CN212608782U - Flat pipe hanging plate device - Google Patents

Abstract

The utility model discloses a flat tub of hanging wall device, flat tub of hanging wall device includes: the winding disc is used for winding the flat pipe; the rubber coating mechanism is used for adhering an adhesive tape to the flat pipe; the shearing mechanism is used for cutting the adhesive tape, and the cutting position of the shearing mechanism exceeds the tail end of the flat pipe, so that the adhesive tape has a margin at the tail end of the flat pipe; the belt pressing mechanism is used for pressing the flat pipe and the adhesive tape which enter the winding disc against the winding disc; the above scheme of the utility model realizes the automatic sticking effect of the flat tube tail end, solves the automatic fixation of the flat tube tail end in the finished product plate, further prevents the finished product plate from scattering, and realizes the linking work of the next plate; above-mentioned flat pipe hanging wall device has realized the full-automatic hanging wall of flat pipe, has liberated the hand labor power, and production efficiency improves greatly, and is corresponding, and manufacturing cost also reduces by a wide margin.

Description

Flat pipe hanging plate device

Technical Field

The utility model belongs to the machine-building field especially relates to a flat tub hanging wall device.

Background

The heat-shrinkable flat tube is a heat-shrinkable tube/heat-shrinkable tube sleeve, has the functions of high-temperature shrinkage, softness, flame retardance, insulation, corrosion prevention and the like, and is widely applied to insulation protection of various wire harnesses, welding spots and inductors, rust prevention, corrosion prevention and the like of metal tubes and bars.

The heat-shrinkable flat tube is generally stored by a paper disc/tube disc, that is, the heat-shrinkable flat tube is wound on the paper disc/tube disc, and in industrial production, the process of winding the heat-shrinkable flat tube on the paper disc/tube disc is generally called as an upper disc. In most of the prior production workshops for producing the heat-shrinkable flat tubes, the hanging operation is manually completed, so that the time and the labor are consumed, and the labor cost is very high.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide a dish device on flat pipe aims at solving in the workshop of present most thermal shrinkage flat pipe, and dish loading work is all by artifical manual completion, consuming time power, problem that the cost of labor is very high.

To this end, the embodiments of the present invention are implemented as follows: an upper plate device on a flat pipe comprises: the winding device comprises a winding disc, a rubber coating mechanism, a shearing mechanism and a belt pressing mechanism;

the winding disc is used for winding flat tubes, the flat tubes pass through the space between the rubber coating mechanism and the shearing mechanism from the outside and then enter the winding disc, and the winding disc pulls the flat tubes to move based on the winding effect;

the rubber coating mechanism is arranged opposite to the shearing mechanism and used for adhering an adhesive tape to the flat pipe passing between the rubber coating mechanism and the shearing mechanism;

the shearing mechanism is used for cutting the adhesive tape which is output from the rubber coating mechanism and adhered to the flat pipe, and the cutting position exceeds the tail end of the flat pipe, so that the adhesive tape has a margin at the tail end of the flat pipe;

the belt pressing mechanism is arranged opposite to the winding disc and used for pressing the flat pipes and the adhesive tapes entering the winding disc against the winding disc.

Preferably, the shearing mechanism at least comprises a shearing pressure plate, and the shearing pressure plate is used for bearing the flat pipe moving from the outside to the winding disc;

the rubber coating mechanism at least comprises a rubber coating component, wherein the rubber coating component is opposite to the shearing and pressing plate and can be close to the shearing and pressing plate so as to adhere the adhesive tape to the flat pipe passing through the shearing and pressing plate.

Preferably, the shearing mechanism further comprises:

the shearing support is provided with the shearing pressure plate;

the cutter assembly is arranged on the shear support and is used for cutting off the adhesive tape; and

the shear sensor is arranged on the shear support and used for detecting the flat pipe passing through the shear pressing plate;

when the shear sensor detects the tail end of the flat pipe, the cutter assembly performs cutting processing with allowance on the adhesive tape.

Preferably, the shearing and pressing plate is provided with a notch;

the shearing mechanism further comprises at least one group of elastic abutting components, and the elastic abutting components can extend out of the gaps in a natural state and can elastically stretch out and retract.

Preferably, the elastic pressing component comprises: the shearing device comprises a shearing roller, a shearing rolling shaft, a shearing bearing, a shearing pressure spring and a shearing sliding seat;

the shear roller and the shear roller are mounted together through the shear bearing;

the shearing sliding seat is arranged on the shearing support, the shearing pressing plate is fixedly connected with the shearing sliding seat, a cylindrical track is arranged on the shearing sliding seat, and the shearing pressing spring is arranged in the cylindrical track;

the side wall of the cylindrical track is provided with a sliding groove which penetrates through the side wall, the shearing roller penetrates through the sliding groove from the outside and is in butt joint with one side, close to the shearing pressure plate, of the shearing pressure spring, and under the action of the shearing pressure spring, the shearing roller can extend out of the notch in a natural state.

