CN218580278U

CN218580278U - High-efficient ironing press equipment of meshbelt

Info

Publication number: CN218580278U
Application number: CN202222432744.3U
Authority: CN
Inventors: 蔡忠彬; 蔡子贤
Original assignee: Putian Jinteng Shoes And Clothing Co ltd
Current assignee: Putian Jinteng Shoes And Clothing Co ltd
Priority date: 2022-09-14
Filing date: 2022-09-14
Publication date: 2023-03-07
Anticipated expiration: 2032-09-14

Abstract

The utility model relates to a high-efficient ironing machine of meshbelt, including conduction subassembly, ironing subassembly and storage device interconnect in proper order sets up, conduction subassembly installs in conduction subassembly's input department, storage device includes the frame, pulls the subassembly and collects the subassembly, rack-mount is in ironing subassembly's output department, pull the subassembly and collect the subassembly and rotate in proper order and install in the frame, pull the subassembly and include two drive turntables, many winding posts, pull rotation post and many pull wires. The utility model relates to a high-efficient ironing machine of meshbelt when scalding, will treat that the ironing meshbelt is connected with the pull wire, starts ironing subassembly and storage device to pull the rotation post and rotate the pulling pull wire area and treat that the ironing belt removes towards ironing subassembly and irones, thereby need not twine one end meshbelt at the start front line, lead to the meshbelt to iron inhomogeneous needs and tailor, ironing belt that can be fine does not cause the wasting of resources.

Description

High-efficient ironing press equipment of meshbelt

Technical Field

The utility model belongs to the technical field of the meshbelt processing, concretely relates to high-efficient ironing press equipment of meshbelt.

Background

The ribbon loom is the equipment that can weave elasticity meshbelt into various width's of raw materials lines such as yarn, knitting wool, and the ribbon loom forms the meshbelt through sewing up warp and weft, and although the degree of automation is high for the ribbon loom on the existing market, and production efficiency is high, but its meshbelt of weaving out is general very rough, the unevenness, the fold appears easily, the poor quality of meshbelt, often needs later stage ironing press to handle.

At present meshbelt ironing machine need twine one section earlier when using, only adopts for a transmission cylinder usually when transmitting the meshbelt, then places the meshbelt on the transmission cylinder through the manual work, and twine together easily at the adjacent meshbelt of transmission, influences the transmission.

SUMMERY OF THE UTILITY MODEL

In view of the not enough of prior art, the utility model aims to solve the technical problem that a high-efficient ironing press equipment of meshbelt is provided, it can separate adjacent meshbelt, prevents that the winding from being in the same place, influences the transmission.

In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a high-efficient ironing machine of meshbelt, includes conduction assembly, ironing subassembly and storage device interconnect in proper order sets up, conduction assembly installs in conduction assembly's input department, storage device includes the frame, pulls the subassembly and collects the subassembly, rack-mount is in ironing assembly's output, it rotates in proper order to pull the subassembly and collect the subassembly and installs in the frame, conduction assembly includes support, a plurality of wire assembly and a plurality of conduction section of thick bamboo, and is a plurality of wire assembly horizontal equidistance is arranged and is installed on the support, and is a plurality of conduction section of thick bamboo equidistance is installed on the support, the quantity one-to-one of wire assembly and conduction section of thick bamboo.

The wire assembly comprises a plurality of wire holes and a plurality of wire pieces, the number of the wire holes corresponds to that of the wire pieces one by one, the wire pieces are rotatably arranged in the wire holes, and the wire pieces comprise channels for woven belts to pass through.

Each conducting cylinder is provided with a plurality of movable holes for the woven belts to pass through, and the number of the movable holes corresponds to the number of the wire guiding pieces one by one.

The traction assembly comprises two driving turntables, a plurality of winding columns, a traction rotating column and a plurality of traction lines, wherein the driving turntables are symmetrically installed on the frame, the traction rotating column is installed between the two driving turntables and is coaxially arranged with the driving turntables, and the winding columns are installed between the two driving turntables in a surrounding mode and surround the traction rotating column.

The traction line comprises a fixed end and a connecting end, the fixed end is fixedly connected to the traction rotating column, and the connecting end is connected with the mesh belt.

