CN113308781B - Embedded water jet loom applicable to multiple wide-width cloth - Google Patents

Abstract

The invention discloses an embedded water-jet loom applicable to multiple pieces of wide cloth, which comprises a frame body, wherein a supporting plate is fixedly connected to the rear side of the frame body, a through hole is formed in the side surface of the supporting plate, a motor is fixedly connected to the side surface of the supporting plate through the through hole, a first transmission roller is fixedly sleeved on the surface, close to the right end, of the first shaft, a first discharging shaft and a second receiving shaft are arranged on the left side of the frame body, two through holes are formed in the left side of the frame body, the discharging shaft and the second receiving shaft are connected in a limiting and rotating mode through the through holes, and the surface, close to the right end, of the receiving shaft penetrates through the right side of the frame body and is fixedly sleeved with a second transmission roller. The invention solves the problems that in the actual use process, the traditional water-jet loom is not comprehensive in collecting dust on the fabric, so that the dust on the fabric is easy to remain, the cleaned dust is difficult to realize centralized treatment, the secondary pollution to the fabric is easy to cause, the environment of a production workshop is difficult to guarantee, and the use is inconvenient.

Description

Embedded water jet loom applicable to multiple wide-width cloth

Technical Field

The invention relates to the technical field of textile equipment, in particular to an embedded water-jet loom which can be applied to multi-width cloth.

Background

The friction traction force of the water jet weft insertion to weft yarns is larger than that of the air jet weft insertion, the diffusivity is small, and the requirements of long-yarn weft insertion of synthetic fibers, glass fibers and the like with smooth surfaces are met. Meanwhile, the conductivity of the composite fiber can be increased, and the static electricity in weaving can be effectively overcome. In addition, the energy consumed by weft yarn injection is less, the noise is lowest, and compared with the traditional shuttle loom, the efficiency of the water jet loom is greatly improved, so that more profit spaces are brought to enterprises.

The existing water-jet loom has a large defect in the processing process of realizing multiple wide-width cloth, so that the application range of the water-jet loom is greatly influenced, and in addition, the existing water-jet loom is easily polluted by dust in the winding process, the product quality is influenced, and the processing efficiency is reduced;

people provide a hydraulic loom for this reason, a hydraulic loom that embedded coiling device was taken to hydraulic loom as disclosed in chinese patent CN108179530B, including the organism, the bottom welding of organism has the slide rail, the top of slide rail and the bottom sliding connection of slide, the top of slide and the bottom fixed connection of cassette, the joint has the limiting plate in the notch at cassette top, run through on the limiting plate and seted up the jack, the middle part of organism movable mounting has winding roller and winding roller respectively, both ends run through the jack on the limiting plate respectively about winding roller and winding roller, the bottom movable mounting of organism has the spool stand, the turning handle is installed in the front of spool stand. The water-jet loom with the embedded rolling device of the water-jet loom realizes the purpose that a plurality of pieces of cloth with wide width can share one loom by arranging the mechanism with adjustable width, improves the application range of the prior water-jet loom, and solves the defect that the prior cloth is easy to be stained with dust in the processing process by arranging the rotary dust removal mechanism;

however, in the actual use process, the traditional water-jet loom is not comprehensive enough in collecting the dust on the fabric, so that the dust on the fabric is easy to remain, the cleaned dust is difficult to realize centralized treatment, secondary pollution to the fabric is easy to cause, the environment of a production workshop is difficult to guarantee, and inconvenience is brought to use.

Disclosure of Invention

The invention aims to provide an embedded water jet loom which can be applied to multiple wide cloth, has the advantages of automatic rolling, dust removal and integrated collection and treatment, and solves the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an embedded hydraulic loom that can apply to many broad width cloth, includes framework and its upper fixed mounting's backup pad, realizes the holistic fixed stay of device through framework and backup pad, be equipped with the motor in the backup pad, the motor is through its output shaft fixedly connected with axle one above, the fixed cover in surface that is close to the right-hand member on the axle one has driving roller one, makes the motor switch on, and the output shaft on the motor drives the rotation of axle one, drives the synchronous rotation of driving roller one above that through the axle drive.

