CN114150461A - Processing device for high-temperature dyeing of polyester napped fabric - Google Patents

Abstract

The invention provides a processing device for high-temperature dyeing of polyester napped cloth, which comprises a workbench, a supporting component, a measuring mechanism, a slideway main support, a tool bit, a driving mechanism and a telescopic rod, wherein the workbench is provided with an opening. The measuring mechanism and the slide way are both arranged on the workbench, the main support is in sliding fit with the slide way, and the driving mechanism is in sliding fit with the top of the main support. This a processingequipment for washing napped cloth high temperature dyeing entirely, through workstation, supporting component, measuring mechanism, main support, tool bit, actuating mechanism and the telescopic link that sets up mutually support. The jean cloth grinding machine can perform a long-time and multi-position jean cloth grinding function. The use of personnel is greatly facilitated, and a plurality of ordered stripe-shaped broken holes can be polished. The large-area jean cloth is convenient for personnel to carry out large-area damage work on the large-area jean cloth.

Description

Processing device for high-temperature dyeing of polyester napped fabric

Technical Field

The invention relates to the technical field of textile equipment, in particular to a processing device for high-temperature dyeing of polyester napped cloth.

Background

Before the denim is subjected to high-temperature color cast, the denim needs to be subjected to hole breaking or destruction pretreatment. In the prior art, the jeans are usually damaged manually when the hole is broken. The damage mode has low efficiency and the problem that a large area cannot be damaged and polished. Certain inconvenience is caused to the use of denim for manufacturing other textiles such as curtains and the like.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a processing device for high-temperature dyeing of polyester napped cloth.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a processingequipment for washing napped cloth high temperature dyeing entirely, includes workstation, supporting component, measuring mechanism, slide main support, tool bit, actuating mechanism and telescopic link, the opening has been seted up to the workstation. The measuring mechanism and the slide way are both arranged on the workbench, the main support is in sliding fit with the slide way, and the driving mechanism is in sliding fit with the top of the main support. The telescopic rod is arranged at the bottom of the driving mechanism, and the tool bit is arranged at the movable end of the telescopic rod. The supporting component is hinged in the opening, and denim is clamped on the supporting component. And the measuring mechanism is in linkage connection with the driving mechanism.

Preferably, the measuring mechanism comprises a support, a linkage rod, an arc-shaped sliding block, a motor, an auxiliary rack, two sliding rods and a polishing mechanism. The support is hinged to the workbench, the auxiliary rack is in sliding fit with the top of the support, and the linkage rod is arranged at the bottom of the auxiliary rack. The motor is vertically arranged on the front face of the linkage rod, and the arc-shaped sliding block is arranged at the output end of the motor. One end of each of the two sliding rods is arranged on the arc-shaped sliding block, and the cutter head is arranged between the two sliding rods. The grinding mechanism is in sliding fit with the sliding rod.

Preferably, the device also comprises two gears, an auxiliary telescopic rod and a rack. The rack is arranged on the driving mechanism, one end of the auxiliary telescopic rod is pivoted on the auxiliary telescopic rod, and the other end of the auxiliary telescopic rod penetrates through the support and extends to the position near the rack. Two gears are respectively arranged at two ends of the auxiliary telescopic rod and are respectively meshed with the rack and the auxiliary rack. The tooth number of the rack is consistent with that of the auxiliary rack.

Preferably, the support assembly includes a rotating machine, a plurality of frames, and a housing. The rotating machine is arranged in the opening. The frames are hinged to each other through the housings, and one side of the frame is slidably fitted on a rotation end of the rotating machine. Part of the main body of the denim is in contact with two adjacent frames.

Preferably, the supporting component further comprises a plurality of triggering components, and the shell is provided with a slot. The tool bit corresponds to the slot, and the trigger assembly is arranged in the shell. The trigger assembly comprises an extrusion block, a spring, a connecting rod, a first supporting rod, a trigger switch, a two-way telescopic rod, a reflecting plate, a second supporting rod and an electromagnet. The extrusion block is arranged in the slot. One end of the connecting rod is connected with the extrusion block, and the other end of the connecting rod penetrates through the shell and extends into the shell. The spring is sleeved on the connecting rod positioned in the groove, and the first supporting rod is hinged with the second supporting rod. One end of the first support rod, far away from the second support rod, is hinged to the connecting rod, the reflecting plate is arranged at the bottom end of the second support rod, and the reflecting plate penetrates through the shells and extends to a position between the two shells. The bidirectional telescopic rod is transversely arranged between the first support rods, and the movable end of the bidirectional telescopic rod is connected with the hinged position of the first support rod and the second support rod. The electromagnet is arranged outside the shell, the trigger switch is arranged on the inner wall of the shell, and the trigger switch is connected with the electromagnet. The trigger switch corresponds to the movable end of the bidirectional telescopic rod.

