CN113026267B

CN113026267B - Dyeing apparatus is used in jeans production

Info

Publication number: CN113026267B
Application number: CN202110283302.4A
Authority: CN
Inventors: 陈富华
Original assignee: Ganzhou Huizhiyuan Garment Co ltd
Current assignee: Ganzhou Huizhiyuan Garment Co ltd
Priority date: 2021-03-17
Filing date: 2021-03-17
Publication date: 2023-06-16
Anticipated expiration: 2041-03-17
Also published as: CN113026267A

Abstract

The invention relates to a dyeing device, in particular to a dyeing device for jeans production. The invention provides a dyeing device for jeans production, which can be used for rapidly dyeing jeans, simultaneously can be used for dyeing jeans while rotating, effectively improves the jeans dyeing efficiency, and can be used for shaking and separating dyes on the dyed jeans, thereby reducing the labor intensity of workers. Dyeing apparatus is used in jeans production, including: the first support rods are arranged on two sides of the underframe; the rotating frame is rotatably arranged on the underframe; the feeding mechanism is connected between the two first support rods and the underframe; the feeding mechanism is provided with a pushing mechanism in a sliding manner; the clamping blocks are arranged on two sides of the lower part of the pressing mechanism. According to the jeans dyeing machine, the feeding mechanism is arranged and matched with the pressing mechanism, so that undyed jeans and dyed jeans can be conveyed in sequence.

Description

Dyeing apparatus is used in jeans production

Technical Field

The invention relates to a dyeing device, in particular to a dyeing device for jeans production.

Background

The jeans are close-fitting jeans which are taken as one of fashionable clothes, the jeans are very wide in application range, no matter how people of any age are, more or less jeans are arranged, and because the jeans are soft in cloth and can effectively show human lines in cutting and style, many people like the clothes, the jeans can be divided into elasticity and inelastic, most of the jeans are cut in a fit mode, the jeans can perfectly show lower body lines, no matter what cloth is used, before promotion, manufacturers need to dye the jeans, and the traditional dyeing mode generally needs to dye the jeans while rotating dyes manually, and meanwhile, a great amount of time and labor force of workers can be consumed, so that the dyeing efficiency of the jeans is reduced.

Therefore, in order to solve the above-mentioned problems in the prior art, it is needed to design a dyeing apparatus for jeans production, which can dye jeans rapidly, simultaneously dye jeans while rotating, effectively improve jeans dyeing efficiency, and separate dyes on dyed jeans in a shaking manner, so as to reduce labor intensity of workers.

Disclosure of Invention

In order to overcome the defect that the traditional dyeing mode generally needs workers to dye jeans while rotating the dye manually, and simultaneously consumes a great deal of time and labor force, thereby reducing the dyeing efficiency of jeans, the technical problems are as follows: the jeans production dyeing device can be used for rapidly dyeing jeans, meanwhile, jeans can be dyed while rotating, the jeans dyeing efficiency is effectively improved, and dyes on the dyed jeans can be separated in a shaking mode, so that the labor intensity of workers can be relieved.

The technical proposal is as follows: dyeing apparatus is used in jeans production, including:

the first support rods are arranged on two sides of the underframe;

the rotating frame is rotatably arranged on the underframe;

the feeding mechanism is connected between the two first support rods and the underframe;

the feeding mechanism is provided with a pushing mechanism in a sliding manner;

the clamping blocks are arranged on two sides of the lower part of the pressing mechanism.

Preferably, the feeding mechanism comprises:

the first support frame is arranged on the underframe, and the two first support rods are fixedly connected with the upper part of the first support frame;

the motor is arranged on the underframe;

the motor output shaft is provided with a first rotating shaft;

the pushing rod is arranged on the first support frame in a sliding manner;

the screw is rotationally connected between the two sides of the first support frame and is in threaded connection with the pushing rod;

the first transmission assembly is connected between the screw and the first rotating shaft and consists of two first belt pulleys and a first belt, one first belt pulley is connected with the screw, the other first belt pulley is connected with the first rotating shaft, and the first belt is wound between the two first belt pulleys.

