the frame of the slitting machine at the rear end of the seventh cloth guide roller is connected with a cloth dropping frame; a sixth cloth guide roller is arranged above the cloth falling frame; a second cloth pulling roller is arranged at the rear end of the sixth cloth guiding guide roller; a motor and a driving wheel are arranged on the lateral side of the cloth falling frame; the motor, the transmission wheel and the end part of the second cloth spreading roller are mutually connected through a belt; an eccentric connecting rod is arranged at the position of the driving wheel deviating from the center; the other end of the eccentric connecting rod is connected with the middle part of the cloth swinging mechanism; the upper part of the cloth swinging mechanism is movably connected with the upper part of the cloth dropping frame; the hydraulic driving mechanism of the cloth feeding opposite side deviation correcting device is arranged near the frame of the slitting machine; and the hydraulic driving mechanism of the cloth feeding opposite side deviation correcting device is respectively connected with the sensing mechanism of the cloth feeding opposite side deviation correcting device and the cloth feeding frame.

Furthermore, grooves are formed in the upper end face and the lower end face of the cutter guide pipe; the pneumatic cold cutter is connected in the grooves on the upper end surface and the lower end surface of the cutter guide pipe through bolts.

Furthermore, the jacking mechanism comprises a jacking mechanism fixing plate, a jacking mechanism main body, a jacking mechanism telescopic rod and a jacking mechanism roller end head; two sides of the jacking mechanism main body are connected with jacking mechanism fixing plates; the jacking mechanism fixing plate fixes the jacking mechanism on the frame of the slitting machine through a bolt; the telescopic rod of the jacking mechanism stretches inside and is fixed in the main body of the jacking mechanism by bolts after the stretching height of the telescopic rod of the jacking mechanism is determined; the top of the telescopic rod of the jacking mechanism is connected with the roller end of the jacking mechanism; the end of the roller of the jacking mechanism is of a V-shaped structure, and rollers are respectively arranged at two ends of the V shape.

The invention has the advantages and beneficial effects that: according to the tension-free towel slitting machine, the traditional blade is replaced by the pneumatic cold cutter, so that the energy consumption in the cutting process is reduced; the design of the jacking mechanism ensures that the middle part and the two ends of the toweling cloth are subjected to the same stress when the toweling cloth is cut, so that the toweling cloth is cut uniformly; the annular knife anvil and the pneumatic cold cutters can be increased or decreased according to the actual production requirements, and the distance between the adjacent pneumatic cold cutters and the distance between the adjacent annular knife anvils can be adjusted at will, so that the device is suitable for slitting towel cloth of different specifications; the cloth feeding opposite side deviation correcting device and the baffle cooperate to ensure that the towel cloth does not deviate in the cutting process; the rear part of the slitting machine is connected with the cloth dropping frame to replace a traditional cloth rolling machine, so that different positions of towel cloth after cutting can keep the same tension, and the size of the towel cloth is guaranteed not to change.

Drawings

Fig. 1 is a perspective view of the present invention viewed from the front.

Fig. 2 is a schematic perspective view of the present invention viewed obliquely from the rear.

Fig. 3 is a side view of the present invention.

FIG. 4 is a partial schematic view of the pneumatic cold cutter, the annular knife anvil and the jacking mechanism.

Fig. 5 is a schematic diagram of the state of the pneumatic cold cutter before the towel cloth is cut.

Fig. 6 is a schematic diagram of the state of the pneumatic cold cutter when the terry cloth is cut.

Wherein, the towel cloth 0, the cloth feeding frame base 1, the slitting machine frame 2, the cloth dropping frame 3, the universal wheel 4, the supporting feet 5, the cloth feeding frame 6, the guide roller fixing plate 7, the baffle 8, the cloth penetrating guide roller 9, the first cloth guiding guide roller 10, the baffle connecting rod 11, the sliding rail 12, the second cloth guiding guide roller 13, the cloth feeding opposite side deviation rectifying device induction mechanism 14, the cloth guiding plate 15, the third cloth guiding guide roller 16, the fourth cloth guiding guide roller 17, the fifth cloth guiding guide roller 18, the hydraulic driving mechanism 19 of the cloth feeding opposite side deviation rectifying device, the tightening mechanism 20, the tightening mechanism fixing plate 20-1, the tightening mechanism main body 20-2, the tightening mechanism telescopic rod 20-3, the tightening mechanism roller end 20-4, the anvil rod 21, the annular knife anvil 22, the pneumatic cold cutter 23, the circular sheet-1, the cutter guide tube 24, the first cloth pulling roller 25, the motor 26, the driving wheel 27, the belt 28, the cloth feeding frame 6, an eccentric connecting rod 29, a cloth swinging mechanism 30, a sixth cloth guiding guide roller 31, a second cloth pulling roller 32 and a seventh cloth guiding guide roller 33.