The inside wall dead axle of framework rotates and is connected with the blowing axle and receives the material axle, blowing axle and receive the epaxial fixed cover respectively that is close to the right-hand member of material and have driving roller three and driving roller two, the equal transmission in the arc profile of driving roller one, driving roller two and driving roller three is connected with the drive belt, receive material axle and the epaxial fabric of waiting to be played of blowing are equipped with, and the drive belt of being connected with the driving roller transmission can move, and driving roller two and driving roller three of being connected with the drive belt transmission drive respectively and receive the material axle and blow the material axle and carry out spacing rotation in the framework for it can follow the epaxial book of blowing to receive the material epaxial fabric to wait to play a roll.

And a dust suction device for sucking dust on the fabric is arranged on the frame body.

Preferably, dust extraction is including location knee, check valve one, cylindricality casing and piston plate, be equipped with in the cylindricality casing and form the collection shell in two independent deformable spaces with location knee and piston plate cooperation, the cylindricality casing is run through and is connected rather than spacing rotation by the location knee, the top of collecting the shell is connected with the lower fixed surface of location knee, collect the surface of shell and the inner wall swing joint of cylindricality casing, the bottom of location knee and the left side fixed connection of framework, the bottom of piston plate and the surface swing joint of location knee, be equipped with in the dust extraction and concentrate exhaust emptying devices to the dust fibre of collecting.

Preferably, dust extraction still includes the long pole shape casing of centre of a circle department fixed connection on cylindricality casing right side, the air inlet has been seted up and has been passed through air inlet fixedly connected with air duct on being close to the arc profile of bottom on the cylindricality casing, air duct and long pole shape casing intercommunication, the front side of long pole shape casing is equipped with the brush hair of treating to beat the roll fabric and carry out the brush, the arc profile that is close to the brush hair on the long pole shape casing has seted up the through-hole and has passed through-hole fixedly connected with suction nozzle.

Preferably, the dust suction device further comprises an annular gear ring fixedly sleeved on the arc-shaped contour close to the right end of the cylindrical shell, a non-complete gear is fixedly sleeved on the surface close to the left end of the material receiving shaft, and the material receiving shaft drives the non-complete gear to continuously rotate; the utility model discloses a gear rack, including annular ring gear and incomplete gear, the tooth meshing on the incomplete gear of annular ring gear, the right-hand member of long rod shape casing runs through framework and fixedly connected with carousel, the cover has the torsional spring on the arc profile that is close to the right-hand member on the long rod shape casing, the both ends of torsional spring and the opposite side fixed connection of framework and carousel.

Preferably, one side fixedly connected with transfer line of keeping away from the air duct on the round platform shape sealing plug one, the one end fixedly connected with clamp plate one of keeping away from the round platform shape sealing plug one on the transfer line, the surface cover of clamp plate one has extension spring one, the opposite face fixed connection of both ends and clamp plate one and sealed tube of extension spring one.

Preferably, the emptying devices include a second one-way valve, the second one-way valve includes a second cone-shaped sealing plug which is provided with a cone-shaped through hole on the side surface of the collecting shell and is connected with the second cone-shaped sealing plug in a sliding mode through the hole, a sealing cylinder is fixedly connected to the left side of the second cone-shaped sealing plug, a connecting thin rod is fixedly connected to the left end of the sealing cylinder, a pressing plate second is fixedly connected to the left end of the connecting thin rod, a tension spring second is fixedly connected to the right side of the pressing plate second, and the right end of the tension spring second is fixedly connected to the left side of the collecting shell.

Preferably, the emptying device is still including fixing the connecting rod one on the right side of round platform shape sealing plug two, the one end of keeping away from round platform shape sealing plug two on the connecting rod one is rotated through the round pin axle and is connected with connecting rod two, the one end of keeping away from connecting rod one on the connecting rod two is rotated through the round pin axle and is connected with the slide, the top and the bottom of slide all with the spacing sliding connection of the inner wall of collecting the shell, the exhaust logical groove has all been seted up to the left side of cylindricality casing and collection shell correspondence, just to the left side fixedly connected with cover body that leads to this exhaust logical groove on the cylindricality casing, the through-hole has been seted up to the upper surface of the cover body and annotates the liquid pipe through-hole fixedly connected with, annotate the liquid pipe and supply liquid by external water source, the top of slide and the bottom swing joint who annotates the liquid pipe.

Preferably, the number of the sliding plates is two, and the two sliding plates are symmetrically arranged with respect to a vertical center line of the collecting case.

Preferably, the side surface of the second pressing plate is provided with a through hole and is connected with a limiting rod in a sliding mode through the through hole, and the end portion of the limiting rod is fixedly connected with the side surface of the collecting shell.

