CN112962252B - Drying equipment for textile after textile dyeing for textile processing - Google Patents

Abstract

The invention relates to a drying device, in particular to a drying device for dyed textiles for textile processing. The invention aims to solve the technical problems that: provided is a drying device for textile processing after dyeing, which can realize automatic conveying and drying. The drying equipment for textile products after dyeing for textile processing comprises a bottom plate and a supporting frame, wherein the supporting frame is uniformly arranged on the bottom plate; the oven assembly is arranged between the support frames; and a conveying mechanism is arranged between the bottom plate and the oven assembly. Through the cooperation between oven subassembly, transport mechanism and the dyestuff collection mechanism, can realize drying the fabrics after dyeing, can collect the pigment of dripping simultaneously.

Description

Drying equipment for textile after textile dyeing for textile processing

Technical Field

The invention relates to a drying device, in particular to a drying device for dyed textiles for textile processing.

Background

Textiles with various colors appear on the market at present, the textiles are formed through dyeing, the pure colors before dyeing are mostly white, the society is developing, people are pursuing fashion, and the requirements on colors are higher.

The traditional dyeing method comprises the steps of dyeing textiles by adopting a machine, drying the textiles after dyeing, and then processing the textiles in the next step, wherein the textiles are dried by using a fan, the drying effect is poor, and the textiles are easy to vignette, so that the dyeing is uneven, and the drying equipment for the textiles for textile processing, which can realize automatic conveying and drying, is developed.

Disclosure of Invention

In order to overcome the defects that the existing textile drying method only uses a fan to dry the textile, the drying effect is poor, the textile is easy to vignette and the dyeing is uneven, the technical problem of the invention is that: provided is a drying device for textile processing after dyeing, which can realize automatic conveying and drying.

The technical implementation scheme of the invention is as follows: a drying apparatus for textile processing after dyeing of textiles comprising:

the device comprises a bottom plate and a supporting frame, wherein the supporting frame is uniformly arranged on the bottom plate;

the oven assembly is arranged between the support frames;

and a conveying mechanism is arranged between the bottom plate and the oven assembly.

More preferably, the oven assembly comprises:

the shell is connected between the supporting frames;

the first fixing frame is arranged on one side in the shell;

heating pipes are arranged on two sides of the first fixing frame;

and a controller is arranged between one side of the shell and the heating pipe.

More preferably, the transportation mechanism comprises:

the second fixing frames are symmetrically arranged on two sides of the bottom plate;

the two transmission shafts are rotationally connected between the longitudinal second fixing frames;

the transmission belt groups are arranged on two sides between transmission shafts on the same transverse side and are connected with the shell in a rotating mode;

the opposite gear set is connected between one sides of the transmission shafts on the left side;

a transmission gear is arranged on one side of the transmission shaft on the left lower side;

the shaft sleeve frame is arranged on one side of the bottom plate and is positioned on one side of the placing frame;

the upper part of the shaft sleeve frame is rotationally connected with an output shaft of the servo motor;

the output shaft of the servo motor is provided with a sector gear which is meshed with the transmission gear.

More preferably, the dye collecting device further comprises a dye collecting mechanism, wherein the dye collecting mechanism comprises:

the bottom of the shell is provided with a guide box;

the guide frames are arranged on two sides of the bottom of the guide box;

the sliding bottom supporting plates are connected between the guide frames in a sliding manner;

the first return springs are arranged between the two sides of the rear part of the sliding bottom supporting plate and the guide frame;

the hand pull rod is arranged on one side of the sliding bottom support plate.

More preferably, the device further comprises a heat preservation mechanism, and the heat preservation mechanism comprises:

the two sides of the shell are symmetrically provided with the limiting frames;

the sliding baffle is connected with the two sides between the longitudinal limiting frames in a sliding manner;

the first connecting rods are connected to two sides between the tops of the sliding baffles at the upper side;

the second return springs are arranged between the bottom of the first connecting rod and the shell;

the second connecting rod is connected between the bottoms of the sliding baffles at the lower side;

the two fourth return springs are arranged between the top of the second connecting rod and the shell;

the front parts of the sliding baffles on the right side of the connecting frames are respectively provided with a connecting frame;

the push rods are rotatably connected to one side of the connecting frame;

the middle of one side of the shell is provided with a guide seat;

the sliding connecting shaft is connected with the sliding connecting shaft in a sliding manner on the guide seat, and the sliding connecting shaft is connected with the push rod in a rotating manner.