The link includes that the first sticky layer and the second sticky layer of being stained with is stained with, the first sticky layer and the second sticky layer of being stained with is stained with and pastes laminating each other through the magic, the first width of being stained with sticky layer and second sticky layer of being stained with is greater than the width of meshbelt.

The collecting assembly comprises a plurality of storage rollers and a plurality of storage boxes, the storage rollers are arranged on the rack in a rotating mode at equal intervals, and the storage boxes are located below the storage rollers and are evenly distributed.

The ironing component comprises a supporting frame, a first low-temperature heating roller, a second low-temperature heating roller, a medium-temperature heating roller, a high-temperature heating roller, an auxiliary clamping roller component and a transmission clamping component, wherein the first low-temperature heating roller is rotatably installed on the supporting frame, the medium-temperature heating roller is rotatably installed on the supporting frame and located below the first low-temperature heating roller, the high-temperature heating roller is rotatably installed on the supporting frame and located on one side of the first low-temperature heating roller, the second low-temperature heating roller is rotatably installed on the supporting frame and located below the high-temperature heating roller, the auxiliary clamping roller component is installed above the supporting frame and located above the first low-temperature heating roller and is attached to the first low-temperature heating roller, and the transmission clamping component is installed on the supporting frame.

The auxiliary clamping roller assembly comprises an auxiliary roller, two mounting frames and two first lifting cylinders, the two mounting frames are symmetrically fixed on a supporting frame, the auxiliary roller is rotatably installed between the two mounting frames, the two first lifting cylinders are respectively installed on the two mounting frames, the output ends of the two first lifting cylinders are respectively rotatably connected with the two ends of the auxiliary roller, the transmission clamping assembly comprises a first transmission roller, a second transmission roller, two connecting frames and two second lifting cylinders, the two connecting frames are symmetrically installed on the supporting frame, the first transmission roller and the second transmission roller are respectively rotatably installed between the two connecting frames, the second transmission roller is located above the first transmission roller, the two second lifting cylinders are respectively installed on the two connecting frames, and the output ends of the two second lifting cylinders are respectively rotatably connected with the two ends of the second transmission roller.

An efficient ironing process for a woven belt comprises the following steps:

A. the to-be-ironed woven belt is arranged on the wire assembly on the conduction assembly and separated, and the to-be-ironed woven belt is drawn to the ironing assembly through the drawing assembly;

B. the starting equipment drives the turntable to drive the traction column to rotate to pull the woven belt to be ironed to move towards the ironing assembly;

C. preheating and ironing the mesh belt to be ironed through a first low-temperature heating roller, slowly heating and adjusting through a medium-temperature heating roller, leveling at high temperature through a high-temperature heating roller, and consolidating at low temperature through a second low-temperature heating roller;

D. and (4) sorting and subpackaging through a collection component.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model relates to a high-efficient ironing machine of meshbelt corresponds the clearance in the wire spare respectively with many meshbelts and passes for two face laminatings of meshbelt are on guide roller, then on placing the conduction section of thick bamboo, separately prevent many meshbelts winding appearance appearing in the transmission, can stably transmit the meshbelt.

2. The utility model relates to a high-efficient ironing machine of meshbelt, when scalding, take out the output winding of pull wire from the ironing subassembly and put the input of ironing subassembly, will treat the ironing meshbelt to be connected with the pull wire, start ironing subassembly and storage device, thereby pull the column rotation and pull the pull wire area and treat the ironing meshbelt and remove towards the ironing subassembly and carry out the ironing, and directly take off the pull wire after the meshbelt winding is accomplished then through the rotation winding of pulling the column rotation winding on pulling the column rotation, can not influence the transmission of follow-up meshbelt, thereby need not be in the front line winding one end meshbelt of start, lead to the meshbelt to iron uneven needs and tailor, the ironing meshbelt that can be fine, do not cause the wasting of resources.