Preferably, the inner wall of the collecting shell is fixedly connected with a third tension spring, and one end of the third tension spring, which is far away from the collecting shell, is fixedly connected with the surface of the sliding plate.

Preferably, the material of the bristles and the material of the fabric to be rolled are both made of synthetic fibers.

Compared with the prior art, the invention has the following beneficial effects: the whole device is fixedly supported by the frame body and the supporting plate; the motor is powered on, the output shaft on the motor drives the first transmission shaft to rotate, the first transmission roller is driven by the shaft to synchronously rotate, the transmission belt in transmission connection with the transmission roller can move, the second transmission roller and the third transmission roller which are in transmission connection with the transmission belt respectively drive the material receiving shaft and the material discharging shaft to perform limiting rotation on the frame body, and therefore the fabric to be rolled can be rolled to the material receiving shaft from the material discharging shaft.

The material collecting shaft drives the incomplete gear to continuously rotate, and dust attached to the fabric to be rolled can be intensively attracted through static electricity in the rolling process of the fabric to be rolled through the matching of the dust suction device and the incomplete gear, and then the dust on the fabric to be rolled is transferred through negative pressure adsorption;

through the arrangement of the emptying device, dust obtained through negative pressure adsorption can be collected and humidified in a centralized manner, so that the dust is not easy to fly in air again.

Through the cooperation use between the above-mentioned structure, solved in the in-service use, because traditional hydraulic loom is not comprehensive enough to the collection of dust on the fabric, very easily causes the remaining of dust on the fabric, and the dust of clearing up is difficult to realize centralized processing moreover, very easily causes the secondary pollution to the fabric, also makes the environment in workshop difficult to guarantee, brings inconvenient problem for the use.

Drawings

FIG. 1 is a perspective view of the structure of the present invention in a rear view;

FIG. 2 is a perspective view of the structure of the present invention in a front view;

FIG. 3 is a left side sectional view of the elongated rod-shaped housing of the present invention;

FIG. 4 is a left side cross-sectional view of the cylindrical housing of the present invention;

FIG. 5 is an enlarged view of the second frustoconical sealing plug of FIG. 4 in accordance with the present invention;

FIG. 6 is a front cross-sectional view of the housing of the present invention;

FIG. 7 is a top view of the slider of the present invention;

FIG. 8 is a state diagram of the present invention after the space at A is increased in FIG. 4.

In the figure: 1. a frame body; 2. a support plate; 3. a motor; 4. a first shaft; 5. a first driving roller; 6. a discharging shaft; 7. a material receiving shaft; 8. a second driving roller; 9. a third driving roller; 10. a transmission belt; 11. the fabric to be rolled; 12. a non-full gear; 13. a dust collection device; 14. an evacuation device; 15. positioning the bent rod; 16. a cylindrical housing; 17. an annular ring gear; 18. a long rod-shaped housing; 19. an air duct; 20. a turntable; 21. a torsion spring; 22. brushing; 23. a suction nozzle; 24. a piston plate; 25. a sealing tube; 26. a first cone-shaped sealing plug; 27. a transmission rod; 28. pressing a first plate; 29. a first tension spring; 30. collecting the shells; 31. a second truncated cone-shaped sealing plug; 32. sealing the cylinder; 33. connecting the thin rod; 34. pressing a second plate; 35. a second tension spring; 36. a first connecting rod; 37. a second connecting rod; 38. a slide plate; 39. a cover body; 40. a liquid injection pipe; 41. a limiting rod; 42. and a third tension spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, the present invention provides a technical solution: the utility model provides an embedded hydraulic loom that can apply to many broad width cloth, includes framework 1 and its upper fixed mounting's backup pad 2, is equipped with motor 3 in the backup pad 2, and motor 3 has a 4 through its last output shaft fixedly connected with axle, and the fixed cover in the surface that is close to the right-hand member on axle 4 has driving roller 5, makes motor 3 switch on, and the output shaft on the motor 3 drives the rotation of axle 4, drives the synchronous rotation of driving roller 5 on it through axle 4.

The inside wall dead axle of framework 1 rotates and is connected with blowing axle 6 and receipts material axle 7, the fixed cover respectively has driving roller three 9 and driving roller two 8 on blowing axle 6 and the receipts material axle 7 near the surface of right-hand member, driving roller one 5, equal transmission is connected with drive belt 10 on the arc profile of driving roller two 8 and driving roller three 9, it waits to roll up fabric 11 to be equipped with on material axle 7 and the blowing axle 6 to receive, the drive belt 10 of being connected with the transmission of driving roller one 5 can move, driving roller two 8 and the driving roller three 9 of being connected with the transmission of drive belt 10 drive respectively drive axle three 7 and axle two 6 carry out spacing rotation on framework 1, make and wait to roll up fabric 11 and can be in order to roll up to axle three 7 from axle two 6.