More preferably, the device further comprises a linkage mechanism, and the linkage mechanism comprises:

the servo motor output shaft is provided with a fan-shaped ejector block;

a guide rail frame is arranged on one side of the shell;

the guide rail frame is connected with the sliding block in a sliding way;

the pushing block is arranged on one side of the sliding block;

the fixed seat is arranged at the lower part of one side of the shell;

a third reset spring is connected between one side of the pushing block and the fixed seat;

and a push rod is arranged between one side of the push block and the sliding connecting shaft.

More preferably, the heat dissipation assembly further comprises a heat dissipation assembly, wherein the heat dissipation assembly comprises:

the mounting seat is arranged in the middle of the top of the shell;

the blower is arranged on one side of the mounting seat;

the conveying pipe is arranged at the right upper part of the shell and is connected with the blower;

the fixed ring frame is arranged on the inner top wall of one side of the shell;

the spray heads are arranged on the fixed ring frames and are connected with the conveying pipes.

More preferably, the nozzle is made of iron.

Compared with the prior art, the invention has the following advantages: 1. through the cooperation between oven subassembly, transport mechanism and the dyestuff collection mechanism, can realize drying the fabrics after dyeing, can collect the pigment of dripping simultaneously.

2. Through the cooperation between heat preservation mechanism and the link gear, can realize when the material is dried, keep warm the stoving, can improve drying efficiency like this.

3. Through the cooperation of radiator unit, can constantly dispel the heat to the material, avoid equipment high temperature damage.

Drawings

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

Fig. 2 is a cross-sectional view of an oven assembly of the present invention.

Fig. 3 is a schematic perspective view of the transport mechanism of the present invention.

FIG. 4 is a schematic perspective view of the dye collecting mechanism of the present invention.

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

Fig. 6 is a schematic perspective view of a linkage mechanism according to the present invention.

Fig. 7 is a schematic perspective view of a heat dissipating assembly according to the present invention.

The marks of the components in the drawings are as follows: 1. bottom plate, 2, support frame, 3, oven assembly, 31, housing, 32, first mount, 33, heating pipe, 34, controller, 4, transport mechanism, 41, second mount, 42, transport belt set, 43, drive shaft, 44, counter gear set, 45, drive gear, 46, rack, 47, servo motor, 48, bushing mount, 49, sector gear, 5, dye collection mechanism, 51, guide box, 52, guide mount, 53, sliding bottom plate, 54, first return spring, 55, hand lever, 6, thermal insulation mechanism, 61, limit mount, 62, sliding baffle, 63, first connecting rod, 64, second return spring, 65, second connecting rod, 66, fourth return spring, 67, connecting frame, 68, push rod, 69, guide mount, 610, sliding connecting shaft, 7, linkage, 71, sector jack, 72, guide rail mount, 73, slide, 74, push block, 75, third return spring, 76, fixed mount, 77, push rod, 8, heat dissipation assembly, 81, mount, 82, 83, transport pipe, 84, shower head, fixed frame, blower.

Detailed Description

The following description of the technical solutions in the embodiments of the present invention will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The drying equipment for textile dyeing for textile processing comprises a bottom plate 1, a support frame 2, an oven assembly 3 and a conveying mechanism 4, wherein the support frame 2 is uniformly arranged on the bottom plate 1, the oven assembly 3 is arranged between the support frames 2, and the conveying mechanism 4 is arranged between the bottom plate 1 and the oven assembly 3.

The oven assembly 3 comprises a shell 31, a first fixing frame 32, heating pipes 33 and a controller 34, wherein the shell 31 is connected between the supporting frames 2, the first fixing frame 32 is arranged on the left side in the shell 31, the heating pipes 33 are arranged on the upper side and the lower side of the first fixing frame 32, and the controller 34 is arranged between the upper left side of the shell 31 and the heating pipes 33.

