CN219325434U - Cooling device after vulcanization of silica gel tube - Google Patents

Abstract

The utility model provides a silica gel pipe cooling device after vulcanizing, which comprises a groove body, the outer end of the perforation of cell body is equipped with the groove face and is less than fenestrate preceding overflow tank and back overflow tank, preceding overflow tank is equipped with the wind cooling platform, the lower part of wind cooling platform is provided with the wind cooling piece, install the fan on the wind cooling platform, the silica gel pipe pad leans on the wind cooling piece and pierces at the cell body both ends, the inside of cell body is equipped with paired bracing piece, be provided with the multiunit between the bracing piece and be used for the silica gel pipe cooling to support the rotation wheel, rotate and be connected between wheel and the bracing piece, wherein be provided with adjustable shaping mechanism on rotating the wheel with the shaping and rotate the silica gel pipe that takes turns to the support, shaping plate bottom of shaping mechanism sets up the shaping hole, the shaping hole is supported on the silica gel pipe that rotates the wheel, the silica gel pipe is fixed in the cooling process by the shaping hole, the silica gel pipe is cooled through forced cooling and water-cooled double cooling back, the silica gel pipe of high temperature vulcanization, thereby make things convenient for the rolling of silica gel pipe, the deformation of silica gel pipe has been avoided.

Description

Cooling device after vulcanization of silica gel tube

Technical Field

The utility model relates to the technical field of extrusion production of silicone tubes, in particular to a cooling device after vulcanization of a silicone tube.

Background

The silicone tube is a product obtained by extrusion molding and high-temperature vulcanization of silicone rubber, the vulcanization process of the silicone tube is carried out in the high-temperature process, the silicone tube is wound by a winding device after high-temperature vulcanization, therefore, the conventional silicone tube is produced, the silicone tube is wound in a high-temperature state directly after vulcanization molding, the silicone tube is easy to deform in the winding process, and the quality of the silicone tube is influenced, therefore, the patent publication No. CN211141170U discloses a rubber tube winding device, the problem that the molding and quality of the rubber tube can be influenced by direct winding due to overhigh temperature of the vulcanized rubber tube is solved, the purpose of cooling the rubber tube is achieved by arranging a plurality of universal air blowing pipes, the heat dissipation of the rubber tube is greatly improved, however, after the rubber tube is wound, the inside of the rubber tube is deformed due to high-temperature winding, and therefore, the cooling device after the vulcanization of the silicone tube is necessary to be designed, so that the rubber tube can be completely cooled down during winding, the high-temperature deformation in the winding process is avoided, and the quality of the product is influenced.

Disclosure of Invention

In order to solve the problems, the utility model provides a cooling device for a vulcanized silicone tube, which aims to solve the problem of cooling and rolling the vulcanized silicone tube at a high temperature.

To achieve the above object, the present utility model is achieved by: the utility model provides a silicone tube cooling device after vulcanization, includes cuboid form cell body, the both ends of cell body all are equipped with the perforation that supplies silicone tube one end to wear to establish, the outer end of perforation is equipped with the groove surface and is less than the perforation overflows groove and back and overflows the groove before, before overflow the inslot and be equipped with the forced air cooling platform of its groove surface of protrusion, the lower part of forced air cooling platform is located be provided with the wind cooling piece on the fenestrate height, install the orientation on the forced air cooling platform the fan of forced air cooling piece, the silicone tube pad after the continuous follow high temperature vulcanization line lean on the wind cooling piece and pierce through the cell body both ends, be equipped with paired bracing piece in the inside of cell body, be provided with the multiunit along the silicone tube removal direction and be used for the silicone tube cooling to support the rotor between the bracing piece, the rotor with pivoted is connected between the bracing piece, one or more be provided with adjustable setting mechanism on the rotor is in order to design the silicone tube that the rotor is supported, setting mechanism including rotating the setting plate portion that sets up, setting plate portion setting plate setting is in the setting up in the setting hole by means of setting up in the shaping hole by the shaping hole. The silicone tube after high temperature vulcanization molding is ventilated and cooled through the air cooling table on the front overflow groove, the silicone tube is further penetrated in the groove body and is further cooled through cold water in the groove body, so that the quick cooling of the silicone tube is realized, the rolling after the subsequent cooling of the silicone tube is ensured, the high temperature deformation of the silicone tube in the rolling process is avoided, the shaping mechanism is further arranged in the water cooling process of the silicone tube in the groove body, and the silicone tube is further shaped in the cooling process through the shaping mechanism, so that the cooling deformation is prevented, and the quality of the silicone tube is improved.