The frame body 1 is provided with a dust suction device 13 for sucking dust on the fabric. Through the cooperation of the dust suction device 13 and the incomplete gear 12, dust on the fabric 11 to be rolled can be intensively attracted through static electricity during the rolling process, and then the dust on the fabric 11 to be rolled can be transferred through negative pressure adsorption.

Further, the dust collector 13 comprises a positioning bent rod 15, a one-way valve I, a cylindrical shell 16 and a piston plate 24, a collecting shell 30 which is matched with the positioning bent rod 15 and the piston plate 24 to form two independently deformable spaces is arranged in the cylindrical shell 16, the cylindrical shell 16 is penetrated by the positioning bent rod 15 and is connected with the positioning bent rod in a limiting and rotating mode, the top of the collecting shell 30 is fixedly connected with the lower surface of the positioning bent rod 15, the surface of the collecting shell 30 is movably connected with the inner wall of the cylindrical shell 16, the bottom of the positioning bent rod 15 is fixedly connected with the left side of the frame body 1, and the bottom of the piston plate 24 is movably connected with the surface of the positioning bent rod 15.

Referring to fig. 4, in use, the positioning bent rod 15 supports the collecting shell 30, so that when the cylindrical shell 16 carries the piston plate 24 to rotate back and forth, the positioning bent rod 15 and the collecting shell 30 can still keep fixed in angle and position, and in fig. 4, the vertical central line of the piston plate 24, the positioning bent rod 15 and the collecting shell 30 is taken as a symmetry center, so that the cylindrical shell 16 can be divided into a left space and a right space; referring to fig. 8, when the cylindrical housing 16 with the piston plate 24 rotates clockwise around the central axis of the positioning curved rod 15, the space a in the cylindrical housing 16 increases, the volume of another independent space in the cylindrical housing 16 decreases, the air pressure in the space a after the space increase decreases rapidly, and the air in the space a is supplemented in one direction under the action of the first check valve;

further, dust extraction 13 still includes the centre of a circle department fixed connection's on the right side of cylindricality casing 16 long pole shape casing 18, cylindrical casing 16 is last to be close to and has seted up the air inlet and through air inlet fixedly connected with air duct 19 on the arc profile of bottom, air duct 19 and long pole shape casing 18 intercommunication, long pole shape casing 18's front side is equipped with treats the brush hair 22 that the fabric 11 of beating a roll carries out the brush, long pole shape casing 18 is last to be close to and has seted up the through-hole and through-hole fixedly connected with suction nozzle 23 on the arc profile of brush hair 22.

When the device is used, the long rod-shaped shell 18 is driven to synchronously rotate by the reciprocating rotation of the cylindrical shell 16, the air guide pipe 19, the brush hair 22 and the suction nozzle 23 on the long rod-shaped shell 18 rotate in a reciprocating manner, air in the external environment finally enters the cylindrical shell 16 through the suction nozzle 23, the long rod-shaped shell 18 and the air guide pipe 19, and the suction nozzle 23 has a larger air absorption range through the reciprocating rotation of the long rod-shaped shell 18, so that dust fibers on the fabric 11 to be rolled are more fully absorbed; by brushing the brush bristles 22 on the fabric 11 to be rolled, on one hand, fibers or dust adhered to the fabric 11 to be rolled can easily fall off, and then fall off and are sucked into the cylindrical shell 16, and dynamic adsorption is realized by matching with the rotation of the suction nozzle 23; on the other hand, the repeated friction of the brush bristles 22 on the fabric 11 to be rolled can generate static electricity, can actively adsorb some fine fibers, and is relatively fixed by the positions of the suction nozzle 23 and the brush bristles 22, so that the suction nozzle 23 can adsorb dust fibers at fixed points;

further, dust extraction 13 still includes that the fixed cover has annular ring gear 17 on the arc profile that is close to the right-hand member on the cylindricality casing 16, the fixed cover that is close to the left end on the receipts material axle 7 has incomplete gear 12, drive the continuous rotation of incomplete gear 12 through axle three 7, the tooth meshing on annular ring gear 17 and the incomplete gear 12, the right-hand member of long rod shape casing 18 runs through framework 1 and fixedly connected with carousel 20, the cover has torsional spring 21 on the arc profile that is close to the right-hand member on the long rod shape casing 18, the both ends of torsional spring 21 and framework 1 and the opposite side fixed connection of carousel 20.

