CN210529264U - A heat setting stretcher for cloth textile production - Google Patents

Abstract

The utility model belongs to the technical field of auxiliary assembly is used in the cloth production, especially, relate to a heat setting stretcher for cloth textile production. The utility model discloses a set up the mode of heating lamp, cloth tensioning unit, lamp body installation unit and electromagnetic repulsion unit in the heating with the cavity, reach the effect that the heating lamp carries out comprehensive heating design to the cloth. The utility model has the advantages of the cloth tensile structure is reasonable effective, and tensile stability is high, and the cloth is got and is put the convenience, and the lamp slide adjusting that generates heat easy operation is convenient, degree of automation is high, and it is comprehensive to cover the heating design position of cloth to and the tensile effectual of cloth whole heat setting.

Description

A heat setting stretcher for cloth textile production

Technical Field

The utility model belongs to the technical field of auxiliary assembly is used in the cloth production, especially, relate to a heat setting stretcher for cloth textile production.

Background

The cloth generally will heat tensile operation at the rear end of textile production flow to make the cloth have stable shape, reach the design effect, avoid appearing the fold easily in subsequent use and contract back the scheduling problem, current heating tensile operation is generally realized through the fixed structure that struts in both ends of taking the heat lamp. On the other hand, the existing heating and stretching structure has the problems that the stability of the fixing structures at two ends of the cloth is poor, the difficulty in taking and placing the cloth is high, the position of a heating lamp is not adjustable, the heat setting is not uniform, and the heating degree of the peripheral cloth is not enough.

The patent publication No. CN206858841U, Chinese utility model with publication No. 2018.01.09, discloses a heat setting stretcher for producing fiber cloth, which comprises a working box and four groups of brackets, wherein the inner side wall of the working cavity is provided with a plurality of groups of heaters; the fixing device comprises two groups of front threaded pipes, two groups of front threaded rods, two groups of front clamping plates, two groups of rear threaded pipes, two groups of rear threaded rods and two groups of rear clamping plates, wherein front ball bearings are arranged in the two groups of front placing grooves, and rear ball bearings are arranged in the two groups of rear placing grooves; the device also comprises a supporting plate, a motor, a transmission shaft, two groups of struts and two groups of pulleys; the bottom side wall of the working cavity is provided with two groups of sliding grooves in the front and back directions and also comprises two groups of sliding blocks.

But the heat setting stretcher in the utility model has the problems of fixed heating position, uneven heating of cloth and poor whole heat setting effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a heat setting stretcher for cloth textile production, it can reach the effect that the heat lamp carries out comprehensive heat setting to the cloth through the mode that sets up heat lamp, cloth tensioning unit, lamp body installation unit and electromagnetic repulsion unit in the heating with the cavity, reaches the heat lamp. The utility model has the advantages of the cloth tensile structure is reasonable effective, and tensile stability is high, and the cloth is got and is put the convenience, and the lamp slide adjusting that generates heat easy operation is convenient, degree of automation is high, and it is comprehensive to cover the heating design position of cloth to and the tensile effectual of cloth whole heat setting.

The utility model provides a technical scheme that above-mentioned problem adopted is: the heat setting stretcher comprises a heating cavity, a heating lamp, two cloth tensioning units, a lamp body mounting unit and an electromagnetic repulsion unit, wherein the heating lamp is arranged in the heating cavity and used for irradiating and heating cloth, the two cloth tensioning units are respectively arranged on two inner sides of the heating cavity and used for clamping the cloth from two sides, the two ends of the lamp body mounting unit are arranged at the upper end parts of the two inner sides of the heating cavity and used for mounting the heating lamp and adjusting the sliding position, and the electromagnetic repulsion unit is arranged on the lamp body mounting unit and used for adjusting the heating lamp relative to the cloth heating position through magnetic repulsion and further pushing the lamp body mounting unit.