The conveying mechanism 4 comprises a second fixing frame 41, a transmission belt group 42, a transmission shaft 43, a counter gear group 44, a transmission gear 45, a placement frame 46, a servo motor 47, a shaft sleeve frame 48 and a sector gear 49, wherein the second fixing frame 41 is symmetrically arranged on the left side and the right side of the bottom plate 1, two transmission shafts 43 are rotatably connected between the longitudinal second fixing frames 41, the transmission belt group 42 is rotatably connected between the transmission shafts 43 on the same transverse side, the counter gear group 44 is connected between the transmission belt group 42 and the rear side of the transmission shaft 43 on the left side, the transmission gear 45 is arranged on the front side of the transmission shaft 43 on the lower left side, the placement frame 46 and the shaft sleeve frame 48 are arranged on the rear side of the placement frame 46, the servo motor 47 is arranged on the upper portion of the shaft sleeve frame 48 and rotatably connected with an output shaft of the servo motor 47, the sector gear 49 is arranged on the rear side of the output shaft of the servo motor 47, and the sector gear 49 is meshed with the transmission gear 45.

When people need to dry dyed textiles, firstly, materials are placed between the transmission shafts 43, the controller 34 is started, the heating pipe 33 is heated, the servo motor 47 is started, the output shaft of the servo motor 47 rotates to drive the sector gear 49 to rotate, when the sector gear 49 is meshed with the transmission gear 45, the transmission shaft 43, the opposite gear set 44 and the transmission belt set 42 are driven to rotate, the materials are conveyed rightwards, when the sector gear 49 is separated from the transmission gear 45, the materials stop moving, and accordingly the materials can be dried, and when the dyeing machine is not used, the servo motor 47 and the controller 34 are closed.

Example 2

On the basis of embodiment 1, as shown in fig. 4-7, the dye collecting mechanism 5 is further included, the dye collecting mechanism 5 comprises a guide box 51, a guide frame 52, a sliding bottom plate 53, a first reset spring 54 and a hand pull rod 55, the bottom of the shell 31 is provided with the guide box 51, the left side and the right side of the bottom of the guide box 51 are respectively provided with the guide frame 52, the guide frames 52 are slidably connected with the sliding bottom plate 53, the first reset springs 54 are respectively arranged between the left side and the right side of the rear part of the sliding bottom plate 53 and the guide frame 52, and the hand pull rod 55 is arranged in the middle of the rear part of the sliding bottom plate 53.

In the stoving process, there is unnecessary pigment to drop downwards, and slip collet board 53 stops the pigment, and when needs are retrieved the pigment and are collected, place the collecting vessel in slip collet board 53 below, then manual with hand pull rod 55 back removal, drive slip collet board 53 back removal, first reset spring 54 is compressed, pigment then flows out like this, can collect it like this, loose the hand after accomplishing, under the effect of first reset spring 54, drive slip collet board 53 and hand pull rod 55 removal and reset.

The heat preservation mechanism 6 comprises a limit frame 61, a sliding baffle 62, a first connecting rod 63, a second return spring 64, a second connecting rod 65, a fourth return spring 66, a connecting frame 67, a push rod 68, guide seats 69 and a sliding connecting shaft 610, wherein the limit frame 61 is symmetrically arranged on the left side and the right side of the shell 31, the sliding baffle 62 is connected on the upper side and the lower side of the longitudinal limit frame 61 in a sliding manner, the first connecting rod 63 is connected on the front side and the rear side of the top of the upper side sliding baffle 62, two second return springs 64 are arranged between the bottom of the first connecting rod 63 and the shell 31, the second connecting rod 65 is connected between the bottom of the sliding baffle 62 on the lower side, two fourth return springs 66 are arranged between the top of the second connecting rod 65 and the shell 31, the connecting frame 67 is arranged on the front of the right side of the sliding baffle 62, the push rod 68 is connected in a rotating manner, the guide seats 69 are arranged in the middle of the front side of the shell 31, the sliding connecting shaft 610 is connected on the guide seats 69 in a sliding manner, and the sliding connecting shaft 610 is connected in a rotating manner between the sliding connecting shaft 610 and the push rod 68.