When the gear tooth on the incomplete gear 12 is meshed with the annular gear ring 17, the cylindrical shell 16 can drive the long rod-shaped shell 18 and the rotary disc 20 to rotate after overcoming the elasticity of the torsion spring 21, otherwise, when the gear tooth on the incomplete gear 12 is separated from the gear tooth on the annular gear ring 17, the rotary disc 20, the long rod-shaped shell 18 and the cylindrical shell 16 can be rapidly reset and rotated integrally under the action of the elasticity of the torsion spring 21, and finally, the integral reciprocating rotation of the cylindrical shell 16 is realized under the continuous rotation of the incomplete gear 12.

Furthermore, the one-way valve comprises a sealing pipe 25 which comprises an inner wall of an air inlet on the cylindrical shell 16, the inner wall of the sealing pipe 25 is connected with a first truncated cone-shaped sealing plug 26 in a sliding mode, a transmission rod 27 is fixedly connected to one side, far away from the air guide pipe 19, of the first truncated cone-shaped sealing plug 26, a pressing plate 28 is fixedly connected to one end, far away from the first truncated cone-shaped sealing plug 26, of the transmission rod 27, a first tension spring 29 is sleeved on the surface of the pressing plate 28, and two ends of the first tension spring 29 are fixedly connected with the opposite surfaces of the pressing plate 28 and the sealing pipe 25.

In use, as can be seen from the above, with the reciprocating rotation of the cylindrical shell 16, the pressure difference between the two independent spaces in the cylindrical shell 16 and the external environment is generated, under the action of the difference between the internal pressure and the external pressure, the truncated cone-shaped sealing plug I26 drives the transmission rod 27 to move centripetally in the cylindrical shell 16 after overcoming the elastic force of the tension spring I29, so that a gap is formed between the first truncated cone shaped sealing plug 26 and the inner wall of the sealing tube 25, and the outside air is introduced into the cylindrical housing 16 through the gap, since the outside air is communicated with the air in the long rod-shaped housing 18 through the air duct 19, the air in the long rod-shaped housing 18 is drawn into the cylindrical housing 16, as shown in fig. 8, the space in the space a is increased, the air content is increased, and because of the one-way conduction property of the one-way valve, the gas in the space A cannot be leaked and exhausted through the one-way valve.

Further, the device also comprises an emptying device 14 for intensively discharging collected dust fibers, and through the arrangement of the emptying device 14, dust obtained through negative pressure adsorption can be intensively collected and humidified, so that the dust is not easy to float again in air, and in the actual use process, a collection box matched with the emptying device 14 can be arranged on the emptying device 14, so that the dust is isolated and collected.

Emptying devices 14 includes check valve two, check valve two includes sets up round platform shape through-hole and through this hole sliding connection's round platform shape sealing plug two 31 on collecting shell 30 side, the left side fixedly connected with sealing cylinder 32 of round platform shape sealing plug two 31, the left end fixedly connected with of sealing cylinder 32 connects pin 33, the left end fixedly connected with clamp plate two 34 of connecting pin 33, the right side fixedly connected with extension spring two 35 of clamp plate two 34, the right-hand member of extension spring two 35 and the left side fixed connection who collects shell 30.

In use, and with reference to figures 4 and 5, when the cylindrical shell 16 performs a counter-clockwise return rotation on the positioning knee 15, with an increase in the air pressure in the space at a, under the difference between the internal pressure and the external pressure of the space at the position A and the space in the collecting shell 30, the connecting thin rod 33, the sealing cylinder 32 and the second truncated cone-shaped sealing plug 31 move towards the direction far away from the second pressing plate 34 after overcoming the elastic force of the second tension spring 35, and due to the arrangement of the sealing cylinder 32, the collection shell 30 can keep a sealing state for a period of time after the truncated cone-shaped sealing plug II 31, the sealing cylinder 32 and the connecting thin rod 33 move until the surface of the sealing cylinder 32 is separated from the inner wall of the truncated cone-shaped through hole on the collection shell 30 and the connecting thin rod 33 is positioned in the truncated cone-shaped through hole, the sealing state is released and the high pressure air in the space at a is rapidly introduced into the collection case 30.