The further preferred technical scheme is as follows: the cloth tensioning unit comprises a first mounting column arranged on the inner side face of the heating cavity, a lower magnet block arranged on the first mounting column is sleeved with an opening, the upper surface of the lower magnet block is provided with an upper magnet block for clamping the cloth, and the lower magnet block is screwed on the first mounting column and is rotationally pushed towards two sides so as to tension the screw joint ring of the cloth.

The further preferred technical scheme is as follows: the lamp body installation unit comprises a second installation column, a sliding block and a permanent magnet ring, wherein two ends of the second installation column are arranged on the inner side face of the heating cavity, the sliding block is sleeved on the second installation column, the lower surface of the second installation column is provided with the heating lamp, and the permanent magnet ring is arranged on the side face of the sliding block and used for forming a repulsive magnetic field with the electromagnetic repulsion unit.

The further preferred technical scheme is as follows: the lamp body installation unit further comprises a fixing plate arranged on the second installation column and different from the position of one side of the electromagnetic repulsion unit, two ends of the fixing plate and two ends of the sliding block are respectively arranged on the fixing plate and the sliding block and used for pushing the jacking spring of the sliding block towards one side of the electromagnetic repulsion unit, and a first direct current dry battery arranged on the lower surface of the sliding block and used for supplying power to the heating lamp.

The further preferred technical scheme is as follows: the electromagnetic repulsion unit is including setting just be located on the second erection column electromagnet portion in the cavity is used in the heating sets up on the second erection column outside end lower surface and be used for to the second direct current dry battery of electromagnet portion power supply, and set up and be in on the second erection column outside end upper surface and through adjusting electric current size mode is in order to be used for adjusting in the electromagnet portion is right permanent magnet ring repulsion driving force size and then adjust the resistance adjustment portion of heating lamp heating position.

The further preferred technical scheme is as follows: the electromagnet part comprises an annular core body which is fixedly sleeved on the second mounting column, a spiral groove which is arranged on the outer annular surface of the annular core body, and a spiral coil which is wound on the spiral groove and is used for repelling and jacking the permanent magnet ring after being electrified, and the spiral coil is connected with the second direct current dry battery and the resistance adjusting part in series.

The further preferred technical scheme is as follows: resistance adjustment portion is including setting up articulated post on the second erection column upper surface, the articulated setting of one end is in the hang plate of articulated post upper end sets up conducting block on the hang plate expansion end, and set up on the second erection column and through conducting block vertical sliding contact electrically conductive mode is in order to be used for adjusting current size's conducting plate on the electro-magnet portion.

The further preferred technical scheme is as follows: resistance adjustment portion still including set up articulated shaft of articulated post with on the articulated mounting hole of hang plate and be used for the slope to fix the torsional spring of hang plate sets up on the hang plate lower surface and through being upwards jack-up and then adjust the conducting block is in contact electrically conductive position mode is in order to be used for adjusting on the current conducting plate the second direct current dry battery with the jack-up arc of resistance size between the electro-magnet portion sets up on the second mounting post upper surface and through with the current conducting plate grafting mounting means is in order to be used for vertical fixed two horizontal plug columns of current conducting plate to and cup joint the setting are in on the horizontal plug column and through the jack-up the current conducting plate mode is in order to be used for in close contact with the conducting block with the diolame insulating spring of current conducting plate.

The further preferred technical scheme is as follows: resistance adjustment portion still including set up on the second erection column upper surface and through with the arc face of jack-up arc pushes away the mode each other and is used for the interval jack-up the rotating fan blade of conducting block upwards, be used for driving rotating fan blade's gear motor, and to the third direct current dry battery of gear motor power supply.

The further preferred technical scheme is as follows: the resistance adjusting part further comprises a permanent magnet strip arranged on the lower surface of the inclined plate, a permanent magnet block arranged on the jacking arc plate and used for adjusting the minimum value of the contact resistance value of the conducting block and the conducting plate and an adjusting interval in a magnetic attraction and sliding mode on the permanent magnet strip, and an adjusting bolt which is screwed on the outer side end of the horizontal inserting column and used for adjusting the maximum value of the contact resistance value of the conducting block and the conducting plate and the adjusting interval in a horizontal position mode of the conducting plate through limiting and fixing.