Further, the shaping mechanism further comprises a support and an adjusting bolt, wherein the support and the adjusting bolt are arranged above the rotating wheel, U-shaped grooves are formed in two sides of the support, a pressing rod is connected between the U-shaped grooves, the adjusting bolt penetrates through the top of the support and is connected with the pressing rod, the pressing rod slides up and down in the U-shaped grooves through the adjusting bolt, the shaping plate and the silicone tube are obliquely arranged in the horizontal transmission direction, the shaping plate is located below the pressing rod, and the pressing rod is adjustable and presses on the shaping plate.

Further, the bottom of the pressing rod is an arc bottom.

Further, the air cooling piece is provided with meshes. Through setting up the mesh, the air circulation of the below of realization wind cooling fin that can be better has improved the pad and has had better cooling effect by the last silicone tube of wind cooling fin.

Further, the upper surface of the rotating wheel is provided with arc-shaped grooves, the upper parts of one or more rotating wheels are provided with oppositely arranged rotating wheels, and a positioning channel for positioning the silicone tube is formed by the arc-shaped grooves between the upper rotating wheels and the lower rotating wheels.

Further, the shaping mechanism is provided with 2, the shaping mechanism is respectively arranged at the front end and the middle of the groove body. The silicone tube is cooled down fast at the front end of cell body, and the cooling of silicone tube changes greatly at this moment, warp easily, sets up shaping mechanism at the front end of cell body, and the in-process of cooling down rapidly of silicone tube is through shaping mechanism design, guarantees that the outside of silicone tube can not warp, is provided with shaping mechanism at the middle part of cell body, and the silicone tube can further obtain the design through shaping mechanism, guarantees that the outside shape of silicone tube obtains consolidating.

According to the utility model, the cooling water is placed in the tank body and can circulate through the circulating pump, the water level of the cooling water in the tank body is higher than the surface of the silicone tube, so that the silicone tube penetrating through the tank body can be rapidly cooled, the front overflow groove and the rear overflow groove are arranged at the outer ends of the perforations at the two ends of the tank body, and the cooling water in the tank body is received through the front overflow groove and the rear overflow groove through the water overflowed from the perforations, so that the drying outside the cooling device is ensured.

According to the utility model, after the silica gel tube is cooled by air cooling and water cooling, the high-temperature vulcanized silica gel tube is cooled, so that the winding of the silica gel tube is facilitated, and the deformation of the silica gel tube is avoided.

According to the utility model, the silicone tube is shaped by the shaping mechanism in the water cooling process, so that the deformation of the silicone tube in the water cooling process is avoided.

Drawings

FIG. 1 is a schematic perspective view of the present utility model.

FIG. 2 is a schematic diagram of a second perspective structure of the present utility model.

Fig. 3 is an enlarged schematic view of part of a in fig. 1.

Fig. 4 is a schematic perspective view of a pressing rod.

Wherein: 1-groove body, 101-front overflow groove, 102-rear overflow groove, 103-supporting rod, 104-convex column, 105-perforation, 2-cooling platform, 3-fan, 4-wind cooling fin, 401-mesh, 5-rotating wheel, 501-groove, 6-shaping mechanism, 601-shaping plate, 601 a-shaping hole, 602-bracket, 602 a-U-shaped groove, 603-adjusting bolt, 604-pressing rod, 604 a-fixing hole and 7-silicone tube.

Detailed Description

Embodiments of the present utility model will be briefly described below with reference to the drawings.

