CN218203464U - Overflow dyeing machine with dehydration function - Google Patents

Abstract

The utility model relates to an overflow dyeing machine with dehydration function, including the dyeing machine body, the exit that is used for supplying the cloth business turn over is offered to the dyeing machine body, the fixed mounting bracket that is provided with in one side that the dyeing machine body is close to exit, the mounting bracket rotates and is connected with first squeeze roll with the second squeeze roll, leave the gap that supplies the cloth to walk between first squeeze roll and the second squeeze roll, fixedly connected with is used for driving first squeeze roll pivoted driving motor on the mounting bracket, be provided with elastic component on the mounting bracket, elastic component is used for supporting the second squeeze roll tightly in first squeeze roll, fixedly connected with retrieves the framework on the mounting bracket, it is located the second squeeze roll to retrieve the framework, the below of first squeeze roll. When the cloth that dyeing ended moved out the dyeing machine body, first squeeze roll and second squeeze roll extruded the cloth for the cloth separates with the dye liquor that the cloth smugglied secretly, and the dye liquor enters into the recovery framework, and operating personnel inputs the dye liquor of retrieving back into the dyeing machine body again, practices thrift the dye liquor.

Description

Overflow dyeing machine with dehydration function

Technical Field

The application relates to the field of dyeing machines, in particular to an overflow dyeing machine with a dewatering function.

Background

The overflow dyeing machine is one of the common devices in the printing and dyeing industry, and is mainly used for carrying out pretreatment and dyeing work on cloth.

An overflow dyeing machine, as shown in fig. 1, comprises a dyeing machine body 100, wherein the dyeing machine body 100 is provided with an inlet/outlet 110, and the inlet/outlet 110 is used for feeding or discharging cloth. When in use, the cloth enters the dyeing machine body 100 through the inlet and outlet 110 for dyeing, and after dyeing is finished, the cloth leaves the dyeing machine body 100 through the inlet and outlet 110.

In view of the above-mentioned related technologies, the inventor believes that, when an operator takes out a cloth from an inlet and an outlet of a dyeing machine body after the cloth is dyed, the cloth carries a part of dye liquor to move out of the dyeing machine body, and the dye liquor is relatively wasted.

SUMMERY OF THE UTILITY MODEL

In order to improve when the cloth is taken out from dyeing machine this internal, the cloth can smuggle partly dye liquor and move out the dyeing machine body together secretly, the comparatively extravagant problem of dye liquor, this application provides an overflow dyeing machine with dehydration function.

The application provides an overflow dyeing machine with dehydration function adopts following technical scheme:

the utility model provides an overflow dyeing machine with dehydration function, includes the dyeing machine body, the dyeing machine body is offered and is used for supplying the exit of cloth business turn over, the dyeing machine body is close to the fixed mounting bracket that is provided with in one side of exit, the mounting bracket rotates and is connected with first squeeze roll with the second squeeze roll, first squeeze roll with leave the gap that supplies the cloth to walk between the second squeeze roll, fixedly connected with is used for the drive on the mounting bracket first squeeze roll pivoted driving motor, be provided with elastic component on the mounting bracket, elastic component be used for with the second squeeze roll support tightly in first squeeze roll, fixedly connected with retrieves the framework on the mounting bracket, retrieve the framework and be located the second squeeze roll the below of first squeeze roll.

By adopting the technical scheme, when the cloth moves out of the dyeing machine body from the inlet and the outlet, the cloth passes through a gap between the first squeezing roller and the second squeezing roller, the first squeezing roller and the second squeezing roller squeeze the cloth, the cloth is separated from the dye solution carried by the cloth, the dye solution enters the recycling frame body, and an operator can input the dye solution in the recycling frame body into the dyeing machine body again after processing the dye solution, so that the effect of saving the dye solution is achieved.

Meanwhile, an elastic assembly is arranged between the first squeezing roller and the second squeezing roller and abuts against the second squeezing roller to the first squeezing roller, namely, when the cloth passes through the space between the first squeezing roller and the second squeezing roller, the elastic assembly is used for increasing the squeezing force of the first squeezing roller and the second squeezing roller to the cloth as much as possible, so that the squeezing effect of the first squeezing roller and the second squeezing roller to the cloth is improved as much as possible, and the cloth is separated from the dye liquor attached to the cloth as much as possible.

