阅读说明：本技术 一种特氟龙无缝粘合机带生产用树脂高温浸渍设备 (Resin high-temperature impregnation equipment for producing Teflon seamless binding machine belt ) 是由 李建 石小妹 朱有祥 曹华 樊梅 于 2021-08-26 设计创作，主要内容包括：本发明涉及树脂高温浸渍设备技术领域,具体为一种特氟龙无缝粘合机带生产用树脂高温浸渍设备,包括浸泽设备支架,浸泽设备支架上对称设置两组牵引辊,两组牵引辊之间设置粘合机带,牵引辊上设置具有清理树脂功能的除树脂机构,除树脂机构上连接吸尘管,除树脂机构连接传动机构；一组牵引辊通过对应的齿轮使蜗杆转动,蜗杆转动使蜗轮,蜗轮通过轴二与拉杆的配合作用,使同步支架沿着滑杆来回直线移动,同步支架带动承接杆,承接杆通过直立轴承与导柱的配合作用,使弧形板带动若干纤维丝沿着铲刀的刀口来回摩擦移动,通过若干纤维丝不断地摩擦,使粘附在铲刀的刀口上的特氟龙树脂被清理掉,保证了铲刀的刀口的清洁度。(The invention relates to the technical field of resin high-temperature impregnation equipment, in particular to resin high-temperature impregnation equipment for producing a Teflon seamless bonder belt, which comprises a soaking equipment support, wherein two groups of traction rollers are symmetrically arranged on the soaking equipment support, a bonder belt is arranged between the two groups of traction rollers, a resin removing mechanism with a resin cleaning function is arranged on each traction roller, a dust suction pipe is connected to the resin removing mechanism, and the resin removing mechanism is connected with a transmission mechanism; a set of carry over pinch rolls makes the worm rotate through the gear that corresponds, the worm rotates and makes the worm wheel, the worm wheel passes through axle two and the mating reaction of pull rod, make the synchronous bolster along slide bar straight line movement back and forth, the synchronous bolster drives the accepting rod, the accepting rod passes through the mating reaction of upright bearing and guide pillar, make the arc drive a plurality of cellosilks along the edge of a knife friction removal back and forth of spiller, constantly rub through a plurality of cellosilks, make the adhesion fall by the clearance at the special fluorine dragon resin on the edge of a knife of spiller, the cleanliness of the edge of a knife of spiller has been guaranteed.)

1. The utility model provides a production of seamless bonder area of special fluorine dragon is with resin high temperature impregnation equipment, includes soaks equipment support (1), the symmetry sets up two sets of carry over pinch rolls (2) on soaks equipment support (1), and is two sets of set up bonder area (6), its characterized in that between carry over pinch rolls (2): the traction roller (2) is provided with a resin removing mechanism (3) with a resin cleaning function, the resin removing mechanism (3) is connected with a dust suction pipe (4), and the resin removing mechanism (3) is connected with a transmission mechanism (5);

remove resin mechanism (3) including arc cover (301), arc cover (301) both sides fixed connection soaks equipment support (1), arc cover (301) bilateral symmetry imbeds two sets of bearings, bearing interference fit carry over pinch rolls (2), arc cover (301) both ends set up two sets of suction hood (305), dust absorption pipe (4) are connected to suction hood (305) one side, set up spiller (302) in arc cover (301), set up clean mechanism (304) that have clean function on spiller (302), set up rectangular hole (303) on arc cover (301).

2. The high-temperature resin impregnation equipment for producing the Teflon seamless bonder belt according to claim 1, which is characterized in that: the cleaning mechanism (304) comprises a guide pillar (3042), the guide pillar (3042) is located in the rectangular hole (303), the guide pillar (3042) is connected with an upright bearing in a sliding mode, the upright bearing is embedded into a bearing rod (3041), one end of the bearing rod (3041) is fixedly connected with an arc-shaped plate (3043), and a plurality of fibers (3044) are arranged on one side of the arc-shaped plate (3043).

