CN214554937U - Spiral net edge sealing device - Google Patents

Abstract

The utility model relates to a spiral net banding device, include: a pair of gluing mechanisms, a pair of heating mechanisms, a pair of gluing detection mechanisms, a pair of temperature detection mechanisms and a control system of the edge sealing device. The pair of glue coating mechanisms are configured to coat glue solution to a pair of side edge parts of the spiral net; a pair of heating mechanisms configured to heat a pair of side edge portions of the coating paste; the control system is configured to receive the thickness and width information of the glue solution fed back by the gluing detection mechanism and the temperature information of the glued area of the spiral net fed back by the temperature detection mechanism, and control the mechanisms to adjust the gluing amount, the gluing time, the heating temperature and the heating time based on the feedback signals. Through the rubber coating mechanism, the heating mechanism and the control system which is in signal connection with each mechanism, the intelligent edge sealing operation which is convenient, labor-saving and standard is realized, the labor and production cost are reduced, and the production quality and the production efficiency are improved.

Description

Spiral net edge sealing device

Technical Field

The utility model belongs to the textile machinery field, in particular to spiral net banding device.

Background

In the production process of the spiral net, the two sides of the spiral net need to be sealed to maintain the structural stability of the spiral net in the use process. And in the traditional production process of the spiral net, the edge sealing treatment of the spiral net is mainly carried out on a heat setting machine: after the spiral net completes the shaping process on the shaping machine, the spiral net still rotates on the shaping machine, and at the moment, a certain amount of glue solution is manually coated on the two sides of the spiral net and is solidified, so that the edge sealing effect is achieved. The operation occupies the setting machine for a long time, influences the production efficiency and increases the labor time and the labor amount of operators.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims at providing a can carry out effective banding to the spiral net and handle, and realize intelligent control's banding device to gummed width thickness.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme: a spiral mesh edge banding device comprising:

the glue coating mechanisms are arranged in a left-right opposite mode and are configured to be used for coating edge sealing glue solution on the upper surface and the lower surface of one side edge part of the spiral net;

a pair of heating mechanisms arranged in a left-right opposite manner and configured to heat a pair of side edge portions coated with glue solution, each of the heating mechanisms defining a through-type heating channel with an open front end and a open rear end inside so as to permit the spiral net to pass through the pair of heating mechanisms;

the glue spreading detection mechanisms are respectively arranged on the glue spreading mechanisms and are configured to detect the thickness and the width of glue solution coated on a pair of side edges of the spiral net and output the detected thickness and width information of the glue solution to the outside; and the number of the first and second groups,

a pair of temperature detection mechanisms respectively arranged on the pair of heating mechanisms and configured to detect the temperature of the glued area of the spiral web in the heating channel and output the detected temperature information to the outside;

and the control system is in signal connection with the pair of gluing mechanisms, the pair of heating mechanisms, the pair of gluing detection mechanisms and the pair of temperature detection mechanisms.

In the foregoing technical solution, it is further preferable that the edge banding device further includes a bracket, and the pair of glue coating mechanisms are mounted on the bracket and configured to be capable of moving synchronously in the front-back direction and respectively in the left-right direction. Further preferably, the pair of heating mechanisms are disposed on the holder so as to be movable in the left-right direction, respectively. In the above technical solution, it is further preferable that each of the glue applying mechanisms includes a glue applying tank and a glue discharging tank for storing a glue solution, and a plurality of upper glue applying rollers and a plurality of lower glue applying rollers arranged between the glue applying tank and the glue discharging tank, the bottom of the glue applying tank is provided with a plurality of glue solution channels through which the glue solution in the tank flows onto the plurality of upper glue applying rollers, and a feeding channel through which the spiral web passes is provided between the plurality of upper glue applying rollers and the plurality of lower glue applying rollers.

In the above technical solution, it is further preferable that the glue detection mechanism includes a photoelectric detection element and/or an image detection element.

In the above technical solution, it is further preferable that the heating mechanism includes a plurality of infrared heating plates, the plurality of infrared heating plates are all in signal connection with the control system, and the heating temperature and the heating time of the heating plates are set to be adjustable under the control of the control system.

In the above technical solution, it is further preferable that the temperature detection mechanism includes a plurality of temperature sensors.

