CN211394961U - Cloth discharging device of high-temperature high-pressure overflow dyeing machine - Google Patents

Abstract

The utility model relates to a cloth discharging device of a high-temperature high-pressure overflow dyeing machine, which relates to the technical field of printing and dyeing equipment and comprises a tank body, wherein the tank body is provided with a feeding and discharging port, a frame is arranged outside the tank body, and an extruding device is arranged on the frame and comprises a cloth guide roller, a water squeezing roller and a first driving component for driving the cloth guide roller and the water squeezing roller to reversely rotate; be provided with the water return device in the frame, the water return device including slide install in the jar internal and one end can slide stretch out jar external connection plate, rotate the water receiving tank that installs in the frame and the opening is connected with connection plate upper surface towards the lower surface of wringing roller and a tip and install on the water receiving tank and be used for driving water receiving tank pivoted second drive assembly, be provided with on the water receiving tank be used for with connection plate fixed first mounting, the cloth is worn out to the fabric guide roll from the business turn over mouth. The utility model discloses an extrusion device and backwater device have realized the recovery of water and dyestuff on the cloth, have saved the resource, have protected the environment in workshop.

Description

Cloth discharging device of high-temperature high-pressure overflow dyeing machine

Technical Field

The utility model belongs to the technical field of printing and dyeing equipment's technique and specifically relates to a cloth discharging device of high temperature high pressure overflow dyeing machine is related to.

Background

The high-temperature high-pressure overflow dyeing machine is mainly used for the pretreatment and dyeing of various knitted grey fabrics of pure cotton, pure polyester, polyester cotton, polyester fiber and the like, and can also be used for the processing of boiling, bleaching, preshrinking, alkali decrement and the like of the fabrics.

At present, the patent of publication No. CN205062447U discloses a high temperature high pressure overflow dyeing machine, including the barrel, lead the cloth head and locate the barrel front end, lead the cloth head and include that both ends adopt down to walk the formula and establish the straight cylinder single tube of two cell bodys in, be equipped with the feed inlet on the straight cylinder single tube, straight cylinder single tube feed inlet department articulates there is the door closure, the inboard of door closure is equipped with the buckling parts, the edge of feed inlet is equipped with the spacing groove, be equipped with the runner of the rotatory joint of drive buckling parts in the spacing inslot on the door closure. Through articulated setting, the lock can overturn in feed inlet department by the door closure, adopts the mode of whole lock, need not fix traditional locking device in proper order, has simplified the locking step, in addition, through the rotation of runner, can be with the rotatory joint of buckling parts in spacing inslot to be fixed in feed inlet department with the door closure, can realize the locking of door closure through a rotational motion, simple quick, it is effectual to seal.

The technical scheme has the following defects: when the high-temperature high-pressure overflow dyeing machine discharges cloth from the feed inlet, the water and the dye on the cloth often drip on the ground due to the water and the dye on the cloth, so that not only is the resource waste caused, but also the working environment of a workshop is polluted.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a not enough to prior art exists, the utility model aims at providing a play cloth device of high temperature high pressure overflow dyeing machine, through extrusion device and water return device's effect with the water and the dyestuff backward flow on the cloth to jar in the body, practiced thrift the resource, protected the environment in workshop.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a cloth discharging device of a high-temperature high-pressure overflow dyeing machine comprises a tank body, wherein a feeding and discharging port is formed in the tank body, a rack and a support are arranged outside the tank body, an extruding device is arranged on the rack and comprises a cloth guide roller rotatably mounted on the rack, a wringing roller rotatably mounted on the rack and arranged in parallel to the cloth guide roller, and a first driving assembly mounted on the rack and used for driving the cloth guide roller and the wringing roller to rotate reversely;

be provided with the water return device on the support, the water return device is including sliding and installing the external connection plate of jar can be slided to internal and one end of jar, rotate and install on the support and the opening towards the water receiving tank that the lower surface of wringing roller and a tip is connected with connection plate upper surface and install on the water receiving tank and be used for driving water receiving tank pivoted second drive assembly, be provided with on the water receiving tank be used for with the fixed first mounting of connection plate, the cloth is followed the business turn over material mouth is worn out to the fabric guide roller on.

By adopting the technical scheme, after cloth dyeing is finished, the end cover is opened, one end of the connecting plate slides to extend out of the tank body, then the water receiving tank is rotated, one end of the water receiving tank is connected with the connecting plate through the first fixing piece, then one end of the cloth is taken out of the dyeing machine, and the cloth penetrates through the upper part of the water receiving tank and penetrates through the space between the cloth guide roller and the water squeezing roller; then start first drive assembly for fabric guide roll and wringing roller antiport, the water and the dyestuff that the cloth extruded can flow back to the jar body along with the water receiving tank this moment, and not drippage to ground, have practiced thrift the resource from this to the operational environment in workshop has been protected.