3. The utility model relates to a high-efficient ironing machine of meshbelt, rotate through the wire part and set up in the wire hole, it can be twisted by force to carry out straight because the centre gripping is carried out to ironing subassembly entrance to be transmitted to the meshbelt, just can not remove sufficient reversal torsion meshbelt in the manual work twisting need twisting in certain degree twisting, need stare at constantly comparatively extravagant manpower, and wire part free rotation sets up in the wire hole, twist reverse certain degree at the meshbelt and will produce a reversal force, and guide roller is gripping this reversal force of meshbelt and will drive the wire part at the wire hole internal rotation, thereby reverse twisting meshbelt, need not go manual operation again, manpower resources are saved.

4. The utility model relates to a high-efficient ironing machine of meshbelt, meshbelt pass through the stable form of first low temperature heating cylinder heating, pass through intermediate temperature heating cylinder heating plasticity again, pass through high temperature heating cylinder high temperature again and accomplish ironing, then through the firm shape of first low temperature heating cylinder low temperature heating, through the temperature rise ironing gradually, prevent that the too high meshbelt of temperature directly warp in a short time.

Drawings

FIG. 1 is a schematic structural view of the ironing apparatus of the present invention;

fig. 2 is a schematic structural view of the conducting assembly of the present invention;

FIG. 3 is a schematic structural view of the ironing assembly and the storage device of the present invention;

FIG. 4 is a schematic structural view of the practical traction assembly of the present invention;

fig. 5 is a schematic structural view of the traction wire of the present invention;

FIG. 6 is a schematic view of the auxiliary clamping roller assembly according to the present invention;

fig. 7 is a schematic structural view of the conveying clamping assembly of the present invention;

fig. 8 is a schematic structural view of the collecting assembly of the present invention.

The labels in the figure are: 1. a conductive component; 11. a support; 12. a wire assembly; 13. a conductive cylinder; 14. a wire guide hole; 15. a wire guide; 16. a movable hole; 2. a ironing assembly; 21. a support frame; 22. a first low-temperature heating roller; 23. a second low-temperature heating roller; 24. heating the roller at a medium temperature; 25. heating the roller at a high temperature; 26. an auxiliary clamping roller assembly; 27. a transport clamping assembly; 28. an auxiliary drum; 29. a mounting frame; 210. a first lifting cylinder; 211. a first transfer drum; 212. a second transfer drum; 213. a connecting frame; 214. a second lifting cylinder; 3. a storage device; 31. a frame; 32. a traction assembly; 33. a collection assembly; 34. driving the turntable; 35. winding the column; 36. pulling the rotating column; 37. a pull wire; 38. a fixed end; 39. a first adhesive layer; 310. a second adhesive layer; 311. a storage drum; 312. a storage box.

Detailed Description

In order to make the aforementioned and other features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1-8, the present embodiment provides a high-efficiency webbing ironing apparatus, which includes a conduction assembly 1, an ironing assembly 2, and a storage device 3, where the ironing assembly 2 and the storage device 3 are sequentially connected to each other, the conduction assembly 1 is installed at an input of the conduction assembly 1, the storage device 3 includes a frame 31, a traction assembly 32, and a collection assembly 33, the frame 31 is installed at an output of the ironing assembly 2, and the traction assembly 32 and the collection assembly 33 are sequentially rotatably installed on the frame 31. Specifically, the conducting assembly 1 includes a support 11, a plurality of conducting wire assemblies 12 and a plurality of conducting cylinders 13, the plurality of conducting wire assemblies 12 are horizontally arranged on the support 11 at equal intervals, the plurality of conducting cylinders 13 are arranged on the support 11 at equal intervals, and the number of the conducting wire assemblies 12 corresponds to the number of the conducting cylinders 13. The wire assembly 12 comprises a plurality of wire holes 14 and a plurality of wire members 15, the number of the wire holes 14 corresponds to that of the wire members 15 one by one, the wire members 15 are rotatably arranged in the wire holes 14, the wire members 15 comprise channels for woven belts to pass through, guide rollers are arranged on two symmetrical surfaces in the channels, and gaps for the woven belts to pass through are arranged between the guide rollers on the two symmetrical surfaces.