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

the utility model discloses a rubber coating mechanism and the heating mechanism that increase and with the control system that each mechanism's phase signal is connected realize convenient, laborsaving, standard intelligent banding operation, reduce manual work and manufacturing cost, improve production quality and production efficiency.

Drawings

FIG. 1 is a schematic structural view of the present invention installed on a spiral net production line according to a first embodiment;

FIG. 2 is a top view of the present invention installed on a spiral net production line in a first embodiment;

fig. 3 is a top view of the present invention installed on a spiral net production line with a spiral net loaded thereon in a first embodiment;

fig. 4 is a schematic perspective view of the glue applying mechanism of the first embodiment;

fig. 5 is a schematic perspective view of the heating mechanism according to the first embodiment;

fig. 6 is a schematic structural diagram of the present invention mounted on the setting machine in the second embodiment.

Detailed Description

For the purpose of explaining the technical content, the structural features, the achieved objects and the effects of the present invention in detail, the following detailed description will be made with reference to the accompanying drawings in combination with the embodiments, wherein the positional relationships "up", "down", "front" and "rear" in the present specification correspond to the upper, lower, front and rear positions in fig. 1, respectively; the hollow arrow in fig. 1 is the direction of feed of the screw net 14, the hollow arrow pointing in the direction downstream, forward i.e. downstream, and backward i.e. upstream; the positional relationships "X", "Y", "left" and "right" in this specification correspond to X, Y in the left and right directions in fig. 2, respectively, and the width direction coincides with the left and right directions in fig. 2.

As shown in fig. 1 and 2, the present invention provides a first embodiment of a spiral net edge banding apparatus 100, which comprises: the device comprises a support 1, a pair of gluing mechanisms 4, a pair of heating mechanisms 5, a pair of gluing detection mechanisms 6, a pair of temperature detection mechanisms 7 and a control system 8 (not shown in the figure); the control system 8 is connected with the pair of gluing mechanisms 4, the pair of heating mechanisms 5, the pair of gluing detection mechanisms 6 and the pair of temperature detection mechanisms 7 in a signal mode. The edge sealing device 100 can be installed on a spiral net production device through a bracket 1 to complete a spiral net edge sealing processing link in a spiral net production line.

As shown in fig. 1, 3 and 4, a pair of glue applying mechanisms 4 are arranged on the stent 1 in a left-right opposite manner and will be located on the left and right sides of the spiral net 14 respectively in operation. The pair of glue spreading mechanisms 4 comprises a pair of glue spreading box bodies 40, a plurality of upper glue spreading rollers 45 and a plurality of lower glue spreading rollers 46; the upper applicator roll 45 and the lower applicator roll 46 are provided with a feeding channel 401 for the side edge part 141 and the side edge part 142 of the spiral net 14 to enter, the upper applicator rolls 45 are arranged above the feeding channel 401, the lower applicator rolls 46 are arranged below the feeding channel 401, the gap in the up-and-down direction of the feeding channel 401 is small, the spiral net 14 can be conveniently in close contact with the upper applicator rolls 45 and the lower applicator rolls 46 after entering the feeding channel 401, and the uniform gluing is facilitated. The glue box 40 further has a glue tank 411 located above the upper glue applicator 45 and a lower glue tank 412 located below the lower glue applicator 46, the glue tank 411 and the lower glue tank 412 are both used for storing glue solutions 43, a glue solution channel 44 corresponding to each upper glue applicator 45 is formed at the bottom of the glue tank 411, and each lower glue applicator 46 is at least partially immersed in the glue solution 43 stored in the lower glue tank 412.

The pair of gluing mechanisms 4 further comprises a first sliding assembly 42; the first sliding assembly 42 includes a first Y-direction sliding shaft sleeve 422 fixedly connected with the glue box 40, a pair of first X-direction sliding shaft sleeves 423 respectively sleeved on the bracket 1, and a pair of first sliding shafts 421 fixedly connected with the first X-direction sliding shaft sleeves 423. The first Y-direction sliding shaft sleeve 422 is sleeved on the first sliding shaft 421; through the relative sliding between the first X-direction sliding shaft sleeve 423 and the bracket 1, the pair of gluing mechanisms 4 synchronously move on the bracket 1 along the front-back direction; through the relative sliding between the first Y-direction sliding shaft sleeve 422 and the first sliding shaft 421, the pair of glue coating mechanisms 4 respectively move along the left and right directions on the bracket 1.