The utility model discloses can further configure to in a preferred example, second drive assembly installs including rotating rotation axis and the rotation wheel of fixed mounting in axis of rotation one end on the support, water receiving tank fixed mounting is in the axis of rotation, just be provided with the second mounting in the axis of rotation.

Through adopting above-mentioned technical scheme, rotate the rotation that the wheel drove the axis of rotation through the rotation to drive the water receiving tank and rotate, then connect water receiving tank and linking plate, rethread second mounting is fixed the axis of rotation, later can develop out cloth work.

The utility model discloses can further configure to in a preferred example, the second mounting includes fixed mounting and is in the ratchet, the one end rotation that rotate wheel one side are installed pawl and installation in just other end embedding ratchet tooth's socket on the support and both ends respectively with the locking spring that support and pawl link to each other.

By adopting the technical scheme, when the rotating wheel rotates, the ratchet wheel rotates along with the rotating wheel, the pawl is continuously embedded into the tooth groove of the ratchet wheel, when the rotating wheel has the tendency of reverse rotation, the pawl is abutted into the tooth groove of the ratchet wheel to prevent the rotating wheel from reversely rotating, and the locking spring can provide downward pressing force for the pawl; when the reverse rotation is needed, the rotating wheel can be reversely rotated only by pulling the pawl away.

The utility model discloses can further configure to in a preferred example, the connection board is arc and opening towards jar body top, just the connection board is located the lower part of business turn over material mouthful.

Through adopting above-mentioned technical scheme, the fabric guide roll is generally in the eminence, so when going out cloth, the cloth generally can be in the upper portion of business turn over material mouth, and arc linkage plate can let better backward flow of water and dyestuff to jar in.

The utility model discloses can further configure to in a preferred example, the connection plate is kept away from a jar body one end and has been seted up the draw-in groove, first mounting including install on the water receiving tank lower surface with draw-in groove matched with fixture block, the connection plate slide stretch out jar external back can with the cooperation of pegging graft of water receiving tank.

By adopting the technical scheme, the water receiving tank and the connecting plate are connected through the inserting and connecting fit of the clamping block and the clamping groove, and the connecting plate and the water receiving tank are better fixed.

The utility model discloses can further configure to in a preferred example, first drive assembly includes fixed mounting and is in driving motor, fixed mounting in the frame are in the first drive gear and the fixed mounting of fabric guide roll one end squeeze roller one end and with the second drive gear of first drive gear engaged with, driving motor's output shaft and fabric guide roll one end are passed through the conveyer belt and are connected.

Through adopting above-mentioned technical scheme, start driving motor, drive the fabric guide roll through the conveyer belt and rotate to drive first drive gear and rotate, drive second drive gear and rotate, thereby drive the wringing roller and rotate, fabric guide roll and wringing roller are antiport this moment, with the help of the extrusion force between cloth and fabric guide roll and the wringing roller, make the cloth derive, extrude the water and the dyestuff in the cloth simultaneously.

The utility model discloses can further configure to in a preferred example, the frame is close to jar body one side fixed mounting and is led the cloth ring, and the cloth is worn out to the fabric guide roller in leading the cloth ring.

By adopting the technical scheme, the cloth passes through the cloth guide ring and then reaches the cloth guide roller, so that the cloth can be guided to better discharge on the cloth guide roller.

The utility model discloses can further configure to in a preferred example, the recess width of water receiving tank is greater than the length of wringing roller.

By adopting the technical scheme, water and dye after the cloth is extruded can be further reduced and dropped on the ground, so that the pollution to the workshop environment is reduced.

To sum up, the utility model discloses a following at least one useful technological effect:

extrude water and dyestuff in the cloth through extrusion device to in flowing back jar body with water and dyestuff through reflux unit, thereby avoided dripping between water and the dyestuff subaerial, practiced thrift the resource, protected workshop environment.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the present invention showing the front of the extrusion apparatus;

fig. 3 is a schematic structural view of the water receiving tank and the connection plate of the present invention.

Reference numerals: 1. a tank body; 2. feeding and discharging ports; 3. a frame; 4. an extrusion device; 41. a cloth guide roller; 42. a water squeezing roller; 43. a first drive assembly; 431. a drive motor; 432. a first drive gear; 433. a second transmission gear; 5. a water return device; 51. a connector tile; 511. a card slot; 512. a slider; 52. a water receiving tank; 521. a clamping block; 53. a second drive assembly; 531. a rotating shaft; 532. a rotating wheel; 5321. a ratchet wheel; 5322. a pawl; 5323. a locking spring; 6. a cloth guide ring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, a cloth discharging device of a high-temperature high-pressure overflow dyeing machine comprises a tank body 1, a feeding and discharging port 2 is arranged on the tank body 1, a frame 3 and a support are fixedly arranged outside the tank body 1, an extruding device 4 is arranged on the frame 3, and the extruding device 4 comprises a cloth guide roller 41, a water squeezing roller 42 and a first driving assembly 43.

