CN119142881B

CN119142881B - Non-woven fabrics feeding machine

Info

Publication number: CN119142881B
Application number: CN202411652800.1A
Authority: CN
Inventors: 周玉稳; 双家炜; 忠涛
Original assignee: Yangzhou Huakai Mechanics Co ltd
Current assignee: Yangzhou Huakai Mechanics Co ltd
Priority date: 2024-11-19
Filing date: 2024-11-19
Publication date: 2025-05-06
Anticipated expiration: 2044-11-19
Also published as: CN119142881A

Abstract

The invention discloses a non-woven fabric feeding machine, which belongs to the technical field of non-woven fabric production and comprises a mounting frame, wherein a cloth roll is arranged on one side of the outer surface of the mounting frame, a transmission belt is arranged on the upper side of the inner wall of the mounting frame, a processing device is fixedly connected to one side, close to the transmission belt, of the upper surface of the mounting frame, a wrinkle removing assembly is arranged on the inner wall of the mounting frame above the transmission belt, and the wrinkle removing assembly comprises a first mounting rod arranged above the transmission belt. Through setting up the wrinkle removal subassembly, two live rollers that are V-arrangement through motor drive, rotate to the outside simultaneously, and two live rollers are laminated with the non-woven fabrics upper surface for two live rollers when rotating, can drive the non-woven fabrics and remove to both sides, thereby can strut the non-woven fabrics to both sides, and then can trowelling the fold on the non-woven fabrics, realized carrying out automatic flattening to the fold on the non-woven fabrics, improved the machining efficiency of this feeder to the non-woven fabrics.

Description

Non-woven fabrics feeding machine

Technical Field

The invention relates to the technical field of non-woven fabric production, in particular to a non-woven fabric feeding machine.

Background

The non-woven fabric is also called non-woven fabric, is a fabric formed by spinning without spinning, is formed by directional or random stretching of short textile fibers or filaments to form a fiber net structure, and is reinforced by mechanical, thermal bonding or chemical methods.

The non-woven fabrics can be divided into spunlaced non-woven fabrics, heat-seal non-woven fabrics, wet non-woven fabrics, spun-bonded non-woven fabrics and the like according to different production processes, and a layer of protective coating is coated on the surface of the produced non-woven fabrics or printing is carried out on the produced non-woven fabrics according to requirements, so that the functional and appearance effects of products are improved, and therefore, a feeder is required to be used for guiding the non-woven fabrics into a processing device for secondary processing, but when the non-woven fabrics are guided into the processing device through the feeder, the non-woven fabrics are easy to wrinkle in the transportation process due to the influence of the tension of the non-woven fabrics, the quality of the processed non-woven fabrics is influenced, and therefore, the tension of the non-woven fabrics is regulated by using a tension regulating device, so that the occurrence of wrinkles can be reduced, but the wrinkles which are appeared still need to be leveled manually, and the processing efficiency of the feeder on the non-woven fabrics is greatly reduced.

Disclosure of Invention

Aiming at the problems existing in the prior art, the invention aims to provide a non-woven fabric feeding machine.

In order to solve the problems, the invention adopts the following technical scheme.

The non-woven fabric feeding machine comprises a mounting frame, wherein a cloth roll is arranged on one side of the outer surface of the mounting frame, a transmission belt is arranged on the upper side of the inner wall of the mounting frame, a processing device is fixedly connected to one side, close to the transmission belt, of the upper surface of the mounting frame, and a wrinkle removing assembly is arranged above the transmission belt on the inner wall of the mounting frame;

the wrinkle removing assembly comprises a first mounting rod arranged above the conveying belt, a V-shaped rod is fixedly connected to the lower end of one side of the outer surface of the first mounting rod, first mounting grooves are formed in two sides of the lower surface of the V-shaped rod, and rotating rollers are rotatably connected inside the first mounting grooves;

The monitoring mechanism comprises a second installation rod fixedly connected with one side, close to the V-shaped rod, of the upper surface of the installation frame, a second installation groove is formed in the lower surface of the second installation rod, a second straight rod is fixedly connected to the lower end of the inside of the second installation groove, a plurality of uniformly distributed rotating baffles are rotatably connected to the outer circular surface of the second straight rod, fixing blocks are fixedly connected to one side of the outer circular surface of each rotating baffle, electric connection columns penetrating through two ends of the fixing blocks are fixedly connected in the fixing blocks, all electric connection columns are electrically connected with each other, a single chip microcomputer is fixedly connected to one side of the upper surface of the second installation rod, two ends of the electric connection columns connected with each other are electrically connected with the single chip microcomputer, a controller is fixedly connected to one side, close to the single chip microcomputer, of the upper surface of the second installation rod, and the controller is electrically connected with the single chip microcomputer, the first motor and the telescopic rod;