When the material is moved rightward, people can move the first connecting rod 63 upward to drive the upper sliding baffle 62 to move upward, the second return spring 64 is stretched, the push rod 68 drives the sliding connecting shaft 610 to move rightward, the second connecting rod 65 and the lower sliding baffle 62 move downward, the fourth return spring 66 is stretched, the material cannot be influenced to move rightward, when the material stops moving, hands are loosened, under the action of the second return spring 64 and the fourth return spring 66, the first connecting rod 63 and the second connecting rod 65 are driven to move and reset, the sliding baffle 62 is further caused to move and reset, the shell 31 is closed, and accordingly drying efficiency can be improved.

The linkage mechanism 7 comprises a fan-shaped ejector block 71, a guide rail frame 72, a sliding block 73, a pushing block 74, a third reset spring 75, a fixed seat 76 and a push rod 77, wherein the fan-shaped ejector block 71 is arranged on an output shaft of the servo motor 47, the guide rail frame 72 is arranged on the left front side of the shell 31, the sliding block 73 is connected onto the guide rail frame 72 in a sliding mode, the pushing block 74 is arranged on the front side of the sliding block 73, the fixed seat 76 is arranged on the lower portion of the left front side of the shell 31, the third reset spring 75 is connected between the right side of the pushing block 74 and the fixed seat 76, and the push rod 77 is arranged between the right side of the pushing block 74 and the sliding connecting shaft 610.

The output shaft of the servo motor 47 rotates to drive the sector top block 71 to rotate, when the sector top block 71 extrudes the pushing block 74, the transmission gear 45 and the sector gear 49 are just meshed, the material is moved rightwards, at the moment, the sector top block 71 enables the pushing block 74, the sliding block 73, the ejector rod 77 and the sliding connecting shaft 610 to move rightwards, the third reset spring 75 is compressed, the sliding baffle plate 62 is further opened, when the sector top block 71 is far away from the pushing block 74, the transmission gear 45 and the sector gear 49 are just separated, the material stops moving, and under the action of the third reset spring 75, the pushing block 74, the sliding block 73, the ejector rod 77 and the sliding connecting shaft 610 are driven to move leftwards to reset, and then the sliding baffle plate 62 is closed.

The heat dissipation device comprises a shell 31, and is characterized by further comprising a heat dissipation assembly 8, wherein the heat dissipation assembly 8 comprises a mounting seat 81, a blower 82, conveying pipes 83, spray heads 84 and fixed ring frames 85, the middle of the top of the shell 31 is provided with the mounting seat 81, the right side of the mounting seat 81 is provided with the blower 82, the right upper part of the shell 31 is provided with the conveying pipes 83, the conveying pipes 83 are connected with the blower 82, the right inner top wall of the shell 31 is provided with four fixed ring frames 85, the fixed ring frames 85 are respectively provided with the spray heads 84, and the spray heads 84 are connected with the conveying pipes 83.

The blower 82 may be turned on, and the blower 82 may discharge air from the nozzle 84 through the duct 83, so that the air dissipates heat from the dried material, and the blower 82 may be turned off when not in use.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (2)

1. The drying equipment after textile dyeing for textile processing is characterized by comprising:

the device comprises a bottom plate (1) and a supporting frame (2), wherein the supporting frame (2) is uniformly arranged on the bottom plate (1);

the oven assembly (3) is arranged between the support frames (2);

the conveying mechanism (4) is arranged between the bottom plate (1) and the oven assembly (3); the oven subassembly (3) is including:

a shell (31), wherein the shell (31) is connected between the supporting frames (2);

a first fixing frame (32), wherein one side in the shell (31) is provided with the first fixing frame (32);

heating pipes (33), wherein the heating pipes (33) are arranged on two sides of the first fixing frame (32);

a controller (34), wherein the controller (34) is arranged between one side of the shell (31) and the heating pipe (33); the transport mechanism (4) comprises:

the second fixing frames (41) are symmetrically arranged on two sides of the bottom plate (1);

the transmission shafts (43), two transmission shafts (43) are rotatably connected between the longitudinal second fixing frames (41);