The method comprises the following steps that a plurality of woven belts respectively penetrate through gaps in a wire guide 15, so that two surfaces of the woven belts are attached to a guide roller, and then the woven belts are placed on a guide cylinder 13, so that firstly, the woven belts are separated to prevent winding during transmission, and the woven belts can be transmitted; secondly, the woven belt is transmitted to the entrance of the ironing component 2 and can be forcibly twisted due to being clamped to perform straightening, the woven belt can not be manually reversely twisted to a certain degree after being twisted, the labor is wasted due to the fact that the woven belt needs to be always stared at the moment, the wire guide piece 15 is freely rotatably arranged in the wire guide hole 14, reverse force can be generated when the woven belt is twisted to a certain degree, the reverse force generated when the guide roller clamps the woven belt can drive the wire guide piece 15 to rotate in the wire guide hole 14, therefore, the woven belt is reversely twisted, manual operation is not needed, and the labor resources are saved. Each of the guide cylinders 13 is provided with a plurality of movable holes 16 through which the webbing is movable, and the number of the movable holes 16 corresponds one-to-one to the number of the wire guides 15. The webbing is allowed to have a space for twisting by the movable hole 16.

Further, the traction assembly 32 comprises two driving turntables 34, a plurality of winding columns 35, a traction rotation column 36 and a plurality of traction wires 37, wherein the two driving turntables 34 are symmetrically installed on the frame 31, the traction rotation column 36 is installed between the two driving turntables 34 and is coaxially arranged with the driving turntables 34, the plurality of winding columns 35 are installed between the two driving turntables 34 around the traction rotation column 36, and the plurality of traction wires 37 are wound on the traction rotation column 36 at equal intervals. Specifically, pull wire 37 includes stiff end 38 and link, and stiff end 38 fixed connection is on pulling rotation post 36, and the meshbelt is connected to the link, and the link includes that the first adhesive linkage 39 and the second of being stained with is stained with adhesive linkage 310, and the first adhesive linkage 39 and the second of being stained with is stained with adhesive linkage 310 and pastes each other through the magic, and the first width of being stained with adhesive linkage 39 and the second of being stained with adhesive linkage 310 is greater than the width of meshbelt. The woven belt to be ironed is placed between the first adhesive layer 39 and the second adhesive layer 310, and then the first adhesive layer 39 and the second adhesive layer 310 are attached and fixed to each other through the magic tapes, so that the woven belt to be ironed is tightly wrapped.

When carrying out the scald, take out pull wire 37 and put the input of scald flat subassembly 2 from the output winding of scald flat subassembly 2, will treat the scald flat meshbelt and be connected with pull wire 37, start scald flat subassembly 2 and storage device 3, thereby pull and rotate post 36 and rotate pulling pull wire 37 area and treat the scald flat meshbelt and remove towards scald flat subassembly 2 and carry out the scald flat, and directly take off pull wire 37 after the meshbelt winding is accomplished and then twine on pulling rotation post 36 through the rotation of pulling rotation post 36, can not influence the transmission of follow-up meshbelt, thereby need not be in the line winding one end meshbelt before the start, lead to the meshbelt to iron uneven and need to tailor, the scald flat meshbelt that can be fine, do not cause the wasting of resources.

Further, the collecting assembly 33 includes a plurality of receiving rollers 311 and a plurality of receiving boxes 312, the plurality of receiving rollers 311 are disposed on the rack 31 in an equidistance rotation manner, and the plurality of receiving boxes 312 are located below the plurality of receiving rollers 311 and are uniformly distributed. The web is transported by being placed on a drum and then dropped into a different bin 312 for collection.

Further, the ironing assembly 2 includes a supporting frame 21, a first low-temperature heating roller 22, a second low-temperature heating roller 23, a middle-temperature heating roller 24, a high-temperature heating roller 25, an auxiliary clamping roller assembly 26 and a transmission clamping assembly 27, the first low-temperature heating roller 22 is rotatably installed on the supporting frame 21, the middle-temperature heating roller 24 is rotatably installed on the supporting frame 21 and located below the first low-temperature heating roller 22, the high-temperature heating roller 25 is rotatably installed on the supporting frame 21 and located at one side of the first low-temperature heating roller 22, the second low-temperature heating roller 23 is rotatably installed on the supporting frame 21 and located below the high-temperature heating roller 25, the auxiliary clamping roller assembly 26 is installed on the supporting frame 21 and located above the first low-temperature heating roller 22 and attached to the first low-temperature heating roller 22, and the transmission clamping assembly 27 is installed on the supporting frame 21. Be equipped with interval conduction pole between first low temperature heating cylinder 22 and the high temperature heating cylinder 25, be equipped with a plurality of interval stands on the interval conduction pole, a plurality of interval stands are arranged along the length equidistance of interval conduction pole and are set up, place the meshbelt at adjacent interval stand directly to come with the meshbelt interval division, prevent that the winding is in the same place when ironing.

