CN210657544U

CN210657544U - Forming machine with recovery unit

Info

Publication number: CN210657544U
Application number: CN201921576902.4U
Authority: CN
Inventors: 洪文龙; 洪金木
Original assignee: Shaoxing Keqiao Zhanwang Printing And Dyeing Co ltd
Current assignee: Shaoxing Keqiao Zhanwang Printing And Dyeing Co ltd
Priority date: 2019-09-20
Filing date: 2019-09-20
Publication date: 2020-06-02
Anticipated expiration: 2029-09-20

Abstract

The utility model relates to a forming machine with recovery unit belongs to the technical field of forming machine, and it includes the treatment trough, the treatment roll is installed to the treatment trough internal rotation, the subaerial frame that is provided with of treatment trough one side, be provided with the mechanism of squeezing water in the frame, the mechanism of squeezing water is including rotating to be installed top roll in the frame is installed with rotating bottom roll in the frame, the top roll with the bottom roll forms the mouth of a river of squeezing, still includes the recovery mechanism, it includes the fender lid to retrieve the mechanism, it installs through the installing component to go up the fender lid top roll both sides in the frame, it still includes the lower fender lid to retrieve the mechanism, the lower fender lid passes through the installing component is installed the bottom roll both sides in the frame. The utility model discloses the effect that adnexed processing agent was thrown away on reducible top roll and the bottom roll has.

Description

Forming machine with recovery unit

Technical Field

The utility model belongs to the technical field of the technique of forming machine and specifically relates to a forming machine with recovery unit is related to.

Background

The setting machine is used for finishing the fabric by padding various treating agents to be soft, stiff, tentered, resin and the like, and then the padded fabric is subjected to hot drying and cooling to improve the hand feeling, color, breadth and the like of the fabric. The fabric is immersed into the treating agent in the treating tank, then is uniformly rolled by a roller, and finally enters the oven. When the fabric passes through the oven, the fabric can be dried and shaped under the action of high-temperature hot air, and the shaped fabric has good hand feeling and stable size.

If the granted publication number is CN208472384U, it discloses a tentering and setting machine, which comprises a cloth feeding mechanism, a water squeezing mechanism, a plurality of series-connected ovens, a cloth discharging mechanism and a cloth guiding mechanism arranged between the water squeezing mechanism and the cloth discharging mechanism, wherein the water squeezing mechanism comprises a water squeezing tank, a water squeezing frame, and an upper roller and a lower roller rotatably mounted on the water squeezing frame, the upper roller and the lower roller are arranged in parallel with each other and located on one side of the water squeezing tank back to the cloth feeding mechanism, a height adjusting member is arranged between the upper roller and the water squeezing frame, the height adjusting member comprises an adjusting cylinder arranged on the water squeezing frame and a slide block arranged on the water squeezing frame in a vertical sliding manner, the slide block is rotatably mounted with a rotating shaft of the upper roller, and a piston rod of the adjusting cylinder is fixedly connected with the slide block to drive the slide block to slide up.

The above prior art solutions have the following drawbacks: the arranged water squeezing mechanism can extrude the treating agent in the fabric out, and the treating agent simply falls back into the water squeezing groove by the gravity of the treating agent, however, the upper roller and the lower roller can drive the treating agent attached to the upper roller and the lower roller to rotate in the rotating process, and part of the treating agent is thrown out by centrifugal force to fall on the ground instead of the water squeezing groove, so that the pollution to the working environment and the waste of the treating agent are caused, and therefore, a recovery device capable of reducing the throwing-out of the treating agent attached to the upper roller and the lower roller is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a forming machine with recovery unit, it has the effect that adnexed processing agent throws away on reducible top roll and the bottom roll.