The utility model discloses a set up the mode of heating lamp, cloth tensioning unit, lamp body installation unit and electromagnetic repulsion unit in the heating with the cavity, reach the effect that the heating lamp carries out comprehensive heating design to the cloth. The utility model has the advantages of the cloth tensile structure is reasonable effective, and tensile stability is high, and the cloth is got and is put the convenience, and the lamp slide adjusting that generates heat easy operation is convenient, degree of automation is high, and it is comprehensive to cover the heating design position of cloth to and the tensile effectual of cloth whole heat setting.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the position structure of the middle resistance adjusting portion of the present invention.

Fig. 3 is a schematic diagram of the position structure of the middle conductive block of the present invention.

Fig. 4 is a schematic diagram of the position structure of the middle conductive plate of the present invention.

Detailed Description

The following description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Example (b): as shown in fig. 1, 2, 3 and 4, a heat setting stretcher for fabric textile production includes a heating cavity 11, a heating lamp 13 disposed in the heating cavity 11 and used for irradiating a heated fabric 12, two fabric tensioning units 1 respectively disposed on two inner sides of the heating cavity 11 and used for clamping the fabric 12 from two sides, a lamp body mounting unit 2 having two ends disposed on the upper end portion of the two inner sides of the heating cavity 11 and used for mounting and adjusting the sliding position of the heating lamp 13, and an electromagnetic repulsion unit 3 disposed on the lamp body mounting unit 2 and used for adjusting the heating position of the heating lamp 13 relative to the fabric 12 by pushing the lamp body mounting unit 2 through magnetic repulsion.

In this embodiment, two cloth tensioning units 1 are used for effectively tensioning cloth 12, ensure that the cloth is stretched and is treated the effect of heating, and lamp body installation unit 2 itself has the effect that is used for heating lamp 13 sliding position adjusts, guarantees that heating lamp 13 is to cloth 12 has the advantage that the heating is comprehensive, the direct heating position covers thoroughly, makes the side of cloth 12 also can be heated, guarantees the comprehensive nature of thermoforming, and finally electromagnetic repulsion unit 3 with have repulsive magnetic field between lamp body installation unit 2, and repulsive magnetic force's size is adjustable, uses repulsive magnetic force to control the slip as drive power heating lamp 13, has avoided direct manual slip heating lamp 13's numerous and diverse operations, guarantees that the slip operation has degree of automation height, and lasts convenient advantage.

The cloth tensioning unit 1 includes a first mounting post 101 disposed on an inner side surface of the heating chamber 11, a lower magnet block 102 having an opening fitted to the first mounting post 101, an upper magnet block 103 for clamping the cloth 12 on an upper surface of the lower magnet block 102, and a screw ring 104 screwed to the first mounting post 101 and configured to tension the cloth 12 by rotationally pushing the lower magnet block 102 to both sides.

In this embodiment, the attraction clamping force between the lower magnet block 102 and the upper magnet block 103 ensures the fixing action of the two ends of the cloth 12, the screw ring 104 pushes the lower magnet block 102 towards the two sides, and finally the tensioning action is ensured, and the tensioning strength is sufficient and suitable to ensure the high efficiency of the heat setting operation.

