JP7408263B1 - Cutting equipment for spun fabrics - Google Patents

Abstract

A cutting device for spun fabric, comprising a first support plate, a belt conveying assembly, a seventh support plate, a clamp plate, a second support plate, a fabric, and a third support plate, wherein the power device is connected to the first support plate. installed on the side, the power device is transmission connected to the rotating shaft, a pulley is installed on the rotating shaft, two sets of seventh support plates are installed on the first support plate, and the clamp plate is connected to the two sets of seventh support plates. installed perpendicularly to the outer surface of the belt, clamp rods are installed on opposite end surfaces of the two sets of clamp plates, a second support plate is installed on the clamp plate, a support block is installed on the second support plate, A cut groove is formed in the support block, a third support plate is installed on the side of the first support plate, a fourth support plate is installed at the bottom of the third support plate, and a cut assembly and a guide are installed in the fourth support plate. An assembly is provided. In the present invention, work efficiency is high, and in the cut state, the fabric is clamped by two pairs of vertically opposed front and rear clamp rods to ensure cutting quality.

Description

The present invention relates to the technical field of producing spun fabrics, and more particularly to a cutting device for spun fabrics.

The spun fabric is a spun fabric, and the production and processing steps of the spun fabric are spinning, knitting, fabric checking, cutting, sewing, ironing and inspection in order, among which the cutting is the spun fabric according to the designed size. Conventional cutting equipment tends to loosen the fabric during the cutting process, reducing cutting accuracy and affecting the quality of the final finished fabric product.

(1) Purpose of the invention In order to solve the technical problems existing in the background art, the present invention proposes a cutting device for spun fabric, which can automatically cut the fabric, has high working efficiency, and The fabric is clamped by two vertically opposing sets of front and rear clamp rods, which prevents misalignment of the fabric during the cutting process and ensures the quality of the cut.

(2) Solution The present invention proposes a cutting device for spun fabric, which includes a first support plate, a belt conveying assembly, a seventh support plate, a clamp plate, a second support plate, a fabric and a third support plate, and the belt conveying assembly includes a power device, a rotating shaft, a pulley, and a belt;
The first support plate is installed vertically, the power device is installed on the side of the first support plate, the power device is transmission connected to the rotating shaft, and the rotating shaft passes through the first supporting plate, The pulley is installed on the rotating shaft, the power device, the rotating shaft and the pulley are all installed in two sets, the belt rotates the two sets of pulleys to form a belt conveying mechanism, the belt conveys horizontally, The belt conveyance assembly is installed in two sets and includes a first belt conveyance assembly and a second belt conveyance assembly located at upper and lower positions, respectively, and the two sets of belt conveyance assemblies are installed on the first support plate, and on the seventh support plate. are installed horizontally on the end face of the first support plate facing the pulley, and the seventh support plate is installed in two sets parallel to each other one above the other, and the seventh support plate located above The seventh support plate is in close contact with the top of the belt of the lower horizontal section, the seventh support plate is in close contact with the bottom of the belt of the upper horizontal section of the second belt transport assembly, and the clamp plate is in contact with the bottom of the belt of the upper horizontal section of the second belt conveying assembly. The two sets of clamp plates are installed perpendicularly to the outer surface of the two sets of belts, and the two sets of clamp plates are vertically opposed to each other. Clamp rods are installed on the opposite end faces of the two sets of clamp plates, and the two sets of clamp rods are arranged vertically to each other. A plurality of clamp plates are arranged uniformly in the length direction of the belt, and the fabric is horizontally located between the plurality of opposing clamp rods, The support plate is installed horizontally on the clamp plate of the belt in the second belt conveyance assembly, and in the belt conveyance direction, the second support plate is located in front of the clamp plate, and the support block is installed on the second support plate. , the upper end surface of the support block is located in the same horizontal plane as the highest point of the clamp rod, a vertical cut groove is made in the support block, a plurality of sets of second support plates are installed, and a plurality of sets of second support plates are installed. The plates correspond one-to-one to a plurality of sets of clamp plates, the third support plate is installed horizontally on the side of the first support plate, and the third support plate and the power device are on the same side of the first support plate. a vertical fourth support plate is installed at the bottom of the third support plate, the fourth support plate is provided with a cutting assembly for cutting the fabric, and the fourth support plate is configured to control the position of the second support plate. A guiding assembly for guiding is provided, the apparatus further comprising a control system, the control system being connected to transmit signals to the guiding assembly, and the control system controlling both the power device and the cutting assembly. and a timing module is provided within the control system.