Optionally, the groove of sliding has all been seted up along vertical direction in the mounting bracket both sides, elastic component includes sliding block, slide rod and spring, sliding block slides and connects in the groove of sliding, the second squeeze roll with sliding block rotates to be connected, slide rod is vertical setting, slide rod one end is located slide the inslot and with sliding block fixed connection, slide rod one end is located outside the groove of sliding, the spring housing is located slide rod, the spring will the second squeeze roll support tightly in first squeeze roll.

Through adopting above-mentioned technical scheme, when the cloth was walked through the gap between first squeeze roll and the second squeeze roll, the second squeeze roll was to keeping away from the direction motion of first squeeze roll, at this moment, the sliding block upwards slided, the spring compression, under the effort that the spring resets, the second squeeze roll supports the cloth tightly on first squeeze roll, first squeeze roll is increased as far as possible to the spring, the extrusion force of second squeeze roll to the cloth, thereby make the cloth more thorough with attached to the dye liquor separation on the cloth, the rate of recovery of dye liquor further increases promptly.

Optionally, one end of the sliding rod is connected with a first screw rod, the other end of the sliding rod is connected with a second screw rod, the first screw rod is in threaded connection with the sliding block, and the second screw rod is in threaded connection with the sealing block.

Through adopting above-mentioned technical scheme, the pole that slides can be dismantled with the sliding block and be connected, makes things convenient for the dismantlement installation of pole, sliding block that slides. Meanwhile, the other end of the sliding rod is provided with a sealing block, so that the probability that the sliding rod completely enters the sliding groove is reduced as much as possible.

Optionally, be provided with first filter and second filter in the recovery framework, first filter is located directly over the second filter, just the filtration pore aperture of first filter is greater than the filtration pore aperture of second filter.

Through adopting above-mentioned technical scheme, first squeeze roll and second squeeze roll are with the cloth after the dye liquor separation on attached to the cloth, and the dye liquor loops through first filter, second filter, and first filter and second filter separate the batting, the end of a thread that mix with in dye liquor and the dye liquor to improve the recovery quality of dye liquor.

Simultaneously, set up first filter and second filter, and the filtration pore diameter of first filter is greater than the filtration pore diameter of second filter, and first filter and second filter carry out the secondary filter to the dye liquor, further improve the recovery quality that improves the dye liquor.

Optionally, a connecting frame is fixedly connected in the recycling frame body through a fixing bolt, and the first filter plate and the second filter plate are fixedly connected to the connecting frame.

Through adopting above-mentioned technical scheme, first filter, second filter can be dismantled and connect in retrieving the framework, are stained with when attaching a certain amount of batting, end of a thread on first filter, second filter, and operating personnel unscrews fixing bolt and can follow the link and retrieve the framework and separate to wash first filter and second filter, thereby keep the filtration quality of first filter and second filter, further improve the recovery quality that improves the dye liquor.

Optionally, a first clamping groove and a second clamping groove are formed in the mounting frame, the first filter plate is in plug-in fit with the first clamping groove, and the second filter plate is in plug-in fit with the second clamping groove.

Through adopting above-mentioned technical scheme, first filter, second filter can dismantle the connection with the link alike, further improve the simplicity and convenience that operating personnel cleared up first filter, second filter to improve the filtration quality of first filter and second filter to a certain extent, further improve the recovery quality that improves the dye liquor.

Optionally, a limiting ring is fixedly connected to the mounting frame, and the limiting ring is used for guiding the cloth to the middle section area of the first squeezing roller and the second squeezing roller.

Through adopting above-mentioned technical scheme, the cloth passes the spacing ring earlier, the cloth reentrants in the gap of first squeeze roll and second squeeze roll, through setting up the spacing ring, make first squeeze roll as far as possible, the middle section position of second squeeze roll extrudees the cloth, compare in the cloth and be located first squeeze roll, the one end of second squeeze roll, first squeeze roll, the middle section position of second squeeze roll is better to the extrusion effect of cloth, the cloth is more thorough with the dye liquor separation of attaching to on the cloth, thereby further increase the rate of recovery of dye liquor.

Optionally, rubber sleeves are sleeved on the first extrusion roller and the second extrusion roller.