The lamp body installation unit 2 comprises a second installation column 201, a sliding block 202 and a permanent magnet ring 203, wherein two ends of the second installation column 201 are arranged on the inner side surface of the heating cavity 11, the sliding block 202 is sleeved on the second installation column 201, the lower surface of the sliding block 202 is provided with the heating lamp 13, and the permanent magnet ring 203 is arranged on the side surface of the sliding block 202 and used for forming a repulsive magnetic field with the electromagnetic repulsion unit 3. The lamp body mounting unit 2 further includes a fixing plate 204 disposed at a position of the second mounting post 201 different from a position at which the electromagnetic repulsion unit 3 is disposed, a jacking spring 205 having both ends disposed on the fixing plate 204 and the sliding block 202, respectively, for pushing the sliding block 202 toward the electromagnetic repulsion unit 3, and a first dc dry battery 206 disposed on a lower surface of the sliding block 202 for supplying power to the heat generating lamp 13. The electromagnetic repulsion unit 3 is including setting up on the second erection column 201 and being located the electro-magnet portion 301 in the cavity 11 is used in the heating, set up on the second erection column 201 outside end lower surface and be used for to the second direct current dry battery 302 of electro-magnet portion 301 power supply, and set up on the second erection column 201 outside end upper surface and through adjusting electric current size mode is in order to be used for adjusting on the electro-magnet portion 301 is to permanent magnet ring 203 repels the driving force size and then adjusts the resistance adjustment portion 303 that the lamp 13 heats the position.

In this embodiment, the electromagnet portion 301 is energized to generate magnetism, and repels and pushes the permanent magnet ring 203, the repulsion force and the elastic force of the jacking spring 205 are compared, after the current of the electromagnet portion 301 is increased and the magnetic field strength is increased, the jacking spring 205 is compressed, the heating lamp 13 slides away from the electromagnetic repulsion unit 3 while heating, and otherwise slides close to the electromagnetic repulsion unit 3, so that the heating lamp 13 finally has a direct heating effect at all positions of the fabric 12.

The electromagnet part 301 comprises an annular core body 301a which is fixedly sleeved on the second mounting column 201, a spiral groove which is arranged on the outer annular surface of the annular core body 301a, and a solenoid coil 301c which is wound on the spiral groove and is used for repelling and jacking the permanent magnet ring 203 after being electrified, wherein the solenoid coil 301c is connected with the second direct current dry battery 302 and the resistance adjusting part 303 in series.

In this embodiment, the spiral coil 301c has an electromagnetic effect, and the spiral groove is only used for axially fixing the spiral coil 301c, so as to prevent the spiral coil 301c from sliding off the annular core 301 a.

The resistance adjusting part 303 includes a hinge column 303a disposed on the upper surface of the second mounting column 201, an inclined plate 303b having one end hinged to the upper end of the hinge column 303a, a conductive block 303c disposed on the movable end of the inclined plate 303b, and a conductive plate 303d disposed on the second mounting column 201 and vertically slidably contacting the conductive block 303c thereon for adjusting the magnitude of the current on the electromagnet part 301. The resistance adjusting part 303 further includes a torsion spring 303e disposed on the hinge shaft of the hinge post 303a and the hinge mounting hole of the inclined plate 303b for fixing the inclined plate 303b in an inclined manner, a jacking arc plate 303f disposed on the lower surface of the inclined plate 303b for adjusting the magnitude of resistance between the second dc dry battery 302 and the electromagnet part 301 by being jacked up and adjusting the conductive position on the conductive plate 303d by the conductive block 303c in a contact conductive manner, two horizontal plug posts 303g disposed on the upper surface of the second mounting post 201 for fixing the conductive plate 303d vertically by being plug-mounted with the conductive plate 303d, and an envelope insulating spring 303h which is sleeved on the horizontal plug column 303g and is used for closely contacting the conductive block 303c and the conductive plate 303d by jacking up the conductive plate 303 d. The resistance adjusting portion 303 further includes a rotating blade 303k provided on the upper surface of the second mounting post 201 and adapted to jack up the conductive piece 303c at intervals by being pushed against the arc surface of the jack-up arc plate 303f, a reduction motor 303m adapted to drive the rotating blade 303k, and a third dc dry battery 303n for supplying power to the reduction motor 303 m.

