CN220594035U - Glass wool heat preservation pipe roll-in forming device - Google Patents

Abstract

The utility model discloses a glass wool heat-insulating pipe rolling forming device, which relates to the field of glass wool processing equipment and comprises a core roller, a carrier roller and a compression roller; the core roller is sleeved with two rolling baffles, and the inner side surface of one rolling baffle is provided with a socket expansion body; the number of the carrier rollers is two and the carrier rollers are arranged side by side, each carrier roller is sleeved with two limit baffles, and the limit baffles are propped against the outer side surfaces of the roll baffles; the compression roller is located the top of core roller, and the cover is equipped with socket roll-in body on the compression roller. The utility model can integrally form the bell mouth and the spigot structure in the rolling process of the glass wool tube shells, so that the tube shells are more tightly connected, and the later installation and construction efficiency is improved.

Description

Glass wool heat preservation pipe roll-in forming device

Technical Field

The utility model relates to the field of glass wool processing equipment, in particular to a roll forming device for a glass wool heat-insulating pipe.

Background

The glass wool pipe shell is a tubular heat-insulating material formed by adding resin adhesive into glass fibers and heating and solidifying, is specially used for heat insulation and cold insulation of various pipeline systems, can normally work at the ambient temperature of minus 164-454 ℃, and can be exposed and concealed. The pipe sleeve of the material has the characteristics of water resistance, corrosion resistance, mildew resistance and insect resistance, so that the pipe sleeve can effectively prevent condensation and prevent pipelines from freezing, and is widely used for heat preservation of civil buildings, heat supply pipelines, air conditioners and refrigeration equipment.

In order to ensure the tightness of connection between the pipe shells, workers adopt a method of butt joint and compaction of the cut in early stage when constructing and installing the glass wool pipe shells, but the end faces are not neat, so that the pipe shells are compact, and then the pipe shell is manually cut at the port positions to form a faucet and a socket structure. However, the efficiency of the construction of the glass wool tube shell is low when the bell mouth and the spigot are cut manually; meanwhile, the structure of the manually cut bellmouth and the manually cut faucet is irregular, and the matching compactness is low.

Disclosure of Invention

The utility model aims to provide a roll forming device for a glass wool heat-insulating pipe, which solves the problem that the butt joint of incisions of glass wool pipe shells is not tight in gaps and affects the heat-insulating effect.

The utility model adopts the following technical scheme:

the utility model provides a glass wool heat-insulating pipe roll forming device, which comprises:

the core roller is sleeved with two rolling baffles, and the inner side surface of one rolling baffle is provided with a socket expansion body;

the carrier rollers are positioned below the core roller, the number of the carrier rollers is two and the carrier rollers are arranged side by side, each carrier roller is sleeved with two limit baffles, the limit baffles are propped against the outer side surfaces of the roll baffles,

the press roll is positioned above the core roll, and a socket roll pressing body is sleeved on the press roll.

Preferably, one of the carrier rollers is connected to the frame body through a shaft seat; the other carrier roller is connected to the first sliding seat through the shaft seat, the first sliding seat is connected to the first guide rail below in a sliding manner, the first guide rail is fixedly connected to the frame body, and a first telescopic driving device is arranged on one side of the first sliding seat.

Preferably, the two ends of the press roller are rotationally connected to the press roller frame, a lifting driving device is arranged above the press roller frame, the top of the lifting driving device is connected with a transverse moving frame, two ends of the transverse moving frame are respectively provided with a second sliding seat, the second sliding seats are slidably connected to second guide rails below, the second guide rails are fixedly connected to the frame body, and one side of each second sliding seat is provided with a second telescopic driving device.

Preferably, a press roller driving device is arranged at one end of the press roller.

Preferably, one end of each of the two carrier rollers is provided with a carrier roller driving device.

Compared with the prior art, the utility model has the beneficial technical effects that:

the utility model can integrally form the bell mouth and the spigot structure in the rolling process of the glass wool tube shells, so that the tube shells are more tightly connected, and the later installation and construction efficiency is improved.

Drawings

The utility model is further described with reference to the following description of the drawings.

FIG. 1 is a schematic side view of a roll forming device for a glass wool insulating tube in an embodiment of the utility model;

FIG. 2 is a schematic diagram showing the front view of the press roller and the core roller in the embodiment of the utility model;

fig. 3 is a schematic front view of a carrier roller and a core roller in an embodiment of the present utility model.

Reference numerals illustrate: 1. a core roller; 101. rolling a baffle; 102. a socket extension body; 2. a carrier roller; 201. a limit baffle; 3. a press roller; 301. a socket roller press body; 4. a first slider; 5. a first guide rail; 6. a first telescopic drive device; 7. a frame body; 8. a roller frame; 9. a press roller driving device; 10. a carrier roller driving device; 11. a lifting driving device; 12. a transverse moving frame; 13. a second slider; 14. a second guide rail; 15. and a second telescopic driving device.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments.

As shown in fig. 1 to 3, in this embodiment, a glass wool insulation pipe roll forming device is disclosed, which includes a core roll 1, a carrier roll 2 and a press roll 3. The core roller 1 is sleeved with two rolling baffles 101, and the inner side surface of one rolling baffle 101 is provided with a socket expansion body 102. The carrier rollers 2 are arranged below the core roller 1, the number of the carrier rollers 2 is two, the two carrier rollers 2 are arranged side by side, each carrier roller 2 is sleeved with two limit baffles 201, and the limit baffles 201 are propped against the outer side face of the roll baffle 101. The press roller 3 is positioned above the core roller 1, and the socket roller pressing body 301 is sleeved on the press roller 3.