1-3, including cuboid cell body 1, both ends of cell body 1 all are equipped with the perforation 105 that supplies silica gel pipe 7 one end to wear to establish, the outer end of perforation 105 is equipped with preceding overflow tank 101 and the back overflow tank 102 that the groove face is less than perforation 105, cooling water has been placed in cell body 1, cooling water can circulate through the circulating pump, cooling water level in cell body 1 is higher than the surface of silica gel pipe 7, make the silica gel pipe 7 wearing to establish in passing cell body 1 can obtain quick cooling, cooling water in cell body 1 is received through preceding overflow tank 101 and back overflow tank 102 through perforation 105 overflow tank, be equipped with the forced air cooling platform 2 of protrusion its groove face in preceding overflow tank 101, the lower part of forced air cooling platform 2 is provided with forced air cooling piece 4 on the height of perforation 105, be equipped with mesh 401 on forced air cooling piece 4, the air circulation of the below of forced air cooling piece 4 can be better realized, the fan 3 facing the air cooling fin 4 is arranged on the air cooling table 2, the silica gel tube 7 continuously vulcanized from the high-temperature vulcanizing line is supported on the air cooling fin 4 and penetrates through the two ends of the tank body 1, the high-temperature silica gel tube 7 is purged and cooled through the fan 3, the silica gel tube 7 is primarily cooled, the problem that the silica gel tube 7 is primarily cooled is avoided when direct water cooling is performed, the silica gel tube 7 suddenly contracts due to large temperature difference to generate larger deformation is avoided, the silica gel tube 7 is soft at high temperature, the silica gel tube 7 is directly penetrated from the perforation 105 of the tank body 1, the transmission process stretching force stretches the silica gel tube 7 to deform when the transmission process stretching force stretches the silica gel tube 7, the silica gel tube 7 is driven by the transmission belt in the vulcanizing line to provide power for pushing, the silica gel tube 7 is supported by the air cooling fin 4, the silica gel tube 7 is primarily cooled through the air, the primary cooling of the silica gel tube 7 can avoid the stretching problem, and then water-cooled, thereby ensuring that the silicone tube 7 has certain hardness, and has smaller deformation no matter stretching or water cooling.

The inside of the tank body 1 is provided with a pair of support rods 103, a plurality of groups of rotating wheels 5 for cooling and supporting the silicone tube 7 are arranged between the support rods 103 along the moving direction of the silicone tube 7, the rotating wheels 5 are rotationally connected with the support rods 103, the silicone tube 7 is supported and rotated by the rotating wheels 5 to realize transmission, the upper surface of the rotating wheels 5 is provided with arc-shaped grooves 501, the upper part of one or more rotating wheels 5 is provided with the rotating wheels 5 which are oppositely arranged, the arc-shaped grooves 501 between the upper rotating wheels 5 and the lower rotating wheels 5 form a positioning channel for positioning the silicone tube 7, the rotating wheels 5 at the upper part are rotationally connected between the convex columns 104 of the support rods 103, in the embodiment, 2 groups of rotating wheels 5 which are arranged up and down are arranged on the support rods 103 are arranged, one group is positioned at the front end of the tank body 1, the group is positioned at the middle part of the tank body 1, the silicone tube 7 is in the cooling process, the silica gel tube 7 achieves the purpose of straight transmission and cooling through two groups of positioning, one or more rotating wheels 5 is also provided with an adjustable shaping mechanism 6 for shaping the silica gel tube 7 supported on the rotating wheels 5, the shaping mechanism 6 comprises a shaping plate 601 which is rotatably arranged, the bottom of the shaping plate 601 is provided with a shaping hole 601a, the shaping hole 601a is propped against the silica gel tube 7 supported on the rotating wheels 5, the silica gel tube 7 is shaped through the shaping hole 601a, one end of the shaping plate 601 is rotatably connected between the convex columns 104 of the supporting rods 103 through a rotating shaft, the shaping mechanism 6 comprises a bracket 602 and an adjusting bolt 603 which are arranged above the rotating wheels 5, two sides of the bracket 602 are provided with U-shaped grooves 602a, a propping rod 604 is connected between the U-shaped grooves 602a, the adjusting bolt 603 is connected with the propping rod 604 through the top of the bracket 602, and the propping rod 604 slides up and down in the U-shaped grooves 602a through the adjusting bolt 603, the setting plate 601 is inclined with the horizontal transmission direction of the silica gel tube 7, the setting plate 601 is located below the pressing rod 604, the pressing rod 604 is adjustable to press on the setting plate 601, the setting plate 601 presets the contact force between the setting plate 601 and the silica gel tube 7 through the adjustable pressing rod 604, thereby realizing that the setting hole 601a of the setting plate 601 can adjust to press the silica gel tube 7, the silica gel tube 7 can be shaped through the hole pattern of the setting hole 601a on the setting plate 601, and as the setting plate 601 is rotationally arranged, the contact point between the pressing rod 604 and the setting plate 601 is continuous, the bottom of the pressing rod 604 is an arc bottom, the pressing rod 604 is continuously pressed between the arc bottom and the setting plate 601, and the back of the pressing rod 604 is fixedly connected with the adjusting bolt 603 through the fixing hole 604 a.