Preferably, the cutting assembly includes a first electric telescoping rod, a fifth support plate, a second electric telescoping rod and a blade, the first electric telescoping rod being horizontal to the end face of the fourth support plate facing the first support plate. The fifth support plate is installed perpendicularly to the telescopic end of the fourth support plate, and a horizontal sixth support plate is installed at the top of the end face of the fifth support plate facing the first support plate, The second electric telescopic rod is installed vertically at the bottom of the sixth support plate, and the bottom telescopic end of the second electric telescopic rod is connected to the blade, and the blade is connected to the end surface of the fifth support plate facing the first support plate. The sliding direction of the blade is the vertical direction, and in the uncut state, the fifth support plate, the sixth support plate, the second electric telescopic rod, and the blade are all installed vertically to the clamp plate. Located on the side facing the first support plate, the blade is inserted into the cut groove in the cut state, and the first support plate includes the fifth support plate, the sixth support plate, the second electric telescopic rod, and the blade. A strip groove is drilled therethrough, and the control system is controllably connected to both the first electric telescopic rod and the second electric telescopic rod.

Preferably, the guide assembly includes a third electric telescoping rod and a baffle, the third electric telescoping rod is installed horizontally on an end face of the fourth support plate facing the first support plate, and the third electric telescoping rod comprises: The baffle is located below the first electric telescopic rod, and the baffle is installed horizontally at the telescopic end of the third electric telescopic rod, and the baffle protrudes between two sets of clamp plates in the second belt conveying assembly, and the baffle extends between the clamp plates of the baffle. a pressure sensor is installed on the end face towards the belt, in the direction of movement of the belt the pressure sensor is located behind the baffle, the pressure sensor is connected to transmit a signal to the control system, the first support plate has: A strip groove is drilled for the third electric telescoping rod and baffle to pass through.

Preferably the clamp rod is a resilient rubber rod.

Preferably, the cut groove is chamfered at the edge of the opening formed at the top of the support block.

The above technical solution of the present invention has the following beneficial technical effects. The belts in the two sets of belt conveying assemblies constantly move at a constant speed to move the vertically opposing clamp plates at a uniform speed, and the two sets of vertically opposing clamp plates clamp the fabric with clamp rods, When the second support plate moves to the guiding position of the guiding assembly, the control system controls the power device to stop operating, the cutting assembly starts operating to cut the fabric, and then the cutting assembly After resetting, the power unit continues to operate and move the clamp plates forward, and the rear set of clamp plates continue to clamp the fabric after rotating to the vertical position and start the next cut. . The fabric can be cut automatically, and the work efficiency is high. In the cutting state, the fabric is clamped by two pairs of clamp rods facing each other vertically, which prevents misalignment of the cut due to the fabric conveyance during the cutting process. Ensure cut quality.

1 is a schematic structural diagram of a cutting device for spun fabric according to the present invention; FIG. FIG. 1 is a sectional view taken along line AA of a cutting device for spun fabric according to the present invention.

In order to make the objectives, technical solutions and advantages of the present invention clearer and clearer, the present invention will be described in more detail below by giving specific embodiments and referring to the drawings. It should be understood that these descriptions are illustrative only and are not intended to limit the scope of the invention. Note that, in the following description, descriptions of known structures and techniques are omitted so as not to unnecessarily confuse the concept of the present invention.