Preferably, the pressing mechanism includes:

the pushing rod is provided with a first lower pressing frame in a sliding manner;

the lower part of the first lower pressing frame is provided with a first sliding sleeve;

the first sliding rods are arranged on two sides of the first sliding sleeve in a sliding mode, and clamping blocks are arranged on the two first sliding rods;

the first sliding rod is sleeved with a first spring, and two ends of the first spring are respectively connected to the clamping block and the first sliding sleeve;

the two sides of the first lower pressing frame are sleeved with the second springs, and two ends of the second springs are respectively connected to the pushing rod and the first lower pressing frame;

the second support frame is arranged at the upper part of the first support frame;

the cylinder is arranged on the second support frame;

the extrusion block is arranged on the cylinder telescopic rod and is matched with the first lower pressing frame.

Preferably, the device also comprises a reciprocating mechanism, and the reciprocating mechanism comprises:

the second rotating shaft is rotatably arranged on the underframe;

the second transmission assembly is connected between the lower side of the second rotating shaft and the lower side of the rotating frame and consists of two second belt pulleys and a second belt, one second belt pulley is connected to the lower side of the second rotating shaft, the other second belt pulley is connected to the lower side of the rotating frame, and the second belt is wound between the two second belt pulleys;

the lower part of the second support frame is provided with a shaft sleeve;

the shaft sleeve is rotatably provided with a third rotating shaft;

the bevel gear set is connected between the upper sides of the third rotating shaft and the second rotating shaft;

the third rotating shaft is provided with a directional gear;

the second support frame is provided with a rack in a sliding mode, and the rack is meshed with the directional gear;

the second sliding rod is arranged at the lower part of the second supporting frame and is connected with the rack in a sliding way;

the second sliding rod is sleeved with a third spring, and two ends of the third spring are respectively connected to the second sliding rod and the rack;

the lower pressing block is arranged on the upper portion of the first lower pressing frame and is matched with the rack.

Preferably, the screening device further comprises a screening mechanism, and the screening mechanism comprises:

the two sides of the first support frame are symmetrically provided with the third sliding rods, and the number of the third sliding rods is four;

the four third sliding rods are provided with second sliding sleeves in a sliding manner, and the number of the second sliding sleeves is four;

the screening frames are connected among the four second sliding sleeves;

the third sliding rod is sleeved with a fourth spring, and two ends of the fourth spring are respectively connected to the first support frame and the second sliding sleeve;

and a material receiving frame is connected between the underframe and the first supporting frame.

Preferably, the automatic feeding device further comprises a feeding mechanism, wherein the feeding mechanism comprises:

the first wedge-shaped block is arranged on the first sliding rod;

the fixed block is arranged on the first support frame;

the lower part of the fixed block is provided with a second wedge block which is matched with the first wedge block.

Preferably, the device further comprises an auxiliary mechanism, and the auxiliary mechanism comprises:

the pushing rod is provided with a first lug;

a connecting block is connected between the two second sliding sleeves;

the connecting block is provided with a second pressing frame;

the second bump is arranged on the second pressing frame and is matched with the first bump.

Preferably, the fourth spring is made of alloy steel.

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

1. according to the jeans dyeing machine, the feeding mechanism is arranged and matched with the pressing mechanism, so that undyed jeans and dyed jeans can be conveyed in sequence;

2. the dyed jeans can be fed at intervals by matching the feeding mechanism with the feeding mechanism;

3. the dye on the jeans can be separated again through the matching of the screening mechanism and the auxiliary mechanism, so that the dyeing efficiency of the jeans is effectively improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a feeding mechanism according to the present invention.

Fig. 3 is a schematic perspective view of a pressing mechanism according to the present invention.

Fig. 4 is a schematic perspective view of the reciprocating mechanism of the present invention.

Fig. 5 is a schematic perspective view of a screening mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a blanking mechanism of the present invention.

Fig. 7 is a schematic perspective view of an auxiliary mechanism of the present invention.