Preferably, the encapsulation mechanism further comprises:

the rubber coating support is arranged on the rubber coating support; and

the flattening component is arranged on the rubber coating support and at least comprises a flattening driving part and a flattening executing part, and the flattening driving part is used for driving the flattening executing part to move, so that the flattening executing part is used for abutting against the flat pipe on one side of the shearing and pressing plate.

Preferably, the gluing assembly comprises: the driving component and the gluing component are arranged on the rubber coating bracket; the gluing component is driven by the driving component and can be pressed against the flat pipe passing through the shearing and pressing plate to perform a rubber coating action;

the gluing part comprises: the glue feeding device comprises a gluing bracket, a glue feeding module, a first roller module and a second roller module, wherein the glue feeding module, the first roller module and the second roller module are arranged on the gluing bracket;

the adhesive feeding module is used for storing an adhesive tape or introducing the adhesive tape from the outside;

when the gluing component performs a gluing action, the first roller module is pressed against the flat pipe passing through the shearing and pressing plate to guide the adhesive tape led out by the gluing module and presses the adhesive tape against the flat pipe passing through the shearing and pressing plate;

the second roller module is used for pressing the adhesive tape guided and pressed by the first roller module.

Preferably, the first roller module at least comprises a rotatable first roller arranged on the gluing bracket, and axial tooth-shaped structures are distributed on the circumferential surface of the first roller;

the second roller module at least comprises a rotatable second roller arranged on the gluing bracket.

Preferably, the elastic pressing components in the shearing mechanism are provided with two groups, and the two groups correspond to the first roller and the second roller one to one respectively.

Preferably, the belt pressing mechanism includes: the press belt driving assembly and the press belt executing assembly are arranged on the press belt;

the pressing belt driving assembly is used for driving the pressing belt executing assembly to approach the winding disc, so that the flat pipe and the adhesive tape entering the winding disc are pressed through the pressing belt executing assembly.

Preferably, the disc hanging device on the flat tube further comprises:

and the cutting mechanism is used for cutting off the flat pipe entering the cutting mechanism and the rubber coating mechanism after the flat pipe is rolled to reach the specified length.

According to the embodiment of the utility model, the flat tube is rolled and pulled through the rolling disc, the adhesive tape is automatically stuck and cut off at the tail end of the flat tube by the mutual matching of the rubber coating mechanism and the shearing mechanism, and the adhesive tape leaves a margin at the tail end of the flat tube, and the margin of the adhesive tape is brought into the rolling disc along with the flat tube; above-mentioned flat pipe hanging wall device has realized the full-automatic hanging wall of flat pipe, has liberated the hand labor power, and production efficiency improves greatly, and is corresponding, and manufacturing cost also reduces by a wide margin.

Drawings

Fig. 1 is a schematic overall structure diagram of a plate hanging device on a flat tube according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a shearing mechanism according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a rubber coating mechanism according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a belt pressing mechanism according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a cutting mechanism according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description is provided for the specific embodiments of the present invention.

In an embodiment, as shown in fig. 1 to 4, a flat tube hanging plate device is provided, where fig. 1 is a schematic overall structure diagram of the flat tube hanging plate device, including: a winding disc 4, a rubber coating mechanism 3, a shearing mechanism 2 and a belt pressing mechanism 1.

The winding disc 4 is used for winding the flat pipe 5, the flat pipe 5 firstly passes through the space between the rubber coating mechanism 3 and the shearing mechanism 2 from the outside and then enters the winding disc 4, and the winding disc 4 pulls the flat pipe 5 to move based on the winding effect;

the rubber coating mechanism 3 is arranged opposite to the shearing mechanism 2 and used for adhering the adhesive tape 315 to the flat pipe 5 passing between the rubber coating mechanism 3 and the shearing mechanism 2;

the shearing mechanism 2 is used for cutting the adhesive tape 315 which is output from the rubber coating mechanism 3 and adhered to the flat pipe 5, and the cutting position exceeds the tail end of the flat pipe 5, so that the adhesive tape 315 has a margin at the tail end of the flat pipe 5; and

the belt pressing mechanism 1 is arranged opposite to the winding disc 4 and used for pressing the flat pipe 5 and the adhesive tape 315 entering the winding disc 4 against the winding disc.

In one case of the embodiment, the flat tube 5 is input into the flat tube coiling device from the outside, and firstly passes through the space between the rubber coating mechanism 3 and the shearing mechanism 2, and then enters the coiling disc 4, and the coiling disc 4 pulls the flat tube 5 to move based on the coiling action; it can be understood that the encapsulation mechanism 3 and the shearing mechanism 2 are matched with each other to form an input end of the flat pipe 5, the winding disc 4 forms a next-stage mechanism of the encapsulation mechanism 3 and the shearing mechanism 2, the flat pipe 5 continuously passes through the encapsulation mechanism 3 and the shearing mechanism 2 from the outside under the traction of the winding disc 4 and moves towards the winding disc 4, in the moving process, the flat pipe 5 is adhered to an adhesive tape by the encapsulation mechanism 3, and when the tail end of the flat pipe passes through the shearing mechanism 2, the shearing mechanism 2 executes the cutting-off treatment with allowance. As an example, fig. 1 shows a mechanism arrangement manner of the flat tube feeding disc device, wherein the encapsulation mechanism 3 is disposed above the shearing mechanism 2, and the winding disc 4 and the belt pressing mechanism 1 are disposed on the sides of the encapsulation mechanism 3 and the shearing mechanism 2, specifically on the left side or the right side, and are set according to actual requirements.