As shown in FIGS. 1 and 2, the cutting device for spun fabric according to the present invention comprises a first support plate 1, a belt conveying assembly, a seventh support plate 6, a clamp plate 7, a second support plate 9, a fabric 12 and The belt conveying assembly includes a third support plate 13, a power unit 2, a rotating shaft 3, a pulley 4 and a belt 5;
The first support plate 1 is installed vertically, the power device 2 is installed on the side of the first support plate 1, the power device 2 is transmission connected to the rotation shaft 3, and the rotation shaft 3 is connected to the first support plate 1. The pulley 4 passes through the support plate 1 and is installed on the rotating shaft 3. Two sets of the power unit 2, the rotating shaft 3, and the pulley 4 are installed, and the belt 5 is rotated by rotating the two sets of pulleys 4. Forming a conveying mechanism, the belt 5 conveys horizontally, and two sets of belt conveying assemblies are installed, each including a first belt conveying assembly and a second belt conveying assembly located in upper and lower positions, and two sets of belt conveying assemblies. is installed on the first support plate 1, and the seventh support plate 6 is installed horizontally on the end face of the first support plate 1 facing the pulley 4. The seventh supporting plate 6 located at the upper side is installed in the first belt conveying assembly, and the seventh supporting plate 6 located at the lower side is in close contact with the top of the belt 5 at the lower horizontal part of the first belt conveying assembly. In close contact with the bottom of the belt 5 in the upper horizontal part of the belt conveying assembly, the clamp plate 7 is installed vertically on the outer surface of the two sets of belts 5, and the two sets of clamp plates 7 are vertically opposed to each other, Clamp rods 8 are installed on the opposing end surfaces of the two sets of clamp plates 7, and the two sets of clamp rods 8 are in contact with each other and have semicircular cross-sections. A plurality of pairs of fabrics 12 are arranged uniformly in the length direction of the belt 5, and the fabric 12 is horizontally located between the plurality of opposing clamp rods 8, and the second support plate 9 is a clamp plate of the belt 5 in the second belt conveying assembly. 7, the second support plate 9 is located in front of the clamp plate 7 in the conveyance direction of the belt 5, a support block 10 is installed on the second support plate 9, and the upper end surface of the support block 10 is , located in the same horizontal plane as the highest point of the clamp rod 8, a vertical cut groove 11 is opened in the support block 10, a plurality of sets of second support plates 9 are installed, and the plurality of sets of second support plates 9 are , the third support plate 13 is installed horizontally on the side surface of the first support plate 1, and the third support plate 13 and the power device 2 correspond one-to-one to the plurality of sets of clamp plates 7. A vertical fourth support plate 14 is installed at the bottom of the third support plate 13, and the fourth support plate 14 is provided with a cutting assembly for cutting the fabric 12. is provided with a guidance assembly for guiding the position of the second support plate 9; the apparatus is further provided with a control system, the control system being connected to transmit signals to the guidance assembly; A timing module is provided within the control system, both controllingly connected to the device 2 and the cutting assembly.

In the present invention, the belts 5 in the two sets of belt conveying assemblies constantly move at a constant speed to move the vertically opposing clamp plates 7 at a uniform speed, and the two sets of vertically opposing clamp plates 7 move at a constant speed. When the rod 8 clamps the fabric 12 and the second support plate 9 moves to the guiding position of the guiding assembly, the control system controls the power device 2 to stop working and the cutting assembly starts working. to cut the fabric 12, after which the cutting assembly is reset and the power unit 2 continues to operate to move the clamp plates 7 forward, and the rear set of clamp plates 7 are rotated to the vertical position and then Continue clamping the fabric 12 and begin the next cut. In the present invention, the fabric 12 can be cut automatically, and the work efficiency is high. In the cutting state, the fabric 12 is clamped by two vertically opposed front and rear clamp rods 8, and the fabric 12 is cut during the cutting process. Prevents cut misalignment due to transportation and ensures cut quality.

In one alternative embodiment, the cutting assembly includes a first electric telescoping rod 15, a fifth support plate 16, a second electric telescoping rod 18 and a blade 19, and the first electric telescoping rod 15 is connected to a fourth support plate. The fifth support plate 16 is installed horizontally on the end face of the fourth support plate 14 facing the first support plate 1, and the fifth support plate 16 is installed perpendicularly to the extendable end of the fourth support plate 14, facing the first support plate 1. A horizontal sixth support plate 17 is installed at the top of the end surface, a second electric telescopic rod 18 is installed vertically at the bottom of the sixth support plate 17, and the bottom telescopic end of the second electric telescopic rod 18 is The blade 19 is connected to the blade 19, and the blade 19 is installed vertically and slidably on the end face of the fifth support plate 16 facing the first support plate 1, and the sliding direction of the blade 19 is the vertical direction, and the blade 19 is installed in a non-cutting state. , the fifth support plate 16, the sixth support plate 17, the second electric telescopic rod 18, and the blade 19 are all located on the side of the clamp plate 7 facing the first support plate 1, and in the cut state, the blade 19 is Inserted into the cut groove 11, the first support plate 1 has a strip groove through which the fifth support plate 16, the sixth support plate 17, the second electric telescopic rod 18 and the blade 19 pass, and the control system are both controllably connected to the first electric telescopic rod 15 and the second electric telescopic rod 18, and when the assembly induces the second support plate 9 to be in a predetermined position, the power device 2 stops operating. Then, the first electric telescopic rod 15 extends to the maximum, and then the second electric telescopic rod 18 extends to the maximum, and the second electric telescopic rod 18 moves downward into the cut groove 11. The blade 19 is inserted and pushed to cut the fabric 12, and then the second electric telescopic rod 18 and the first electric telescopic rod 15 are contracted to their initial states.