3. The high-temperature resin impregnation equipment for producing the Teflon seamless bonder belt according to claim 1, which is characterized in that: drive mechanism (5) are including gear (501), gear (501) set up two sets ofly, two sets of gear (501) meshing, a set of worm (502) are connected to gear (501), worm (502) meshing worm wheel (503), worm wheel (503) one side middle part connecting axle one (504), axle one (504) one end sets up the bearing, bearing embedding extension board (505), extension board (505) one end fixed connection soaks equipment support (1), worm wheel (503) opposite side sets up receiving mechanism (506).

4. The high-temperature resin impregnation equipment for producing the Teflon seamless bonder belt according to claim 3, wherein the high-temperature resin impregnation equipment comprises: bearing mechanism (506) includes slide bar (5064), slide bar (5064) one end fixed connection soaks equipment support (1), slide bar (5064) sliding connection upright bearing, upright bearing embedding synchronous support (5063), synchronous support (5063) one side fixed connection axle two (5062), axle two (5062) one end sets up the bearing, bearing embedding pull rod (5061) one end.

5. The high-temperature resin impregnation equipment for producing the Teflon seamless bonder belt according to claim 1, which is characterized in that: two sets of bearings are symmetrically arranged at two ends of the traction roller (2), the bearings are embedded into the immersion equipment support (1), one end of the traction roller (2) penetrates through the bearings to be connected with the gear (501), and the traction roller (2) is rotatably connected with the bonder belt (6).

6. The high-temperature resin impregnation equipment for producing the Teflon seamless bonder belt according to claim 4, wherein the high-temperature resin impregnation equipment comprises: the other end of the pull rod (5061) is provided with a pin shaft, one end of the pin shaft is provided with a bearing, and the bearing is embedded into the worm wheel (503) and deviates from one side of the axis.

7. The high-temperature resin impregnation equipment for producing the Teflon seamless bonder belt according to claim 4, wherein the high-temperature resin impregnation equipment comprises: the synchronous support (5063) is fixedly connected with two groups of bearing rods (3041).

8. The high-temperature resin impregnation equipment for producing the Teflon seamless bonder belt according to claim 2, wherein the high-temperature resin impregnation equipment comprises: the plurality of fiber yarns (3044) are tightly attached to the edge of the scraper knife (302), and the arc-shaped plate (3043) is parallel to the traction roller (2).

Technical Field

The invention relates to the technical field of resin high-temperature impregnation equipment, in particular to resin high-temperature impregnation equipment for producing a Teflon seamless bonder belt.

Background

Seamless bonder belt: the seamless belt is made by weaving tubular fabric with high-strength glass fiber yarn and Kevlar (aramid) through circular weaving equipment and coating Teflon resin (PTFE) in a unique resin high-temperature impregnation mode. The phenomenon that the joint of the conveying belt interface is easy to break in the prior art is overcome. The perimeter of the connecting part is not equal, so that the phenomena of poor shape stability and deviation are caused. The service life of the seamless bonder belt is more than 3 times longer than that of the Teflon conveyer belt in any connection method.

However, the tubular fabric is positioned in an impregnation box in a resin high-temperature impregnator in the processing process, the impregnation effect can be quickly completed by the temperature in the impregnation box, then the high-temperature tubular fabric is drawn into a cooling chamber by a drawing roll in the cooling chamber, the high-temperature tubular fabric is cooled, the Teflon resin on the tubular fabric drawn out from the impregnation box is in a high-temperature state, and the Teflon resin is rapidly solidified by contacting with air.