The gluing detection mechanism 6 is arranged on the gluing mechanism 4, the gluing detection mechanism 6 is composed of a photoelectric detection element or an image detection element, the thickness and the width of gluing are monitored in real time, and the information of the thickness and the width of the gluing is transmitted to the control system 8.

The pair of glue applying mechanisms 4 are moved back and forth on the stent 1 in the front-rear direction to apply the glue solution 43 on the upper and lower surfaces of the pair of side portions of the spiral web 14, and in other embodiments, the glue applying mechanisms 4 may be moved without moving in the front-rear direction to apply the glue solution 43 by the movement of the spiral web 14.

As shown in fig. 1, 3 and 5, the heating means 5 are arranged downstream of the glue applying means 4, and a pair of heating means 5 are also arranged on the stent 1 in a left-right opposed manner and located on both sides of the spiral net 14 in operation. The pair of heating mechanisms 5 includes a pair of heating boxes 50 and a plurality of infrared heating plates 51. The heating box 50 is provided with a heating channel 53 for the side part 141 and the side part 142 of the spiral net 14 to pass through; the heating plates 51 are respectively installed in the pair of heating boxes 50, and heat the side portions 141 and 142 entering the heating channel 53 at a high temperature to cure the glue solution 43 applied to the pair of side portions.

The pair of heating mechanisms 5 further includes a second sliding assembly 52, the second sliding assembly 52 includes a second Y-direction sliding shaft sleeve 522 fixedly connected with the heating box 50, and a pair of second sliding shafts 521 horizontally installed on the bracket 1 along the left-right direction, and the second Y-direction sliding shaft sleeve 522 is sleeved on the second sliding shafts 521; the pair of heating cabinets 50 are horizontally moved on the support 1 in the left-right direction by the relative sliding between the second Y-direction sliding bushing 522 and the second sliding shaft 521.

The temperature detection mechanism 7 is arranged on the heating mechanism 5, and the temperature detection mechanism 7 comprises a plurality of temperature sensors for detecting the temperature of the gluing area of the glued spiral net 14 in the heating channel 53 and feeding back the temperature information to the control system 8.

The control system 8 is in signal connection with the gluing mechanism 4, the heating mechanism 5, the gluing detection mechanism 6 and the temperature detection mechanism 7, the control system 8 can receive the thickness and width information of the glue solution 43 output by the gluing detection mechanism 6 and the temperature information of the gluing area of the spiral net 14 in the heating mechanism 5 output by the temperature detection mechanism 7, and can control the gluing mechanism 4 to adjust the gluing amount and/or the gluing time based on the thickness and width information of the glue solution 43 and control the heating mechanism 5 to adjust the heating temperature and/or the heating time based on the temperature information of the gluing area of the spiral net 14. After the gluing condition of the spiral net 14 is fed back by the gluing detection mechanism 6, the control system 8 adjusts the size of the gap between the upper gluing roller 45 and the lower gluing roller 46, the forward and backward movement speed of the gluing mechanism 4 and the distance between the pair of gluing boxes 40 according to the actual gluing thickness and width, and if the gluing thickness is too thick, the moving speed of the gluing mechanism 4 is increased, and the size of the gap between the upper gluing roller 45 and the lower gluing roller 46 is reduced; if the coating thickness is too thin, the moving speed of the coating mechanism 4 is reduced, and the size of the gap between the upper coating roller 45 and the lower coating roller 46 is increased.

