CN113602874A

CN113602874A - Tension detection device is used in textile fabric production

Info

Publication number: CN113602874A
Application number: CN202111181307.2A
Authority: CN
Inventors: 石明学
Original assignee: Nantong Tengxia Textile Co ltd
Current assignee: Nantong Tengxia Textile Co ltd
Priority date: 2021-10-11
Filing date: 2021-10-11
Publication date: 2021-11-05
Anticipated expiration: 2041-10-11
Also published as: CN113602874B

Abstract

The invention discloses a tension detection device for textile fabric production, which comprises a base plate, wherein two vertical plates are symmetrically and vertically fixedly connected to the upper end surface of the base plate, a fixed block is horizontally and fixedly connected between the two vertical plates, a supporting block is arranged between the two vertical plates in a sliding mode through a limiting mechanism, a detection mechanism matched with the supporting block is arranged in the fixed block, a transmission mechanism matched with the supporting block is arranged between the two vertical plates, and a cooling mechanism is arranged in the supporting block. When the cloth cleaning machine works, the tensioning state of the cloth can be timely adjusted no matter the cloth becomes loose or is excessively tensioned, and the tensioning force applied to the cloth is always the same, so that yarn breakage of the cloth can be avoided, the cloth can be prevented from deviating, meanwhile, cold air can be blown to the cloth in a pulse mode, the cloth can be cooled in a heat dissipation mode, the cloth can be cleaned, and the using effect is good.

Description

Tension detection device is used in textile fabric production

Technical Field

The invention relates to the technical field of textile machinery, in particular to a tension detection device for textile fabric production.

Background

Textile cloth receives various factors in processing transmission process and makes the tension of cloth take place undulantly easily, and the too big yarn that leads to the cloth of tensile force of cloth collapses absolutely easily, and the tensile force undersize of cloth, and the cloth takes place the skew when the transmission easily, and then influences the efficiency of sending the yarn, and is difficult for the fast operation when needs are cut the cloth, application number: CN202021438503.4, provided a weaving is with pencil tension detection device convenient to it is fixed, carry out tension detection and restriction to the cloth through flexible push rod, though can detect cloth tension, nevertheless because the stroke of flexible push rod is generally comparatively fixed to when making flexible push rod to restrict the cloth, the control range of tensile force is less, and the tension that the cloth received is too big sometimes.

Disclosure of Invention

The invention aims to solve the problem that the traditional cloth tension detection device in the prior art is not fine enough in tension control and adjustment when in use, and provides a tension detection device for textile cloth production.

In order to achieve the purpose, the invention adopts the following technical scheme:

a tension detection device for textile fabric production comprises a base plate, wherein two vertical plates are vertically and symmetrically fixedly connected to the upper end face of the base plate, a fixed block is horizontally and fixedly connected between the two vertical plates, a supporting block is arranged between the two vertical plates in a sliding mode through a limiting mechanism, a detection mechanism matched with the supporting block is arranged in the fixed block, a transmission mechanism matched with the supporting block is arranged between the two vertical plates, a cooling mechanism is arranged in the supporting block and comprises a mounting groove horizontally formed in the fixed block, a movable plate is horizontally and movably connected in the mounting groove, an electromagnet is fixedly connected to the groove wall of the mounting groove, which is far away from the supporting block, a first permanent magnet block corresponding to the electromagnet is fixedly arranged on the movable plate, the cooling mechanism comprises an arc-shaped groove formed in the side wall of the supporting block, a driven roller is rotatably and hermetically arranged in the arc-shaped groove, and a plurality of heat insulation grooves are uniformly formed in the peripheral wall of the driven roller, every all be connected with through reset spring elastic with first permanent magnetism piece complex second permanent magnetism piece on the cell wall of heat-insulating chute, and every second permanent magnetism piece lateral wall all with the cell wall sealing sliding connection who corresponds the heat-insulating chute, support and seted up the cooling tank that corresponds with the arc wall in the piece, evenly insert in the cooling tank and be equipped with many communicating pipes, every the both ends of communicating pipe are equallyd divide do not with the cell wall and the external intercommunication of arc wall, the cooling tank intussuseption is filled with the coolant liquid.