The cloth guide roller 41 is rotatably arranged on the frame 3, the wringing roller 42 is also rotatably arranged on the frame 3, and the wringing roller 42 is arranged in parallel with the cloth guide roller 41 and is positioned under the cloth guide roller 41; the first driving assembly 43 includes a driving motor 431, a first transmission gear 432, and a second transmission gear 433. The driving motor 431 is fixedly installed on the frame 3, the first transmission gear 432 is fixedly installed at one end of the cloth guide roller 41, the second transmission gear 433 is fixedly installed at one end of the wringing roller 42 and meshed with the first transmission gear 432, and the driving motor 431 and the first transmission gear 432 are driven by a belt. From this through driving motor 431 drive belt to drive the belt pulley and rotate, make fabric guide roll 41 rotate, drive first drive gear 432 and second drive gear 433 simultaneously and rotate, thereby drive wringing roller 42 and rotate, fabric guide roll 41 and wringing roller 42 are antiport this moment. A cloth guide ring 6 is fixedly installed on one side, close to the tank body 1, of the frame 3, cloth penetrates out of the cloth guide ring 6 to the cloth guide roller 41, the cloth is led out by means of extrusion force between the cloth and the cloth guide roller 41 and the water squeezing roller 42, and meanwhile water and dye in the cloth are squeezed out.

Referring to fig. 1 and 3, a water returning device 5 is arranged on the bracket, and the water returning device 5 comprises a connecting plate 51, a water receiving tank 52 and a second driving assembly 53. The connection plate 51 is arc-shaped, the opening of the connection plate faces the top of the tank body 1, sliding blocks 512 are integrally arranged at the positions, close to the two end portions, of the lower surface of the connection plate 51, the sliding blocks 512 are trapezoidal, and sliding grooves (not shown in the figure) matched with the sliding blocks 512 are formed in the tank body 1. The connecting plate 51 is arranged in the tank body 1 in a sliding manner through the sliding fit of the sliding block 512 and the sliding groove, one end of the connecting plate 51 can extend out of the tank body 1 in a sliding manner, and the connecting plate 51 extends out of one end of the tank body 1 and is provided with a clamping groove 511 close to the end part; the water receiving groove 52 is rotatably arranged on the bracket and is positioned below the wringing roller 42, the shape of the water receiving groove 52 is the same as that of the connecting plate 51, the opening of the groove on the water receiving groove 52 faces the wringing roller 42, the radius of the groove of the water receiving groove 52 is smaller than that of the groove of the connecting plate 51, and one end of the water receiving groove 52 extends into the connecting plate 51. The length of the groove of the water receiving groove 52 is larger than the width of the water squeezing roller 42, a clamping block 521 matched with the clamping groove 511 is integrally arranged on the lower surface of one end, extending into the connecting plate 51, of the water receiving groove 52, the water receiving groove 52 can be connected with the connecting plate 51 through the clamping matching of the clamping block 521 and the clamping groove 511, and therefore extruded water and dye can flow back into the tank body 1.

The second driving assembly 53 comprises a rotating shaft 531 and a rotating wheel 532, the rotating shaft 531 is rotatably mounted on the bracket, and the rotating shaft 531 is welded with the water receiving tank 52; the rotating wheel 532 is fixedly arranged at one end of the rotating shaft 531, and a second fixing piece is further arranged on the rotating wheel 532 and comprises a ratchet 5321, a pawl 5322 and a locking spring 5323. The ratchet 5321 is fixedly arranged on one side of the rotating wheel 532, the middle of the pawl 5322 is rotatably arranged on the support, one end of the pawl 5322 is embedded into a tooth groove of the ratchet 5321, the locking spring 5323 is arranged on the support, one end of the locking spring 5323 is connected with the support, and the other end of the locking spring 5323 is connected with the lower surface of the pawl 5322 far away from one end of the ratchet 5321. When the rotating wheel 532 rotates, the ratchet 5321 rotates along with the rotating wheel, the pawl 5322 is continuously embedded into the tooth groove of the ratchet 5321, when the rotating wheel 532 tends to rotate reversely, the pawl 5322 is abutted against the tooth groove of the ratchet 5321 to prevent the rotating wheel 532 from rotating reversely, and the locking spring 5323 can provide downward pressing force for the pawl 5322; when reverse rotation is desired, the wheel 532 can be reversed by simply pulling the pawl 5322 open.