Through adopting above-mentioned technical scheme, the rubber sleeve is softer, and the rubber sleeve plays the guard action to the cloth, reduces first dewatering roller and second dewatering roller when the extrusion cloth, the damage that the cloth received. Secondly, the rubber sleeve has certain deformability, has further improved the extrusion force of first dewatering roller and second dewatering roller to the cloth for the cloth separates more thoroughly with the dye liquor that adheres to on the cloth, further increases the rate of recovery of dye liquor promptly.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the first squeezing roller, the second squeezing roller and the recycling frame body, after the cloth dyeing is finished and the cloth moves out of the dyeing machine body, the first squeezing roller and the second squeezing roller squeeze the dyed cloth, so that the cloth is separated from dye liquor carried by the cloth, the dye liquor enters the recycling frame body, and an operator processes the dye liquor in the recycling frame body and then inputs the processed dye liquor back to the dyeing machine body, so that the effect of saving the dye liquor is achieved;

2. by arranging the elastic assembly, when the first squeezing roller and the second squeezing roller squeeze the dyed cloth, the elastic assembly is used for increasing the squeezing force of the first squeezing roller and the second squeezing roller to the cloth, so that the squeezing effect of the first squeezing roller and the second squeezing roller to the cloth is improved as much as possible, and the cloth is separated from the dye liquor attached to the cloth as much as possible;

3. through setting up first filter and second filter in retrieving the framework, first filter is located the second filter directly over, and the filtration pore aperture of first filter is greater than the filtration pore aperture of second filter, and first filter and second filter carry out the secondary to the dye liquor and filter, further improve the recovery quality that improves the dye liquor.

Drawings

Fig. 1 is a schematic structural view of an overflow dyeing machine in the related art of the present application;

FIG. 2 is a schematic diagram of an overflow dyeing machine with dewatering function in an embodiment of the present application;

fig. 3 is a schematic structural view of the mounting frame, the first squeeze roll, the second squeeze roll, the recovery frame body, the limiting ring and the like in fig. 2;

fig. 4 is an exploded view of the structure of the second squeeze roller, elastic member, etc. of fig. 3;

FIG. 5 is an exploded view of the connection frame, recovery frame, etc. of FIG. 2;

FIG. 6 is an exploded view of the attachment frame, first filter plate, and second filter plate of FIG. 5;

fig. 7 is an enlarged schematic view of a portion a in fig. 6.

Description of the reference numerals: 100. a dyeing machine body; 110. an inlet and an outlet; 200. a mounting frame; 210. a first squeeze roll; 211. a rubber sleeve; 220. a second squeeze roll; 230. recovering the frame body; 240. a drive motor; 250. a limiting ring; 300. an elastic component; 301. a sliding groove; 310. a sliding block; 311. a limiting block; 312. a limiting groove; 320. a slide bar; 321. a first screw; 322. a second screw; 323. sealing blocks; 330. a spring; 400. a connecting frame; 401. fixing the bolt; 410. a first connecting plate; 420. a second connecting plate; 430. a first clamping groove; 440. a second clamping groove; 510. a first filter plate; 520. a second filter plate.

Detailed Description

The present application is described in further detail below with reference to figures 2-7.

The embodiment of the application discloses overflow dyeing machine with dehydration function.

Referring to fig. 2, the overflow dyeing machine with a dewatering function includes a dyeing machine body 100, the dyeing machine body 100 is provided with an inlet and outlet 110, and the inlet and outlet 110 is used for feeding or discharging cloth.

Referring to fig. 2, a mounting bracket 200 is fixedly mounted on one side of the dyeing machine body 100 near the inlet/outlet 110, the mounting bracket 200 is rotatably connected with a first squeezing roller 210 and a second squeezing roller 220, and the mounting bracket 200 is fixedly connected with a recovery frame 230. The second squeezing roller 220 is located right above the first squeezing roller 210, and a gap for the cloth to pass through is left between the first squeezing roller 210 and the second squeezing roller 220. The recovery frame 230 is positioned directly below the first pressing roll 210. The mounting frame 200 is fixedly connected with a driving motor 240, an output shaft of the driving motor 240 is fixedly connected with the first squeezing roller 210, and the driving motor 240 is used for driving the first squeezing roller 210 to rotate.

Referring to fig. 2 and 3, a limiting ring 250 is fixedly connected to one side of the mounting frame 200 close to the inlet/outlet 110 of the dyeing machine body 100, the central position of the limiting ring 250 is close to the middle section areas of the first and second squeezing rollers 210 and 220, and the limiting ring 250 plays a role in guiding and correcting, so that when the dyeing machine is used, cloth firstly passes through the limiting ring 250 and then passes through the middle section area of the gap between the first and second squeezing rollers 210 and 220.

Referring to fig. 3, the elastic members 300 are respectively disposed at both ends of the second pressing roll 220, and the second pressing roll 220 always tends to move in a direction approaching the first pressing roll 210 under the force of the elastic members 300.