Further, the emptying device 14 further comprises a first connecting rod 36 fixed on the right side of the second truncated cone-shaped sealing plug 31, one end, far away from the second truncated cone-shaped sealing plug 31, of the first connecting rod 36 is rotatably connected with a second connecting rod 37 through a pin shaft, one end, far away from the first connecting rod 36, of the second connecting rod 37 is rotatably connected with a sliding plate 38 through a pin shaft, the top and the bottom of the sliding plate 38 are both connected with the inner wall of the collecting shell 30 in a limiting sliding mode, the left sides of the cylindrical shell 16 and the collecting shell 30 are both correspondingly provided with an exhaust through groove, the cylindrical shell 16 is just opposite to a left fixedly connected with cover body 39 of the exhaust through groove, the upper surface of the cover body 39 is provided with a through hole and is fixedly connected with a liquid injection pipe 40 through the through hole, the liquid injection pipe 40 is supplied with liquid from an external water source, and the top of the sliding plate 38 is movably connected with the bottom of the liquid injection pipe 40. The cover 39 is an open downward cover.

When the collecting device is used, the connecting thin rod 33, the sealing cylinder 32 and the second truncated cone-shaped sealing plug 31 can move laterally for a period of time, so that the first connecting rod 36 can move horizontally with the first connecting rod, and the sliding plate 38 can only move leftwards and rightwards relative to the collecting shell 30 because the movement track of the first connecting rod 36 in the collecting shell 30 is limited, and once the first connecting rod 36 moves horizontally with the second truncated cone-shaped sealing plug 31 under the rotation matching of the second connecting rod 37, the sliding plate 38 can move leftwards and rightwards relative to the collecting shell 30, wherein the leftwards and rightwards movement is relative to a whole coordinate system and relative to the forward and backward movement of the sliding plate 38 relative to the collecting shell 30 in fig. 4.

Because the left sides of the cylindrical shell 16 and the collecting shell 30 are both provided with the air exhaust through grooves, when the air exhaust through grooves of the cylindrical shell 16 and the collecting shell 30 are superposed, air with dust transferred into the collecting shell 30 from the cylindrical shell 16 can be exhausted through the air exhaust through grooves, and the sliding plate 38 can only extend out when the cylindrical shell 16 and the collecting shell 30 are superposed, and can temporarily seal the liquid injection pipe 40, so that the integral sealing performance can not be influenced. Eventually this dirt laden air will be expelled from beneath the hood 39. When the two venting channels no longer coincide, cylindrical housing 16 and collection housing 30 can remain sealed to one another. Further, in the actual use process, an air bag or a collecting box for collecting dust is arranged below the cover 39, which is a common structure and thus is not shown in the figures.

The liquid flowing out from the bottom of the liquid injection pipe 40 can wet the discharged air with dust, the wetted dust is not easy to float in the air again, and meanwhile, the material scraps on the fiber waiting rolling fabric 11 can also fall into the air bag or the collecting box after being wetted

Through the arrangement of the emptying device 14, dust obtained through negative pressure adsorption can be collected and humidified in a centralized manner, so that the dust is not easy to fly in air again, and in the actual use process, the emptying device 14 can be provided with a collection box matched with the emptying device, so that the dust is collected in an isolated manner.

Further, the number of the sliding plates 38 is two, and the two sliding plates 38 are symmetrically disposed about the vertical center line of the collecting case 30.

Through the two sliding plates 38 corresponding to the two truncated cone-shaped sealing plugs 31, the sealing cylinder 32, the connecting thin rod 33, the sealing pipe 25, the truncated cone-shaped sealing plug 26, the transmission rod 27, the pressing plate 28, the tension spring 29 and the like, the air suction frequency of the cylindrical shell 16 and the long rod-shaped shell 18 is improved, dust adsorbed by static electricity on the bristles 22 can be fully sucked away, and the cleaning efficiency is improved.

Furthermore, a through hole is formed in the side surface of the second pressing plate 34, a limiting rod 41 is connected to the through hole in a sliding mode, and the end portion of the limiting rod 41 is fixedly connected with the side surface of the collecting shell 30.

The movement track of the second pressing plate 34 can be limited by the limiting rod 41, so that the connecting thin rod 33, the sealing cylinder 32 and the second truncated cone-shaped sealing plug 31 can stably and horizontally move relative to the collecting shell 30.