An alarm lamp is fixedly connected to one side, close to the controller, of the upper surface of the second mounting rod, and the alarm lamp is electrically connected with the controller;

the utility model discloses a motor, including electric connection post and singlechip, be provided with the removal subassembly between electric connection post and the singlechip, remove the subassembly include with two sliders of the inside sliding connection of mounting groove No. two, no. two mounting bar surface one side fixedly connected with No. two motors, no. two motor output fixedly connected with two threaded rods, and two sliders and two slider threaded connection are run through to two threaded rods, the upper surface fixedly connected with electric connection piece of fixed block, and electric connection post electric connection, two the lower surface fixedly connected with electric arc piece of slider, and two electric arc piece all can with electric connection piece electric connection, the upper surface one side fixedly connected with electric straight bar of electric arc piece, and the upper end of electric straight bar runs through slider upper surface fixedly connected with electric connection head, two spouts have been seted up to No. two electric connection head one side of No. two mounting groove inner wall, and two electric connection respectively at two spout inner wall upper ends all fixedly connected with electric plate, and two electric connection head and two electric plate electric connection respectively.

Further, the inside installation cavity that has seted up of V-arrangement pole tip department, one side rotor roller one end extends to the inside fixedly connected with second bevel gear of installation cavity, opposite side rotor roller one end extends to the inside fixedly connected with fourth bevel gear of installation cavity, the position fixedly connected with motor that the V-arrangement pole upper surface is close to the installation cavity, the output fixedly connected with axis of rotation of motor, and the axis of rotation extends to the inside of installation cavity, axis of rotation outer disc upside fixedly connected with first bevel gear, and first bevel gear and second bevel gear meshing are connected, axis of rotation outer disc downside fixedly connected with third bevel gear, and No. three bevel gears and No. four bevel gears meshing are connected.

Further, three groups of support rods which are uniformly distributed are fixedly connected between the first mounting rod and the V-shaped rod, and the outer circular surfaces of the two rotating rollers are fixedly connected with protrusions which are uniformly distributed.

Further, the upper surface of a mounting rod is provided with adjusting part, adjusting part includes the U-shaped mounting panel that is located a mounting rod top fixed connection with the mounting bracket upper surface, the inner wall upper end fixedly connected with of U-shaped mounting panel two telescopic links, and the lower extreme and the mounting rod fixed connection of two telescopic links.

Further, the T-shaped sliding blocks are fixedly connected to the two ends of the first mounting rod, T-shaped sliding grooves are formed in the lower sides of the two sides of the inner wall of the U-shaped mounting plate, and the two T-shaped sliding blocks are respectively and slidably connected with the inner parts of the two T-shaped sliding grooves.

Further, the lower surface of a installation pole is provided with control assembly, control assembly includes the second installation cavity of seting up with the inside intermediate position of a installation pole, the inside of No. two installation cavities is provided with a straight board, the lower fixed surface of a straight board is connected with three straight pole, and the lower extreme of a three straight pole runs through a installation pole lower surface fixedly connected with No. two straight boards, the upper surface fixedly connected with electric connection board of a straight board, the position fixedly connected with electric anode that is close to electric connection board one end of No. two installation intracavity wall upper ends, the position fixedly connected with electric cathode that is close to the electric connection board other end on No. two installation intracavity wall upper ends, and electric cathode and electric anode all with telescopic link electric connection.

Further, surface one side fixedly connected with bracket of mounting bracket, and the yardage roll sets up in the bracket, the mounting bracket inner wall is located and is provided with tension adjusting device between conveyer belt and the bracket.

Compared with the prior art, the invention has the beneficial effects that:

(1) According to the application, the wrinkle removing assembly is arranged, the two rotating rollers which are in a V shape are driven by the motor I and simultaneously rotate outwards, and the two rotating rollers are attached to the upper surface of the non-woven fabric, so that the non-woven fabric can be driven to move to two sides when the two rotating rollers rotate, the non-woven fabric can be spread to two sides, wrinkles on the non-woven fabric can be smoothed, the wrinkles on the non-woven fabric can be automatically flattened, and the processing efficiency of the feeding machine on the non-woven fabric is improved.