Furthermore, the limiting mechanism comprises two sliding grooves formed in the opposite side faces of the vertical plates, each sliding groove is internally and evenly connected with a sliding block in a sliding mode, and a connecting rod is horizontally and fixedly connected between each sliding block and the corresponding support block.

Further, many first bracing pieces of activity lateral wall level fixedly connected with, every the one end that the activity was kept away from to first bracing piece all runs through the fixed block lateral wall and extends outside the fixed block, every the one end that the activity was kept away from to first bracing piece all with support a fixed connection.

Further, the reservoir that corresponds with the mounting groove is seted up to the level in the fixed block, the reservoir has been kept away from and has been seted up the slave tank on the cell wall of mounting groove, and the sectional area of slave tank is less than the sectional area of reservoir, horizontal seal sliding connection has first piston plate in the reservoir, horizontal seal sliding connection has the second piston plate in the slave tank, many second branches of horizontal fixedly connected with between first piston plate and the fly leaf.

Further, the confined space intussuseption that first piston plate, second piston plate, reservoir cell wall and slave tank cell wall are constituteed is filled with hydraulic oil, second piston plate lateral wall fixed mounting has the conducting block, fixed being equipped with on the cell wall of slave tank with conducting block complex resistance board, the input electric connection of wire and electro-magnet is passed through to the one end of resistance board, the output electric connection of the one end of conducting block and external power source.

Further, transmission device includes the pivot of horizontal rotation installation from top to bottom between two risers, every equal fixed cover is equipped with the transmission roller in the pivot, two horizontal fixedly connected with and support the ash collecting bucket that the piece corresponds between the riser.

When the cloth tensioning device works, the tensioning state of the cloth can be timely adjusted no matter the cloth is loosened or over-tensioned, and the tensioning force applied to the cloth is always the same, so that yarn breakage of the cloth can be avoided, the cloth can be prevented from deviating, cold air can be blown to the cloth in a pulse mode, the cloth can be cooled in a heat dissipation mode, the cloth can be cleaned, and the cloth tensioning device is good in using effect.

Drawings

FIG. 1 is a schematic view of an appearance structure of a tension detecting device for textile fabric production according to the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is a schematic sectional structure view of a tension detecting device for textile fabric production according to the present invention;

FIG. 4 is a schematic view of an internal structure of a fixing block in the tension detecting device for textile fabric production according to the present invention;

FIG. 5 is an enlarged view at B in FIG. 3;

fig. 6 is a schematic view of an internal structure of a supporting block in the tension detecting device for textile fabric production according to the present invention.

In the figure: the device comprises a base plate 1, a vertical plate 2, a rotating shaft 3, a transmission roller 4, a dust collecting hopper 5, a sliding groove 6, a sliding block 7, a connecting rod 8, a supporting block 9, a fixed block 10, a mounting groove 11, a movable plate 12, a first permanent magnet 13, an electromagnet 14, a first support rod 15, a liquid storage tank 16, a first piston plate 17, a driven groove 18, a resistance plate 19, a second piston plate 20, a conductive block 21, an arc groove 22, a driven roller 23, a heat insulation groove 24, a second permanent magnet 25, a return spring 26, a cooling groove 27, a communicating pipe 28 and a second support rod 29.

Detailed Description

Referring to fig. 1, a tension detection device is used in textile fabric production, including base plate 1, two risers 2 of the vertical fixedly connected with of 1 up end symmetry of base plate, horizontal fixedly connected with fixed block 10 between two risers 2, slide through stop gear between two risers 2 and be equipped with to piece 9, be equipped with in the fixed block 10 with to piece 9 complex detection mechanism, be equipped with between two risers 2 and support piece 9 complex transmission mechanism, be equipped with cooling body in supporting piece 9.

Referring to fig. 2, the limiting mechanism comprises two sliding grooves 6 formed in the opposite side faces of the vertical plates 2, a sliding block 7 is connected in each sliding groove 6 in a sliding mode, and a connecting rod 8 is fixedly connected between each sliding block 7 and the abutting block 9 in a horizontal mode.