Part names and serial numbers in the figure: 1_chassis, 2_first support bar, 3_rotating frame, 4_clamp block, 5_feeding mechanism, 51_first support frame, 52_motor, 53_first spindle, 54_first drive assembly, 55_screw, 56_push bar, 6_hold down mechanism, 61_first spring, 62_first slide bar, 63_first slide bushing, 64_second spring, 65_first hold down frame, 66_extrusion block, 67_cylinder, 68_second support frame, 7_reciprocating mechanism, 71_second drive assembly, 72_second spindle, 73_cone gear set, 74_third spindle, 75_sleeve, 76_directional gear, 77_rack, 78_third spring, 79_second slide bar, 710_hold down block, 8_screening mechanism, 81_third slide bar, 82_fourth spring, 83_second slide bushing, 84_screening frame, 85_receiving frame, 9_blanking mechanism, 91_first wedge block, 92_fixed block, 93_second block, 10_first auxiliary wedge block, 103_first and 101_second lug, 102_lug, and second lug.

Detailed Description

The technical scheme of the invention is further described below with reference to the accompanying drawings.

Example 1

The utility model provides a dyeing apparatus is used in jeans production, as shown in fig. 1-3, including chassis 1, first bracing piece 2, rotatory frame 3, clamp splice 4, feeding mechanism 5 and pushing down mechanism 6, chassis 1 rear portion left and right sides all is equipped with first bracing piece 2, and chassis 1 rear portion rotation is equipped with rotatory frame 3, is connected with feeding mechanism 5 between two first bracing pieces 2 and chassis 1, and the last slidingtype of feeding mechanism 5 is equipped with pushing down mechanism 6, and pushing down mechanism 6 lower part left and right sides all is equipped with clamp splice 4.

The jeans are clamped by a worker through the clamping blocks 4, the dye is poured into the rotating frame 3 by the worker, then the feeding mechanism 5 is started, the pressing mechanism 6 is driven by the feeding mechanism 5 to operate, the pressing mechanism 6 drives the clamping blocks 4 to operate, so that the jeans are conveyed to the upper portion of the rotating frame 3, the pressing mechanism 6 is started at the moment, the jeans are driven to dye in the rotating frame 3 by the movement of the pressing mechanism 6, the conveying and dyeing of the jeans can be stopped by closing the feeding mechanism 5 and the pressing mechanism 6, and the jeans can be dyed by repeating the operations again by the worker.

The feeding mechanism 5 comprises a first supporting frame 51, a motor 52, a first rotating shaft 53, a first transmission assembly 54, a screw 55 and a pushing rod 56, wherein the first supporting frame 51 is arranged on the underframe 1, two first supporting rods 2 are fixedly connected with the rear side of the upper portion of the first supporting frame 51, the motor 52 is arranged on the right side of the rear portion of the underframe 1, the first rotating shaft 53 is arranged on an output shaft of the motor 52, the pushing rod 56 is arranged on the first supporting frame 51 in a sliding mode, the screw 55 is connected between the front side and the rear side of the right portion of the first supporting frame 51 in a rotating mode, the screw 55 is connected with the pushing rod 56 in a threaded mode, the first transmission assembly 54 is connected between the rear side of the screw 55 and the rear side of the first rotating shaft 53, the first transmission assembly 54 consists of two first belt pulleys and a first belt, one first belt pulley is connected to the rear side of the screw 55, the other first belt pulley is connected to the rear side of the first rotating shaft 53, and the first belt is wound between the two first belt pulleys.

When the jeans are required to be transported, a worker starts the motor 52, the output shaft of the motor 52 rotates to drive the first rotating shaft 53 to rotate, thereby driving the first transmission component 54 to rotate, and then driving the screw 55 to rotate, and then driving the push rod 56 to move backwards, and then the pushing mechanism 6 moves backwards to drive the clamping block 4 to move backwards, thereby driving the jeans to move backwards to above the rotating frame 3, at this moment, the pushing mechanism 6 operates to drive the jeans to dye in the rotating frame 3, after the dyeing is completed, the worker controls the motor 52 to rotate reversely, thereby driving the first rotating shaft 53, the first transmission component 54 and the screw 55 to rotate reversely, and then driving the push rod 56 to move forwards to reset, and then driving the dyed jeans to move forwards to reset, and the worker can take down the jeans after the dyeing is completed, and when the jeans are transported, the motor 52 is turned off.