The above object of the present invention can be achieved by the following technical solutions:

the utility model provides a forming machine with recovery unit, includes the treatment trough, the treatment trough internal rotation is installed and is handled the roller, the subaerial accumulator that is provided with of treatment trough one side, be provided with the frame on the accumulator, be provided with the mangling mechanism in the frame, still be provided with recovery mechanism in the frame, recovery mechanism includes upper shield cover and lower shield cover, upper shield cover passes through the installation part and installs in the frame of upper roll both sides, lower shield cover passes through the installation part and installs in the frame of lower roll both sides, mangling mechanism is located upper shield cover with in the cavity that lower shield cover encloses.

By adopting the technical scheme, the upper roller and the lower roller are positioned in the cavity between the upper retaining cover and the lower retaining cover, at the moment, the treating agent in the fabric is extruded by the water squeezing mechanism, part of the treating agent directly flows into the lower retaining cover under the action of gravity, part of the treating agent attached to the upper roller and the lower roller is thrown out under the action of centrifugal force, and the thrown treating agent is blocked by the upper retaining cover and the lower retaining cover and finally flows into the lower retaining cover under the action of gravity.

The utility model discloses further set up to: the mounting component comprises a fastening rod mounted on one side of the upper blocking cover close to the rack or one side of the lower blocking cover close to the rack, and a fastening block is arranged on one side of the fastening rod far away from the upper blocking cover or the lower blocking cover; one side of the rack, which is close to the upper blocking cover or the lower blocking cover, is provided with a first fastening hole, and the fastening rod and the fastening block are sleeved in the first fastening hole; the side wall of the rack is also provided with a second fastening hole, the second fastening hole is communicated with the first fastening hole, and the axis of the first fastening hole is vertical to the axis of the second fastening hole; the fastening nut is sleeved in the second fastening hole, a first fastening groove coaxial with the fastening nut is formed in the fastening nut, a second fastening groove is formed in the side wall of the fastening nut along the axis direction, the fastening rod is connected with the second fastening groove in a sliding mode, a third fastening groove is formed in the side wall of the fastening nut on one side of the second fastening groove, the screwing direction of the third fastening groove is perpendicular to the axis of the fastening nut, the width of the third fastening groove is gradually reduced along the screwing direction, and the first fastening groove, the second fastening groove and the third fastening groove are communicated with one another.

Through adopting above-mentioned technical scheme, insert fastening rod and fastening block cover in first fastening hole, put into fastening nut in the second fastening hole, fastening rod and second fastening groove sliding connection, the fastening block then is located first fastening inslot, rotate fastening nut afterwards, fastening nut's rotation in-process, the fastening rod slides along third fastening groove, and because the width in third fastening groove reduces along the precession direction, therefore, final fastening rod and third fastening groove screens are connected, and the fastening block is close to one side of fastening rod and the inner wall butt in first fastening groove, through the interact power between fastening nut and fastening rod and the fastening block with keep off the lid down with keep off the lid and install in the frame, and keep off the lid down and be removable setting, make things convenient for workman dismouting maintenance, workman's intensity of labour has been reduced.

The utility model discloses further set up to: the thickness of the inner wall of the fastening nut is increased along the screwing direction of the third fastening groove.

Through adopting above-mentioned technical scheme, fastening nut is twisting the in-process, and fastening rod and fastening block precession along third fastening groove because fastening nut's inner wall is along the precession direction grow of third fastening groove, consequently, the fastening block is close to the tight degree of supporting of the lateral wall of fastening rod and fastening nut's inner wall and becomes tight along with fastening nut's rotation, then keeps off the lid more firm with the installation of lower fender lid and frame.

The utility model discloses further set up to: the upper blocking cover is close to the first blocking curtain is arranged on the inner wall of one end of the lower blocking cover along the length direction, the lower blocking cover is close to the second blocking curtain is arranged on the inner wall of one end of the upper blocking cover along the length direction, and the first blocking curtain is close to one end of the second blocking curtain and the second blocking curtain is close to one end of the first blocking curtain to be contacted.