In one case of the present embodiment, the winding tray 4, i.e., the sheet tray, the tube tray, etc.; the flat pipe 5 is a heat-shrinkable flat pipe and belongs to a heat-shrinkable pipe/heat-shrinkable pipe sleeve; the term "flat" in the flat tube herein is understood to mean a state in which the tube wall of the heat shrinkable tube is brought close to and bonded to each other by deformation of the tube body.

In one embodiment, the adhesive tape 315 is made of paper, cloth, or film as a substrate, and the adhesive is uniformly coated on the substrate to form a paper adhesive tape, a cloth adhesive tape, or a film adhesive tape, such as a masking tape, a scotch tape, a box sealing tape, and the like, without limitation.

In a case of this embodiment, the cutting position of the adhesive tape 315 exceeds the tail end of the flat tube 5, that is, a margin is left, so that after the flat tube 5 is completely wound to the winding disc 4, the tail end of the flat tube 5 can be adhered to the wound flat tube through the exceeding part of the adhesive tape, that is, the winding disc 4.

In one aspect of this embodiment, the principle of operation of the pan device on a flattened tube is as follows:

1. the flat tube 5 is wound and pulled through the rotation of the winding disc 4;

2. after the flat pipe 5 is rolled to a set length, the adhesive tape 315 is adhered to the flat pipe 5 through the rubber coating mechanism 3, and the flat pipe 5 and the adhesive tape 315 are pressed against a rolling disc through the adhesive tape mechanism 1;

3. when the shearing mechanism 2 detects the tail end of the flat tube 5, cutting off the adhesive tape 315, wherein the cutting off position of the adhesive tape exceeds the tail end of the flat tube 5;

4. then, continue the remaining flat pipe 5 of rolling through rolling up dish 4, continue to support through pressure band mechanism 1 and press remaining flat pipe 5, adhesive tape 315 to finally make the adhesive tape 315 that surpasss the tail end of flat pipe 5 paste on flat pipe 5 that has rolled up, the tail end of flat pipe 5 is pasted on flat pipe that has rolled up through the surpassing part of adhesive tape 315 promptly, has realized the self-adhesive function of flat pipe tail end.

In this embodiment, the flat tube plate feeding device includes a winding plate, a rubber coating mechanism, a shearing mechanism, a belt pressing mechanism, and the like, the winding and traction of the flat tube are realized through the winding plate, the automatic adhesion and cutting off of the adhesive tape at the tail end of the flat tube are realized through the mutual matching of the rubber coating mechanism and the shearing mechanism, and the adhesive tape leaves a margin at the tail end of the flat tube, and the margin of the adhesive tape is brought into the winding plate along with the flat tube; above-mentioned flat pipe hanging wall device has realized the full-automatic hanging wall of flat pipe, has liberated the hand labor power, and production efficiency improves greatly, and manufacturing cost also reduces by a wide margin simultaneously.

In one embodiment, as shown in fig. 1, 2 and 3, the shearing mechanism 2 and the encapsulation mechanism 3 cooperate to paste the adhesive tape on the flat pipe passing between the shearing mechanism and the encapsulation mechanism.

In one aspect of the present embodiment, the shearing mechanism 2 comprises at least one shearing plate 202, and the shearing plate 202 is used for carrying the flat tubes 5 moving from the outside to the winding disc 4.

In one aspect of the present embodiment, the encapsulation mechanism 3 at least comprises an adhesive applying component 30, the adhesive applying component 30 is disposed opposite to the shear platen 202 and can be close to or far from the shear platen 202; during the encapsulation operation, the glue assembly 30 may be brought into close proximity to the shear platen 202 to adhere the strip of glue 315 to the flat tubes passing through the shear platen 202.

In a case of this embodiment, when the adhesive tape bonding operation is performed, the flat tube 5 is moved between the shearing mechanism 2 and the encapsulation mechanism 3, the gluing component 30 approaches the shearing mechanism, the flat tube 5 is pressed between the gluing component and the shearing and pressing plate 202, and then the gluing component 30 can bond the adhesive tape to the pressed flat tube.

In one embodiment, as shown in fig. 2, the shearing mechanism 2 further comprises:

the shear support 201 is provided with the shear pressure plate 202;

a cutter assembly disposed on the scissor support 201 for cutting the adhesive tape 315; and

a shear sensor (not shown) provided on the shear support 201 for detecting the flat tube passing through the shear plate 202;

when the shear sensor detects the tail end of the flat tube 5, the cutter assembly performs a cutting process on the adhesive tape 315 with a margin.

In one aspect of the present embodiment, the cutting process of the adhesive tape 315 by the cutter assembly with a margin is: the position that cutter unit spare cut off the adhesive tape surpasss the tail end of flat pipe to make the adhesive tape leave the surplus at flat pipe tail end, thereby after flat pipe completely rolled up to rolling dish 4, can paste it through this surplus adhesive tape and fix on rolling dish 4, and be unlikely to because flat pipe tail end is unset and scatter.