Referring to fig. 3 and 4, the detection mechanism includes a mounting groove 11 horizontally formed in the fixed block 10, a movable plate 12 is horizontally and movably connected in the mounting groove 11, an electromagnet 14 is fixedly connected to a wall of the mounting groove 11 away from the abutting block 9, a first permanent magnet 13 corresponding to the electromagnet 14 is fixedly arranged on the movable plate 12, magnetic poles of one side of the first permanent magnet 13 opposite to the electromagnet 14 are the same, that is, the first permanent magnet 13 and the electromagnet 14 are magnetically repelled, a plurality of first support rods 15 are horizontally and fixedly connected to a sidewall of the movable plate 12, one end of each first support rod 15 away from the movable plate 12 penetrates through the sidewall of the fixed block 10 and extends out of the fixed block 10, and one end of each first support rod 15 away from the movable plate 12 is fixedly connected to the abutting block 9;

horizontal flat-open is equipped with the reservoir 16 that corresponds with mounting groove 11 in the fixed block 10, the reservoir 16 has been kept away from and has been seted up driven tank 18 on the cell wall of mounting groove 11, and the sectional area of driven tank 18 is less than the sectional area of reservoir 16, horizontal sealing sliding connection has first piston plate 17 in the reservoir 16, horizontal sealing sliding connection has second piston plate 20 in the driven tank 18, many second branch 29 of horizontal fixedly connected with between first piston plate 17 and the fly leaf 12, and all seted up on fixed block 10 and the electro-magnet 14 with second branch 29 complex through-hole.

Referring to fig. 5, a sealed space formed by the first piston plate 17, the second piston plate 20, the tank wall of the liquid storage tank 16 and the tank wall of the driven tank 18 is filled with hydraulic oil, the side wall of the second piston plate 20 is fixedly provided with a conductive block 21, the tank wall of the driven tank 18 is fixedly provided with a resistance plate 19 matched with the conductive block 21, one end of the resistance plate 19 is electrically connected with the input end of the electromagnet 14 through a wire, one end of the conductive block 21 is electrically connected with the output end of an external power supply, the conductive block 21 and the resistance plate 19 are matched to be regarded as a sliding rheostat, so that the magnitude of current input into the electromagnet 14 by the external power supply can be controlled, the magnetic field strength of the electromagnet 14 can be adjusted, the magnitude of the magnetic repulsion force between the electromagnet 14 and the first permanent magnet 13 can be changed, and a galvanometer is installed in a circuit where the electromagnet 14 is located, so that a user can read by the galvanometer or the magnitude of cloth tension, intuitive and more elaborate.

Referring to fig. 6, the cooling mechanism includes an arc-shaped groove 22 formed in the side wall of the abutting block 9, a driven roller 23 is installed in the arc-shaped groove 22 in a sealed rotating manner, a plurality of heat insulation grooves 24 are evenly formed in the peripheral wall of the driven roller 23, a second permanent magnet 25 matched with the first permanent magnet 13 is elastically connected to the groove wall of each heat insulation groove 24 through a return spring 26, the side wall of each second permanent magnet 25 is in sealed sliding connection with the groove wall of the corresponding heat insulation groove 24, the magnetic poles of the second permanent magnet 25 on the opposite side of the first permanent magnet 13 are the same, that is, when the first permanent magnet 13 is opposite to the second permanent magnet 25, and the magnetic repulsion between the first permanent magnet 13 and the second permanent magnet 25 is always smaller than that between the first permanent magnet 13 and the electromagnet 14;

the supporting block 9 is internally provided with a cooling tank 27 corresponding to the arc-shaped groove 22, a plurality of communicating pipes 28 are uniformly inserted in the cooling tank 27, two ends of each communicating pipe 28 are respectively communicated with the groove wall of the arc-shaped groove 22 and the outside, and the cooling tank 27 is filled with cooling liquid.

Referring to fig. 1, transmission device includes pivot 3 of from top to bottom horizontal rotation installation between two risers 2, and all fixed cover is equipped with transmission roller 4 on every pivot 3, and the input of every pivot 3 all is connected with external power unit, and horizontal fixedly connected with and support the collection ash bucket 5 that piece 9 corresponds between two risers 2.