When the edge sealing device 100 is installed on a spiral net production device, the control system 8 is in signal connection with a control box of the production device, and the distance between the left side and the right side of the pair of gluing box bodies 40 and the pair of heating box bodies 50 is respectively adjusted according to the width of the spiral net 14 fed back by the control box; the spiral screen 14 slowly moves on the production equipment, after entering the feeding channel 401 of the glue coating mechanism 4, the glue coating mechanism 4 moves back and forth at a certain speed in the front and back direction under the command of the control system 8, the upper glue coating roller 45 and the lower glue coating roller 46 roll on the upper surface and the lower surface of one pair of side parts of the spiral screen 14 along with the movement of the glue coating mechanism 4, the glue solution 43 in the upper glue coating tank 411 flows onto the upper glue coating roller 45 through the glue solution channel 44, the lower glue coating roller 46 brings the glue solution 43 in the lower glue coating tank 412 to the surface of the spiral screen 14, the upper glue coating roller 45 and the lower glue coating roller 46 uniformly coat the glue solution 43 on one pair of side parts of the spiral screen 14, the glue coating detection mechanism 6 arranged on the glue coating mechanism 4 detects the glue coating condition of one pair of side parts of the spiral screen 14 in real time, the thickness and width conditions of the glue coating are fed back to the control system 8, the distance between the pair of glue coating mechanisms 4 is adjusted according to the actual width conditions, the moving speed of the pair of glue applying mechanisms 4 and the size of the gap between the upper glue applying roller 45 and the lower glue applying roller 46 are adjusted according to the actual gluing thickness.

The spiral net 14 moves slowly towards the heating mechanism 5 all the time in the gluing process, and the spiral net 14 which is not glued slowly moves towards the gluing mechanism 4 when the spiral net 14 which finishes gluing moves towards the heating mechanism 5; a heating plate 51 in the heating mechanism 5 heats a pair of side edge parts of the spiral net 14 entering a heating channel 53 at a high temperature, so that glue solution coated on the pair of side edge parts is rapidly cured, and the edge sealing operation is completed; the temperature detection mechanism 7 arranged in the heating mechanism 5 monitors the temperature of the glued area of the spiral net 14 in the heating channel 53 in real time, the temperature is fed back to the control system 8 when the temperature is different from an actual standard value, and the control system 8 adjusts the heating power of the heating plate 51 so as to adjust the temperature of the heating plate 51; after the glued spiral web 14 is cured at high temperature to complete the edge sealing, it is slowly moved out of the edge sealing apparatus 100.

As shown in fig. 6, according to a second embodiment of the present invention, the spiral net edge sealing device 100' is installed on a spiral net forming machine 200 for use. The edge banding device 100' is supported on the ground by a support bracket (not shown).

The setting machine 200 has a heating roller 21 and a heating cover 22 that heat the spiral net 14', a fixing bracket 23 that supports the heating roller 21, a stretching roller 24, and a carriage 25 that supports the stretching roller 24 and is movable on a horizontal plane.

The edge banding device 100 ' is arranged between the heating roller 21 and the stretching roller 24, and the edge banding device 100 ' comprises a pair of glue coating mechanisms 4 ' and a pair of heating mechanisms 5 ' which are arranged on a pair of side edge parts of the spiral net 14 ' in a left-right opposite mode; the device also comprises a pair of gluing detection mechanisms 6 ' respectively arranged on the pair of gluing mechanisms 4 ', a pair of temperature detection mechanisms 7 ' respectively arranged on the pair of heating mechanisms 5 ' and a control system 8 ' in signal connection with the mechanisms. The gluing mechanism 4 ' and the heating mechanism 5 ' are sequentially placed on the ground through a support (not shown in the figure) according to the running direction of the spiral net, and the internal structures of the gluing mechanism 4 ', the heating mechanism 5 ', the gluing detection mechanism 6 and the temperature detection mechanism 7 ' are consistent with those of the first embodiment.

After the spiral net finishes the shaping process on the shaping machine 200, the edge sealing device 100 is started, the glue coating mechanism 4 ' is arranged at the upstream of the heating mechanism 5 ' according to the moving direction of the spiral net 14, the spiral net 14 ' slowly moves to the glue coating mechanism 4 ' from the heating roller 21, and the control system 8 ' controls the work of each mechanism. The pair of side edge portions enter the pair of glue spreading mechanisms 4 ', and the glue spreading manner of the pair of glue spreading mechanisms 4 ' is the same as that of the pair of glue spreading mechanisms 4 ' of the first embodiment, which is not described herein again; the pair of gluing detection mechanisms 6 'detect the width and thickness of gluing and feed back to the control system 8' while the pair of gluing mechanisms 4 'perform gluing operation on the side edge parts of the spiral net 14', and the control system 8 'adjusts the pair of gluing mechanisms 4' according to the feedback information to change the thickness and width of gluing.