In one aspect of this embodiment, the cutter assembly includes: a shear knife 203, a shear support 210, and a shear drive; wherein the shear drive is fixed to the shear support 210, the shear blade 203 is fixed to the shear drive, and the shear support 210 is fixed to the shear support 201. Optionally, the shear drive may be selected from a cylinder assembly, a hydraulic assembly, a motor/motor assembly, and the like, without limitation; in the present embodiment, a cylinder assembly is used as an example, i.e., the shear drive is a shear cylinder 211.

In one aspect of the present embodiment, the cutting blade 203 is an L-shaped cutting blade, and includes a blade bottom fixing portion and a blade surface perpendicular to the blade bottom fixing portion, wherein the blade bottom fixing portion is fixedly connected to the cutting cylinder 211, and the blade surface is driven by the cutting driving member 211 to extend through an opening (not shown) of the cutting plate 202, so as to perform a cutting process on the passing adhesive tape.

In one aspect of the present embodiment, the shear sensor is disposed on the shear sensor mount 204, and the shear sensor mount 204 is disposed on the shear support 201; the shear sensor may detect the presence or absence of a flat tube on the shear platen 202, that is, may detect the tail end of the flat tube; in the process of gluing the adhesive tape, when the shear sensor is changed from triggering to non-triggering, the tail end of the flat pipe is described, and the cutting action of the cutter assembly can be triggered.

In one aspect of the present embodiment, the shear sensor may be a reflective sensor, such as an infrared reflective sensor.

In a condition of this embodiment, when cutting the sensor and detecting the tail end of flat pipe, can postpone earlier for a predetermined time, trigger the action of cutting off of cutter unit spare again to reserve the adhesive tape of certain length at the tail end of flat pipe.

In one embodiment, the shear plate 202 is provided with a notch (not shown); the shearing mechanism 2 further comprises at least one group of elastic pressing components, and the elastic pressing components can extend out of the gap in a natural state and can elastically stretch out and draw back. Specifically, when the adhesive tape is adhered to the flat tube passing through the pressure shearing plate 202 by the adhesive coating mechanism 3, the elastic pressing component is pressed, and the elastic pressing component has an elastic stretching function, so that the elastic pressing component can be matched with the adhesive coating mechanism 3 to press the flat tube between the elastic pressing component and the adhesive coating mechanism 3 to press one side of the flat tube, and the adhesive coating component 30 of the adhesive coating mechanism 3 presses the other side of the flat tube.

In one aspect of this embodiment, with reference to fig. 2, the elastic pressing component includes: a shear roller 205, a shear roller 206, a shear bearing 207, a shear compression spring 208, and a shear slide 209.

Wherein the shear roller 205 and the shear roller 206 are mounted together by a shear bearing 207 such that the shear roller 205 is free to rotate relative to the shear roller; the shear slide seat 209 is arranged on the shear support 201, the shear pressure plate 202 is fixedly connected with the shear slide seat 209, a cylindrical track (positioned inside the shear slide seat 209) is arranged on the shear slide seat 209, and the shear pressure spring 208 is arranged in the cylindrical track; the side wall of the cylindrical track is provided with a sliding groove 212 penetrating through the side wall, and the shear roller 206 penetrates through the sliding groove 212 from the outside and is butted with one side of the shear pressure spring 208 close to the shear pressure plate 202. Under the natural state cut under the effect of pressure spring 208, cut cylinder 206 protractile the breach has flat pipe to pass through on cutting clamp plate 202, and when this flat pipe was glued the subassembly, cut the pressure spring and compressed to can make cut cylinder 206 support and press on flat pipe.

In one embodiment, with reference to fig. 3 and the previous embodiment, a specific structure of the encapsulation mechanism 3 is given herein, and the encapsulation mechanism 3 comprises, in addition to the above-mentioned glue assembly:

a rubberized mount 302 on which the glue assembly 30 is disposed; and

the flattening assemblies are disposed on the encapsulation support 302, wherein the flattening assemblies at least include a flattening driving element and a flattening executing element, and the flattening driving element is used for driving the flattening executing element to move, so that the flattening executing element presses the flat tubes toward one side of the shear plate 202.

In one aspect of this embodiment, the flattening drive can be a cylinder assembly, a hydraulic assembly, an electric motor/motor assembly, and is not particularly limited; the flattening drive in this embodiment is exemplified by a cylinder assembly, such as bag flattening cylinder 301 in FIG. 3; the flattening executing part can be a roller part, and the roller part can be rolled on the flat pipe.

In one aspect of this embodiment, the flattening actuator comprises: a first bag flattening rotating shaft 303, a bag flattening loose joint 304, a bag flattening connecting rod 305, a bag flattening limit support 306, a second bag flattening rotating shaft 307 and a bag flattening roller 308; the bag flattening air cylinder 301, the bag flattening rotating shaft 303 and the bag flattening limiting support 306 are fixed on the rubber coating support 302, the bag flattening connecting rod 305 is connected with the bag bottom plate 302 through the first bag flattening rotating shaft 303, the bag flattening loose joint 304 is connected with the air cylinder rod of the bag flattening air cylinder 301 firstly and then hinged with the bag flattening connecting rod 305, and the second bag flattening rotating shaft 307 is connected with the bag flattening roller 308 through a bearing firstly and then fixed on the bag flattening connecting rod 305.