(2) According to the feeding machine, the adjusting assembly is arranged, the U-shaped mounting plate is driven to move up and down through the telescopic rod, and the two rotating rollers can be driven to move up and down, so that the heights of the two rotating rollers can be adjusted, the two rotating rollers can be attached to the upper surfaces of non-woven fabrics with different thicknesses, the practicability of the wrinkle removing assembly is improved, and the machining efficiency of the feeding machine is further improved.

(3) According to the application, by arranging the monitoring mechanism, when the folds on the non-woven fabric move to the lower part of the mounting frame, part of the rotating baffles are driven to rotate, so that all the rotating baffles cannot be kept on the same straight line, the electric connection between the electric connection columns is disconnected, the disconnected signals are transmitted into the singlechip after the electric connection between the electric connection columns is disconnected, and then the first motor and the telescopic rod are controlled by the controller to start, so that the rotating roller is attached to the upper surface of the non-woven fabric, and meanwhile, the rotating roller rotates to smooth the folded non-woven fabric, so that the abrasion caused by the continuous rotation of the rotating roller on the non-woven fabric is reduced, and meanwhile, the convenience of the wrinkle removing assembly is improved.

Drawings

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

FIG. 2 is a schematic overall sectional view of the present invention;

FIG. 3 is a schematic cross-sectional view of a wrinkle removal assembly according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A according to the present invention;

FIG. 5 is a schematic cross-sectional view of an adjustment assembly of the present invention;

FIG. 6 is a schematic cross-sectional view of a control assembly of the present invention;

FIG. 7 is a schematic cross-sectional view of the monitoring mechanism of the present invention;

FIG. 8 is an enlarged schematic view of the structure of FIG. 7B according to the present invention;

FIG. 9 is a schematic cross-sectional view of a mobile assembly of the present invention;

fig. 10 is an enlarged schematic view of the structure of fig. 9C according to the present invention.

The reference numerals in the figures illustrate:

1. A mounting frame; 2, a cloth roll, 3, a tension adjusting device, 4, a transmission belt;

5. The wrinkle removing assembly comprises a first mounting rod, a 52, a V-shaped rod, a 53, a supporting rod, a 54, a first mounting groove, a 55, a rotating roller, a 56, a bulge, a 57, a first mounting cavity, a 58, a first motor, a 59, a rotating shaft, a 510, a first bevel gear, a 511, a second bevel gear, a 512, a third bevel gear, a 513 and a fourth bevel gear;

6. An adjustment assembly; 61, a U-shaped mounting plate, 62, a telescopic rod, 63, a T-shaped chute, 64 and a T-shaped sliding block;

7. a control assembly; 71, a second mounting cavity, 72, a first straight plate, 73, a first straight rod, 74, a second straight plate, 75, an electrical positive electrode, 76, an electrical negative electrode, 77 and an electrical connecting plate;

8. a monitoring mechanism; 81, a second mounting rod, 82, a second mounting groove, 83, a second straight rod, 84, a rotary baffle, 85, a fixed block, 86, an electric connection column, 87, a singlechip, 88, a controller, 89 and an alarm lamp;

9. the device comprises a moving assembly, a sliding block, a 92, a second motor, a 93, a bidirectional threaded rod, a 94, an electrical connection block, a 95, an electrical arc block, a 96, an electrical straight rod, a 97, an electrical connection head, a 98, a sliding chute, a 99 and an electrical plate;

10. bracket, 11, processing device.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present invention are within the scope of the present invention.

Referring to fig. 1 to 10, a non-woven fabric feeding machine comprises a mounting frame 1, wherein a cloth roll 2 is arranged on one side of the outer surface of the mounting frame 1, a transmission belt 4 is arranged on the upper side of the inner wall of the mounting frame 1, a processing device 11 is fixedly connected to one side, close to the transmission belt 4, of the upper surface of the mounting frame 1, and a wrinkle removing assembly 5 is arranged on the upper side of the transmission belt 4, positioned on the inner wall of the mounting frame 1;

The wrinkle removing assembly 5 comprises a first mounting rod 51 arranged above the conveying belt 4, a V-shaped rod 52 is fixedly connected to the lower end of one side of the outer surface of the first mounting rod 51, first mounting grooves 54 are formed in two sides of the lower surface of the V-shaped rod 52, and rotating rollers 55 are rotatably connected inside the first mounting grooves 54.

