CN211847696U - Glass pipe fitting traction forming device - Google Patents

Abstract

The utility model provides a glass pipe fitting pulls forming device, relates to mechanical equipment technical field, and it includes workstation, fuel tank, delivery box, cooler bin and drive mechanism, is equipped with the delivery box on the workstation, has worn the transmission shaft in the delivery box, and the transmission shaft outer wall is equipped with the spiral delivery blade, and transmission shaft one end is worn out the delivery box and is installed from driving wheel one, meshes with driving wheel one from driving wheel, driving wheel one is connected with motor one through the drive shaft, the transmission shaft in bury the spray tube underground, the spray tube other end passes the delivery box and is connected with the fuel tank, delivery box exit end and cooler bin entrance connection, be equipped with a plurality of transfer wheel one in the cooler bin, the cooler bin exit end is equipped with the support frame, is equipped with two spacing gyro wheels and a transfer wheel two on the support frame. The glass tube drawing and forming device can efficiently finish the glass tube forming work with high quality.

Description

Glass pipe fitting traction forming device

The technical field is as follows:

the utility model relates to the technical field of mechanical equipment, concretely relates to glass pipe fitting pulls forming device.

Background art:

the manufacturing materials of the glass tube are melted into liquid through the kiln and then form a tubular structure through the traction device, the conventional traction device is poor in traction effect, the thickness of the formed glass tube is uneven, most of the traction-formed glass tubes cannot reach the use standard, and therefore a lot of tube fittings are wasted, and the economy is wasted.

The utility model has the following contents:

the utility model aims at overcoming the shortcomings of the prior art and providing a glass tube traction forming device, which is high-efficiency and high-quality to complete the forming work of the glass tube.

In order to solve the problem existing in the background art, the utility model adopts the following technical scheme: the conveying box is arranged on the workbench, a transmission shaft penetrates the conveying box, spiral conveying blades are arranged on the outer wall of the transmission shaft, one end of the transmission shaft penetrates out of the conveying box and is installed on a first driven wheel, the first driven wheel is meshed with a first driving wheel, the first driving wheel is connected with a first motor through a driving shaft, a spray pipe is buried in the transmission shaft, one end of the spray pipe extends into the outlet end of the conveying box, the other end of the spray pipe penetrates through the conveying box and is connected with the fuel tank, the outlet end of the conveying box is connected with the inlet end of the cooling box, a plurality of first conveying wheels are arranged in the cooling box, a support frame is arranged at the outlet end of the cooling box, two limiting idler wheels and a second conveying wheel are arranged on the support frame, the two limiting idler wheels are arranged in parallel and are located on one side of, The motor II and the driven wheel II are transversely arranged into an upper row and a lower row, each driving wheel II and each driven wheel II are connected through the transmission belt, the two driving wheels II are respectively connected with the motor II and the motor III, and the rotating directions of the motor II and the motor III are opposite.

And a bearing is arranged at the joint of the transmission shaft and the conveying box.

The inner wall of the end part of the transmission shaft, which is positioned outside the conveying box, is provided with a bearing, and the inner ring of the bearing penetrates through the spray pipe.

The utility model has the advantages of simple structure and convenient use, and utilizes the fuel tank and the spray pipe to carry out high-temperature spraying on the material liquid, thereby achieving the purpose that the material liquid can form a cavity when being conveyed out of the conveying box; a cooling box is adopted, and the length of the cooling box is long enough to ensure that the glass tube is completely cooled; the glass tube traction mechanism is utilized to achieve the purpose of traction work of the glass tube and ensure the continuous conveying of the glass tube.

Description of the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the transfer wheel of the present invention;

fig. 3 is a plan view of the limiting roller and the conveying wheel of the present invention.