Referring to fig. 4, sliding grooves 301 are respectively formed on both sides of the mounting bracket 200 along a vertical direction. The elastic assembly 300 includes a sliding block 310, a sliding rod 320, and a spring 330.

Referring to fig. 4, the sliding block 310 slides and is connected to the sliding groove 301, two ends of the sliding block 310 are fixedly connected with limiting blocks 311, two sides of the mounting rack 200 are provided with limiting grooves 312 along the vertical direction, the limiting grooves 312 are located at the groove bottoms of the sliding groove 301, the limiting grooves 312 are communicated with the sliding groove 301, and the limiting blocks 311 slide and are connected to the limiting grooves 312.

Referring to fig. 4, one end of the sliding rod 320 is fixedly connected with a first screw 321, and the other end of the sliding rod 320 is connected with a second screw 322. One end of the sliding rod 320 close to the first screw 321 passes through the upper end wall of the sliding groove 301, the first screw 321 and a part of the sliding rod 320 are located in the sliding groove 301, and the first screw 321 is in threaded connection with the sliding block 310. The second screw 322 is threadedly connected with a sealing block 323. When the sliding rod 320 is used, an operator firstly connects the second screw rod 322 with the sealing block 323 through threads, and at the moment, the sealing block 323 and the sliding rod 320 are integrated. The operator then inserts the end of the sliding rod 320 close to the first screw 321 into the sliding slot 301, and applies force to the sliding rod 320 to fixedly connect the first screw 321 with the sliding block 310.

Referring to fig. 4, the sliding rod 320 is sleeved with the spring 330, one end of the spring 330 abuts against the upper end wall of the sliding groove 301, the other end of the spring 330 abuts against the sliding block 310, and the spring 330 is always in a compressed state.

Referring to fig. 4, the first and second pressing rollers 210 and 220 are respectively sleeved with rubber covers 211.

Referring to fig. 5 and 6, the recycling frame 230 is fixedly connected to a connection frame 400 by a fixing bolt 401, and a first filter plate 510 and a second filter plate 520 are inserted and fitted into the connection frame 400. The first filter plates 510 are positioned directly above the second filter plates 520, and the diameter of the filter holes of the first filter plates 510 is larger than that of the second filter plates 520.

Referring to fig. 1 and 5, both sides of the recovery frame 230 that abut against the mount 200 are both sides of the recovery frame 230 in the width direction, and both sides of the recovery frame 230 that are perpendicular to the mount 200 are both sides of the recovery frame 230 in the length direction.

Referring to fig. 6 and 7, the connection frames 400 have two groups, and the connection frame 400 includes a first connection plate 410 and a second connection plate 420 integrally connected to each other, wherein the first connection plate 410 is horizontally disposed, and the second connection plate 420 is vertically disposed.

Referring to fig. 5 and 7, when the first filter plates 510 and the second filter plates 520 are positioned in the recovery frame 230, the first connection plates 410 are abutted against the upper ends of the side walls in the longitudinal direction of the recovery frame 230, and the second connection plates 420 are abutted against the inner sides of the side walls in the longitudinal direction of the recovery frame 230. The fixing bolt 401 passes through the first connection plate 410 and is screwed to the recovery frame 230.

Referring to fig. 5 and 7, the second connecting plate 420 is sequentially provided with a first clamping groove 430 and a second clamping groove 440 from top to bottom, the first clamping groove 430 is in inserted fit with the first filter plate 510, and the second clamping groove 440 is in inserted fit with the second filter plate 520. When in use, the two sides of the first filter plate 510, the second filter plate 520, which are not in contact with the second connection plate 420, are just abutted against the inner side of the side wall of the recovery frame 230 in the width direction.

The implementation principle of overflow dyeing machine with dehydration function of the embodiment of this application is: after the cloth dyeing is finished, the operator takes the cloth out of the dyeing machine body 100, the cloth firstly passes through the limiting ring 250, and then passes through the gap between the first squeezing roller 210 and the second squeezing roller 220.

When the cloth enters a gap between the first squeezing roller 210 and the second squeezing roller 220, an operator starts the driving motor 240, the driving motor 240 drives the first squeezing roller 210 to rotate, the first squeezing roller 210 drives the second squeezing roller 220 to rotate through the cloth, when the first squeezing roller 210 and the second squeezing roller 220 rotate, the first squeezing roller 210 and the second squeezing roller 220 squeeze the cloth, so that the cloth and the dye liquor carried by the cloth on the cloth are separated, and the dye liquor enters the recovery frame body 230.