As shown in fig. 2, 3 and 4, a first installation cavity 57 is formed in the tip of the V-shaped rod 52, one side of the rotating roller 55 extends to a second bevel gear 511 fixedly connected with the inside of the first installation cavity 57, the other side of the rotating roller 55 extends to a fourth bevel gear 513 fixedly connected with the inside of the first installation cavity 57, a first motor 58 is fixedly connected to the upper surface of the V-shaped rod 52 near the first installation cavity 57, a rotating shaft 59 is fixedly connected to the output end of the first motor 58, the rotating shaft 59 extends to the inside of the first installation cavity 57, a first bevel gear 510 is fixedly connected to the upper side of the outer circular surface of the rotating shaft 59, the first bevel gear 510 is in meshed connection with the second bevel gear 511, a third bevel gear 512 is fixedly connected to the lower side of the outer circular surface of the rotating shaft 59, and the third bevel gear 512 is in meshed connection with the fourth bevel gear 513.

As shown in fig. 2, three groups of support rods 53 which are uniformly distributed are fixedly connected between the first mounting rod 51 and the V-shaped rod 52, and the outer circular surfaces of the two rotating rollers 55 are fixedly connected with protrusions 56 which are uniformly distributed.

As shown in fig. 1, a bracket 10 is fixedly connected to one side of the outer surface of the mounting frame 1, the cloth roll 2 is arranged in the bracket 10, and a tension adjusting device 3 is arranged between the transmission belt 4 and the bracket 10 on the inner wall of the mounting frame 1.

When the non-woven fabric processing device is used, firstly, the cloth roll 2 is placed in the bracket 10, the cloth roll 2 can rotate in the bracket 10, then the non-woven fabric on the cloth roll 2 is pulled out, then the non-woven fabric passes through the tension adjusting device 3 and is placed on the transmission belt 4, the tension of the non-woven fabric is adjusted through the tension adjusting device 3, and then the transmission belt 4 is started to introduce the non-woven fabric into the processing device 11, so that the non-woven fabric is subjected to secondary processing, and the functionality and the appearance effect of a non-woven fabric product are improved.

But in-process in feeding processingequipment 11 with the non-woven fabrics, because tensile influence, the fold appears in the non-woven fabrics easily, and need the manual work to carry out the flattening, this feeder has reduced the machining efficiency to the non-woven fabrics, consequently, set up and remove wrinkle subassembly 5, after the fold appears in the non-woven fabrics, start motor 58 drive axis of rotation 59 and rotate, thereby drive bevel gear 510 and No. three bevel gears 512 rotate simultaneously, and No. one bevel gears 510 and No. three bevel gears 512 mesh with bevel gear 511 and No. four bevel gears 513 respectively, thereby drive bevel gear 511 and No. four bevel gears 513 simultaneously and rotate, and then drive two rotor rollers 55 simultaneously in the inside outside rotation of installation cavity 57, because two rotor rollers 55 are located the both sides of V-arrangement pole 52, make two rotor rollers 55 be the V-arrangement, simultaneously two rotor rollers 55 rotate outside, and two rotor rollers 55 and non-woven fabrics upper surface laminating, when rotating, can drive the non-woven fabrics and move to both sides, thereby can strut the non-woven fabrics to both sides, and then can be with the fold on the non-woven fabrics, automatic flattening has been realized and carried out the fold that carries out the inside at one installation cavity 57 is outside, the inside rotation of a pair of rotor roller 55, and the two rotor rollers 55 have improved, and the stability is connected to the two rotor roller 55 has been connected to the 3, and the 3, the outer round roller is fixed, and the stability is connected to the roller is fixed, and has been connected to the rotor roller 55, and has been connected to the roll 5, and has improved.

As shown in fig. 2 and 5, the adjusting assembly 6 is disposed on the upper surface of the first mounting rod 51, the adjusting assembly 6 includes a U-shaped mounting plate 61 fixedly connected with the upper surface of the mounting frame 1 above the first mounting rod 51, two telescopic rods 62 are fixedly connected to the upper end of the inner wall of the U-shaped mounting plate 61, and the lower ends of the two telescopic rods 62 are fixedly connected with the first mounting rod 51.

As shown in fig. 5, the two ends of the first mounting rod 51 are fixedly connected with T-shaped sliding blocks 64, the lower sides of the two sides of the inner wall of the U-shaped mounting plate 61 are respectively provided with a T-shaped sliding groove 63, and the two T-shaped sliding blocks 64 are respectively and slidably connected with the two T-shaped sliding grooves 63.