When the device is used, cloth penetrates through the two transmission rollers 4, the external power mechanism drives the rotating shaft 3 and the transmission rollers 4 to rotate, so that the cloth is transmitted, and under the action of magnetic repulsion force between the first permanent magnet 13 and the electromagnet 14, the first permanent magnet 13 drives the movable plate 12, the first support rod 15 and the abutting block 9 to abut against the cloth on the two transmission rollers 4, so that the cloth can be tensioned and subsequent tension detection is facilitated;

when the cloth is gradually loosened in the process of conveying, under the action of a magnetic repulsive force between the first permanent magnet block 13 and the electromagnet 14, the first permanent magnet block 13 drives the movable plate 12, the first supporting rod 15 and the abutting block 9 to be close to the cloth, so that the abutting block 9 always abuts against the cloth and the cloth is always kept tensioned, meanwhile, the movable plate 12 drives the first piston plate 17 to move in the liquid storage tank 16 towards the direction far away from the driven tank 18 through the second supporting rod 29, negative pressure is generated in the liquid storage tank 16, hydraulic oil in the driven tank 18 enters the liquid storage tank 16, and as the sectional area of the liquid storage tank 16 is larger than that of the driven tank 18, according to the geometrical knowledge, the moving distance of the first piston plate 17 in the liquid storage tank 16 is smaller than that of the second piston plate 20 in the driven tank 18, so that the moving distance of the movable plate 12 can be enlarged and the second piston plate 20 moves, the relative position between the conductive block 21 and the resistance plate 19 changes, the resistance in the circuit of the electromagnet 14 is reduced, the current is increased, the magnetic field intensity of the electromagnet 14 is increased, the magnetic repulsion between the first permanent magnet 13 and the electromagnet 14 is increased, when the cloth is gradually tensioned in the transmission process, the cloth drives the movable plate 12 to move towards the direction away from the cloth through the abutting block 9 and the first supporting rod 15, and the resistance in the circuit of the electromagnet 14 is increased, the current is reduced, the magnetic field intensity of the electromagnet 14 is weakened, and the magnetic repulsion between the first permanent magnet 13 and the electromagnet 14 is reduced, so that the tension force borne by the cloth is always the same when the cloth is loosened or over-tensioned, the yarn breakage of the cloth can be avoided, and the cloth can be prevented from deviating;

meanwhile, when the cloth is conveyed, because the acting force between the cloth and the abutting block 9 is relatively constant and the cloth and the abutting block 9 are always kept in an abutting state, the cloth can stably drive the driven roller 23 to rotate during the cloth transmission, when the notch of the heat insulation groove 24 on the driven roller 23 is opposite to the first permanent magnet 13, under the action of the magnetic repulsion force between the first permanent magnet 13 and the second permanent magnet 25, the second permanent magnet 25 moves towards the direction of compressing the corresponding return spring 26, the outside air enters the corresponding heat insulation groove 24 through the communicating pipe 28 and absorbs heat through the cooling liquid in the cooling groove 27, the temperature of the air in the heat insulation groove 24 is lower, because the peripheral wall of the driven roller 23 is in sealed sliding connection with the groove wall of the arc-shaped groove 22, along with the rotation of the driven roller 23, when the notch of the heat insulation groove 24 is opposite to the notch of the arc-shaped groove 22, the second permanent magnet 25 in the heat insulation groove 24 is quickly discharged out of the heat insulation groove 24 and blown to the cloth under the action of the elasticity of the corresponding return spring 26, therefore, the cloth can be cooled, the damage to the cloth caused by overhigh heat generated by friction between the cloth and the transmission roller 4 during the transmission of the cloth is avoided, and meanwhile, the pulse type blowing cold air to the cloth can blow off dust impurities on the back of the cloth and collect the dust by the dust collecting hopper 5, so that the cleanness of the cloth can be kept;

meanwhile, through the ammeter connected in series in the electromagnet 14 circuit, a worker can visually observe the tension of the cloth, and the use effect is good.