The working principle of the embodiment is as follows:

after the cloth is dyed, opening the end cover, sliding one end of the connecting plate 51 to extend out of the tank body 1, then rotating the water receiving tank 52, connecting one end of the water receiving tank 52 with the connecting plate 51 in an inserting fit manner, taking one end of the cloth out of the dyeing machine, and enabling the cloth to penetrate through the cloth guide ring 6 above the water receiving tank 52 and penetrate through the space between the cloth guide roller 41 and the water squeezing roller 42; then, the driving motor 431 is started to rotate the cloth guide roller 41 and the wringing roller 42 in opposite directions, so that the cloth is guided out by means of the friction force between the cloth and the cloth guide roller 41 and the wringing roller 42, and simultaneously, water and dye in the cloth are squeezed out. At this moment, water and dye extruded from the cloth can flow back to the tank body 1 along with the water receiving tank 52 instead of dropping to the ground, so that resources are saved, and the working environment of a workshop is protected.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a cloth discharging device of high temperature high pressure overflow dyeing machine, includes a jar body (1), business turn over material mouth (2) have on jar body (1), jar body (1) is provided with frame (3) and support, its characterized in that outward: the cloth guide device is characterized in that an extrusion device (4) is arranged on the rack (3), the extrusion device (4) comprises a cloth guide roller (41) rotatably mounted on the rack (3), a wringing roller (42) rotatably mounted on the rack (3) and arranged in parallel to the cloth guide roller (41), and a first driving assembly (43) mounted on the rack (3) and used for driving the cloth guide roller (41) and the wringing roller (42) to rotate reversely;

be provided with water return device (5) on the support, water return device (5) are including sliding the installation in jar body (1) and one end can slide and stretch out jar body (1) outer joint board (51), rotate and install on the support and the opening towards wringing roller (42) and the lower surface of a tip and joint board (51) upper surface be connected water receiving tank (52) and install on water receiving tank (52) and be used for driving water receiving tank (52) pivoted second drive assembly (53), be provided with on water receiving tank (52) be used for with the fixed first mounting of joint board (51), the cloth is followed business turn over material mouth (2) are worn out to cloth guide roller (41) on.

2. The cloth discharging device of the high-temperature high-pressure overflow dyeing machine according to claim 1, characterized in that: the second driving assembly (53) comprises a rotating shaft (531) rotatably mounted on the support and a rotating wheel (532) fixedly mounted at one end of the rotating shaft (531), the water receiving groove (52) is fixedly mounted on the rotating shaft (531), and a second fixing piece is arranged on the rotating shaft (531).

3. The cloth discharging device of the high-temperature high-pressure overflow dyeing machine according to claim 2, characterized in that: the second fixing piece comprises a ratchet wheel (5321) fixedly installed on one side of the rotating wheel (532), a pawl (5322) with one end rotatably installed on the support and the other end embedded into a tooth groove of the ratchet wheel (5321), and a locking spring (5323) installed on the support and with two ends respectively connected with the support and the pawl (5322).

4. The cloth discharging device of the high-temperature high-pressure overflow dyeing machine according to claim 1, characterized in that: the connection plate (51) is arc-shaped, the opening of the connection plate faces the top of the tank body (1), and the connection plate (51) is located at the lower part of the feed/discharge port (2).

5. The cloth discharging device of the high-temperature high-pressure overflow dyeing machine according to claim 1, characterized in that: the connection plate (51) is far away from one end of the tank body (1) and is provided with a clamping groove (511), the first fixing piece comprises a clamping block (521) which is arranged on the lower surface of the water receiving groove (52) and matched with the clamping groove (511), and the connection plate (51) can be matched with the water receiving groove (52) in an inserting mode after sliding and extending out of the tank body (1).

6. The cloth discharging device of the high-temperature high-pressure overflow dyeing machine according to claim 1, characterized in that: first drive assembly (43) are including fixed mounting drive motor (431) on frame (3), fixed mounting be in the first drive gear (432) of fabric guide roll (41) one end and fixed mounting be crowded water roller (42) one end and with first drive gear (432) second drive gear (433) of meshing mutually, the output shaft and the fabric guide roll (41) one end of drive motor (431) are passed through the conveyer belt and are connected.

7. The cloth discharging device of the high-temperature high-pressure overflow dyeing machine according to claim 1, characterized in that: a cloth guide ring (6) is fixedly installed on one side, close to the tank body (1), of the rack (3), and cloth penetrates out of the cloth guide ring (6) to the cloth guide roller (41).

8. The cloth discharging device of the high-temperature high-pressure overflow dyeing machine according to claim 1, characterized in that: the width of the groove of the water receiving groove (52) is larger than the length of the wringing roller (42).

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