By adopting the technical scheme, because the upper blocking cover and the lower blocking cover cannot be completely abutted and closed, the thrown-out treating agent still possibly flies out along a gap between the upper blocking cover and the lower blocking cover, the arranged first blocking curtain and the second blocking curtain can reduce the possibility of flying-out treating agent, the waste of the treating agent is reduced, and the pollution of the treating agent to the working environment is also reduced.

The utility model discloses further set up to: the middle of the bottom of the lower blocking cover is provided with a recovery hole, the lower blocking cover is further provided with a recovery pipe, and the recovery pipe is communicated with the inner cavity of the lower blocking cover through the recovery hole.

Through adopting above-mentioned technical scheme, the processing agent in the lower fender lid can be along with the operation of forming machine more and more, and offers the recovery hole through the bottom at lower fender lid, then the processing agent that gathers in the lower fender lid can be through the recovery hole, in flowing into the accumulator along the recovery tube, can collect the processing in unison, has improved work efficiency.

The utility model discloses further set up to: the bottom of the lower blocking cover is obliquely arranged, and the height of the middle of the bottom of the lower blocking cover is lower than the heights of the two ends of the bottom of the lower blocking cover.

Through adopting above-mentioned technical scheme, through setting up the bottom with lower fender lid to the tilt state, then the treating agent that gathers in the lower fender lid can flow to the recovery hole along the bottom of lower fender lid, has reduced the possibility that treating agent gathers in the lower fender lid, has improved the recovery efficiency of treating agent.

The utility model discloses further set up to: a filtering part is arranged at one end of the recovery pipe, which is far away from the lower blocking cover, the filtering part comprises a shell, an elastic fastening piece is arranged at one end of the shell, which is close to the recovery pipe, and the thickness of one side of the elastic fastening piece, which is close to the recovery pipe, is larger than that of one side of the elastic fastening piece, which is far away from the recovery pipe; the shell with all be provided with the screw thread on the outer wall of elasticity mounting plate, there is the adapter sleeve through threaded connection on the shell.

Through adopting above-mentioned technical scheme, because often can have the impurity on the surface fabric in the processing agent of extruding, therefore, when collecting the unified recycling of processing agent, need filter the processing agent, and set up filter unit on the recovery tube and then merge filtering step and recovery step, the process that the processing agent was recycled has been reduced, and work efficiency has been improved, and when filter unit needs to be changed, only need twist the adapter sleeve, because the thickness difference of elasticity adapter plate, after unscrewing the adapter sleeve, elasticity adapter plate breaks away from the butt state with the recovery tube, then can take off filter unit, filter unit's detachable design has reduced manufacturing cost, work efficiency has been improved.

The utility model discloses further set up to: sliding mounting has the filter core in the inside cavity of shell, the filter core includes the core shell, be provided with the filter screen on the inner wall at core shell both ends, set gradually thick filter layer and thin filter layer in the inside cavity of core shell, the shell is kept away from the one end of recovery tube is provided with the baffle, a plurality of filtration pores have been seted up on the baffle.

By adopting the technical scheme, when the filter element needs to be replaced due to excessive impurities, only the filter element needs to be replaced, the whole filter element does not need to be replaced, the filter effect is improved by the coarse filter layer and the fine filter layer which are arranged in the filter element inner frame, the quality of the filtered treating agent is improved, and the quality of the fabric is improved.

The utility model discloses further set up to: the recycling tank with subaerial the recovery pump that is provided with between the treatment trough 1, the water inlet of recovery pump with the inside cavity of recycling tank is linked together, the delivery port of recovery pump is provided with the transfer pipe, the transfer pipe is kept away from the one end of recovery pump with the inside cavity of treatment trough is linked together.

By adopting the technical scheme, after being filtered by the filtering part, the treating agent gathered in the recovery tank is pumped by the recovery pump, passes through the water outlet and is conveyed into the treating tank through the transfer pipe, so that the treating agent is recycled, and the waste of the treating agent is reduced.