In this implementation, forming mechanism 6 is provided with 2, forming mechanism 6 sets up respectively in the front end and the centre of cell body 1, silica gel tube 7 is at the front end rapid cooling of cell body 1, the cooling change of silica gel tube 7 is big this moment, be out of shape easily, set up forming mechanism 6 in the front end of cell body 1, the quick cooling in-process of silica gel tube 7 is through forming mechanism 6 design, guarantee that the outside of silica gel tube 7 can not warp, be provided with forming mechanism 6 in the middle part of cell body 1, silica gel tube 7 can further obtain the design through forming mechanism 6, guarantee that the outside shape of silica gel tube 7 is consolidated.

The foregoing examples merely illustrate embodiments of the utility model and are described in more detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model.

Claims (6)

1. The utility model provides a cooling device after silica gel pipe vulcanizes which characterized in that: including cuboid cell body, the both ends of cell body all are equipped with the perforation that supplies silicone tube one end to wear to establish, the outer end of perforation is equipped with the grooved surface and is less than the perforation overflows groove and back overflows the groove before, before overflow the inslot and be equipped with the forced air cooling platform of its grooved surface of protrusion, the lower part of forced air cooling platform is located be provided with the wind cooling fin on the fenestrate height, install the orientation on the forced air cooling platform the fan of wind cooling fin, the silicone tube pad after vulcanizing from the high temperature vulcanization line in succession lean on the wind cooling fin and pierce through in cell body both ends, the inside of cell body is equipped with paired bracing piece, be provided with the multiunit along silicone tube direction of movement and be used for the silicone tube cooling to support the rotation wheel between the bracing piece, rotation wheel with one or more be provided with adjustable setting mechanism on the rotation wheel in order to fix a setting mechanism including rotating the setting, setting plate bottom sets up the setting hole, the setting hole is in order to support the silicone tube in the setting process by rotating the setting hole by the silicone tube.

2. The post-vulcanization cooling device of a silicone tube as set forth in claim 1, wherein: the shaping mechanism is characterized by further comprising a support and an adjusting bolt, wherein the support is arranged above the rotating wheel, U-shaped grooves are formed in two sides of the support, a pressing rod is connected between the U-shaped grooves, the adjusting bolt penetrates through the top of the support and is connected with the pressing rod, the pressing rod slides up and down in the U-shaped grooves through the adjusting bolt, the shaping plate and the silicone tube are obliquely arranged in the horizontal transmission direction, the shaping plate is located below the pressing rod, and the pressing rod is adjustable to press on the shaping plate.

3. A post-vulcanization cooling device for a silicone tube as set forth in claim 2, wherein: the bottom of the pressing rod is an arc bottom.

4. The post-vulcanization cooling device of a silicone tube as set forth in claim 1, wherein: the air cooling piece is provided with meshes.

5. The post-vulcanization cooling device of a silicone tube as set forth in claim 1, wherein: the upper surface of the rotating wheel is provided with arc-shaped grooves, the upper parts of one or more rotating wheels are provided with rotating wheels which are arranged oppositely, and a positioning channel for positioning the silicone tube is formed by the arc-shaped grooves between the upper rotating wheels and the lower rotating wheels.

6. The post-vulcanization cooling device of a silicone tube as set forth in claim 1, wherein: the shaping mechanism is provided with 2, the shaping mechanism is respectively arranged at the front end and the middle of the groove body.

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