the transmission belt groups (42) are arranged on two sides between transmission shafts (43) on the same lateral side, and the transmission belt groups (42) are rotationally connected with the shell (31);

a counter gear set (44), wherein the counter gear set (44) is connected between one sides of the transmission shafts (43) on the left side;

a transmission gear (45), wherein one side of a transmission shaft (43) at the left lower side is provided with the transmission gear (45);

a shaft sleeve frame (48), a placing frame (46) and a shaft sleeve frame (48) are arranged on one side of the bottom plate (1), and the shaft sleeve frame (48) is positioned on one side of the placing frame (46);

a servo motor (47), wherein the servo motor (47) is arranged on the placement frame (46), and the upper part of the shaft sleeve frame (48) is rotationally connected with an output shaft of the servo motor (47);

a sector gear (49), wherein the output shaft of the servo motor (47) is provided with the sector gear (49), and the sector gear (49) is meshed with the transmission gear (45); the dye collecting device also comprises a dye collecting mechanism (5), wherein the dye collecting mechanism (5) comprises:

the bottom of the shell (31) is provided with a guide box (51);

the guide frames (52) are arranged on two sides of the bottom of the guide box (51);

a sliding bottom supporting plate (53), wherein the sliding bottom supporting plate (53) is connected between the guide frames (52) in a sliding manner;

the first return springs (54) are arranged between the two sides of the rear part of the sliding bottom plate (53) and the guide frame (52);

a hand pull rod (55), wherein a hand pull rod (55) is arranged at one side of the sliding bottom plate (53); the device also comprises a heat preservation mechanism (6), wherein the heat preservation mechanism (6) comprises:

the limiting frames (61) are symmetrically arranged on two sides of the shell (31);

the sliding baffles (62) are connected with the sliding baffles (62) in a sliding manner at two sides between the longitudinal limiting frames (61);

the first connecting rods (63) are connected to the two sides between the tops of the sliding baffles (62) on the upper side;

the second return springs (64) are arranged between the bottom of the first connecting rod (63) and the shell (31);

the second connecting rod (65) is connected between the bottoms of the sliding baffles (62) at the lower side;

the fourth return springs (66) are arranged between the top of the second connecting rod (65) and the shell (31);

the connecting frame (67), the front part of the sliding baffle plate (62) on the right side is provided with the connecting frame (67);

the push rods (68) are rotatably connected to one side of the connecting frame (67);

a guide seat (69), wherein the guide seat (69) is arranged in the middle of one side of the shell (31);

the sliding connecting shaft (610), the sliding connecting shaft (610) is connected on the guide seat (69) in a sliding manner, and the sliding connecting shaft (610) is rotationally connected with the push rod (68); the device also comprises a linkage mechanism (7), wherein the linkage mechanism (7) comprises:

a fan-shaped top block (71), wherein the fan-shaped top block (71) is arranged on the output shaft of the servo motor (47);

a guide rail frame (72), wherein one side of the shell (31) is provided with the guide rail frame (72);

the sliding block (73) is connected with the sliding block (73) on the guide rail frame (72) in a sliding way;

a pushing block (74), wherein one side of the sliding block (73) is provided with the pushing block (74);

a fixing seat (76), wherein the fixing seat (76) is arranged at the lower part of one side of the shell (31);

a third return spring (75) is connected between one side of the pushing block (74) and the fixed seat (76);

a push rod (77) is arranged between one side of the push block (74) and the sliding connecting shaft (610); the heat dissipation device also comprises a heat dissipation assembly (8), wherein the heat dissipation assembly (8) comprises:

the mounting seat (81) is arranged in the middle of the top of the shell (31);

a blower (82), wherein a blower (82) is arranged on one side of the mounting seat (81);

a conveying pipe (83), wherein the conveying pipe (83) is arranged at the right upper part of the shell (31), and the conveying pipe (83) is connected with the air blower (82);

the fixed ring frame (85), the inner top wall of one side of the outer shell (31) is provided with four fixed ring frames (85);

the spray heads (84) are arranged on the fixed ring frames (85), and the spray heads (84) are connected with the conveying pipes (83).

2. A drying apparatus for textile dyeing according to claim 1 and characterized in that the spray heads (84) are made of iron.