The utility model discloses further set up to: the recycling tank and the treatment tank are arranged on the ground, a guide plate is arranged on the support and is arranged in an inclined mode, and the height of one side, close to the recycling tank, of the guide plate is higher than the height of one side, close to the treatment tank, of the guide plate.

By adopting the technical scheme, as more treating agents are attached to the fabric after passing through the treatment tank, the treating agents attached to the fabric are easy to drip during the conveying process of the fabric from the treatment tank to the squeezing mechanism, and at the moment, the dripping treating agents can fall onto the guide plate and flow into the treatment tank along the guide plate for recycling, so that the waste of the treating agents is reduced, and the pollution of the treating agents to the working environment is also reduced.

To sum up, the utility model discloses a beneficial technological effect does:

1. the possibility that the treating agent attached to the upper roller and the lower roller is thrown out is reduced by arranging the upper blocking cover and the lower blocking cover and arranging the first blocking curtain and the second blocking curtain;

2. the mounting component is set to be in a detachable state, so that the upper blocking cover and the lower blocking cover can be replaced, the maintenance and cleaning of equipment by workers are facilitated, and the working efficiency is improved;

3. the bottom of the lower baffle cover is provided with the recovery hole, the lower baffle cover is provided with the recovery pipe and the recovery groove, the bottom of the lower baffle plate is in an inclined state, and the treating agent extruded by the water squeezing mechanism is uniformly collected, so that the working efficiency is improved;

4. the filter component is arranged on the recovery pipe, the recovery pump is arranged on the recovery tank, and the treating agent extruded by the water squeezing mechanism is filtered and recycled, so that the waste of the treating agent is reduced;

5. through setting up the guide plate, make the treating agent that drips on the surface fabric fall on the guide plate and flow into the treatment trough along the guide plate and carry out recycle, reduced the waste of treating agent.

Drawings

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

fig. 2 is a schematic diagram of the explosion structure of the present invention;

FIG. 3 is a schematic structural view of the mounting member of the present invention;

fig. 4 is an exploded view of the recovery mechanism of the present invention;

figure 5 is a cross-sectional view of a filter element of the present invention.

In the figure, 1, a treatment tank; 11. a processing roller; 12. a recovery tank; 13. a frame; 14. a driving roller; 2. a water squeezing mechanism; 21. an upper roller; 22. a lower roller; 3. a recovery mechanism; 31. an upper blocking cover; 32. a lower block cover; 33. a mounting member; 331. a fastening rod; 332. a fastening block; 333. a first fastening hole; 334. a second fastening hole; 335. fastening a nut; 3351. a first fastening groove; 3352. a second fastening groove; 3353. a third fastening groove; 4. a roll hole; 41. a first fabric hole; 42. a second topping hole; 43. a first curtain; 44. a second curtain; 5. a recovery hole; 51. a recovery pipe; 6. a filter member; 61. a housing; 62. an elastic fastening tab; 63. fastening sleeves; 64. a filter element; 641. a core shell; 642. filtering with a screen; 643. a coarse filtration layer; 644. a fine filtration layer; 65. a baffle plate; 651. filtering holes; 7. a recovery pump; 71. a transfer tube; 8. a support; 81. a baffle.

Detailed Description

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

As shown in fig. 1 and 2, for the utility model discloses a forming machine with recovery unit, including treatment tank 1, treatment roller 11 is installed to the 1 internal rotation of treatment tank, and treatment tank 1 keeps away from subaerial being provided with accumulator 12 of surface fabric supplied materials end one side, and the both sides of accumulator 12 upper surface and the subaerial driving roller 14 that all is provided with of treatment tank 1 both sides all are provided with to the both sides of accumulator 12, and the cloth passes through driving roller 14 and carries.

The upper surface of the recovery tank 12 between the two driving rollers 14 is also provided with a frame 13, the frame 13 is provided with a water squeezing mechanism 2, the water squeezing mechanism 2 comprises an upper roller 21 and a lower roller 22 which are rotatably arranged on the frame 13, the upper roller 21 and the lower roller 22 are arranged in parallel, and cloth passes through the upper roller 21 and the lower roller 22 to form a water squeezing opening.