The pushing mechanism 6 comprises a first spring 61, a first sliding rod 62, a first sliding sleeve 63, a second spring 64, a first pushing frame 65, a pressing block 66, an air cylinder 67 and a second supporting frame 68, wherein the pushing rod 56 is provided with the first pushing frame 65 in a sliding mode, the lower portion of the first pushing frame 65 is provided with the first sliding sleeve 63, the left side and the right side of the first sliding sleeve 63 are provided with the first sliding rod 62 in a sliding mode, the two first sliding rods 62 are provided with clamping blocks 4, the first sliding rod 62 is sleeved with the first spring 61, two ends of the first spring 61 are respectively connected to the clamping blocks 4 and the first sliding sleeve 63, the left side and the right side of the first pushing frame 65 are respectively sleeved with the second spring 64, two ends of the second spring 64 are respectively connected to the pushing rod 56 and the first pushing frame 65, the rear side of the upper portion of the first supporting frame 51 is provided with the second supporting frame 68, the air cylinder 67 is mounted on the second supporting frame 68, the air cylinder 67 is provided with the pressing block 66 on a telescopic rod, and the pressing block 66 is matched with the first pushing frame 65.

When it is necessary to dye jeans, the worker first pushes the clamping block 4 to move outwards, thereby driving the first sliding rod 62 to move outwards, the first spring 61 is compressed, when the gap between the clamping blocks 4 is larger, the worker puts jeans between the gaps of the clamping blocks 4, then quickly releases the clamping block 4 to reset the first spring 61, thereby driving the clamping block 4 and the first sliding rod 62 to move inwards to reset, the jeans are clamped by the reset of the inward movement of the clamping block 4, when the pushing rod 56 moves backwards, the pushing rod 56 moves backwards to drive the first spring 61, the first sliding rod 62, the first sliding sleeve 63, the second spring 64, the first pressing frame 65 and the clamping block 4 to move backwards, the clamping block 4 moves backwards to move backwards to above the rotating frame 3, at this time, the worker starts the air cylinder 67, when the telescopic rod of the air cylinder 67 stretches, the telescopic rod of the air cylinder 67 moves downwards to drive the pressing block 66 to move downwards to contact with the first pressing frame 65, thereby driving the first pressing frame 65 to move downwards, the second spring 64 is compressed, and then the first spring 61, the first sliding rod 62, the first sliding sleeve 63 and the clamping block 4 are driven to move downwards, the clamping block 4 drives jeans to move downwards to be in contact with the rotating frame 3, so that the rotating frame 3 can dye the jeans, when the telescopic rod of the air cylinder 67 contracts, the telescopic rod of the air cylinder 67 drives the extrusion block 66 to move upwards to reset and not to be in contact with the first pressing frame 65, so that the second spring 64 resets, the second spring 64 drives the first pressing frame 65 to move upwards to reset, thereby driving the first spring 61, the first sliding rod 62, the first sliding sleeve 63 and the clamping block 4 to move upwards to reset, the clamping block 4 moves upwards to reset the jeans after dyeing is completed to move upwards, then a worker closes the air cylinder 67, when the screw 55 rotates reversely, the screw 55 drives the push rod 56, the first spring 61, the first sliding rod 62, the first sliding sleeve 63, the second spring 64, the first pressing frame 65 and the clamping block 4 to move forwards for resetting, so that the dyed jeans are driven to move forwards for resetting, and then a worker can take down the dyed jeans.

Example 2

In a preferred embodiment of the present invention, as shown in fig. 1 and fig. 4-7, the present invention further comprises a reciprocating mechanism 7, the reciprocating mechanism 7 comprises a second transmission assembly 71, a second rotation shaft 72, a bevel gear set 73, a third rotation shaft 74, a shaft sleeve 75, a directional gear 76, a rack 77, a third spring 78, a second sliding rod 79 and a lower pressing block 710, the second rotation shaft 72 is rotatably arranged at the upper rear part of the chassis 1, the second transmission assembly 71 is connected between the lower side of the second rotation shaft 72 and the lower side of the rotating frame 3, the second transmission assembly 71 is composed of two second pulleys and a second belt, one second pulley is connected at the lower side of the second rotation shaft 72, the other second pulley is connected at the lower side of the rotating frame 3, the second belt is wound between the two second pulleys, the lower side of the second supporting frame 68 is provided with the shaft sleeve 75, the third rotation shaft 74 is rotatably arranged at the upper side of the shaft sleeve 75, the directional gear 76 is rotatably arranged at the front side of the third rotation shaft 74, the second supporting frame 68 is slidably arranged at the lower side of the third rotation shaft 74, the lower side of the second sliding rod 79 is slidably arranged with the lower side of the second rotation shaft 72, the second supporting frame 77 is slidably arranged at the lower side of the third rotation shaft 79 is slidably arranged at the lower side of the third rotation shaft 78, the lower side of the lower supporting rod 79 is slidably arranged at the lower side of the third rotation shaft 79, the lower side of the third rotation shaft 79 is slidably arranged at the lower side of the lower support 78, the lower side of the lower support 79 is slidably arranged at the lower side of the third sliding rod 79 is slidably arranged at the lower side of the lower than the support 78, and the lower side of the lower support is respectively, and the lower than the lower side of the lower support 78 is slidably arranged at the lower side of the lower rod is, and is slidably connected at the lower than, and is, as shown in the lower, and is shown in the best.