The meshbelt passes through first low temperature heating cylinder 22 heating stable form, passes through middle temperature heating cylinder 24 heating plasticity again, passes through high temperature heating cylinder 25 high temperature again and accomplishes the ironing, then through the firm shape of first low temperature heating cylinder 22 low temperature heating, through the temperature rise ironing gradually, prevents that the too high meshbelt of temperature directly warp for a while.

Specifically, the auxiliary clamping roller assembly 26 includes an auxiliary roller 28, two mounting brackets 29 and two first lifting cylinders 210, the two mounting brackets 29 are symmetrically fixed on the supporting frame 21, the auxiliary roller 28 is rotatably mounted between the two mounting brackets 29, the two first lifting cylinders 210 are respectively mounted on the two mounting brackets 29, and output ends of the two first lifting cylinders 210 are respectively rotatably connected with two ends of the auxiliary roller 28. The supplementary drum 28 is simultaneously driven by the two first elevating cylinders 210 to move toward the first low-temperature heating drum 22 so that the supplementary drum 28 is attached to the first low-temperature heating drum 22 to press the webbing against falling or is not attached to the first low-temperature heating drum 22 sufficiently.

Further, the transmission clamping assembly 27 includes a first transmission roller 211 and a second transmission roller 212, two connection frames 213 and two second lifting cylinders 214, the two connection frames 213 are symmetrically installed on the supporting frame 21, the first transmission roller 211 and the second transmission roller 212 are both rotatably installed between the two connection frames 213, the second transmission roller 212 is located above the first transmission roller 211, the two second lifting cylinders 214 are respectively installed on the two connection frames 213, and output ends of the two second lifting cylinders 214 are respectively rotatably connected with two ends of the second transmission roller 212. One of the connecting frames 213 is mounted with a driving machine for driving the first and

second transfer rollers

211 and 212. The second transfer roller 212 is driven to clamp the webbing against the first transfer roller 211 by two second lift cylinders 214, and then the first transfer roller 211 and the second transfer roller 212 rotate to transfer the webbing.

An efficient ironing process for a woven belt comprises the following steps:

A. the mesh belt to be ironed is arranged on the wire assembly 15 of the conduction assembly 1 and separated, and the mesh belt to be ironed is pulled to the ironing assembly through the pulling assembly 32;

B. the starting equipment drives the turntable 34 to drive the traction column to rotate to pull the braid to be ironed to move towards the ironing assembly 2;

C. preheating and ironing the braid to be ironed through a first low-temperature heating roller 22, slowly heating and adjusting a medium-temperature heating roller 24, leveling at a high temperature through a high-temperature heating roller 25, and consolidating at a low temperature through a second low-temperature heating roller 23;

D. sorted by collection assembly 33.

The meshbelt to be ironed is placed respectively on every wire assembly 15 and is separated, and can pull the meshbelt through pulling subassembly 32 and carry out the ironing, need not twine one end meshbelt at the start-up front line, leads to the meshbelt ironing inhomogeneous needs to be tailor, and ironing meshbelt that can be fine does not cause the wasting of resources, through the temperature rise ironing gradually, prevents that the too high meshbelt of temperature directly warp for a while.

The basic principle and the main features of the invention and the advantages of the invention are shown and described above, and it should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only illustrative of the principles of the invention, and without departing from the spirit and scope of the invention, the invention can also have various changes and improvements, which fall into the scope of the invention, and the protection scope of the invention is defined by the appended claims and their equivalents.