The frame 13 is further provided with a recovery mechanism 3, the recovery mechanism 3 comprises an upper baffle cover 31 and a lower baffle cover 32, the upper baffle cover 31 is installed on the frame 13 on two sides of the upper roller 21 through an installation part 33, the lower baffle cover 32 is installed on the frame 13 on two sides of the lower roller 22 through an installation part 33, the upper roller 21 and the lower roller 22 are located in a cavity defined by the upper baffle cover 31 and the lower baffle cover 32, and water attached to and thrown out of the upper roller 21 and the lower roller 22 is blocked by the upper baffle cover 31 and the lower baffle cover 32.

As shown in fig. 2 and 3, the mounting part 33 includes a fastening rod 331, and the fastening rod 331 is screwed on a side wall of the upper shield 31 adjacent to the rack 13 or a side wall of the lower shield 32 adjacent to the rack 13; the end of the fastening rod 331 far from the upper cover 31 or the end of the fastening rod 331 far from the lower cover 32 is vertically provided with a truncated cone-shaped fastening block 332, the diameter of the side of the fastening block 332 close to the fastening rod 331 is the same as that of the fastening rod 331, and the diameter of the side of the fastening block 332 far from the fastening rod 331 is larger than that of the fastening rod 331.

The frame 13 is provided with a first fastening hole 333, the fastening rod 331 and the fastening block 332 are sleeved in the first fastening hole 333, the frame 13 is further provided with a second fastening hole 334, the second fastening hole 334 is communicated with the first fastening hole 333, and the axis of the first fastening hole 333 is perpendicular to the axis of the second fastening hole 334.

The mounting part 33 further comprises a cylindrical fastening nut 335, the fastening nut 335 is sleeved in the second fastening hole 334, a cylindrical first fastening groove 3351 is formed in the fastening nut 335, and the first fastening groove 3351 and the fastening nut 335 are coaxial; a second fastening groove 3352 is formed in the side wall of the fastening nut 335 along the axial direction, the second fastening groove 3352 is communicated with the first fastening groove 3351, and the fastening rod 331 is slidably connected with the second fastening groove 3352; a third fastening groove 3353 is further formed on a side wall of the fastening nut 335 at one side of the second fastening groove 3352, the third fastening groove 3353 is communicated with the first fastening groove 3351, the screwing direction of the third fastening groove 3353 is perpendicular to the length direction of the second fastening groove 3352, the width of the third fastening groove 3353 is reduced along the screwing direction, and the thickness of the inner wall of the fastening nut 335 is increased along the screwing direction of the third fastening groove 3353; after the fastening nut 335 is screwed, the fastening rod 331 is locked to the third fastening groove 3353, and the inner wall of the fastening block 332 close to the fastening rod 331 abuts against the inner wall of the first fastening groove 3351.

As shown in fig. 2 and 4, the side walls of the upper retaining cover 31 and the lower retaining cover 32 are both provided with roller holes 4, the rotating shaft of the upper roller 21 is located in the roller hole 4 of the upper retaining cover 31, the rotating shaft of the lower roller 22 is located in the roller hole 4 of the lower retaining cover 32, one side of the upper retaining cover 31 close to the lower retaining cover 32 is provided with a first fabric hole 41 along the length direction, one side of the lower retaining cover 32 close to the lower retaining cover 32 is provided with a second fabric hole 42 along the length direction, and the fabric is located in a fabric passing hole formed by the first fabric hole 41 and the second fabric hole 42.

A soft first curtain 43 made of plastic is arranged on the inner wall of the upper blocking cover 31 on the peripheral side of the first fabric hole 41 along the length direction, a soft second curtain 44 made of plastic is arranged on the inner wall of the lower blocking cover 32 on the peripheral side of the second fabric hole 42 along the length direction, the first curtain 43 is in contact with the second curtain 44, the fabric is positioned between the first curtain 43 and the second curtain 44, and the water adhered to and thrown out from the upper roller 21 and the lower roller 22 is blocked by the first curtain 43 and the second curtain 44.