Disclosure of Invention

The invention aims to provide resin high-temperature impregnation equipment for producing a Teflon seamless bonder belt, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a high-temperature resin impregnation device for producing Teflon seamless bonder belts comprises a support of the impregnation device, wherein two groups of traction rollers are symmetrically arranged on the support of the impregnation device, a bonder belt is arranged between the two groups of traction rollers, a resin removing mechanism with a resin cleaning function is arranged on each traction roller, a dust suction pipe is connected to the resin removing mechanism, and the resin removing mechanism is connected with a transmission mechanism;

remove resin mechanism and include the arc cover, arc cover both sides fixed connection immersion equipment support, arc cover bilateral symmetry imbeds two sets of bearings, bearing interference fit carry over pinch rolls, and arc cover both ends set up two sets of suction hoods, and the dust absorption pipe is connected to suction hood one side, sets up the spiller in the arc cover, sets up the clean mechanism that has clean function on the spiller, and the arc covers and sets up the rectangular hole.

Preferably, clean mechanism includes the guide pillar, and the guide pillar is located the rectangular hole, and guide pillar sliding connection upright bearing, upright bearing embedding are accepted the pole, and accept pole one end fixed connection arc, arc one side sets up a plurality of cellosilk.

Preferably, the transmission mechanism comprises gears, the gears are arranged in two groups, the two groups of gears are meshed, one group of gears are connected with a worm, the worm is meshed with a worm wheel, the middle part of one side of the worm wheel is connected with a first shaft, one end of the shaft is provided with a bearing, the bearing is embedded into a support plate, one end of the support plate is fixedly connected with the immersion equipment support, and the other side of the worm wheel is provided with a bearing mechanism.

Preferably, the bearing mechanism comprises a sliding rod, one end of the sliding rod is fixedly connected with the immersion equipment support, the sliding rod is connected with the vertical bearing in a sliding mode, the vertical bearing is embedded into the synchronous support, one side of the synchronous support is fixedly connected with a second shaft, one end of the second shaft is provided with a bearing, and the bearing is embedded into one end of the pull rod.

Preferably, two groups of bearings are symmetrically arranged at two ends of the traction roller, the bearings are embedded into the immersion equipment support, one end of the traction roller penetrates through the bearings to be connected with the gear, and the traction roller is rotatably connected with the bonder belt.

Preferably, the other end of the pull rod is provided with a pin shaft, one end of the pin shaft is provided with a bearing, and the bearing is embedded into one side of the worm gear, which deviates from the axis.

Preferably, the synchronous support is fixedly connected with the two groups of bearing rods.

Preferably, the fibers cling to the knife edge of the scraper knife, and the arc-shaped plate is parallel to the traction roller.

Compared with the prior art, the invention has the beneficial effects that:

1. the distance between the two groups of traction rollers is slightly smaller than the thickness of the bonder belt, the axial length of the traction rollers is larger than the width of the bonder belt, the knife edge of a scraper knife is tangent to the traction rollers, a motor drives one group of traction rollers to rotate, one group of traction rollers rotates through the tooth joint of the two groups of gears, the other group of traction rollers rotate, the two groups of traction rollers simultaneously rotate to drive the bonder belt to move, and when Teflon resin is adhered to the traction rollers, the Teflon resin adhered to the traction rollers is removed under the action of the scraper knife;

2. one end of the dust collection pipe is connected with a dust collector, the dust collector enables the dust collection cover to generate strong suction through the dust collection pipe, and the dust collection cover enables Teflon resin which is shoveled by the shovel blade to be adhered and cleaned out of the arc-shaped cover;

3. a set of carry over pinch rolls makes the worm rotate through the gear that corresponds, the worm rotates and makes the worm wheel, the worm wheel passes through axle two and the mating reaction of pull rod, make the synchronizing support along slide bar straight line movement that makes a round trip, the synchronizing support drives the receiving rod, the receiving rod passes through the mating reaction of upright bearing and guide pillar, make the arc drive a plurality of cellosilks along the edge of a knife friction removal that makes a round trip of spiller, constantly rub through a plurality of cellosilks, make the adhesion fall by the clearance at the special fluorine dragon resin on the edge of a knife of spiller, the cleanliness of the edge of a knife of spiller has been guaranteed, be favorable to the clearance of special fluorine dragon resin on the carry over pinch rolls of spiller, further be favorable to the pull of carry over pinch rolls to the bonder area.