As shown in fig. 3 and 6, the control assembly 7 is disposed on the lower surface of the first mounting rod 51, the control assembly 7 includes a second mounting cavity 71 disposed at a middle position inside the first mounting rod 51, a first straight plate 72 is disposed inside the second mounting cavity 71, three first straight rods 73 are fixedly connected to the lower surface of the first straight plate 72, a second straight plate 74 is fixedly connected to the lower end of the third straight rod 73 through the lower surface of the first mounting rod 51, an electrical connection plate 77 is fixedly connected to the upper surface of the first straight plate 72, an electrical positive electrode 75 is fixedly connected to a position, close to one end of the electrical connection plate 77, of the upper end of the inner wall of the second mounting cavity 71, an electrical negative electrode 76 is fixedly connected to the position, close to the other end of the electrical connection plate 77, of the inner wall of the second mounting cavity 71, and both the electrical negative electrode 76 and the electrical positive electrode 75 are electrically connected to the telescopic rod 62.

In the above embodiment, the two rotating rollers 55 are attached to the upper surface of the non-woven fabric, and the two rotating rollers 55 are driven by the first motor 58 to rotate simultaneously, so that the non-woven fabric can be driven to move to two sides, and the wrinkles on the non-woven fabric can be leveled, but because the thickness of different non-woven fabrics is different, the two rotating rollers 55 cannot attach to the upper surface of different non-woven fabrics, the practicality of the wrinkle removing assembly 5 is reduced, and therefore the adjusting assembly 6 is arranged, the telescopic rod 62 fixed on the U-shaped mounting plate 61 is started at first, so that the first mounting rod 51 can be driven to move up and down, the V-shaped rod 52 can drive the two rotating rollers 55 to move up and down, so that the height of the two rotating rollers 55 can be adjusted, the two rotating rollers 55 can attach to the upper surface of non-woven fabrics with different thicknesses, the practicality of the wrinkle removing assembly 5 is improved, the processing efficiency of the feeding machine is further improved, and the T-shaped sliding blocks 64 fixed at two ends of the first mounting rod 51 slide in the T-shaped sliding groove 63, so that the stability of the adjusting assembly 6 is improved.

In the above embodiment, the height of the two rotating rollers 55 can be adjusted through the telescopic rod 62, so that the two rotating rollers 55 can be attached to the upper surfaces of non-woven fabrics with different thicknesses, although the height of the two rotating rollers 55 can be controlled through the telescopic rod 62, the attaching of the rotating rollers 55 to the upper surfaces of the non-woven fabrics cannot be accurately controlled, therefore, the control assembly 7 is arranged, when the telescopic rod 62 drives the first mounting rod 51 to move downwards, the lower surface of the second straight plate 74 is attached to the upper surfaces of the non-woven fabrics first, the first mounting rod 51 is driven by the telescopic rod 62 to move downwards, the first straight plate 74 is driven to move upwards through the first straight rod 73, the electric connection plate 77 is driven to move upwards, then when the rotating roller 55 is attached to the upper surfaces of the non-woven fabrics, the electric connection plate 77 is attached to the electric positive electrode 75 and the electric negative electrode 76 at the same time, the telescopic rod 62 is controlled to stop, the rotating roller 55 is stopped from moving downwards, the rotating assembly is stopped when the rotating roller 55 is attached to the upper surfaces of the non-woven fabrics, and the rotating assembly is accurately controlled to the upper surfaces of the non-woven fabrics 6.

As shown in fig. 2, fig. 5, fig. 7 and fig. 8, the monitoring mechanism 8 is disposed above the conveying belt 4 on the upper surface of the mounting frame 1, the monitoring mechanism 8 includes a second mounting rod 81 fixedly connected with one side of the conveying belt 4, which is close to the V-shaped rod 52, on the upper surface of the mounting frame 1, a second mounting groove 82 is formed on the lower surface of the second mounting rod 81, a second straight rod 83 is fixedly connected with the lower end inside the second mounting groove 82, the outer circumferential surface of the second straight rod 83 is rotationally connected with a plurality of uniformly distributed rotating baffles 84, one side of the outer circumferential surface of the rotating baffles 84 is fixedly connected with a fixed block 85, electrical connection columns 86 penetrating through two ends of the fixed block 85 are fixedly connected in the fixed block 85, all the electrical connection columns 86 are electrically connected with each other, one side of the upper surface of the second mounting rod 81 is fixedly connected with a single chip microcomputer 87, two ends of the electrical connection columns 86, which are mutually connected with each other, are electrically connected with a controller 87, one side of the upper surface of the second mounting rod 81, which is close to the single chip microcomputer 87, is fixedly connected with a motor 88, and the controller 88, the motor 88 and the single chip microcomputer 58 are electrically connected with the single chip microcomputer 58.