Under the rotation action of the heating roller 21, the spiral net 14 ' is slowly moved into the pair of heating mechanisms 5 ' after being coated with glue from the pair of glue coating mechanisms 4 ', the structure and the heating mode of the pair of heating mechanisms 5 ' are the same as those of the pair of heating mechanisms 5 ' of the first embodiment, and the details are not repeated herein; the pair of temperature detection means 7 'detects the temperature of the coated side edge portion of the spiral web 14' in the heating means 5 'and feeds it back to the control system 8' while the pair of heating means 5 'heat and cure the side edge portion of the spiral web 14', and the control system 8 'adjusts the heating power and heating time of the pair of heating means 5' based on the fed-back temperature information.

Until all the spiral nets 14 'on the setting machine 200 have finished edge sealing, the edge sealing device 100 is closed, and the spiral nets 14' can be off-line from the setting machine 200.

The utility model discloses a rubber coating mechanism, heating mechanism and with the control system that each mechanism's signal is connected, realize convenient, laborsaving, the intelligent banding operation of standard, reduce manual work and manufacturing cost, improve production quality and production efficiency.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration only, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims, specification and equivalents thereof.

Claims (7)

1. A spiral mesh edge banding device, comprising:

a pair of glue applying mechanisms (4) arranged in a left-right opposite manner, wherein the pair of glue applying mechanisms (4) are configured to apply edge sealing glue (43) to the upper and lower surfaces of the pair of side edges (141, 142) of the spiral net (14);

a pair of heating means (5) arranged in a left-right opposed manner and configured to heat a pair of side portions (141, 142) coated with a glue solution (43), each of said heating means (5) defining inside thereof a pass-through heating passage (53) having a front end and a rear end each in an open configuration so as to permit said spiral web (14) to pass through said pair of heating means (5);

a pair of glue application detection mechanisms (6) respectively arranged on the pair of glue application mechanisms (4) and configured to detect the thickness and width of glue solution coated on the pair of side edge parts (141, 142) of the spiral web (14) and output the detected thickness and width information of the glue solution to the outside;

a pair of temperature detection means (7) provided on the pair of heating means (5), respectively, and configured to detect the temperature of the glued area of the spiral web (14) located in the heating tunnel (53) and output the detected temperature information to the outside; and the number of the first and second groups,

and the control system (8) is in signal connection with the pair of gluing mechanisms (4), the pair of heating mechanisms (5), the pair of gluing detection mechanisms (6) and the pair of temperature detection mechanisms (7).

2. A spiralnet edge banding apparatus according to claim 1, wherein said edge banding apparatus further comprises a frame (1), said pair of glue applying mechanisms (4) being mounted on said frame (1) and configured to move synchronously in a front-to-back direction and in a left-to-right direction, respectively.

3. A spiralnet edge banding apparatus according to claim 2, wherein said pair of heating mechanisms (5) are configured on said frame (1) to be movable in a left-right direction, respectively.

4. A spiral web edge sealing device according to claim 1, wherein each glue applying mechanism (4) comprises a glue applying tank (411) and a glue discharging tank (412) for storing glue solution (43), a plurality of glue applying rollers (45) and a plurality of glue discharging rollers (46) arranged between the glue applying tank (411) and the glue discharging tank (412), the bottom of the glue applying tank (411) is provided with a plurality of glue solution channels (44) for the glue solution (43) in the tank to flow onto the plurality of glue applying rollers (45), and a feeding channel (401) for the spiral web (14) to pass through is arranged between the plurality of glue applying rollers (45) and the plurality of glue discharging rollers (46).

5. Spiral net edge banding device according to claim 1, characterized in that said glue detection means (6) comprise photoelectric and/or image detection elements.

6. Spiral mesh edge sealing device according to claim 1, characterized in that said heating means (5) comprises a plurality of infrared heating plates (51), said plurality of infrared heating plates (51) are in signal connection with said control system (8), the heating temperature and heating time of said heating plates (51) are set to be adjustable under the control of said control system (8).

7. Spiral mesh edge banding device according to claim 1, characterized in that said temperature detection means (7) comprise several temperature sensors.

Images