In one alternative embodiment, the guide assembly includes a third electrically telescopic rod 20 and a baffle 21, the third electrically telescopic rod 20 being installed horizontally on the end face of the fourth supporting plate facing the first supporting plate 1. The third electric telescopic rod 20 is located below the first electric telescopic rod 15, the baffle 21 is installed horizontally at the telescopic end of the third electric telescopic rod 20, and the baffle 21 is connected to the second belt conveying assembly. A pressure sensor 22 is installed on the end face of the baffle 21 facing the clamp plate 7, protruding between the two sets of clamp plates 7, and is located behind the baffle 21 in the moving direction of the belt 5. The pressure sensor 22 is connected to transmit a signal to the control system, the first support plate 1 is provided with a strip groove for the third electric telescopic rod 20 and the baffle 21 to pass through, and the second support plate 9 is connected to the pressure sensor 22 to transmit a signal to the control system. moves until it comes into contact with the pressure sensor 22, the power unit 2 stops working, the cutting assembly starts working, and the third electric telescopic rod 20 starts retracting to move the baffle 21 to the clamping plate. 7 and after a set time, the cutting assembly cuts the fabric 12 and resets, and the power unit 2 operates for a while until the second support plate 9 contacts the pressure sensor 22 again. , the third electric telescopic rod 20 continues to extend and push the baffle 21 forward of the second support plate 9.

In one alternative embodiment, the clamp rod 8 is a resilient rubber rod to prevent abrasion of the fabric 12 by the clamp.

In one alternative embodiment, the cut groove 11 is provided with a chamfer at the edge of the opening formed in the top of the support block 10, so that the blade 19 can be easily inserted into the cut groove 11.

It should be understood that the above-described specific embodiments of the invention are merely for illustrative illustrations or interpretations of the principles of the invention and do not constitute limitations on the invention. Therefore, any modifications, equivalent substitutions, improvements, etc. made without departing from the spirit and scope of the present invention should all be included within the protection scope of the present invention. It is intended that the appended claims of the invention cover all changes and modifications that come within the scope and boundaries of the appended claims or the equivalents thereof.

1 First support plate 2 Power device 3 Rotating shaft 4 Pulley 5 Belt 6 Seventh support plate 7 Clamp plate 8 Clamp rod 9 Second support plate 10 Support block 11 Cut groove 12 Fabric 13 Third support plate 14 Fourth support plate 15 First electric telescopic rod 16 Fifth support plate 17 Sixth support plate 18 Second electric telescopic rod 19 Blade 20 Third electric telescopic rod 21 Baffle 22 Pressure sensor

Claims (5)