The flattening component mainly has the main function that when the flat pipe is not cut off by external equipment temporarily, the flat pipe is pressed against one side of the shearing mechanism 2 or the shearing and pressing plate 202 through the package flattening roller 308, the tension of the flat pipe can be adjusted, and meanwhile, a certain guiding function is achieved; in-process at flat pipe by rolling to rolling dish 4, the package flattening cylinder 308 that supports to press on the flat pipe that removes can be driven rotatoryly under the effect of the frictional force of flat pipe, can avoid like this producing the scotch to flat pipe because of the sliding friction between the two.

In one embodiment, as shown in connection with FIG. 3, the glue assembly 30 includes: a driving component and a gluing component arranged on the rubber coating bracket 302; wherein, the gluing component is driven by the driving component and can press the flat tube passing through the shearing and pressing plate 202 to execute the rubber coating action.

In one aspect of the present embodiment, with reference to fig. 1 and 3, the driving components in the glue applying assembly 30 include a push-down driving module and a traverse driving module; wherein, push down the drive module and can drive rubberizing part downstream, and the sideslip drive module can drive rubberizing part lateral shifting, and through the cooperation of these two modules, the drive part can drive rubberizing part and move to the assigned position (for example, move to cutting clamp plate 202 to hug closely cutting clamp plate 202).

In one aspect of this embodiment, the push down drive module includes: a belting pressing cylinder seat 318, a belting pressing cylinder 319, a belting pressing slide block 320 and a belting pressing slide rail 321. And the traverse driving module includes: a belting transverse moving bottom plate 322, a belting transverse moving slide block 323, a belting transverse moving slide rail 324, a belting transverse moving cylinder 325 and a belting transverse moving cylinder connecting piece 326.

The belting pressing cylinder seat 318 and the belting pressing slide rail 321 are fixed on the belting cross sliding bottom plate 322, the belting pressing slide block 320 slides into the rail of the belting pressing slide rail 321, and the belting pressing slide block 320 is fixed with the air rod of the belting pressing cylinder 319 and the gluing support 317. The tape transverse sliding block 323 and the tape transverse sliding cylinder 325 are fixed on the rubber coating bracket 302, the tape transverse sliding rail 324 slides into the rail groove of the tape transverse sliding block 323 and is fixed with the tape transverse bottom plate 322, and the tape transverse sliding cylinder connecting piece 326 is fixed with the cylinder rod of the tape transverse sliding cylinder 325 and then is fixed with the tape transverse bottom plate 322.

In one aspect of this embodiment, the glue application component comprises: a gluing bracket 317, and a gluing module, a first roller module and a second roller module which are arranged on the gluing bracket 317.

Wherein, the adhesive feeding module is used for storing the adhesive tape or introducing the adhesive tape from the outside; that is to say: in one case, the adhesive supplying module has the function of storing the adhesive tape, for example, as shown in fig. 3, the adhesive supplying module includes a tape covering baffle 316, the tape covering baffle 316 is fixed on the adhesive bracket 317 and forms a structure for placing the adhesive tape 315 with the adhesive bracket 317; in another case, the adhesive supply module may only have one intermediate guide (e.g., a guide roller), i.e., it does not store the adhesive tape itself, but merely serves to introduce an external adhesive tape into the device.

In one aspect of the present embodiment, when the gluing component 30 performs the gluing action, the first roller module presses against the flat tube passing through the shearing and pressing plate 202 to guide the adhesive tape led out by the gluing module and press the adhesive tape against the flat tube passing through the shearing and pressing plate 202; the second roller module is the next process of the first roller module and is used for pressing the adhesive tape guided and pressed by the first roller module.

In one aspect of the present embodiment, referring to fig. 3, the first roller module comprises at least a rotatable first roller 311 disposed on the gluing holder 317. In addition, the first drum module further includes:

a belt-cutting roller shaft 312, which is a rotating shaft of the first roller 311, for supporting the first roller 311 to rotate;

the wrapping tape limiting rod 313 is arranged in parallel with the first roller 311, a gap exists between the wrapping tape limiting rod 313 and the first roller 311, the wrapping tape limiting rod 315 can pass through the adhesive tape 315, a good limiting effect can be achieved on the position of the adhesive tape 315 wound between the first roller 311 and the wrapping tape limiting rod 313, the adhesive tape can be successfully adhered to the flat pipe next time, and the phenomena of folding, floating and self-adhesion of the adhesive tape are avoided; and

and the taping and cutting support 314 is used for mounting the first roller 311, the taping and cutting roller shaft 312 and the taping limiting rod 313.