Furthermore, a third tension spring 42 is fixedly connected to the inner wall of the collecting shell 30, and one end of the third tension spring 42, which is far away from the collecting shell 30, is fixedly connected to the surface of the sliding plate 38.

Through the setting of extension spring three 42, can guide the orbit of slide 38 in collecting the shell 30, simultaneously through the setting of extension spring three 42, can filter and absorb the slight vibration that produces in collecting the shell 30, guarantee the stability when the device is whole to be used.

Furthermore, the material of the brush hair 22 and the material of the fabric 11 to be rolled are both made of synthetic fibers, and through the cooperation of the brush hair 22 and the fabric 11 to be rolled corresponding to the synthetic fibers, static electricity can be generated more easily, and a stronger adsorption effect is realized.

The working principle is as follows: when the embedded water-jet loom which can be applied to multiple wide-width cloth is used, the whole fixed support of the device is realized through the frame body 1 and the supporting plate 2; the motor 3 is powered on, the output shaft on the motor 3 drives the first shaft 4 to rotate, the first shaft 4 drives the first transmission roller 5 thereon to synchronously rotate, the transmission belt 10 in transmission connection with the first transmission roller 5 moves, and the second transmission roller 8 and the third transmission roller 9 in transmission connection with the transmission belt 10 respectively drive the material receiving shaft 7 and the material discharging shaft 6 to perform limited rotation on the frame body 1, so that the fabric 11 to be rolled can be rolled from the material discharging shaft 6 to the material receiving shaft 7; the material receiving shaft 7 drives the incomplete gear 12 to continuously rotate, and the dust collector 13 is matched with the incomplete gear 12, so that dust on the fabric 11 to be rolled can be intensively attracted by static electricity in the rolling process, and then the dust on the fabric 11 to be rolled is transferred by negative pressure adsorption; through the arrangement of the emptying device 14, dust obtained through negative pressure adsorption can be collected in a centralized manner and subjected to humidification treatment, so that the dust is not easy to float in air again, and in the actual use process, a collection box matched with the emptying device 14 can be arranged on the emptying device 14, so that the dust is collected in an isolated manner; through the cooperation use between the above-mentioned structure, solved in the in-service use, because traditional hydraulic loom is not comprehensive enough to the collection of dust on the fabric, very easily causes the remaining of dust on the fabric, and the dust of clearing up is difficult to realize centralized processing moreover, very easily causes the secondary pollution to the fabric, also makes the environment in workshop difficult to guarantee, brings inconvenient problem for the use.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (2)

1. The utility model provides an embedded hydraulic loom that can apply to many broad width cloth which characterized in that: the device comprises a frame body (1) and a supporting plate (2) fixedly mounted on the frame body, wherein a motor (3) is arranged on the supporting plate (2), the motor (3) is fixedly connected with a first shaft (4) through an output shaft on the motor, and a first transmission roller (5) is fixedly sleeved on the surface, close to the right end, of the first shaft (4);

a discharging shaft (6) and a receiving shaft (7) are rotatably connected to the inner side wall of the frame body (1) in a fixed-shaft mode, a third driving roller (9) and a second driving roller (8) are fixedly sleeved on the surfaces, close to the right end, of the discharging shaft (6) and the receiving shaft (7) respectively, a driving belt (10) is connected to the arc-shaped outlines of the first driving roller (5), the second driving roller (8) and the third driving roller (9) in a driving mode, and a fabric (11) to be rolled is arranged on the receiving shaft (7) and the discharging shaft (6);

the frame body (1) is provided with a dust suction device (13) for sucking dust on the fabric;

the dust collection device (13) comprises a positioning bent rod (15), a one-way valve I, a cylindrical shell (16) and a piston plate (24), wherein a collection shell (30) which is matched with the positioning bent rod (15) and the piston plate (24) to form two independent deformable spaces is arranged in the cylindrical shell (16), the cylindrical shell (16) is penetrated by the positioning bent rod (15) and is in limited rotary connection with the positioning bent rod, the top of the collection shell (30) is fixedly connected with the lower surface of the positioning bent rod (15), the surface of the collection shell (30) is movably connected with the inner wall of the cylindrical shell (16), the bottom of the positioning bent rod (15) is fixedly connected with the left side of the frame body (1), the left side and the right side of the piston plate (24) are both in sliding connection with the inner wall of the cylindrical shell (16), and the bottom of the piston plate (24) is movably connected with the surface of the positioning bent rod (15);