Preferably, the measuring mechanism further comprises a connecting plate, a plurality of sensor bars, and a switch. The connecting plate sets up in the opening, the connecting plate openly is provided with a plurality of switches corresponding with a plurality of casings, and a plurality of sensor strip sets up on the connecting plate. The sensor strip corresponds to the reflecting plate at the bottom of the shell, and the linkage rod corresponds to the switch.

(III) advantageous effects

The invention provides a processing device for high-temperature dyeing of polyester napped cloth. The method has the following beneficial effects:

1. this a processingequipment for washing napped cloth high temperature dyeing entirely, through workstation, supporting component, measuring mechanism, main support, tool bit, actuating mechanism and the telescopic link that sets up mutually support. The jean cloth grinding machine can perform a long-time and multi-position jean cloth grinding function. The use of personnel is greatly facilitated, and a plurality of ordered stripe-shaped broken holes can be polished. The large-area jean cloth is convenient for personnel to carry out large-area damage work on the large-area jean cloth.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a fourth perspective view of the present invention;

FIG. 5 is a perspective view of a first partial member of the present invention;

fig. 6 is a perspective view of a second partial component of the present invention.

In the figure: 1 workbench, 2 grinding mechanisms, 3 telescopic rods, 4 sliding rods, 5 connecting plates, 6 linkage rods, 7 supports, 8 pairs of telescopic rods, 9 gears, 10 racks, 11 driving mechanisms, 12 main supports, 13 tool bits, 14 rotating machines, 15 denim, 16 pairs of racks, 17 motors, 18 switches, 19 sensor strips, 20 supporting components, 21 openings, 22 slideways, 23 measuring mechanisms, 24 arc-shaped sliding blocks, 25 frames, 26 shells, 27 triggering components, 28 extrusion blocks, 29 springs, 30 connecting rods, 31 support rods I, 32 triggering switches, 33 bidirectional telescopic rods, 34 reflecting plates, 35 support rods II, 36 electromagnets and 37 grooves.

Detailed Description

The embodiment of the invention provides a processing device for high-temperature dyeing of polyester napped cloth, which comprises a workbench 1, a supporting component 20, a measuring mechanism 23, a slideway 22, a main support 12, a tool bit 13, a driving mechanism 11 and a telescopic rod 3, wherein the workbench 1 is provided with an opening 21, as shown in figures 1-6. The measuring mechanism 23 and the slide way 22 are both arranged on the workbench 1, the main bracket 12 is in sliding fit with the slide way 22, and the driving mechanism 11 is in sliding fit with the top of the main bracket 12. The telescopic rod 3 is arranged at the bottom of the driving mechanism 11, and the cutter head 13 is arranged at the movable end of the telescopic rod 3. The supporting component 20 is hinged in the opening 21, and the denim 15 is clamped on the supporting component 20. The measuring mechanism 23 is linked with the driving mechanism 11.

The measuring mechanism 23 comprises a bracket 7, a linkage rod 6, an arc-shaped sliding block 24, a motor 17, an auxiliary rack 16, two sliding rods 4 and a grinding mechanism 2. The support 7 is hinged on the workbench 1, the auxiliary rack 16 is in sliding fit with the top of the support 7, and the linkage rod 6 is arranged at the bottom of the auxiliary rack 16. The motor 17 is vertically arranged on the front surface of the linkage rod 6, and the arc-shaped sliding block 24 is arranged at the output end of the motor 17. One end of each of the two sliding rods 4 is arranged on the arc-shaped sliding block 24, and the cutter head 13 is arranged between the two sliding rods 4. The grinding mechanism 2 is in sliding fit on the sliding rod 4.

The device also comprises two gears 9, an auxiliary telescopic rod 8 and a rack 10. The rack 10 is arranged on the driving mechanism 11, one end of the auxiliary telescopic rod 8 is pivoted on the auxiliary telescopic rod 8, and the other end of the auxiliary telescopic rod passes through the bracket 7 and extends to the vicinity of the rack 10. Two gears 9 are respectively arranged at two ends of the auxiliary telescopic rod 8, and the two gears 9 are respectively meshed with the rack 10 and the auxiliary rack 16. The number of teeth of the rack 10 and the secondary rack 16 is the same.

The support assembly 20 includes a rotor 14, a plurality of frames 25, and a housing 26. The rotary machine 14 is disposed in the opening 21. The plurality of frames 25 are hinged to each other by a plurality of housings 26, and one side of the frame 25 is slidably fitted on the rotation end of the rotation machine 14. Part of the body of the denim 15 is in contact with two adjacent frames 25.