When the glass fiber composite tube rolling machine works, two rolling baffles 101 on a core roller 1 are propped against the outer walls of two carrier rollers 2 and rotate along with the two carrier rollers 2, glass fibers are wound on the outer walls of the core roller 1 layer by layer after resin adhesives are added, tube shells are gradually formed through rolling of an upper pressing roller 3 and a lower two carrier rollers 2, and the tube shells respectively form a bellmouth structure and a socket structure at the positions of a bellmouth expansion body 102 and a socket rolling body 301 in the rolling process, so that an integrated glass fiber composite tube shell with a bellmouth and a socket structure is formed. After curing at high temperature, the shell can be withdrawn from the core roll 1 after removal of one of the roll baffles 101.

In the embodiment, one of the carrier rollers 2 is connected to the frame 7 through a shaft seat; the other carrier roller 2 is connected to the first sliding seat 4 through a shaft seat, the first sliding seat 4 is slidably connected to a first guide rail 5 below, the first guide rail 5 is fixedly connected to the frame 7, and a first telescopic driving device 6 is arranged on one side of the first sliding seat 4. One of the carrier rollers 2 can be controlled to move along the first guide rail 5 through the first telescopic driving device 6, and then the distance between the two carrier rollers 2 is controlled. The distance between the two carrier rollers 2 is designed to be adjustable, so that glass wool tube shells with different sizes can be rolled conveniently.

In this embodiment, two ends of the press roller 3 are rotatably connected to the press roller frame 8, and a lifting driving device 11 is disposed above the press roller frame 8. The lifting driving device 11 can control the pressing roller 3 to ascend or descend.

After the distance between the carrier rollers 2 is adjusted, the position of the press roller 3 is also required to be correspondingly adjusted so that the press roller 3 is opposite to the center of the glass wool tube shell. Therefore, in the present embodiment, the top of the lifting driving device 11 is connected with the traversing rack 12, two ends of the traversing rack 12 are both provided with the second sliding seat 13, the second sliding seat 13 is slidably connected with the second guide rail 14 below, the second guide rail 14 is fixedly connected to the rack body 7, and one side of the second sliding seat 13 is provided with the second telescopic driving device 15. The second telescopic driving means 15 drives the platen roller 3 to move laterally.

In this embodiment, the lift driving device 11, the first telescopic driving device 6, and the second telescopic driving device 15 all adopt the conventional turbine screw telescopic type. Specifically, the turbine screw telescopic type is also called a turbine screw lifter, is widely applied to industries such as machinery, metallurgy, construction, water conservancy equipment and the like, and has a plurality of functions such as lifting, descending, pushing by aid of auxiliary parts, overturning, various height position adjustment and the like.

In this embodiment, the pressing roller 3 and the two carrier rollers 2 can both provide rotational power for the rolling. Specifically, one end of the platen roller 3 is provided with a platen roller driving device 9. One end of each of the two carrier rollers 2 is provided with a carrier roller driving device 10. The roller driving device 9 and the carrier roller driving device 10 both adopt gear motors. The shell of the press roller driving device 9 is arranged on the press roller frame 8, and the power output shaft of the press roller driving device 9 is in power connection with the press roller 3. The shell of the carrier roller driving device 10 is arranged on the shaft seat, and the power output shaft of the carrier roller driving device 10 is in power connection with the carrier roller 2.

The above embodiments are only illustrative of the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solutions of the present utility model should fall within the protection scope defined by the claims of the present utility model without departing from the design spirit of the present utility model.

Claims (5)

1. The utility model provides a glass cotton insulating tube roll-in forming device which characterized in that includes:

the rolling device comprises a core roller (1), wherein two rolling baffles (101) are sleeved on the core roller (1), and a socket expansion body (102) is arranged on the inner side surface of one rolling baffle (101);

the carrier rollers (2) are positioned below the core roller (1), the number of the carrier rollers (2) is two and the carrier rollers are arranged side by side, each carrier roller (2) is sleeved with two limit baffles (201), the limit baffles (201) are propped against the outer side surface of the roll baffle (101),

the press roll (3), press roll (3) are located the top of core roller (1), cover on press roll (3) is pressed body (301) in socket.

2. The roll forming device for glass wool insulation pipes according to claim 1, wherein: one of the carrier rollers (2) is connected to the frame body (7) through a shaft seat; the other carrier roller (2) is connected to the first sliding seat (4) through a shaft seat, the first sliding seat (4) is slidably connected to a first guide rail (5) below, the first guide rail (5) is fixedly connected to the frame body (7), and a first telescopic driving device (6) is arranged on one side of the first sliding seat (4).

3. The roll forming device for glass wool insulation pipes according to claim 2, wherein: the two ends of the compression roller (3) are rotationally connected to the compression roller frame (8), a lifting driving device (11) is arranged above the compression roller frame (8), the top of the lifting driving device (11) is connected with a transverse moving frame (12), two ends of the transverse moving frame (12) are respectively provided with a second sliding seat (13), the second sliding seats (13) are slidably connected to second guide rails (14) below, the second guide rails (14) are fixedly connected to the frame body (7), and one side of each second sliding seat (13) is provided with a second telescopic driving device (15).

4. The roll forming device for glass wool insulation pipes according to claim 1, wherein: one end of the press roller (3) is provided with a press roller driving device (9).

5. The roll forming device for glass wool insulation pipes according to claim 1, wherein: one end of each carrier roller (2) is provided with a carrier roller driving device (10).