the dust collection device (13) comprises a long rod-shaped shell (18) fixedly connected with the center of a circle on the right side of a cylindrical shell (16), an air inlet is formed in the arc-shaped contour of the cylindrical shell (16) close to the bottom of the cylindrical shell and is fixedly connected with an air guide pipe (19) through the air inlet, the air guide pipe (19) is communicated with the long rod-shaped shell (18), bristles (22) for cleaning a fabric (11) to be rolled are arranged on the front side of the long rod-shaped shell (18), and a through hole is formed in the arc-shaped contour of the long rod-shaped shell (18) close to the bristles (22) and is fixedly connected with a suction nozzle (23) through the through hole;

the dust collection device (13) further comprises a cylindrical shell (16), wherein an arc-shaped outline close to the right end is fixedly sleeved with an annular gear ring (17), a surface close to the left end of the material receiving shaft (7) is fixedly sleeved with a non-complete gear (12), the annular gear ring (17) is meshed with teeth on the non-complete gear (12), the right end of the long rod-shaped shell (18) penetrates through the frame body (1) and is fixedly connected with a rotary table (20), the arc-shaped outline close to the right end of the long rod-shaped shell (18) is sleeved with a torsion spring (21), and two ends of the torsion spring (21) are fixedly connected with the opposite sides of the frame body (1) and the rotary table (20);

the one-way valve comprises a sealing pipe (25) of the inner wall of an air inlet on a cylindrical shell (16), the inner wall of the sealing pipe (25) is connected with a first truncated cone-shaped sealing plug (26) in a sliding mode, one side, far away from the air guide pipe (19), of the first truncated cone-shaped sealing plug (26) is fixedly connected with a transmission rod (27), one end, far away from the first truncated cone-shaped sealing plug (26), of the transmission rod (27) is fixedly connected with a first pressing plate (28), a first tension spring (29) is sleeved on the surface of the first pressing plate (28), and two ends of the first tension spring (29) are fixedly connected with the first pressing plate (28) and the opposite surface of the sealing pipe (25);

the dust fiber collecting device is characterized by further comprising an emptying device (14) for concentrated discharge of collected dust fibers, wherein the emptying device (14) comprises a second one-way valve, the second one-way valve comprises a second truncated cone-shaped sealing plug (31) which is provided with a truncated cone-shaped through hole on the side surface of the collecting shell (30) and is in sliding connection with the through hole, the left side of the second truncated cone-shaped sealing plug (31) is fixedly connected with a sealing cylinder (32), the left end of the sealing cylinder (32) is fixedly connected with a connecting thin rod (33), the left end of the connecting thin rod (33) is fixedly connected with a second pressing plate (34), the right side of the second pressing plate (34) is fixedly connected with a second extension spring (35), and the right end of the second extension spring (35) is fixedly connected with the left side of the collecting shell (30);

the emptying device (14) also comprises a first connecting rod (36) fixed on the right side of the second cone-shaped sealing plug (31), one end of the connecting rod I (36) far away from the second truncated cone-shaped sealing plug (31) is rotatably connected with a connecting rod II (37) through a pin shaft, one end of the second connecting rod (37) far away from the first connecting rod (36) is rotatably connected with a sliding plate (38) through a pin shaft, the top and the bottom of the sliding plate (38) are in limited sliding connection with the inner wall of the collecting shell (30), the left sides of the cylindrical shell (16) and the collecting shell (30) are respectively and correspondingly provided with an exhaust through groove, a cover body (39) is fixedly connected on the left side of the cylindrical shell (16) opposite to the exhaust through groove, the upper surface of the cover body (39) is provided with a through hole and is fixedly connected with a liquid injection pipe (40) through the through hole, the liquid injection pipe (40) is supplied with liquid from an external water source, and the top of the sliding plate (38) is movably connected with the bottom of the liquid injection pipe (40);

the number of the sliding plates (38) is two, and the two sliding plates (38) are symmetrically arranged on the vertical central line of the collecting shell (30);

the inner wall fixedly connected with extension spring three (42) of collecting shell (30), the one end of keeping away from on extension spring three (42) and collecting shell (30) is connected with the fixed surface of slide (38).

2. The machine of claim 1, wherein said machine is adapted to apply to multiple wide width pieces of cloth: the side surface of the second pressing plate (34) is provided with a through hole and is connected with a limiting rod (41) in a sliding mode through the through hole, and the end portion of the limiting rod (41) is fixedly connected with the side surface of the collecting shell (30).

Images