In this embodiment, the method for using the resistance adjusting part 303 and the advantages thereof are as follows:

firstly, a conducting wire is arranged on the conducting block 303c, a conducting wire is arranged at the upper end of the conducting plate 303d, when the conductive block 303c rotates upward and tilts, the effective resistance value of the conductive plate 303d connected to the circuit is increased, the current on the spiral coil 301c is increased, the repulsive magnetic field is increased, the heat lamp 13 is pushed to the side far away from the resistance adjusting part 303 to carry out the direct heating setting of the side, otherwise, the heat lamp 13 slides to the side of the resistance adjusting part 303 to carry out the direct heating setting of the side, and finally the comprehensiveness of the heat setting is ensured, therefore, the contact position between the conductive plate 303d and the conductive block 303c can be finally fed back to the heating position of the heating lamp 13, and the heating position in the heat setting stretcher is ensured to have multiple advantages of no need of touch adjustment, high automation degree and simple and convenient reciprocating adjustment;

secondly, in the rotating process of the rotating fan blade 303k, an arc end surface and the arc lower surface of the jacking arc-shaped plate 303f are mutually contacted and pushed, the rotating fan blade 303k rotates to cross the jacking arc-shaped plate 303f once, then the jacking arc-shaped plate 303f is finally connected with the conductive block 303c to be jacked upwards, one-time resistance value reduction operation is completed between the conductive plate 303d and the conductive block 303c, the conductive block 303d falls down by self weight and returns to the initial state with relatively large resistance value, the solenoid coil 301c is ensured to have a current and magnetic field increasing process, the repulsive magnetic force is increased in the process, the heating lamp 13 is sufficiently pushed, and one-time complete reciprocating motion of the heating lamp 13 is finally completed by matching with the jacking spring 205, so that the comprehensive performance of two sides of heat setting is ensured;

thirdly, the torsion spring 303e supports the inclined plate 303b in an inclined manner, so that a maximum resistance value is formed between the conductive plate 303d and the conductive block 303c, and after the jacking arc-shaped plate 303f is jacked up and then falls down, the resistance value is a process of firstly becoming smaller and then becoming larger, so that the permanent magnet ring 203 is pushed and repelled sufficiently;

fourthly, the enveloped insulation spring 303h is used for pressing the conductive plate 303d on the conductive block 303c, so that two effective contact conduction are ensured, and the problem of open circuit is avoided.

The resistance adjusting part 303 further comprises a permanent magnet strip 303p arranged on the lower surface of the inclined plate 303b, a permanent magnet block 303q arranged on the jacking arc-shaped plate 303f and used for adjusting the minimum contact resistance value of the conductive block 303c and the conductive plate 303d and the adjusting range in a magnetic attraction and sliding mode on the permanent magnet strip 303p, and an adjusting bolt 303r which is screwed on the outer side end of the horizontal inserting column 303g and used for adjusting the maximum contact resistance value of the conductive block 303c and the conductive plate 303d and the adjusting range in a mode of fixing and adjusting the horizontal position of the conductive plate 303d by limiting.

In this embodiment, the function of the solenoid 301c is to fully and suitably repel the permanent magnet ring 203, so that the propping spring 205 is compressed and rebounds again, and an effective direct heating and shaping effect is performed in the complete interval above the cloth 12, so that the magnitude of the current of the solenoid 301c and the duration under the magnitude of the current are the key of the repulsive thrust force, that is, the current is too large, the permanent magnet ring 203 easily collides with the annular core 301a after the propping spring 205 rebounds, and the reciprocating sliding length of the heat lamp 13 driven by the propping spring 205 is too short, so that the magnitude of the current and the retention time of the solenoid 301c are the key of the final reciprocating large-range heating and shaping of the heat lamp 13.