As shown in fig. 4 and 5, the bottom of the lower retaining cover 32 is disposed obliquely, and the heights of the two ends of the bottom of the lower retaining cover 32 are higher than the height of the middle of the bottom of the lower retaining cover 32; the middle of the bottom plate of the lower retaining cover 32 is provided with a recovery hole 5, the outer side wall of the bottom of the lower retaining cover 32 is provided with a recovery pipe 51, the recovery pipe 51 is communicated with the inner cavity of the lower retaining cover 32 through the recovery hole 5, and water blocked by the upper retaining cover 31 and the lower retaining cover 32 flows into the lower retaining cover 32 and flows out through the recovery pipe 51.

A filtering part 6 is further arranged at one end of the recovery pipe 51 far away from the lower baffle cover 32, the filtering part 6 comprises a shell 61, four elastic fastening pieces 62 are circumferentially and equidistantly arranged at one end of the shell 61 close to the recovery pipe 51 along the axis, the thickness of one end of each elastic fastening piece 62 close to the recovery pipe 51 is larger than that of one end of each elastic fastening piece 62 far away from the recovery pipe 51, and the recovery pipe 51 is sleeved in a fastening hole formed by the elastic fastening pieces 62; the outer wall of the elastic fastening piece 62 and the outer wall of the shell 61 are both provided with threads, the threads are screwed into the elastic fastening piece 62 along the shell 61, and the shell 61 is connected with a fastening sleeve 63 through the threads.

The filter element 64 is slidably mounted in the inner cavity of the outer shell 61, the filter element 64 includes a hollow cylindrical core shell 641, filter screens 642 are arranged on the inner walls of the two ends of the core shell 641, a coarse filter layer 643 and a fine filter layer 644 are arranged in the inner cavity of the core shell 641, the coarse filter layer 643 is made of porous ceramic, the fine filter layer 644 is made of activated carbon, a baffle 65 is further arranged at one end of the outer shell 61 far away from the recovery pipe 51, and filter holes 651 are formed in the baffle 65.

As shown in fig. 1, a recovery pump 7 is arranged on the ground between the recovery tank 12 and the treatment tank 1, a water inlet of the recovery pump 7 is communicated with the inner cavity of the recovery tank 12, a water outlet of the recovery pump 7 is provided with a transfer pipe 71, and one end of the transfer pipe 71 far away from the recovery pump 7 is communicated with the inner cavity of the treatment tank 1; the filtered water in the recovery tank 12 is pumped into the treatment tank 1 by the recovery pump 7 for reuse.

A support 8 is also arranged on the ground between the recovery tank 12 and the treatment tank 1, a guide plate 81 is arranged on the support 8, and the height of one side of the guide plate 81 close to the recovery tank 12 is higher than that of one side of the guide plate 81 close to the treatment tank 1.

The implementation principle of the embodiment is as follows:

a filter screen 642, an activated carbon fine filter layer 644, a porous ceramic coarse filter layer 643 and the filter screen 642 are sequentially placed in the core shell 641, the filter element 64 is filled, the filter element 64 is sleeved in the inner cavity of the shell 61, the filter part 6 is assembled, then the filter part 6 is sleeved on the recovery pipe 51, then the fastening sleeve 63 is rotated, the thickness of the elastic fastening piece 62 is increased along the screwing of the threads, and therefore, along with the screwing of the fastening sleeve 63 along the threads, the inner wall of the elastic fastening piece 62 is tightly abutted against the outer wall of the recovery pipe 51, acting force is applied to the recovery pipe 51, and the filter part 6 is installed.