Detailed Description

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

Example (b):

a tension-free towel slitting machine comprises a cloth feeding frame base 1, a slitting machine frame 2, a cloth dropping frame 3, universal wheels 4, supporting legs 5, a cloth feeding frame 6, a guide roller fixing plate 7, a baffle plate 8, a cloth penetrating guide roller 9, a first cloth guiding guide roller 10, a baffle plate connecting rod 11, a sliding rail 12, a second cloth guiding guide roller 13, a cloth feeding opposite side deviation correcting device induction mechanism 14, a cloth guiding plate 15, a third cloth guiding guide roller 16, a fourth cloth guiding guide roller 17, a fifth cloth guiding guide roller 18, a hydraulic driving mechanism 19 of the cloth feeding opposite side deviation correcting device, a jacking mechanism 20, a knife anvil rod 21, an annular knife anvil 22, a pneumatic cold cutting knife 23, a cutter guide pipe 24, a first cloth guiding roller 25, a motor 26, a driving wheel 27, a belt 28, an eccentric connecting rod 29, a cloth swinging mechanism 30, a sixth cloth guiding guide roller 31, a second cloth guiding roller 32 and a seventh cloth guiding guide roller 33; the cloth feeding frame base 1 is positioned at the front end of the slitting machine frame 2; the doffing frame 3 is positioned at the rear end of the slitting machine frame 2; the bottoms of the cloth feeding frame base 1, the slitting machine frame 2 and the cloth dropping frame 3 are provided with universal wheels 4 and supporting legs 5; the cloth feeding frame base 1 is provided with a slide rail 12; the cloth feeding frame 6 is arranged in the slide rail 12; the cloth feeding frame 6 can slide left and right in the slide rail 12; guide roller fixing plates 7 are arranged at two ends of the cloth feeding frame 6; the two ends of the cloth penetrating guide roller 9, the first cloth guiding guide roller 10 and the baffle connecting rod 11 are fixed on the guide roller fixing plate 7; the first cloth guiding guide roller 10 is fixed on one side of the guide roller fixing plate 7 close to the slitting machine frame 2; two baffle plates 8 are respectively fixed on the baffle plate connecting rod 11; a sensing mechanism 14 of a cloth feeding edge aligning and rectifying device is arranged at the rear end of the cloth feeding frame 6; a second cloth guide roller 13 is arranged on the cloth feeding frame base 1 at the rear end of the cloth feeding opposite side deviation rectifying device induction mechanism 14; the rear end of the second cloth guiding guide roller 13 is provided with a cloth guiding plate 15 which is parallel to the cloth feeding frame base 1 and has a gap with the cloth feeding frame base 1; the rear end of the cloth guide plate 15 is provided with a third cloth guide roller 16; the cloth feeding frame base 1 at the rear end of the third cloth guiding guide roller 16 is connected with the bottom of the slitting machine frame 2; the front end of the slitting machine frame 2 is provided with a fourth cloth guiding guide roller 17; a fifth cloth guide roller 18 is arranged at the upper end of the slitting machine frame 2; the upper end of the slitting machine frame 2 is provided with a knife anvil rod 21 at the rear end of the fifth cloth guiding guide roller 18; the knife anvil rod 21 is provided with a plurality of annular knife anvils 22; the middle part of the knife anvil rod 21 is provided with a jacking mechanism 20; a cutter guide pipe 24 is arranged vertically above the knife anvil rod 21; the cutter guide pipe 24 is fixed in the middle of the slitting machine frame 2; the cutter guide pipe 24 is provided with a plurality of pneumatic cold cutters 23; each pneumatic cold cutter 23 corresponds to each annular cutter anvil 22 in the vertical direction one by one; two first cloth pulling rollers 25 which are close to each other in parallel are arranged on the slitting machine frame 2 at the rear end of the cutter guide pipe 24; a seventh cloth guiding guide roller 33 is arranged at the rear end of the first cloth pulling roller 25; the slitter frame 2 at the rear end of the seventh cloth guiding guide roller 33 is connected with the cloth dropping frame 3; a sixth cloth guide roller 31 is arranged above the cloth falling frame 3; a second cloth pulling roller 32 is arranged at the rear end of the sixth cloth guiding guide roller 31; a motor 26 and a driving wheel 27 are arranged on the side of the cloth falling frame 3; the motor 26, the transmission wheel 27 and the end part of the second cloth pulling roller 32 are connected with each other through a belt 28; an eccentric connecting rod 29 is arranged at the position of the driving wheel 27 deviating from the center; the other end of the eccentric connecting rod 29 is connected with the middle part of the cloth swinging mechanism 30; the upper part of the cloth swinging mechanism 30 is movably connected with the upper part of the cloth dropping frame 3; the hydraulic driving mechanism 19 of the cloth feeding opposite edge deviation correcting device is arranged near the frame 2 of the slitting machine; the hydraulic driving mechanism 19 of the cloth feeding opposite side deviation rectifying device is respectively connected with the sensing mechanism 14 of the cloth feeding opposite side deviation rectifying device and the cloth feeding frame 6.