Claims

1. A tension detection device for textile fabric production comprises a base plate (1) and is characterized in that two vertical plates (2) are symmetrically and vertically fixedly connected to the upper end face of the base plate (1), a fixed block (10) is horizontally and fixedly connected between the two vertical plates (2), a supporting block (9) is arranged between the two vertical plates (2) in a sliding mode through a limiting mechanism, a detection mechanism matched with the supporting block (9) is arranged in the fixed block (10), a transmission mechanism matched with the supporting block (9) is arranged between the two vertical plates (2), a cooling mechanism is arranged in the supporting block (9), the detection mechanism comprises a mounting groove (11) horizontally formed in the fixed block (10), a movable plate (12) is movably connected to the water in the mounting groove (11), an electromagnet (14) is fixedly connected to the wall, far away from the supporting block (9), of the mounting groove (11), the movable plate (12) is fixedly provided with a first permanent magnet (13) corresponding to the electromagnet (14), the cooling mechanism comprises an arc-shaped groove (22) formed in the side wall of the abutting block (9), a driven roller (23) is installed in the arc-shaped groove (22) in a sealed and rotating mode, a plurality of heat insulation grooves (24) are uniformly formed in the peripheral wall of the driven roller (23), the groove wall of each heat insulation groove (24) is elastically connected with a second permanent magnet (25) matched with the first permanent magnet (13) through a reset spring (26), the side wall of each second permanent magnet (25) is in sealed sliding connection with the groove wall of the corresponding heat insulation groove (24), a cooling groove (27) corresponding to the arc-shaped groove (22) is formed in the abutting block (9), a plurality of communicating pipes (28) are uniformly inserted in the cooling groove (27), and two ends of each communicating pipe (28) are respectively communicated with the groove wall of the arc-shaped groove (22) and the outside, the cooling tank (27) is filled with cooling liquid.

2. The tension detection device for textile fabric production according to claim 1, wherein the limiting mechanism comprises two sliding grooves (6) formed in opposite side surfaces of two vertical plates (2), each sliding groove (6) is internally and slidably connected with a sliding block (7), and a connecting rod (8) is horizontally and fixedly connected between each sliding block (7) and each abutting block (9).

3. The tension detection device for textile fabric production according to claim 1, wherein a plurality of first support rods (15) are horizontally and fixedly connected to the side wall of the movable plate (12), one end of each first support rod (15) far away from the movable plate (12) penetrates through the side wall of the fixed block (10) and extends out of the fixed block (10), and one end of each first support rod (15) far away from the movable plate (12) is fixedly connected with the abutting block (9).

4. The tension detection device for textile fabric production according to claim 1, wherein a liquid storage tank (16) corresponding to the installation groove (11) is horizontally arranged in the fixed block (10), a driven tank (18) is arranged on a tank wall of the liquid storage tank (16) far away from the installation groove (11), the sectional area of the driven tank (18) is smaller than that of the liquid storage tank (16), a first piston plate (17) is horizontally and slidably connected in the liquid storage tank (16), a second piston plate (20) is horizontally and slidably connected in the driven tank (18), and a plurality of second support rods (29) are horizontally and fixedly connected between the first piston plate (17) and the movable plate (12).

5. The tension detection device for textile fabric production as recited in claim 4, wherein a sealed space formed by the first piston plate (17), the second piston plate (20), the tank wall of the liquid storage tank (16) and the tank wall of the driven tank (18) is filled with hydraulic oil, the side wall of the second piston plate (20) is fixedly provided with a conductive block (21), the tank wall of the driven tank (18) is fixedly provided with a resistance plate (19) matched with the conductive block (21), one end of the resistance plate (19) is electrically connected with the input end of the electromagnet (14) through a wire, and one end of the conductive block (21) is electrically connected with the output end of an external power supply.

6. The tension detection device for textile fabric production as claimed in claim 1, wherein the transmission mechanism comprises a rotating shaft (3) which is horizontally rotatably installed between two vertical plates (2) from top to bottom, each rotating shaft (3) is fixedly sleeved with a transmission roller (4), and two ash collection hoppers (5) which correspond to the abutting blocks (9) are horizontally and fixedly connected between the vertical plates (2).