As shown in fig. 7, an alarm lamp 89 is fixedly connected to a side of the upper surface of the second mounting rod 81, which is close to the controller 88, and the alarm lamp 89 is electrically connected to the controller 88.

As shown in fig. 8, 9, and 10, a moving assembly 9 is disposed between the electrical connection column 86 and the single-chip microcomputer 87, the moving assembly 9 includes two sliders 91 slidably connected with the inside of the second mounting groove 82, one side of the outer surface of the second mounting rod 81 is fixedly connected with a second motor 92, the output end of the second motor 92 is fixedly connected with a bidirectional threaded rod 93, the bidirectional threaded rod 93 penetrates through the two sliders 91 and the two sliders 91 in threaded connection, the upper surface of the fixing block 85 is fixedly connected with an electrical connection block 94, the electrical connection block 94 is electrically connected with the electrical connection column 86, the lower surface of the two sliders 91 is fixedly connected with an electrical arc block 95, the two electrical arc blocks 95 are electrically connected with the electrical connection block 94, one side of the upper surface of the electrical arc block 95 is fixedly connected with an electrical straight rod 96, the upper end of the electrical straight rod 96 penetrates through the slider 91, the upper end of the inner wall of the second mounting groove 82 is provided with two sliding grooves 98, the two electrical connection blocks 97 are respectively slidably connected with the two sliding grooves 98, the two inner wall 98 are respectively connected with the two electrical connection blocks 99 and the two electrical connection blocks 99 are respectively electrically connected with the single-chip microcomputer 87.

In the above embodiment, the wrinkles on the non-woven fabric are smoothed by the rotation of the two rotating rollers 55, but the two rotating rollers 55 always rotate, so that the rotating rollers 55 also smooth the smooth non-woven fabric, and a certain abrasion is caused to the non-woven fabric, and meanwhile, the wrinkle removing assembly 5 always operates, so that the convenience of the wrinkle removing assembly 5 is reduced, therefore, the monitoring mechanism 8 is provided, when the non-woven fabric moves on the conveyor belt 4, all the rotating baffles 84 are driven to rotate on the second straight rod 83, and because the surface of the non-woven fabric is smooth, all the rotating baffles 84 are kept on the same straight line, meanwhile, the fixed block 85 on one side of the rotating baffles 84 rotates around the second straight rod 83 in the second mounting groove 82, and the electric connecting posts 86 penetrating through the two ends of the fixed block 85 are fixedly connected in the fixed block 85, and all the electric connecting posts 86 are mutually and electrically connected, when the wrinkles on the non-woven fabric move below the second mounting rod 81, the rotating baffle plates 84 which can drive part of the rotating baffle plates 84 rotate on the second straight rod 83, so that all the rotating baffle plates 84 cannot be kept on the same straight line, the electric connection between the electric connection columns 86 is disconnected, the two ends of the electric connection columns 86 which are mutually connected are electrically connected with the single chip microcomputer 87, after the electric connection between the electric connection columns 86 is disconnected, the disconnected signals are transmitted into the single chip microcomputer 87, then the single chip microcomputer 87 processes the signals, the processed signals are transmitted into the controller 88, the first motor 58 and the telescopic rod 62 are controlled to be started by the controller 88, thereby the rotating roller 55 is attached to the upper surface of the non-woven fabric, the rotating roller 55 rotates to smooth the wrinkled non-woven fabric, the abrasion caused by the continuous rotation of the rotating roller 55 to the non-woven fabric is reduced, the convenience of the wrinkle removing assembly 5 is improved, the alarm lamp 89 is electrically connected with the controller 88, when the controller 88 controls the first motor 58 and the telescopic rod 62 to be started, the alarm lamp 89 is started at the same time, so that a worker can be reminded.