In this embodiment, when the permanent magnet block 303q slides on the permanent magnet bar 303p toward the hinge portion of the inclined plate 303b, the lifting arc-shaped plate 303f is lifted by the rotating fan blade 303k relatively early, the current on the solenoid 301c increases relatively early, the cycle of the reciprocation interval of the lifting spring 205 becomes short, and conversely, the solenoid 301c increases the current relatively late; after the adjusting bolt 303r presses the conductive plate 303d inward, the initial contact position of the conductive block 303c and the conductive plate 303d moves downward, the maximum resistance increases, the open-circuit linearity relatively early appears after jacking, the coil 301c loses the repulsive magnetic force relatively early, and the opposite is performed.

Finally, the jacking arc-shaped plate 303f and the adjusting bolt 303r are adjusted in two positions, and the final effect is to ensure that:

first, the heat lamp 13 is slid by both sides as long as possible without hitting the annular core 301a, but without excessively compressing the jack-up spring 205;

secondly, after one amplitude of vibration is finished, the heat lamp 13 immediately performs the next repelling jacking period along with the jacking spring 205, so that the two periods are prevented from having an interval, and the heat lamp 13 is prevented from being irradiated and heated for a long time in the middle for shaping;

thirdly, in the embodiment, in the reciprocating sliding process of the heating lamp 13, the cloth in the middle is inevitably heated and irradiated more for two sides, and this can be overlapped by multiple layers of cloth, the two sides of the upper layer of cloth are arranged by pulling wires, and the cloth is shorter and more concentrated in the middle more upward, so that the multiple layers of cloth are in a form of thick in the middle and thin at two sides, thereby conforming to the sliding heating effect and ensuring that all the cloth is heated sufficiently and suitably.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the appended claims.

Claims (10)

1. A heat setting stretcher for cloth textile production, includes cavity (11) for the heating, and set up in cavity (11) for the heating and be used for shining the heating lamp (13) that heats cloth (12), its characterized in that: the cloth heating device is characterized by further comprising two cloth tensioning units (1) which are respectively arranged on two inner side surfaces of the heating cavity (11) and used for clamping the cloth (12) from two sides, a lamp body mounting unit (2) of which two ends are arranged at the upper end parts of the two inner side surfaces of the heating cavity (11) and used for mounting the heating lamp (13) and adjusting the sliding position, and an electromagnetic repulsion unit (3) which is arranged on the lamp body mounting unit (2) and used for adjusting the heating position of the heating lamp (13) relative to the cloth (12) in a manner of pushing the lamp body mounting unit (2) through magnetic repulsion.

2. A heat-setting stretcher for textile production of cloth material according to claim 1, characterized in that: cloth tensioning unit (1) including setting up first erection column (101) on heating with cavity (11) medial surface, trompil cup joint the setting down magnet piece (102) on first erection column (101) is used for on magnet piece (102) upper surface presss from both sides tightly down last magnet piece (103) of cloth (12) and the spiro union setting is in on first erection column (101) and through rotatory propulsion to both sides down magnet piece (102) mode is in order to be used for the tensioning spiro union ring (104) of cloth (12).

3. A heat-setting stretcher for textile production of cloth material according to claim 1, characterized in that: the lamp body installation unit (2) comprises a second installation column (201) with two ends arranged on the inner side surface of the heating cavity (11), a sliding block (202) sleeved on the second installation column (201) and with the lower surface provided with the heating lamp (13), and a permanent magnet ring (203) arranged on the side surface of the sliding block (202) and used for forming a repulsive magnetic field with the electromagnetic repulsion unit (3).

4. A heat-setting stretcher for textile production of cloth according to claim 3, characterized in that: the lamp body mounting unit (2) further comprises a fixing plate (204) arranged at a position, different from the position where the electromagnetic repulsion unit (3) is arranged, of the second mounting column (201), a jacking spring (205) with two ends respectively arranged on the fixing plate (204) and the sliding block (202) and used for pushing the sliding block (202) towards one side of the electromagnetic repulsion unit (3), and a first direct current dry battery (206) arranged on the lower surface of the sliding block (202) and used for supplying power to the heating lamp (13).