The dye liquor after separation loops through first filter 510, second filter 520, and first filter 510 and second filter 520 carry out the secondary filter to the dye liquor, go out the batting, the end of a thread etc. that mix with in the dye liquor as far as for the dye liquor after retrieving is cleaner.

When a certain amount of lint and thread is attached to the filtering holes of the first filtering plate 510 and the second filtering plate 520, the operator may loosen the fixing bolts 401, and then take out the connection frame 400 from the recycling frame 230, that is, take out the first filtering plate 510 and the second filtering plate 520 from the recycling frame 230, thereby performing a cleaning operation on the first filtering plate 510 and the second filtering plate 520.

When the cloth enters a gap between the first squeezing roller 210 and the second squeezing roller 220, the second squeezing roller 220 is under the acting force of the cloth, the second squeezing roller 220 is relatively far away from the first squeezing roller 210, namely, the sliding block 310 slides upwards vertically along the sliding groove 301, the spring 330 is further compressed, the reset force of the spring 330 is increased, namely, under the action of the spring 330, the abutting force of the second squeezing roller 220 for abutting the cloth against the first squeezing roller 210 is further increased, so that the squeezing effect of the first squeezing roller 210 and the second squeezing roller 220 on the cloth is improved as much as possible, and the cloth is separated from the dye liquor attached to the cloth as much as possible.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an overflow dyeing machine with dehydration function, includes dyeing machine body (100), exit (110) that are used for supplying the cloth business turn over are offered to dyeing machine body (100), its characterized in that: the dyeing machine body (100) is close to one side of the inlet and outlet (110) and is fixedly provided with an installation frame (200), the installation frame (200) is rotatably connected with a first squeezing roller (210) and a second squeezing roller (220), a gap for cloth to pass through is reserved between the first squeezing roller (210) and the second squeezing roller (220), the installation frame (200) is fixedly connected with a driving motor (240) for driving the first squeezing roller (210) to rotate, an elastic assembly (300) is arranged on the installation frame (200), the elastic assembly (300) is used for enabling the second squeezing roller (220) to be tightly abutted to the first squeezing roller (210), a recovery frame body (230) is fixedly connected to the installation frame (200), and the recovery frame body (230) is located below the second squeezing roller (220) and the first squeezing roller (210).

2. Overflow dyeing machine with dewatering function, according to claim 1, characterized in that: mounting bracket (200) both sides are all seted up groove (301) of sliding along vertical direction, elastic component (300) are including sliding block (310), slide pole (320) and spring (330), sliding block (310) slide connect in groove (301) of sliding, second squeeze roll (220) with sliding block (310) rotate to be connected, sliding pole (320) are vertical setting, sliding pole (320) one end is located in groove (301) of sliding and with sliding block (310) fixed connection, sliding pole (320) one end is located outside groove (301) of sliding, spring (330) cover is located sliding pole (320), spring (330) will second squeeze roll (220) support tightly in first squeeze roll (210).

3. Overflow dyeing machine with dewatering function, according to claim 2, characterized in that: slide bar (320) one end is connected with first screw rod (321), slide bar (320) other end is connected with second screw rod (322), first screw rod (321) with sliding block (310) threaded connection, second screw rod (322) threaded connection has sealing block (323).

4. Overflow dyeing machine with dewatering function, according to claim 1, characterized in that: retrieve and be provided with first filter (510) and second filter (520) in the framework (230), first filter (510) are located directly over second filter (520), just the filtration pore diameter of first filter (510) is greater than the filtration pore diameter of second filter (520).

5. Overflow dyeing machine with dewatering function, according to claim 4, characterized in that: retrieve in the framework (230) through fixing bolt (401) fixedly connected with link (400), first filter (510), second filter (520) fixed connection in link (400).

6. Overflow dyeing machine with dewatering function according to claim 5, characterized in that: the filter board is characterized in that a first clamping groove (430) and a second clamping groove (440) are formed in the mounting frame (200), the first filter board (510) is in splicing fit with the first clamping groove (430), and the second filter board (520) is in splicing fit with the second clamping groove (440).

7. Overflow dyeing machine with dewatering function, according to claim 1, characterized in that: fixedly connected with spacing ring (250) on mounting bracket (200), spacing ring (250) are used for leading the cloth to first squeeze roll (210), the middle section region of second squeeze roll (220).

8. Overflow dyeing machine with dewatering function, according to claim 1, characterized in that: the first extrusion roller (210) and the second extrusion roller (220) are sleeved with rubber sleeves (211).

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