When the first lower pressing frame 65 moves downwards, the first lower pressing frame 65 moves downwards to drive the lower pressing block 710 and jeans to move downwards, jeans move downwards into the rotating frame 3, meanwhile, the rack 77 is driven to move downwards, the third spring 78 is compressed, the rack 77 is meshed with the directional gear 76, the directional gear 76 drives the third rotating shaft 74 to rotate, the bevel gear set 73 is driven to rotate, the second rotating shaft 72 is driven to rotate, the second transmission assembly 71 is driven to rotate, the rotating frame 3 is driven to rotate, jeans are dyed while the rotating frame 3 rotates, jeans are fully contacted with dye, the jeans dyeing efficiency is effectively improved, when the first lower pressing frame 65 moves upwards to reset, the first lower pressing frame 65 drives the lower pressing block 710 and jeans to move upwards to reset, the lower pressing block 710 does not contact with the rack 77, the third spring 78 resets to drive the rack 77 to move upwards to reset, the rack 77 is meshed with the directional gear 76, and the directional gear 76 is enabled to idle, and the rotating frame 3 can stop rotating.

Still including screening mechanism 8, screening mechanism 8 is including third slide bar 81, fourth spring 82, second sliding sleeve 83, screening frame 84 and receipts material frame 85, the equal fore-and-aft symmetry in first support frame 51 anterior left and right sides is equipped with third slide bar 81, third slide bar 81 quantity is four, all slidingtype be equipped with second sliding sleeve 83 on the four third slide bars 81, second sliding sleeve 83 quantity is four, be connected with screening frame 84 between four second sliding sleeves 83, the cover is equipped with fourth spring 82 on the third sliding bar 81, the both ends of fourth spring 82 are connected respectively on first support frame 51 and second sliding sleeve 83, be connected with receipts material frame 85 between chassis 1 front side and the first support frame 51 front side.

When the clamping block 4 moves forwards, the clamping block 4 moves forwards to above the screening frame 84, at this time, the dyed jeans are located above the screening frame 84, then the first sliding rod 62 on the right side of the push rod of a worker moves rightwards, so that the right side of the clamping block 4 is driven to move rightwards, the first springs 61 on the right side are compressed, the clamping block 4 temporarily cannot clamp the dyed jeans, the dyed jeans fall onto the screening frame 84 to shake, the worker releases the first sliding rod 62 on the right side to reset the first springs 61 on the right side, so that the first sliding rod 62 on the right side and the clamping block 4 on the right side are driven to move leftwards, the fourth springs 82 are driven to be compressed due to the gravity of the dyed jeans, so that the second sliding sleeve 83 is driven to move downwards, the screening frame 84 is driven to move downwards, the dyed jeans are driven to move downwards, the dye dropped on the jeans is enabled to flow onto the material collecting frame 85 through the screening frame 84, then the dyed jeans are taken out by the worker, and the fourth springs 82 reset to drive the second sliding sleeve 83 and the jeans to move leftwards.

The blanking mechanism 9 comprises a first wedge-shaped block 91, a fixed block 92 and a second wedge-shaped block 93, wherein the right side of the first sliding rod 62 on the right side is provided with the first wedge-shaped block 91, the right side of the upper front part of the first supporting frame 51 is provided with the fixed block 92, the rear side of the lower part of the fixed block 92 is provided with the second wedge-shaped block 93, and the second wedge-shaped block 93 is matched with the first wedge-shaped block 91.