Placing the upper shield 31 on the frame 13 on both sides of the upper roll 21, and screwing the fastening rod 331 and the fastening block 332 through the first fastening hole 333 to the sidewall of the upper shield 31 on the side close to the frame 13, and then inserting the fastening nut 335 in the second fastening hole 334 so that the fastening rod 331 is slidably coupled in the second fastening groove 3352 and the fastening block 332 is nested in the first fastening groove 3351; subsequently, the fastening nut 335 is screwed, the fastening rod 331 is screwed along the third fastening groove 3353, and as the width of the third fastening groove 3353 is reduced, the fastening rod 331 and the third fastening groove 3353 are finally locked and connected, and at this time, the side wall of the fastening block 332 close to the fastening rod 331 abuts against the inner wall of the first fastening groove 3351, thereby completing the installation of the upper shield cover 31. The installation of the lower flap 32 is completed by repeating the above steps.

The setting machine is started, the fabric is conveyed by the driving roller 14 and is immersed into the treating agent in the treating tank 1 under the limitation of the treating roller 11, then the fabric is conveyed to the water squeezing mechanism 2, the treating agent attached to the fabric drops down in the conveying process and falls onto the guide plate 81, and the treating agent flows back into the treating tank 1 along the guide plate 81.

In the squeezing mechanism 2, the treating agent attached to the fabric is extruded by the upper roller 21 and the lower roller 22 and flows into the inner cavity of the lower baffle cover 32 under the action of gravity; part of the treating agent adhered to the upper and

lower rolls

21 and 22 is thrown out, and the thrown treating agent is stopped by the inner wall of the upper flap 31, the inner wall of the lower flap 32, the inner wall of the first curtain 43 or the inner wall of the second curtain 44 and flows into the inner cavity of the lower flap 32 by gravity.

Since the bottom of the lower flap 32 is disposed to be inclined, the treating agent flows into the filter element 6 along the recovery pipe 51 through the recovery holes 5 along the bottom of the lower flap 32; the treating agent passes through a filter screen 642, a porous ceramic coarse filter layer 643, an activated carbon fine filter layer 644 and the filter screen 642 and is filtered in multiple stages, and after the filtering is finished, the treating agent flows into the recovery tank 12 along the filter holes 651 on the baffle 65; at this time, the recovery pump 7 is started, and the recovery pump 7 pumps out the treating agent through the water inlet and flows into the treating tank 1 along the transfer pipe 71 through the water outlet, so that the treating agent is recycled.

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

1. The utility model provides a forming machine with recovery unit, includes treatment trough (1), treatment roller (11) are installed to treatment trough (1) internal rotation, the subaerial accumulator (12) that is provided with of treatment trough (1) one side, be provided with frame (13) on accumulator (12), be provided with manger mechanism (2), its characterized in that on frame (13): the rolling mill is characterized in that a recovery mechanism (3) is further arranged on the rack (13), the recovery mechanism (3) comprises an upper blocking cover (31) and a lower blocking cover (32), the upper blocking cover (31) is installed on the rack (13) on two sides of the upper roller (21) through an installation part (33), the lower blocking cover (32) is installed on the rack (13) on two sides of the lower roller (22) through the installation part (33), and the rolling mill (2) is located in a cavity enclosed by the upper blocking cover (31) and the lower blocking cover (32).