The support assembly 20 further includes a plurality of trigger assemblies 27, and the housing 26 defines a slot 37. Cutting head 13 corresponds to slot 37 and trigger assembly 27 is disposed within housing 26. The trigger assembly 27 comprises an extrusion block 28, a spring 29, a connecting rod 30, a first support rod 31, a trigger switch 32, a two-way telescopic rod 33, a reflecting plate 34, a second support rod 35 and an electromagnet 36. The squeeze block 28 is disposed within the slot 37. A linkage 30 is connected at one end to the expression nub 28 and at the other end extends through the housing 26 and into the housing 26. The spring 29 is sleeved on the connecting rod 30 positioned in the slot 37, and the first support rod 31 is hinged with the second support rod 35. The end of the first strut 31 far away from the second strut 35 is hinged with the connecting rod 30, the reflecting plate 34 is arranged at the bottom end of the second strut 35, and the reflecting plate 34 penetrates through the shells 26 and extends between the two shells 26. The two-way telescopic rod 33 is transversely arranged between the first support rods 31, and the movable end of the two-way telescopic rod 33 is connected with the hinged part of the first support rods 31 and the second support rods 35. The electromagnet 36 is arranged outside the shell 26, the trigger switch 32 is arranged on the inner wall of the shell 26, and the trigger switch 32 is connected with the electromagnet 36. The trigger switch 32 corresponds to the movable end of the bi-directional telescopic rod 33.

Through the mutual cooperation of the extrusion block 28, the spring 29, the connecting rod 30, the first support rod 31, the trigger switch 32, the two-way telescopic rod 33, the reflecting plate 34, the second support rod 35 and the electromagnet 36, in the process of cutting denim by using the cutter head, the cutter point is used for physically triggering the jean cutting machine, and further, the jean cutting machine can open part of the electromagnet aiming at the cutting and polishing position to complete the electromagnetic adsorption of the polished and flying fibers, so that the jean cutting machine is high in pertinence and good in energy-saving effect. Compared with a sensor, the denim fabric is dry when necessary in the grinding process, and the cloth is dried when wet or the denim fabric is wetted, so that the cloth is ground when dry in the grinding process, and fiber cotton wool is splashed into the environment when the cloth is ground, and the sensitivity of the electronic sensor is seriously influenced.

The measuring mechanism 23 further comprises a connection plate 5, a plurality of sensor strips 19 and a switch 18. The connecting plate 5 is arranged in the opening 21, the front surface of the connecting plate 5 is provided with a plurality of switches 18 corresponding to a plurality of shells 26, and a plurality of sensor bars 19 are arranged on the connecting plate 5. The sensor bar 19 corresponds to a reflective plate 34 at the bottom of the housing 26, and the linkage rod 6 corresponds to the switch 18.

Through the mutual cooperation of the connecting plate 5, the plurality of sensor strips 19 and the switch 18, the sensor is arranged in the supporting component 20, the denim is wrapped outside the supporting component 20, so that the interior of the supporting component 20 is closed, and the grinding crack of the denim is required to have the requirement that transverse warp threads are not allowed to be broken, so that the cotton wool in the environment in the supporting component 20 is less. Meanwhile, the problem of how to independently judge the cutting position of the polishing mechanism can be solved. Is convenient for people to use.

The working principle is as follows: in use, the denim 15 is first placed on the support member 20 and then compressed and fixed by compressing the frames 25. Meanwhile, the position of the denim 15 to be polished is attached to the shell 26, the polishing mechanism 2 is inserted into the groove 37 through controlling the telescopic rod 3 to cut the denim 15, then the driving mechanism 11 is driven to enable the rack 10 to move, then the gear 9 and the auxiliary rack 16 are driven to rotate, and the linkage rod 6 is driven to move synchronously. At this time, the control linkage rod 6 turns on the switch 18 corresponding to the cutter head 13, at this time, the corresponding sensor strip 19 is started, then the blade of the cutter head 13 extrudes the extrusion block 28, the control trigger switch 32 turns on the electromagnet 36 and enables the reflection plate 34 to move downwards. The sensor bar 19 detects the position coordinates of the plurality of reflection plates 34 moving down at this time, and then controls the grinding mechanism 2 to move to this position on the slide bar 4. The grinding mechanism 2 grinds while controlling the motor 17 to allow the grinding mechanism 2 to move laterally.

To sum up, this a processingequipment for washing napped cloth high temperature dyeing entirely, through workstation 1, supporting component 20, measuring mechanism 23, main support 12, tool bit 13, actuating mechanism 11 and the telescopic link 3 that sets up mutually support. The jean cloth grinding machine can perform a long-time and multi-position jean cloth grinding function. The use of personnel is greatly facilitated, and a plurality of ordered stripe-shaped broken holes can be polished. The large-area jean cloth is convenient for personnel to carry out large-area damage work on the large-area jean cloth.