Drawings

FIG. 1 is a front cross-sectional view of the structure of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is a side view of the structure of the present invention;

fig. 4 is a schematic view of the transmission mechanism of the present invention.

In the figure: 1. soaking the equipment bracket; 2. a traction roller; 3. a resin removing mechanism; 4. a dust collection pipe; 5. a transmission mechanism; 6. a bonder belt; 301. an arc-shaped cover; 302. a scraper knife; 303. a rectangular hole; 304. a cleaning mechanism; 305. a dust hood; 3041. a bearing rod; 3042. a guide post; 3043. an arc-shaped plate; 3044. fiber yarn; 501. a gear; 502. a worm; 503. a worm gear; 504. a first shaft; 505. a support plate; 506. a carrying mechanism; 5061. a pull rod; 5062. a second shaft; 5063. a synchronous support; 5064. a slide bar.

Detailed Description

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

Referring to fig. 1 to 4, the present invention provides a technical solution: a Teflon seamless bonder belt production resin high-temperature impregnation device comprises a dipping device support 1, two groups of traction rollers 2 are symmetrically arranged on the dipping device support 1, a bonder belt 6 is arranged between the two groups of traction rollers 2, a resin removing mechanism 3 with a resin cleaning function is arranged on each traction roller 2, a dust suction pipe 4 is connected on each resin removing mechanism 3, each resin removing mechanism 3 is connected with a transmission mechanism 5, each resin removing mechanism 3 comprises an arc-shaped cover 301, two sides of each arc-shaped cover 301 are fixedly connected with the dipping device support 1, two groups of bearings are symmetrically embedded in two sides of each arc-shaped cover 301, the bearings are in interference fit with the traction rollers 2, two groups of dust suction covers 305 are arranged at two ends of each arc-shaped cover 301, one side of each dust suction cover 305 is connected with the dust suction pipe 4, a scraper knife 302 is arranged in each arc-shaped cover 301, a cleaning mechanism 304 with a cleaning function is arranged on each scraper knife 302, a rectangular hole 303 is arranged on each arc-shaped cover 301, two groups of bearings are symmetrically arranged at two ends of each traction roller 2, the bearing is embedded into a soaking equipment support 1, one end of a traction roller 2 penetrates through the bearing to be connected with a gear 501, the traction roller 2 is rotatably connected with a bonder belt 6, the distance between two groups of traction rollers 2 is slightly smaller than the thickness of the bonder belt 6, the axial length of the traction roller 2 is larger than the width of the bonder belt 6, a knife edge of a scraper 302 is tangent to the traction roller 2, one end of a dust suction pipe 4 is connected with an air inlet of a dust collector (reference model T-751FB), one group of traction rollers 2 is driven by a motor, when the motor drives one group of traction rollers 2 to rotate, one group of traction rollers 2 rotates through the tooth joint of two groups of gears 501, the other group of traction rollers 2 rotates, the two groups of traction rollers 2 simultaneously rotate to drive the bonder belt 6 to move, when Teflon resin is adhered on the traction rollers 2, the Teflon resin adhered on the traction rollers 2 is removed by the action of the scraper 302, and the dust collector (reference model T-751FB) is started at the same time, the vacuum cleaner (refer to model T-751FB) enables the dust hood 305 to generate strong suction through the dust suction pipe 4, the dust hood 305 glues the Teflon resin shoveled by the shovel blade 302 out of the arc hood 301, and therefore not only the Teflon resin on the traction roller 2 is cleaned, but also the Teflon resin in the arc hood 301 is cleaned.