5. A heat-setting stretcher for textile production of cloth according to claim 3, characterized in that: electromagnetic repulsion unit (3) is including setting up on second erection column (201) and be located electromagnet portion (301) in cavity (11) for the heating sets up on second erection column (201) outside end lower surface and be used for to second direct current dry battery (302) of electromagnet portion (301) power supply, and set up on second erection column (201) outside end upper surface and through adjusting electromagnet portion (301) current size mode is in order to be used for adjusting electromagnet portion (301) are right permanent magnet ring (203) repels the driving force size and then adjusts resistance adjustment portion (303) of heating lamp (13) heating position.

6. A heat-setting stretcher for textile production of cloth according to claim 5, characterized in that: the electromagnet part (301) comprises an annular core body (301 a) which is fixedly sleeved on the second mounting column (201), a spiral groove which is arranged on the outer annular surface of the annular core body (301 a), and a solenoid coil (301 c) which is wound on the spiral groove and is used for repelling and jacking the permanent magnet ring (203) after being electrified, wherein the solenoid coil (301 c) is connected with the second direct current dry battery (302) and the resistance adjusting part (303) in series.

7. A heat-setting stretcher for textile production of cloth according to claim 5, characterized in that: resistance adjustment portion (303) are including setting up articulated post (303 a) on second erection column (201) upper surface, and one end is articulated to be set up tilt plate (303 b) on articulated post (303 a), set up conductive block (303 c) on tilt plate (303 b) movable end, and set up on second erection column (201) and through conductive block (303 c) vertical sliding contact electrically conductive mode on it is used for adjusting current size's (303 d) on electro-magnet portion (301).

8. A heat-setting stretcher for textile production of cloth according to claim 7, characterized in that: the resistance adjusting part (303) further comprises a torsion spring (303 e) which is arranged on a hinge shaft of the hinge column (303 a) and a hinge mounting hole of the inclined plate (303 b) and used for obliquely fixing the inclined plate (303 b), a jacking arc plate (303 f) which is arranged on the lower surface of the inclined plate (303 b) and used for adjusting the contact and conduction position mode of the conductive block (303 c) on the conductive plate (303 d) so as to adjust the resistance between the second direct current dry battery (302) and the electromagnet part (301), two horizontal plug columns (303 g) which are arranged on the upper surface of the second mounting column (201) and used for vertically fixing the conductive plate (303 d) in a plug mounting mode with the conductive plate (303 d), and two horizontal plug columns (303 g) which are sleeved on the horizontal plug columns (303 g) and used for tightly contacting the conductive block (303 c) and the conductive plate (303 d) in a jack mode And an envelope insulating spring (303 h) for the conductive plate (303 d).

9. A heat-setting stretcher for textile production of cloth according to claim 8, characterized in that: the resistance adjusting part (303) further comprises a rotating fan blade (303 k) which is arranged on the upper surface of the second mounting column (201) and is used for jacking the conductive block (303 c) upwards at intervals in a mutual pushing mode with the arc-shaped surface of the jacking arc-shaped plate (303 f), a speed reducing motor (303 m) which is used for driving the rotating fan blade (303 k), and a third direct current dry battery (303 n) which supplies power to the speed reducing motor (303 m).

10. A heat-setting stretcher for textile production of cloth according to claim 9, characterized in that: the resistance adjusting part (303) further comprises a permanent magnet strip (303 p) arranged on the lower surface of the inclined plate (303 b), a permanent magnet block (303 q) arranged on the jacking arc-shaped plate (303 f) and used for adjusting the minimum value of the contact resistance value of the conductive block (303 c) and the conductive plate (303 d) and the adjusting interval in a magnetic attraction and sliding mode on the permanent magnet strip (303 p), and an adjusting bolt (303 r) which is screwed on the outer side end of the horizontal inserting column (303 g) and used for adjusting the maximum value of the contact resistance value of the conductive block (303 c) and the conductive plate (303 d) and the adjusting interval in a horizontal position mode of the conductive plate (303 d) through limiting and fixing.

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