In the above embodiment, although the movement of the positions of the folds of the non-woven fabrics is performed, so that all the rotating baffles 84 cannot be kept on the same straight line, the electrical connection between the electrical connection columns 86 is disconnected, and the first motor 58 and the telescopic rod 62 are controlled by the controller 88, but because the widths of different non-woven fabrics are different, the non-woven fabrics cannot drive all the rotating baffles 84 to rotate simultaneously, and the practicability of the monitoring mechanism 8 is reduced, the moving assembly 9 is provided, the second motor 92 is started to drive the bidirectional threaded rod 93 to rotate, so as to drive the two sliding blocks 91 to simultaneously and reversely move in the second mounting groove 82, simultaneously drive the two electrical arc blocks 95 to simultaneously and reversely move, the two electrical arc blocks 95 are respectively electrically connected with the two electrical connection columns 86, the electrical connection columns 86 are simultaneously electrically connected with the electrical connection blocks 94, the electrical arc blocks 95 are electrically connected with the electrical connection rods 97, the two electrical connection blocks 97 are respectively electrically connected with the two electrical plates 99, and the two electrical plates 99 are electrically connected with the single-chip microcomputer 87, and the number of the two sliding blocks 91 is adjusted, so that the number of the connected with the rotating baffles 84 can be adjusted, and the number of the connected with the monitoring mechanism 84 can be increased, and the monitoring mechanism is convenient for the monitoring mechanism 8 to use the monitoring mechanism to monitor the width of the non-woven fabrics.

The use method comprises the steps of firstly placing the cloth roll 2 into a bracket 10, then drawing out non-woven fabrics on the cloth roll 2, putting the non-woven fabrics on a transmission belt 4 by passing through a tension adjusting device 3, then starting the transmission belt 4 to introduce the non-woven fabrics into a processing device 11, simultaneously adjusting the communicated quantity of the rotating baffles 84 through a moving assembly 9, enabling the communicated lengths of the rotating baffles 84 to be matched with the width of the non-woven fabrics, detecting wrinkles through a monitoring mechanism 8 after the wrinkles are generated on the non-woven fabrics, controlling an adjusting assembly 6 to enable a telescopic rod 62 to move downwards, simultaneously enabling the telescopic rod 62 to be in close contact with the upper surface of the non-woven fabrics through a control assembly 7, immediately controlling the adjusting assembly 6 to stop operating, and simultaneously starting a first motor 58 to drive two rotating rollers 55 to rotate simultaneously, so that the non-woven fabrics can be driven to move to two sides, and the wrinkles on the non-woven fabrics can be smoothed.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present invention, and the technical solution and the improvement thereof are all covered by the protection scope of the present invention.

Claims

1. The non-woven fabric feeding machine comprises a mounting frame (1), wherein a cloth roll (2) is arranged on one side of the outer surface of the mounting frame (1), a transmission belt (4) is arranged on the upper side of the inner wall of the mounting frame (1), and a processing device (11) is fixedly connected to one side, close to the transmission belt (4), of the upper surface of the mounting frame (1), and is characterized in that a wrinkle removing assembly (5) is arranged on the upper side of the transmission belt (4) of the inner wall of the mounting frame (1);

The wrinkle removing assembly (5) comprises a first mounting rod (51) arranged above the conveying belt (4), a V-shaped rod (52) is fixedly connected to the lower end of one side of the outer surface of the first mounting rod (51), first mounting grooves (54) are formed in two sides of the lower surface of the V-shaped rod (52), and rotating rollers (55) are rotatably connected inside the first mounting grooves (54);

The utility model discloses a motor control device, including installation frame (1), transmission band (4), monitoring mechanism (8) are arranged on the upper surface of installation frame (1), monitoring mechanism (8) include with installation frame (1) upper surface be located transmission band (4) top be close to one side fixed connection of V-arrangement pole (52) No. two installation poles (81), no. two mounting grooves (82) have been seted up to the lower surface of No. two installation poles (81), no. two inside lower extreme fixedly connected with No. two straight-bars (83) of No. two installation grooves (82), the outer disc rotation of No. two straight-bars (83) is connected with several evenly distributed's rotation baffle (84), the outer disc one side of rotation baffle (84) is all fixedly connected with fixed block (85), fixedly connected with electric connection post (86) that run through fixed block (85) both ends in the fixed block (85), and mutual electric connection between all electric connection posts (86), no. two upper surface one side fixed connection post (86) and singlechip (87) that are in the same place, both ends and singlechip (88) of electric connection post (86), electric connection post (88) are close to one side of being connected with singlechip (88), electric connection (88);

An alarm lamp (89) is fixedly connected to one side, close to the controller (88), of the upper surface of the second mounting rod (81), and the alarm lamp (89) is electrically connected with the controller (88);