Claims (6)

1. The utility model provides a processingequipment that is used for washing napped cloth high temperature dyeing which characterized in that: including workstation (1), supporting component (20), measuring mechanism (23), slide (22) main support (12), tool bit (13), actuating mechanism (11) and telescopic link (3), opening (21) have been seted up in workstation (1), measuring mechanism (23) and slide (22) all set up on workstation (1), main support (12) sliding fit is at slide (22), actuating mechanism (11) sliding fit is on the top of main support (12), telescopic link (3) set up the bottom in actuating mechanism (11), tool bit (13) set up on the activity of telescopic link (3) is served, supporting component (20) articulate in opening (21), the centre gripping has denim (15) on supporting component (20), measuring mechanism (23) are connected with actuating mechanism (11) linkage.

2. The processing device for high-temperature dyeing of polyester napped fabric according to claim 1, characterized in that: measuring mechanism (23) includes support (7), gangbar (6), arc slider (24), motor (17), vice rack (16), two slide bars (4) and grinding machanism (2), support (7) articulates on workstation (1), vice rack (16) sliding fit is at the top of support (7), gangbar (6) set up the bottom at vice rack (16), motor (17) set up perpendicularly on the front of gangbar (6), arc slider (24) set up the output at motor (17), and the one end setting of two slide bars (4) is on arc slider (24), tool bit (13) set up between two slide bars (4), grinding machanism (2) sliding fit is on slide bar (4).

3. The processing device for high-temperature dyeing of polyester napped fabric according to claim 2, characterized in that: still include two gear (9), vice telescopic link (8) and rack (10), rack (10) set up on actuating mechanism (11), vice telescopic link (8) one end pin joint is on vice telescopic link (8), and the other end passes support (7) and extends to near rack (10), and two gear (9) set up respectively at vice telescopic link (8) both ends, and two gear (9) mesh with rack (10) and vice rack (16) respectively, the number of teeth of rack (10) and vice rack (16) is unanimous.

4. The processing device for high-temperature dyeing of polyester napped fabric according to claim 3, characterized in that: the supporting assembly (20) comprises a rotating machine (14), a plurality of frames (25) and shells (26), the rotating machine (14) is arranged in the opening (21), the frames (25) are hinged with each other through the shells (26), one side of each frame (25) is in sliding fit with the rotating end of the rotating machine (14), and part of the main body of the denim (15) is in contact with two adjacent frames (25).

5. The processing device for high-temperature dyeing of polyester napped fabric according to claim 4, characterized in that: the supporting component (20) further comprises a plurality of trigger components (27), a groove (37) is formed in the shell (26), the tool bit (13) corresponds to the groove (37), the trigger components (27) are arranged in the shell (26), each trigger component (27) comprises an extrusion block (28), a spring (29), a connecting rod (30), a first support rod (31), a trigger switch (32), a two-way telescopic rod (33), a reflecting plate (34), a second support rod (35) and an electromagnet (36), the extrusion block (28) is arranged in the groove (37), one end of the connecting rod (30) is connected with the extrusion block (28), the other end of the connecting rod penetrates through the shell (26) and extends into the shell (26), the spring (29) is sleeved on the connecting rod (30) located in the groove (37), the first support rod (31) is hinged with the second support rod (35), one end, far away from the second support rod (35), of the first support rod (31) is hinged with the connecting rod (30), reflecting plate (34) sets up the bottom at branch two (35), reflecting plate (34) pass casing (26) and extend to between two casings (26), two-way telescopic link (33) transversely set up between branch one (31), the expansion end of two-way telescopic link (33) links to each other with the articulated department of branch one (31) and branch two (35), electro-magnet (36) set up outside casing (26), trigger switch (32) set up on casing (26) inner wall, trigger switch (32) link to each other with electro-magnet (36), trigger switch (32) are corresponding with the expansion end of two-way telescopic link (33).

6. The processing device for high-temperature dyeing of polyester napped fabric according to claim 5, characterized in that: the measuring mechanism (23) further comprises a connecting plate (5), a plurality of sensor strips (19) and switches (18), the connecting plate (5) is arranged in the opening (21), the front face of the connecting plate (5) is provided with a plurality of switches (18) corresponding to the plurality of shells (26), the plurality of sensor strips (19) are arranged on the connecting plate (5), the sensor strips (19) correspond to the reflecting plates (34) at the bottoms of the shells (26), and the linkage rod (6) corresponds to the switches (18).

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