Claims

1. The utility model provides a high-efficient ironing press equipment of meshbelt which characterized in that: including conduction subassembly, ironing subassembly and storage device interconnect in proper order sets up, conduction subassembly installs in conduction subassembly's input department, storage device includes the frame, pulls the subassembly and collects the subassembly, rack-mount is in ironing subassembly's output, it rotates in proper order to pull the subassembly and collect the subassembly and installs in the frame, conduction subassembly includes support, a plurality of wire assembly and a plurality of conduction section of thick bamboo, and is a plurality of wire assembly level equidistance is arranged and is installed on the support, and is a plurality of the conduction section of thick bamboo equidistance is installed on the support, the quantity one-to-one of wire assembly and conduction section of thick bamboo.

2. A webbing efficient ironing apparatus according to claim 1, characterized in that: the wire assembly comprises a plurality of wire holes and a plurality of wire pieces, the number of the wire holes corresponds to that of the wire pieces one to one, the wire pieces are rotatably arranged in the wire holes, and each wire piece comprises a channel for the braid to pass through.

3. A webbing efficient ironing apparatus according to claim 1, characterized in that: each conducting cylinder is provided with a plurality of movable holes for the woven belts to pass through, and the number of the movable holes corresponds to the number of the wire guiding pieces one by one.

4. A webbing efficient ironing apparatus according to claim 1, characterized in that: the traction assembly comprises two driving turntables, a plurality of winding columns, a traction rotating column and a plurality of traction lines, wherein the driving turntables are symmetrically arranged on the frame, the traction rotating column is arranged between the two driving turntables and is coaxially arranged with the driving turntables, and the winding columns are arranged between the two driving turntables around the traction rotating column and are wound with equal distances on the traction rotating column.

5. An efficient webbing ironing apparatus according to claim 4, characterized in that: the traction line comprises a fixed end and a connecting end, the fixed end is fixedly connected to the traction rotating column, and the connecting end is connected with the woven belt.

6. An efficient webbing ironing apparatus according to claim 5, characterized in that: the link includes that the first sticky layer and the second sticky layer of being stained with is stained with, the first sticky layer and the second sticky layer of being stained with is stained with and pastes laminating each other through the magic, the first width of being stained with sticky layer and second sticky layer of being stained with is greater than the width of meshbelt.

7. The webbing efficient ironing apparatus of claim 1, wherein: the collecting assembly comprises a plurality of storage rollers and a plurality of storage boxes, the storage rollers are arranged on the rack in a rotating mode at equal intervals, and the storage boxes are located below the storage rollers and are evenly distributed.

8. The webbing efficient ironing apparatus of claim 1, wherein: the ironing component comprises a supporting frame, a first low-temperature heating roller, a second low-temperature heating roller, a medium-temperature heating roller, a high-temperature heating roller, an auxiliary clamping roller component and a transmission clamping component, wherein the first low-temperature heating roller is rotatably installed on the supporting frame, the medium-temperature heating roller is rotatably installed on the supporting frame and located below the first low-temperature heating roller, the high-temperature heating roller is rotatably installed on the supporting frame and located on one side of the first low-temperature heating roller, the second low-temperature heating roller is rotatably installed on the supporting frame and located below the high-temperature heating roller, the auxiliary clamping roller component is installed above the supporting frame and located above the first low-temperature heating roller and is attached to the first low-temperature heating roller, and the transmission clamping component is installed on the supporting frame.

9. A webbing efficient ironing apparatus according to claim 8, characterized in that: the auxiliary clamping roller assembly comprises an auxiliary roller, two mounting frames and two first lifting cylinders, the two mounting frames are symmetrically fixed on a supporting frame, the auxiliary roller is rotatably installed between the two mounting frames, the two first lifting cylinders are respectively installed on the two mounting frames, the output ends of the two first lifting cylinders are respectively rotatably connected with the two ends of the auxiliary roller, the transmission clamping assembly comprises a first transmission roller, a second transmission roller, two connecting frames and two second lifting cylinders, the two connecting frames are symmetrically installed on the supporting frame, the first transmission roller and the second transmission roller are respectively rotatably installed between the two connecting frames, the second transmission roller is located above the first transmission roller, the two second lifting cylinders are respectively installed on the two connecting frames, and the output ends of the two second lifting cylinders are respectively rotatably connected with the two ends of the second transmission roller.