The cleaning mechanism 304 comprises a guide post 3042, the guide post 3042 is positioned in the rectangular hole 303, the guide post 3042 is slidably connected with a vertical bearing, the vertical bearing is embedded in a bearing bush 3041, one end of the bearing bush 3041 is fixedly connected with an arc-shaped plate 3043, one side of the arc-shaped plate 3043 is provided with a plurality of fibers 3044, the transmission mechanism 5 comprises two groups of gears 501, the gears 501 are arranged in two groups, the two groups of gears 501 are meshed, one group of gears 501 are connected with a worm 502, the worm 502 is meshed with a worm wheel 503, the middle part of one side of the worm wheel 503 is connected with a first shaft 504, one end of the first shaft 504 is provided with a bearing, the bearing is embedded in a support plate 505, one end of the support plate 505 is fixedly connected with the immersion equipment support 1, the other side of the worm wheel 503 is provided with a bearing mechanism 506, the bearing mechanism 506 comprises a sliding rod 5064, one end of the sliding rod 5064 is fixedly connected with the immersion equipment support 1, the sliding rod 5064 is connected with the vertical bearing in a sliding way, the vertical bearing is embedded in a synchronous support 5063, one side of the synchronous support 5063 is fixedly connected with a second shaft 5062, one end of the shaft is provided with a bearing, the bearing is embedded into one end of a pull rod 5061, the other end of the pull rod 5061 is provided with a pin shaft, one end of the pin shaft is provided with a bearing, the bearing is embedded into one side of a worm wheel 503 deviating from the axis, a synchronous support 5063 is fixedly connected with two groups of bearing rods 3041, a plurality of fiber wires 3044 are tightly attached to the knife edge of the scraper 302, an arc-shaped plate 3043 is parallel to the pull roller 2, a guide post 3042 is parallel to the knife edge of the scraper 302, when the pull roller 2 rotates, one group of the pull rollers 2 rotates a worm 502 through a corresponding gear 501, the worm 502 rotates the worm wheel 503, the worm wheel 503 drives the synchronous support 5063 to linearly move back and forth along a sliding rod 5064 through the matching action of a shaft two 5062 and the pull rod 5061, the synchronous support 5063 drives the bearing rod 3041, the bearing rod 3041 drives the fiber wires 3044 to frictionally move back and forth along the knife edge of the scraper 302 through the matching action of a vertical bearing and the guide post 3042, and the fiber wires 3043 continuously rub, so that Teflon resin adhered to the knife edge of the scraper 302 is cleaned, the cleanliness of the edge of the scraper knife 302 is ensured, which is beneficial to the scraper knife 302 to clean the Teflon resin on the traction roller 2 and is further beneficial to the traction of the traction roller 2 to the bonder belt 6.

The working principle is as follows: in the using process, the motor drives one group of traction rollers 2 to rotate, one group of traction rollers 2 is in gear joint through two groups of gears 501, the other group of traction rollers 2 is rotated, the two groups of traction rollers 2 simultaneously rotate to drive the bonder belt 6 to move, when Teflon resin is adhered to the traction rollers 2, the Teflon resin adhered to the traction rollers 2 is removed under the action of the scraper knife 302, the dust collector (reference model T-751FB) is started at the same time, the dust collector (reference model T-751FB) enables the dust collection cover 305 to generate strong suction through the dust collection pipe 4, the dust collection cover 305 enables the Teflon resin scraped by the scraper knife 302 to be adhered out of the arc-shaped cover 301, meanwhile, one group of traction rollers 2 enables the worm 502 to rotate through the corresponding gears 501, the worm 502 rotates to enable the worm wheel 503, the worm wheel 503 is enabled to linearly move back and forth through the synchronous support 5063 along the sliding rod 5064 through the matching effect of the two shafts 5062 and the pull rod 5061, the synchronous support 5063 drives the adapting rod 3041, the adapting rod 3041 drives the plurality of filaments 3044 to move back and forth along the edge of the scraper 302 by the arc plate 3043 through the cooperation of the upright bearing and the guide post 3042, and the teflon resin adhered to the edge of the scraper 302 is cleaned by the continuous friction of the plurality of filaments 3044.

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