Specifically, the wrapping tape cutting support 314 is fixed on the gluing support 317, the wrapping tape limiting rod 313 is fixed on the gluing support 317 and the wrapping tape cutting support 314, the wrapping tape cutting roller shaft 312 is connected with the first roller 311 through a bearing and then fixed on the gluing support 317 and the wrapping tape cutting support 314, and the adhesive tape 315 is sleeved on the shaft of the gluing support 317 (namely, the structure between the wrapping tape baffle 316 and the gluing support 317).

In one aspect of this embodiment, the circumferential surface of the first roller 311 is arranged with an axial castellation that serves to avoid slippage of the tape on the surface of the first roller 311.

In one aspect of this embodiment, the second roller module comprises at least a rotatable second roller 309 disposed on the glue holder 317. In addition, the second roller module further comprises a belt roller shaft 310, wherein the belt roller shaft 310 is connected with the second roller 309 through a bearing and then fixed on the gluing support 317.

In one embodiment, referring to fig. 1, 2 and 3, two sets of elastic pressing components in the shearing mechanism 2 are provided, corresponding to the first roller 311 and the second roller 309 respectively. Specifically, in combination with the foregoing embodiment, the first roller 311 is opposite to one of the elastic pressing components, and in the encapsulation process, the first roller and the second roller can press the flat tube under the action of the shear and compression spring 208; the second roller 309 is opposite to the other elastic pressing component, and in the same way, the two elastic pressing components can press the flat pipe under the action of the shear and compression spring 208 in the rubber coating process.

In one embodiment, the belt press 1 comprises: the press belt driving assembly and the press belt executing assembly are arranged on the press belt; the pressing belt driving assembly is used for driving the pressing belt executing assembly to approach the winding disc, so that the flat pipe and the adhesive tape entering the winding disc are pressed through the pressing belt executing assembly; and finally, the adhesive tape allowance at the tail end of the flat pipe is adhered to the flat pipe on the disc by the adhesive tape mechanism, so that the tail end of the flat pipe is automatically adhered, and scattering is avoided.

In one aspect of the present embodiment, the belt press 1 further includes: a pressing support 103; the belt pressing driving assembly may be a cylinder assembly, a hydraulic cylinder assembly, and a motor/motor assembly, and is not limited specifically.

Taking a cylinder assembly as an example of the belt driving assembly, the belt driving assembly includes: a pressure cylinder 101, a pressure slide rail 102 and a pressure slide block 104; and the push belt actuating assembly comprises: a press bearing 106, a press rotating shaft 107 and a press roller 108. The pressing cylinder 101 and the pressing slider 104 are fixed on the pressing support 103, the pressing slide rail 102 slides into the slide way of the pressing slider 104, the pressing slide base 105 is fixed on the pressing slide rail 102 and connected with the cylinder rod of the pressing cylinder 101, the pressing roller 108 is connected with the pressing rotating shaft 107 through a bearing, and the pressing rotating shaft 107 is fixed on the pressing support 103.

In an embodiment, referring to fig. 5, the flat tube coiling device further includes a cutting mechanism 6, configured to cut off the flat tube entering between the shearing mechanism 2 and the encapsulation mechanism 3 after the flat tube 5 is coiled to a specified length; specifically, cut mechanism 6 and cut mechanism 2 butt joint, flat pipe 5 just gets into after should cutting mechanism 6 and cuts between mechanism 2 and the rubber coating mechanism 3 earlier, and under the general condition, after flat pipe 5 was rolled into flat pipe hanging wall device or rolling dish 4 and reached appointed length, by should cutting mechanism 6 automatic cutout flat pipe 5, then, rubber coating mechanism 3 begins the action, and the cooperation is cut mechanism 2 and is carried out the operation that the adhesive tape pasted and cut off.

In one aspect of the present embodiment, the cutting mechanism 6 specifically includes: the cutting device comprises a cutting bottom plate 601, a cutting support 602, a cutting transverse plate 603, a cutting air cylinder seat 604, a cutting air cylinder 605, a cutting pressing plate 606, a cutting support plate 607, a cutting knife seat 608, a cutting slide rail 609, a cutting slide block 610, a cutting blade 611 and a cutting air cylinder 612. The cutting slide rail 609 and the cutting support 602 are fixed on the cutting base plate 601, the cutting cross plate 603 and the cutting support plate 607 are fixed on the cutting support 602, the cutting cylinder base 604 is fixed on the cutting cross plate 603, the cutting cylinder 605 is fixed on the cutting cylinder base 604, the cutting press plate 606 is fixed on the cutting cylinder 605, the cutting blade base 608 is fixed on the cutting slide block 610, the cutting blade 611 is fixed on the cutting blade base 608, and the cutting cylinder 612 is fixed on the cutting support 602 and fixes the piston rod and the cutting blade base 608.