Grooves are formed in the upper end face and the lower end face of the cutter guide pipe 24; the pneumatic cold cutter 23 is connected in the grooves on the upper and lower end faces of the cutter guide pipe 24 through bolts.

The jacking mechanism 20 comprises a jacking mechanism fixing plate 20-1, a jacking mechanism main body 20-2, a jacking mechanism telescopic rod 20-3 and a jacking mechanism roller end 20-4; two sides of the tightening mechanism main body 20-2 are connected with a tightening mechanism fixing plate 20-1; the jacking mechanism fixing plate 20-1 fixes the jacking mechanism 20 on the slitting machine frame 2 through bolts; the telescopic rod 20-3 of the jacking mechanism stretches inside, and is fixed in the main body 20-2 of the jacking mechanism by bolts after the stretching height of the telescopic rod 20-3 of the jacking mechanism is determined; the top of the telescopic rod 20-3 of the jacking mechanism is connected with a roller end 20-4 of the jacking mechanism; the roller end 20-4 of the jacking mechanism is of a V-shaped structure, and rollers are respectively arranged at two ends of the V shape.

The use process of the invention is as follows: the terry cloth 0 sequentially passes through a cloth penetrating guide roller 9, a first cloth guiding guide roller 10, a cloth feeding opposite side deviation rectifying device induction mechanism 14, a second cloth guiding guide roller 13, the lower part of a cloth guiding plate 15, a third cloth guiding guide roller 16, a fourth cloth guiding guide roller 17, a fifth cloth guiding guide roller 18, a gap between an annular knife anvil 22 and a pneumatic cold cutter 23, a gap between two first cloth guiding rollers 25, a seventh cloth guiding guide roller 33, a sixth cloth guiding guide roller 31, a second cloth guiding roller 32 and a cloth arranging mechanism 30 on the cloth feeding frame 6.

The motor is turned on, the motor drives the transmission wheel 27 to rotate, and the transmission wheel 27 drives the second cloth pulling roller 32 and the cloth swinging mechanism 30 to move so that the terry cloth moves towards the rear end of the cloth dropping frame 3.

The distance between the baffle plates 8 is adjusted to ensure that the distance between the two baffle plates 8 is equal to the width of the towel cloth.

The sensing mechanism 14 of the cloth feeding opposite edge deviation rectifying device senses whether the terry cloth 0 deviates or not, once the sensing mechanism 14 of the cloth feeding opposite edge deviation rectifying device senses that the terry cloth 0 deviates, the sensing mechanism 14 of the cloth feeding opposite edge deviation rectifying device generates a signal, and then the hydraulic driving mechanism 19 of the cloth feeding opposite edge deviation rectifying device controls the cloth feeding frame 6 to slide left and right in the sliding rail 12 so that the terry cloth 0 returns to the original position.

The design purpose of the tightening mechanism 20 is to support the middle part of the anvil rod 21, so that when the pneumatic cold cutter 23 is used for cutting the cloth surface, the stress on the annular anvils 22 at the middle part and two ends below the cloth surface is the same, and the cutting depth of the middle part and two ends of the cloth surface is consistent.

When the cloth surface is not cut, the circular blade 23-1 of the pneumatic cold cutter 23 is accommodated in the cutter shell of the pneumatic cold cutter 23, when the cloth surface needs to be cut, the circular blade 23-1 of the pneumatic cold cutter 23 is arranged above the cloth surface, and the annular cutter anvil 22 is arranged below the cloth surface, so that the cloth surface is cut.