When the first sliding rod 62 moves forwards, the first sliding rod 62 moves forwards to drive the first wedge block 91 to move forwards until the first wedge block 91 contacts with the second wedge block 93, so that the first wedge block 91 is driven to move rightwards, the first sliding rod 62 on the right side and the clamping block 4 on the right side are driven to move rightwards, the first spring 61 on the right side is compressed, the clamping block 4 can not clamp dyed jeans temporarily, the dyed jeans can fall onto the screening frame 84 to shake, dye on the jeans is separated, when the first sliding rod 62 moves backwards, the first sliding rod 62 moves backwards to drive the first wedge block 91 to move backwards until the first wedge block 91 does not contact with the second wedge block 93, and the first spring 61 on the right side is reset, so that the first sliding rod 62 and the clamping block 4 are driven to move leftwards to reset, and the dyed jeans are discharged.

The auxiliary mechanism 10 comprises a first bump 101, a second bump 102, a second pressing frame 103 and a connecting block 104, wherein the first bump 101 is arranged on the left side of the push rod 56, the connecting block 104 is connected between the two second sliding sleeves 83 on the left side, the second pressing frame 103 is arranged on the connecting block 104, the second bump 102 is arranged on the second pressing frame 103, and the second bump 102 is matched with the first bump 101.

When the push rod 56 moves forward, the push rod 56 moves forward to drive the first lug 101 to move forward to be in contact with the second lug 102, so that the second lug 102 is extruded to shake downwards, the second pressing frame 103 and the connecting block 104 are driven to shake downwards, the screening frame 84 is driven to shake downwards, the fourth spring 82 is compressed, when the push rod 56 moves backward, the push rod 56 moves backward to drive the first lug 101 to move backward to be not in contact with the second lug 102, the fourth spring 82 resets to drive the screening frame 84, the connecting block 104, the second pressing frame 103 and the second lug 102 to shake upwards, and the dye on jeans can be separated again by shaking the screening frame 84 up and down, so that the dyeing efficiency of jeans is effectively improved.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims

1. Dyeing apparatus is used in jeans production, characterized in that includes:

the device comprises a bottom frame (1) and first support rods (2), wherein the first support rods (2) are arranged on the left side and the right side of the upper rear part of the bottom frame (1);

the rotating frame (3) is rotatably arranged on the underframe (1);

the feeding mechanism (5) is connected between the two first support rods (2) and the underframe (1);

the pushing mechanism (6) is arranged on the feeding mechanism (5) in a sliding manner, and the pushing mechanism (6) is arranged on the feeding mechanism (5);

the left side and the right side of the lower part of the pressing mechanism (6) are provided with clamping blocks (4);

the feeding mechanism (5) comprises:

the first support frame (51) is arranged on the underframe (1), and the two first support rods (2) are fixedly connected with the upper part of the first support frame (51);

a motor (52), the motor (52) is arranged on the underframe (1);

a first rotating shaft (53), and a first rotating shaft (53) is arranged on an output shaft of the motor (52);

a pushing rod (56), wherein the pushing rod (56) is arranged on the first supporting frame (51) in a sliding manner;

the screw (55) is rotationally connected between the front side and the rear side of the right part of the first support frame (51), and the screw (55) is in threaded connection with the pushing rod (56);

the first transmission assembly (54) is connected between the screw (55) and the first rotating shaft (53), the first transmission assembly (54) is composed of two first belt pulleys and a first belt, one first belt pulley is connected with the screw (55), the other first belt pulley is connected with the first rotating shaft (53), and the first belt is wound between the two first belt pulleys;

the pushing mechanism (6) comprises:

the first lower pressing frame (65) is arranged on the pushing rod (56) in a sliding manner, and the first lower pressing frame (65) is arranged on the pushing rod;

the lower part of the first lower pressing frame (65) is provided with a first sliding sleeve (63);

the first sliding rods (62) are arranged on the left side and the right side of the first sliding sleeve (63) in a sliding mode, the first sliding rods (62) are arranged on the left side and the right side of the first sliding sleeve (63), and clamping blocks (4) are arranged on the two first sliding rods (62);