It can be understood that the flat tube 5 passes between the cutting pressing plate 606 and the cutting supporting plate 607 and is generally placed in the groove of the cutting pressing plate 606 and the cutting supporting plate 607, that is, the middle positions of the cutting pressing plate 606 and the cutting supporting plate 607 in fig. 5, and when cutting, the flat tube 5 is limited in the channel surrounded by the grooves of the cutting pressing plate and the cutting supporting plate 607; the cutting pressing plate 606 and the cutting supporting plate 607 are provided with corresponding feed rails/slits through which the cutting blade 611 passes, the feed rails/slits are parallel to the cutting slide rail 609, the flat tube is positioned on the path of the feed rails/slits after being limited, and the cutting blade 611 can cut the flat tube along the feed rails/slits. When cutting, the cutting cylinder 612 is actuated to drive the cutting slider 610 to slide along the cutting slide rail 609, and the cutting slider 610 drives the cutting blade 600 to move along the feeding track/gap through the cutting blade seat 608, so as to cut off the flat tube 5 located in the groove.

In one embodiment, with reference to fig. 1 to 5, based on the structure given in the above embodiment, a method for hanging a disc on a flat tube is provided, the method comprising the following steps:

the flat tube 5 is wound and pulled through the winding disc 4;

after the flat pipe 5 is rolled to a set length and cut off, the adhesive tape 315 is adhered to the flat pipe 5 through the rubber coating mechanism 3, and the flat pipe 5 and the adhesive tape 315 rolled to the rolling disc 4 are pressed through the belt pressing mechanism 1;

when the shearing mechanism 2 detects the tail end of the flat tube 5, the adhesive tape 315 is cut, and the cutting position of the adhesive tape exceeds the tail end of the flat tube 5;

the winding disc 4 continues to wind the rest flat tubes 5 and the adhesive tape 315, the belt pressing mechanism 1 continues to press the rest flat tubes 5 and the adhesive tape 315, and finally the adhesive tape exceeding the tail ends of the flat tubes 5 is adhered to the wound flat tubes.

Specifically, in the embodiment, in the coiling process, the flat tube 5 is coiled by the coiling disc 4 through rotation, and the flat tube 5 is subjected to a traction effect based on the coiling disc 4; when the flat tube 5 is wound to a number of turns of a core of the winding disc 4 (i.e. the length is referred to as a "set length" in this embodiment, and is specifically determined according to actual production conditions, without limitation), the package flattening cylinder 301 performs a cylinder stretching action, and then the package flattening connecting rod 305 moves to a specified position through the package flattening rotating shaft 303 and the package flattening loose joint 304, and then the large flat tube drives the package flattening roller 308 to rotate, and when the flat tube is wound to a specified number of meters and is automatically cut by the cutting mechanism 6, the package belt transverse moving cylinder 325 performs a stretching action to drive the package belt transverse moving bottom plate 322 to move to a specified position, and then the package belt pushing cylinder 319 performs a stretching action to drive the gluing bracket 317 to push down to a specified position, so that the second roller 309 adheres the adhesive tape 315 to the tail end of the flat tube, and the second roller 309 and the first roller 311 press the flat tube to the shearing roller 205 tightly, and the shearing roller 205 floats up and down under, therefore, the flat pipe is tightly pressed, meanwhile, the air pressing cylinder 101 extends out, the pressing roller 108 presses the outer layer surface of the winding disc 4 and rotates along with the flat pipe under the action of friction force, the flat pipe is continuously wound without pause, the adhesive tape is pulled out from an adhesive support of the flat pipe along with winding of the flat pipe, when a sensor mounted on the shearing sensing seat 204 senses the tail end of the flat pipe, the shearing cylinder 211 drives the shearing knife 203 to move to cut off the adhesive tape 315, then the shearing cylinder 211 and the tape pressing cylinder 319 recover to the initial state firstly, then the packaging and flattening cylinder 301 and the tape transverse moving cylinder 325 also recover to the initial state, the adhesive tape with the suspended tail end of the flat pipe can be pressed on the winding disc 4 by the pressing roller 108 along with winding of the flat pipe, and further the automatic large tail pasting function is achieved.

In one aspect of this embodiment, the flat tube feeding disc device further includes a control system, and the control system is directly or indirectly connected to the winding disc, the rubber coating mechanism, the shearing mechanism, the belt pressing mechanism, the cutting mechanism, and the like, and is configured to control the coordination operation of the mechanisms; further, the control system stores a control program, and the control program can control the mechanism to execute the operation flow when being executed. Of course, in another case, it can be understood that the flat tube plate feeding device can also be implemented in a semi-automatic manner, and a part of the operation process can also be implemented by manual cooperation, for example, when the flat tube is cut off by the cutting mechanism, and the like, which is not limited in particular.

In the above embodiment, the flat tube feeding device and the flat tube feeding method based on the flat tube feeding device are provided, and the tail end of the flat tube is automatically pasted through the ingenious matching of the winding disc, the rubber coating mechanism, the shearing mechanism, the belt pressing mechanism and the like, so that the tail end of the flat tube in a finished disc is automatically fixed, the finished disc is prevented from scattering, and meanwhile, the connection work of a next disc is realized; in conclusion, the plate feeding device for the flat tubes realizes full-automatic plate feeding of the flat tubes, liberates labor force, greatly improves production efficiency, and correspondingly greatly reduces production cost.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (11)