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

Claims (3)

1. A tension-free towel slitting machine comprises a cloth feeding frame base, a slitting machine frame, a cloth dropping frame, a motor, a driving wheel, a cloth placing mechanism and a second cloth pulling roller, wherein the cloth feeding frame base is positioned at the front end of the slitting machine frame; the doffing frame is positioned at the rear end of the slitting machine frame; an eccentric connecting rod is arranged at the position of the driving wheel deviating from the center; the other end of the eccentric connecting rod is connected with the middle part of the cloth swinging mechanism; swing cloth mechanism upper portion swing joint cropping frame upper portion, its characterized in that: the cloth feeding device also comprises universal wheels, supporting legs, a cloth feeding frame, a guide roller fixing plate, a baffle, a cloth penetrating guide roller, a first cloth guiding guide roller, a baffle connecting rod, a sliding rail, a second cloth guiding guide roller, a cloth feeding opposite side deviation correcting device induction mechanism, a cloth guiding plate, a third cloth guiding guide roller, a fourth cloth guiding guide roller, a fifth cloth guiding guide roller, a hydraulic driving mechanism of the cloth feeding opposite side deviation correcting device, a jacking mechanism, a knife anvil rod, an annular knife anvil, a pneumatic cold cutter, a cutter guide pipe, a first cloth pulling roller, a belt, an eccentric connecting rod, a sixth cloth guiding guide roller and a seventh cloth guiding guide roller; the base of the cloth feeding frame, the frame of the slitting machine and the bottom of the cloth dropping frame are provided with universal wheels and supporting legs; a sliding rail is arranged on the base of the cloth feeding frame; the cloth feeding frame is arranged in the slide rail; guide roller fixing plates are arranged at two ends of the cloth feeding frame; the two ends of the cloth penetrating guide roller, the first cloth guiding guide roller and the baffle connecting rod are fixed on the guide roller fixing plate; the first cloth guiding guide roller is fixed on one side of the guide roller fixing plate, which is close to the slitting machine frame; two baffle plates are respectively fixed on the baffle plate connecting rod; the rear end of the cloth feeding frame is provided with a sensing mechanism of a cloth feeding opposite side deviation rectifying device; a second cloth guiding guide roller is arranged on a cloth feeding frame base at the rear end of the cloth feeding opposite side correcting device induction mechanism; the rear end of the second cloth guiding guide roller is provided with a cloth guiding plate which is parallel to the cloth feeding frame base and has a gap with the cloth feeding frame base; the rear end of the cloth guide plate is provided with a third cloth guide roller; the cloth feeding frame base at the rear end of the third cloth guiding guide roller is connected with the bottom of the frame of the slitting machine; the front end of the slitting machine frame is provided with a fourth cloth guiding guide roller; the upper end of the slitting machine frame is provided with a fifth cloth guiding guide roller; a knife anvil rod is arranged at the upper end of the slitting machine frame and positioned at the rear end of the fifth cloth guiding guide roller; the knife anvil rod is provided with a plurality of annular knife anvils; the middle part of the knife anvil rod is provided with a jacking mechanism; a cutter guide pipe is arranged vertically above the cutter anvil rod; the cutter guide pipe is fixed in the middle of the frame of the slitting machine; the cutter guide pipe is provided with a plurality of pneumatic cold cutters; each pneumatic cold cutter corresponds to each annular cutter anvil in the vertical direction one by one; two first cloth pulling rollers which are close to each other in parallel are arranged on the slitting machine frame at the rear end of the cutter guide pipe; a seventh cloth guide roller is arranged at the rear end of the first cloth drawing roller; the frame of the slitting machine at the rear end of the seventh cloth guide roller is connected with a cloth dropping frame; a sixth cloth guide roller is arranged above the cloth falling frame; a second cloth pulling roller is arranged at the rear end of the sixth cloth guiding guide roller; a motor and a driving wheel are arranged on the lateral side of the cloth falling frame; the motor, the transmission wheel and the end part of the second cloth spreading roller are mutually connected through a belt; the hydraulic driving mechanism of the cloth feeding opposite side deviation correcting device is arranged near the frame of the slitting machine; and the hydraulic driving mechanism of the cloth feeding opposite side deviation correcting device is respectively connected with the sensing mechanism of the cloth feeding opposite side deviation correcting device and the cloth feeding frame.

2. The tension-free towel slitting machine according to claim 1, characterized in that: grooves are formed in the upper end face and the lower end face of the cutter guide pipe; the pneumatic cold cutter is connected in the grooves on the upper end surface and the lower end surface of the cutter guide pipe through bolts.

3. The tension-free towel slitting machine according to claim 1, characterized in that: the jacking mechanism comprises a jacking mechanism fixing plate, a jacking mechanism main body, a jacking mechanism telescopic rod and a jacking mechanism roller end head; two sides of the jacking mechanism main body are connected with jacking mechanism fixing plates; the jacking mechanism fixing plate fixes the jacking mechanism on the frame of the slitting machine through a bolt; the telescopic rod of the jacking mechanism stretches inside and is fixed in the main body of the jacking mechanism by bolts after the stretching height of the telescopic rod of the jacking mechanism is determined; the top of the telescopic rod of the jacking mechanism is connected with the roller end of the jacking mechanism; the end of the roller of the jacking mechanism is of a V-shaped structure, and rollers are respectively arranged at two ends of the V shape.

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