The utility model discloses a sliding chute type electric connection device, which is characterized in that a movable assembly (9) is arranged between an electric connection column (86) and a singlechip (87), the movable assembly (9) comprises two sliding blocks (91) which are connected with a second installation groove (82) in an internal sliding way, a second motor (92) is fixedly connected with one side of the outer surface of the second installation rod (81), a bidirectional threaded rod (93) is fixedly connected with the output end of the second motor (92), the bidirectional threaded rod (93) penetrates through the two sliding blocks (91) and the two sliding blocks (91) in a threaded way, the upper surface of the fixed block (85) is fixedly connected with an electric connection block (94), the electric connection block (94) is electrically connected with the electric connection column (86), the lower surface of the two sliding blocks (91) is fixedly connected with an electric arc block (95), the two electric arc blocks (95) are electrically connected with the electric connection block (94), the upper surface of the upper end of the electric arc block (95) is fixedly connected with an electric straight rod (96), the upper surface of the upper end penetrating slide block (91) is fixedly connected with an electric connection head (97), the two sliding grooves (98) are respectively arranged on one side of the two sliding grooves (98), and the two electric connectors (97) are respectively and electrically connected with the two electric plates (99), and the two electric plates (99) are electrically connected with the singlechip (87).

2. The nonwoven fabric feeding machine according to claim 1, wherein a first installation cavity (57) is formed in the tip of the V-shaped rod (52), one side of the V-shaped rod (52) is fixedly connected with a second bevel gear (511) in the first installation cavity (57) by extending one end of the rotating roller (55), the other side of the V-shaped rod is fixedly connected with a fourth bevel gear (513) in the first installation cavity (57) by extending one end of the rotating roller (55), a first motor (58) is fixedly connected to the upper surface of the V-shaped rod (52) close to the first installation cavity (57), a rotating shaft (59) is fixedly connected to the output end of the first motor (58), the rotating shaft (59) extends into the first installation cavity (57), the upper side of the outer circular surface of the rotating shaft (59) is fixedly connected with the first bevel gear (510), the first bevel gear (510) is in meshed connection with the second bevel gear (511), and the lower side of the outer circular surface of the rotating shaft (59) is fixedly connected with a third bevel gear (512), and the third bevel gear (512) is in meshed connection with the fourth bevel gear (513).

3. The non-woven fabric feeding machine according to claim 1, wherein three groups of support rods (53) which are uniformly distributed are fixedly connected between the first mounting rod (51) and the V-shaped rod (52), and the outer circular surfaces of the two rotating rollers (55) are fixedly connected with protrusions (56) which are uniformly distributed.

4. The non-woven fabric feeding machine according to claim 1, wherein an adjusting component (6) is arranged on the upper surface of the first mounting rod (51), the adjusting component (6) comprises a U-shaped mounting plate (61) fixedly connected with the upper surface of the mounting frame (1) and located above the first mounting rod (51), two telescopic rods (62) are fixedly connected to the upper end of the inner wall of the U-shaped mounting plate (61), and the lower ends of the two telescopic rods (62) are fixedly connected with the first mounting rod (51).

5. The nonwoven fabric feeding machine according to claim 4, wherein the two ends of the first mounting rod (51) are fixedly connected with T-shaped sliding blocks (64), T-shaped sliding grooves (63) are formed in the lower sides of the two sides of the inner wall of the U-shaped mounting plate (61), and the two T-shaped sliding blocks (64) are respectively connected with the two T-shaped sliding grooves (63) in a sliding mode.

6. The non-woven fabric feeding machine according to claim 1, wherein the control component (7) is arranged on the lower surface of the first mounting rod (51), the control component (7) comprises a second mounting cavity (71) formed in the middle of the inner wall of the first mounting rod (51), a first straight plate (72) is arranged in the second mounting cavity (71), three first straight rods (73) are fixedly connected to the lower surface of the first straight plate (72), a second straight plate (74) is fixedly connected to the lower surface of the third straight rod (73) penetrating through the lower surface of the first mounting rod (51), an electric connection plate (77) is fixedly connected to the upper surface of the first straight plate (72), an electric positive electrode (75) is fixedly connected to the upper end of the inner wall of the second mounting cavity (71) close to one end of the electric connection plate (77), an electric negative electrode (76) is fixedly connected to the upper end of the inner wall of the second mounting cavity (71) close to the other end of the electric connection plate (77), and the electric negative electrode (76) and the electric negative electrode (75) are electrically connected to the electric positive electrode (62).

7. The non-woven fabric feeding machine according to claim 1, wherein a bracket (10) is fixedly connected to one side of the outer surface of the mounting frame (1), the cloth roll (2) is arranged in the bracket (10), and a tension adjusting device (3) is arranged between the transmission belt (4) and the bracket (10) on the inner wall of the mounting frame (1).