the first spring (61) is sleeved on the first sliding rod (62), and two ends of the first spring (61) are respectively connected to the clamping block (4) and the first sliding sleeve (63);

the second springs (64) are sleeved on the left side and the right side of the first lower pressing frame (65), and two ends of each second spring (64) are respectively connected to the pushing rod (56) and the first lower pressing frame (65);

the second support frame (68) is arranged at the upper part of the first support frame (51);

the air cylinder (67) is arranged on the second supporting frame (68);

the extrusion block (66) is arranged on the telescopic rod of the air cylinder (67), and the extrusion block (66) is matched with the first lower pressing frame (65);

the device also comprises a reciprocating mechanism (7), and the reciprocating mechanism (7) comprises:

a second rotating shaft (72), wherein the second rotating shaft (72) is rotatably arranged on the underframe (1);

the second transmission assembly (71) is connected between the lower side of the second rotating shaft (72) and the lower side of the rotating frame (3), the second transmission assembly (71) consists of two second belt pulleys and a second belt, one second belt pulley is connected to the lower side of the second rotating shaft (72), the other second belt pulley is connected to the lower side of the rotating frame (3), and the second belt is wound between the two second belt pulleys;

a shaft sleeve (75), wherein the shaft sleeve (75) is arranged at the lower part of the second support frame (68);

a third rotating shaft (74), wherein the shaft sleeve (75) is rotatably provided with the third rotating shaft (74);

a bevel gear set (73), wherein a bevel gear set (73) is connected between the third rotating shaft (74) and the upper side of the second rotating shaft (72);

a directional gear (76), wherein the directional gear (76) is arranged on the third rotating shaft (74);

a rack (77), wherein the second support frame (68) is provided with a rack (77) in a sliding manner, and the rack (77) is meshed with the directional gear (76);

the second sliding rod (79) is arranged at the lower part of the second supporting frame (68), and the second sliding rod (79) is connected with the rack (77) in a sliding way;

the third spring (78), the second sliding rod (79) is sleeved with the third spring (78), and two ends of the third spring (78) are respectively connected to the second sliding rod (79) and the rack (77);

the lower pressing block (710), the upper portion of the first lower pressing frame (65) is provided with the lower pressing block (710), and the lower pressing block (710) is matched with the rack (77).

2. Dyeing apparatus for jeans production according to claim 1, characterized in that it further comprises a screening means (8), the screening means (8) comprising:

the left side and the right side of the front part of the first support frame (51) are symmetrically provided with the third sliding rods (81), and the number of the third sliding rods (81) is four;

the second sliding sleeves (83) are arranged on the four third sliding rods (81) in a sliding mode, and the number of the second sliding sleeves (83) is four;

the screening frames (84) are connected among the four second sliding sleeves (83);

the fourth spring (82), the third sliding rod (81) is sleeved with the fourth spring (82), and two ends of the fourth spring (82) are respectively connected to the first support frame (51) and the second sliding sleeve (83);

and a material receiving frame (85) is connected between the underframe (1) and the first supporting frame (51).

3. Dyeing apparatus for jeans production according to claim 2, characterized in that it further comprises a blanking mechanism (9), the blanking mechanism (9) comprising:

the first wedge-shaped block (91) is arranged on the first sliding rod (62);

a fixed block (92), wherein the fixed block (92) is arranged on the first supporting frame (51);

the second wedge-shaped block (93), fixed block (92) lower part is equipped with second wedge-shaped block (93), and second wedge-shaped block (93) cooperates with first wedge-shaped block (91).

4. A dyeing apparatus for jeans production according to claim 3, characterized in that it further comprises an auxiliary mechanism (10), the auxiliary mechanism (10) comprising:

a first bump (101), the push rod (56) is provided with the first bump (101);

a connecting block (104), wherein the connecting block (104) is connected between the two second sliding sleeves (83);

the connecting block (104) is provided with a second pressing frame (103);

the second lug (102) is arranged on the second pressing frame (103), and the second lug (102) is matched with the first lug (101).

5. Dyeing apparatus for jeans production according to claim 4, characterized in that the fourth spring (82) is made of alloy steel.