1. The utility model provides a flat tub upper plate device which characterized in that includes: the winding device comprises a winding disc, a rubber coating mechanism, a shearing mechanism and a belt pressing mechanism;

the winding disc is used for winding flat tubes, the flat tubes pass through the space between the rubber coating mechanism and the shearing mechanism from the outside and then enter the winding disc, and the winding disc pulls the flat tubes to move based on the winding effect;

the rubber coating mechanism is arranged opposite to the shearing mechanism and used for adhering an adhesive tape to the flat pipe passing between the rubber coating mechanism and the shearing mechanism;

the shearing mechanism is used for cutting the adhesive tape which is output from the rubber coating mechanism and adhered to the flat pipe, and the cutting position exceeds the tail end of the flat pipe, so that the adhesive tape has a margin at the tail end of the flat pipe;

the belt pressing mechanism is arranged opposite to the winding disc and used for pressing the flat pipes and the adhesive tapes entering the winding disc against the winding disc.

2. The flat tube winding disc device according to claim 1, wherein the shearing mechanism comprises at least one shearing pressing plate, and the shearing pressing plate is used for bearing the flat tubes moving from the outside to the winding disc;

the rubber coating mechanism at least comprises a rubber coating component, wherein the rubber coating component is opposite to the shearing and pressing plate and can be close to the shearing and pressing plate so as to adhere the adhesive tape to the flat pipe passing through the shearing and pressing plate.

3. The pan head assembly of claim 2, wherein the shear mechanism further comprises:

the shearing support is provided with the shearing pressure plate;

the cutter assembly is arranged on the shear support and is used for cutting off the adhesive tape; and

the shear sensor is arranged on the shear support and used for detecting the flat pipe passing through the shear pressing plate;

when the shear sensor detects the tail end of the flat pipe, the cutter assembly performs cutting processing with allowance on the adhesive tape.

4. The flat tube disc feeding device according to claim 3, wherein the shear plates are provided with notches;

the shearing mechanism further comprises at least one group of elastic abutting components, and the elastic abutting components can extend out of the gaps in a natural state and can elastically stretch out and retract.

5. The upper tray device on the flat tube of claim 4, wherein the elastic pressing component comprises: the shearing device comprises a shearing roller, a shearing rolling shaft, a shearing bearing, a shearing pressure spring and a shearing sliding seat;

the shear roller and the shear roller are mounted together through the shear bearing;

the shearing sliding seat is arranged on the shearing support, the shearing pressing plate is fixedly connected with the shearing sliding seat, a cylindrical track is arranged on the shearing sliding seat, and the shearing pressing spring is arranged in the cylindrical track;

the side wall of the cylindrical track is provided with a sliding groove which penetrates through the side wall, the shearing roller penetrates through the sliding groove from the outside and is in butt joint with one side, close to the shearing pressure plate, of the shearing pressure spring, and under the action of the shearing pressure spring, the shearing roller can extend out of the notch in a natural state.

6. The pan device on the flat tube of claim 4 or 5, wherein the encapsulation mechanism further comprises:

the rubber coating support is arranged on the rubber coating support; and

the flattening component is arranged on the rubber coating support and at least comprises a flattening driving part and a flattening executing part, and the flattening driving part is used for driving the flattening executing part to move, so that the flattening executing part is used for abutting against the flat pipe on one side of the shearing and pressing plate.

7. The pan device on flat tubes of claim 6, wherein the glue assembly comprises: the driving component and the gluing component are arranged on the rubber coating bracket; the gluing component is driven by the driving component and can be pressed against the flat pipe passing through the shearing and pressing plate to perform a rubber coating action;

the gluing part comprises: the glue feeding device comprises a gluing bracket, a glue feeding module, a first roller module and a second roller module, wherein the glue feeding module, the first roller module and the second roller module are arranged on the gluing bracket;

the adhesive feeding module is used for storing an adhesive tape or introducing the adhesive tape from the outside;

when the gluing component performs a gluing action, the first roller module is pressed against the flat pipe passing through the shearing and pressing plate to guide the adhesive tape led out by the gluing module and presses the adhesive tape against the flat pipe passing through the shearing and pressing plate;

the second roller module is used for pressing the adhesive tape guided and pressed by the first roller module.

8. The flat tube disc feeding device on the disc conveying device according to claim 7, wherein the first roller module at least comprises a rotatable first roller arranged on the gluing bracket, and axial tooth-shaped structures are distributed on the circumferential surface of the first roller;

the second roller module at least comprises a rotatable second roller arranged on the gluing bracket.

9. The upper disc device on the flat tube according to claim 8, wherein the elastic pressing components in the shearing mechanism are provided in two groups, and the two groups correspond to the first roller and the second roller one to one respectively.

10. The pan head device on flat tubes of claim 1, wherein the belt press mechanism comprises: the press belt driving assembly and the press belt executing assembly are arranged on the press belt;

the pressing belt driving assembly is used for driving the pressing belt executing assembly to approach the winding disc, so that the flat pipe and the adhesive tape entering the winding disc are pressed through the pressing belt executing assembly.

11. The pan on flat tube device of claim 1, further comprising:

and the cutting mechanism is used for cutting off the flat pipe entering the cutting mechanism and the rubber coating mechanism after the flat pipe is rolled to reach the specified length.

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