2. The setting machine with the recovery device of claim 1, wherein: the mounting part (33) comprises a fastening rod (331) mounted on one side of the upper blocking cover (31) close to the rack (13) or one side of the lower blocking cover (32) close to the rack (13), and a fastening block (332) is arranged on one side of the fastening rod (331) far away from the upper blocking cover (31) or the lower blocking cover (32); one side of the frame (13) close to the upper baffle cover (31) or the lower baffle cover (32) is provided with a first fastening hole (333), and the fastening rod (331) and the fastening block (332) are sleeved in the first fastening hole (333); a second fastening hole (334) is further formed in the side wall of the frame (13), the second fastening hole (334) is communicated with the first fastening hole (333), and the axis of the first fastening hole (333) is perpendicular to the axis of the second fastening hole (334); the fastening nut (335) is arranged in the second fastening hole (334) in a sleeved mode, a first fastening groove (3351) coaxial with the fastening nut (335) is formed in the fastening nut (335), a second fastening groove (3352) is further formed in the side wall of the fastening nut (335) along the axis direction, the fastening rod (331) is connected with the second fastening groove (3352) in a sliding mode, a third fastening groove (3353) is further formed in the side wall of the fastening nut (335) on one side of the second fastening groove (3352), the screwing direction of the third fastening groove (3353) is perpendicular to the axis of the fastening nut (335), the width of the third fastening groove (3353) is gradually reduced along the screwing direction, and the first fastening groove (3351), the second fastening groove (3352) and the third fastening groove (3353) are communicated with one another.

3. The setting machine with the recovery device of claim 2, wherein: the thickness of the inner wall of the fastening nut (335) increases along the screwing direction of the third fastening groove (3353).

4. The setting machine with the recovery device of claim 1, wherein: go up flap (31) and be close to be provided with first check curtain (43) along length direction on the inner wall of lower flap (32) one end, lower flap (32) are close to be provided with second check curtain (44) along length direction on the inner wall of last flap (31) one end, first check curtain (43) are close to the one end of second check curtain (44) with second check curtain (44) are close to the one end contact of first check curtain (43).

5. The setting machine with the recovery device of claim 1, wherein: the middle of the bottom of the lower blocking cover (32) is provided with a recovery hole (5), the lower blocking cover (32) is further provided with a recovery pipe (51), and the recovery pipe (51) is communicated with the inner cavity of the lower blocking cover (32) through the recovery hole (5).

6. The setting machine with the recovery device of claim 5, wherein: the bottom of the lower blocking cover (32) is obliquely arranged, and the height of the middle of the bottom of the lower blocking cover (32) is lower than the heights of two ends of the bottom of the lower blocking cover (32).

7. The setting machine with the recovery device of claim 5, wherein: a filtering part (6) is arranged at one end, far away from the lower baffle cover (32), of the recovery pipe (51), the filtering part (6) comprises a shell (61), an elastic fastening piece (62) is arranged at one end, close to the recovery pipe (51), of the shell (61), and the thickness of one side, close to the recovery pipe (51), of the elastic fastening piece (62) is larger than that of one side, far away from the recovery pipe (51), of the elastic fastening piece (62); the outer shell (61) and the outer wall of the elastic fastening piece (62) are both provided with threads, and the outer shell (61) is connected with a fastening sleeve (63) through the threads.

8. The setting machine with the recovery device of claim 7, wherein: the filter element (64) is arranged in an inner cavity of the shell (61) in a sliding mode, the filter element (64) comprises a core shell (641), filter screens (642) are arranged on inner walls of two ends of the core shell (641), a coarse filter layer (643) and a fine filter layer (644) are sequentially arranged in the inner cavity of the core shell (641), a baffle (65) is arranged at one end, far away from the recovery pipe (51), of the shell (61), and a plurality of filter holes (651) are formed in the baffle (65).

9. The setting machine with the recovery device of claim 1, wherein: the recycling tank (12) and the treatment tank (1) are provided with a recycling pump (7) on the ground, a water inlet of the recycling pump (7) is communicated with an inner cavity of the recycling tank (12), a water outlet of the recycling pump (7) is provided with a transfer pipe (71), and one end of the transfer pipe (71) far away from the recycling pump (7) is communicated with the inner cavity of the treatment tank (1).

10. The setting machine with the recovery device of claim 1, wherein: the recycling tank (12) and the treatment tank (1) are provided with a support (8) on the ground, a guide plate (81) is arranged on the support (8), the guide plate (81) is arranged in an inclined manner, and the height of one side of the recycling tank (12) close to the guide plate (81) is higher than the height of one side of the treatment tank (1) close to the guide plate (81).