A cutting device for spun fabric, comprising a first support plate (1), a belt conveying assembly, a seventh support plate (6), a clamp plate (7), a second support plate (9), a fabric (12) and a seventh support plate (6). 3 support plate (13), the belt transport assembly includes a power unit (2), a rotating shaft (3), a pulley (4) and a belt (5);
The first support plate (1) is installed vertically, the power device (2) is installed on the side of the first support plate (1), and the power device (2) is driven by a rotating shaft (3). The rotating shaft (3) passes through the first support plate (1), the pulley (4) is installed on the rotating shaft (3), and the power unit (2), the rotating shaft (3) and the pulley ( 4) are each installed in two sets, the belt (5) turns two sets of pulleys (4) to form a belt conveyance mechanism, the belt (5) conveys horizontally, and the belt conveyance assembly is Two sets of belt transport assemblies are installed, including a first belt transport assembly and a second belt transport assembly located in upper and lower positions, respectively, the two sets of belt transport assemblies are installed on the first support plate (1), and are installed on the seventh support plate (6). ) are installed horizontally on the end face of the first support plate (1) facing the pulley (4), and the seventh support plate (6) has two sets parallel to each other installed above and below, and the seventh support plate (6) is installed horizontally on the end face facing the pulley (4). The support plate (6) is in close contact with the top of the belt (5) in the lower horizontal part of the first belt transport assembly, and the seventh support plate (6) in the lower part is in close contact with the top of the belt (5) in the lower horizontal part of the first belt transport assembly. The clamp plate (7) is installed vertically on the outer surface of the two sets of belts (5), and the two sets of clamp plates (7) are in close contact with the bottom of the horizontal belt (5) located above. Clamp rods (8) are installed on opposite end surfaces of the two sets of clamp plates (7), and the two sets of clamp rods (8) are in contact with each other and have semicircular cross-sectional shapes. A plurality of clamp plates (7) are uniformly arranged in the length direction of the belt (5), and the fabric (12) is located horizontally between the plurality of opposing clamp rods (8), The second support plate (9) is installed horizontally on the clamp plate (7) of the belt (5) in the second belt transport assembly, and in the conveying direction of the belt (5), the second support plate (9) A support block (10) is located in front of the plate (7) and installed on the second support plate (9), and the upper end surface of the support block (10) is in the same horizontal plane as the highest point of the clamp rod (8). A vertical cut groove (11) is formed in the support block (10), a plurality of sets of second support plates (9) are installed, and the plurality of sets of second support plates (9) The third support plate (13) corresponds one-to-one to the clamp plate (7), and is installed horizontally on the side surface of the first support plate (1), and the third support plate (13) and the power device (2) are connected to each other. , a vertical fourth support plate (14) is installed on the same side of the first support plate (1) and at the bottom of the third support plate (13). 12), the fourth support plate (14) is provided with a guidance assembly for guiding the position of the second support plate (9), and the apparatus is further provided with a control system, the control system The system is connected to transmit signals to the induction assembly, the control system is controllably connected to both the power plant (2) and the cut assembly, and a timing module is provided within the control system. A cutting device for spun fabric. The cutting assembly includes a first electric telescopic rod (15), a fifth support plate (16), a second electric telescopic rod (18) and a blade (19), and the first electric telescopic rod (15) is connected to a fourth support plate (16). The fifth support plate (16) is installed horizontally on the end face of the plate (14) facing the first support plate (1), and the fifth support plate (16) is installed perpendicularly to the telescopic end of the fourth support plate (14). A horizontal sixth support plate (17) is installed at the top of the end face facing the first support plate (1) of (16), and the second electric telescopic rod (18) is connected to the sixth support plate (17). Installed vertically at the bottom, the bottom telescopic end of the second electric telescopic rod (18) is connected to the blade (19), which is connected to the first support plate (1) of the fifth support plate (16). The sliding direction of the blade (19) is the vertical direction, and in the uncut state, the fifth support plate (16), the sixth support plate (17), the second The electric telescopic rod (18) and the blade (19) are both located on the side of the clamp plate (7) facing the first support plate (1), and in the cut state, the blade (19) is in the cut groove (11). A strip is inserted into the first support plate (1) for the fifth support plate (16), the sixth support plate (17), the second electric telescopic rod (18) and the blade (19) to pass through. The spun fabric according to claim 1, characterized in that the groove is drilled and the control system is controllably connected to the first electric telescopic rod (15) and the second electric telescopic rod (18). cutting equipment. The guide assembly includes a third electric telescopic rod (20) and a baffle (21), the third electric telescopic rod (20) being installed horizontally on an end face of the fourth support plate facing the first support plate (1). , the third electric telescopic rod (20) is located below the first electric telescopic rod (15), and the baffle (21) is installed horizontally at the telescopic end of the third electric telescopic rod (20). 21) protrudes between the two sets of clamp plates (7) in the second belt transport assembly, a pressure sensor (22) is installed on the end face of the baffle (21) facing the clamp plate (7), and the belt (5 ), a pressure sensor (22) is located behind the baffle (21), the pressure sensor (22) is connected to transmit a signal to the control system and is connected to the first support plate (1). The cutting device for spun fabric according to claim 1, characterized in that the cutting device is provided with a strip groove for the third electric telescopic rod (20) and the baffle (21) to pass through. 2. Cutting device for spun fabric according to claim 1, characterized in that the clamp rod (8) is a rod made of elastic rubber. The cutting device for spun fabric according to claim 1, characterized in that the cut groove (11) is chamfered at the edge of the opening formed at the top of the support block (10).