The specific implementation mode is as follows:

referring to the drawings, the present invention specifically adopts the following embodiments: the automatic cooling device comprises a workbench 1, a fuel tank 17, a conveying box 4, a cooling box 8 and a traction mechanism, wherein the conveying box 4 is arranged on the workbench 1, a transmission shaft 5 penetrates through the conveying box 4, spiral conveying blades 6 are arranged on the outer wall of the transmission shaft 5, one end of the transmission shaft 5 penetrates through the conveying box 4 and is provided with a driven wheel 18, the driven wheel 18 is meshed with a driving wheel 3, the driving wheel 3 is connected with a motor 2 through a driving shaft, a spray pipe 7 is buried in the transmission shaft 5, one end of the spray pipe 7 extends into the outlet end of the conveying box 4, the other end of the spray pipe 7 penetrates through the conveying box 4 and is connected with the fuel tank 17, the outlet end of the conveying box 4 is connected with the inlet end of the cooling box 8, a plurality of first conveying wheels 9 are arranged in the cooling box 8, a support frame is arranged at the outlet end of the cooling box 8, two, the other side of the second conveying wheel 11 is provided with a traction mechanism, the traction mechanism comprises a second motor 16, a third motor 15, a second driving wheel 14, a second driven wheel 12 and a conveying belt 13, the number of the second driving wheel 14 and the number of the second driven wheel 12 are two, each second driving wheel 14 corresponds to one second driven wheel 12, the second driving wheel 14 and the second driven wheel 12 are transversely arranged and are arranged in an upper row and a lower row, each second driving wheel 14 and each second driven wheel 12 are connected through the conveying belt 13, the two second driving wheels 14 are respectively connected with the second motor 16 and the third motor 15, and the rotating directions of the second motor 16 and the third motor 15 are opposite. And a bearing is arranged at the joint of the transmission shaft 5 and the conveying box 4. And a bearing is arranged on the inner wall of the end part of the transmission shaft 5 positioned outside the conveying box 4, and the inner ring of the bearing penetrates through the spray pipe 7.

This glass pipe fittings pulls forming device during operation, all places the glass pipe on transfer gear 9 and the transfer gear 11, and the glass pipe passes between two spacing gyro wheels 10 in transmission process, and two spacing gyro wheels 10 play the limiting displacement to the glass pipe, prevent because the skew transfer gear of glass pipe overlength in transmission process.

The method comprises the steps that molten material liquid of a kiln is conveyed into a conveying box 4, a motor I2 is started to drive a driving wheel I3 connected with the motor I to rotate, the driving wheel I3 is meshed with a driven wheel I18, the driven wheel I18 drives a transmission shaft 5 to rotate, a spiral conveying blade 6 rotates along with the transmission shaft 5 to convey the material liquid, the material liquid is conveyed to an outlet of the conveying box 4 and is extruded out in a rotating mode when the material liquid is extruded out of the outlet by the spiral conveying blade 6, a fuel tank 17 emits high-temperature flame and the high-temperature flame is sprayed out through a spray pipe 7, the spray pipe 7 extends into an outlet end, the high-temperature flame sprayed out through the spray pipe 7 sprays the rotated material liquid at the center of the liquid, and a cavity is generated, and the cavity is a hollow structure of. The pipe fitting that forms the cavity draws drive mechanism through the manual work at first, draw drive mechanism and pass through cooler bin 8 before, cooler bin 8 has the cooling of the sufficient length pipe fitting of being convenient for, the fashioned glass pipe of cooling passes through between two transmission bands 13, two transmission bands 13 are pressed from both sides the glass pipe, because the rotation opposite direction of motor two 16 and motor three 15, and then the frictional force to the glass pipe has played the towed work of transmission to the glass pipe, make the glass pipe move toward one direction, after the manual work is drawn successfully, just can remove through the continuous drive glass pipe of two transmission bands 13, and then accomplish the towed work of equipment.

In conclusion, the glass pipe traction forming device is simple in structure and convenient to use, and utilizes the fuel tank and the spray pipe to spray the material liquid at high temperature, so that the purpose that a cavity can be formed when the material liquid is conveyed out of the conveying box is achieved; a cooling box is adopted, and the length of the cooling box is long enough to ensure that the glass tube is completely cooled; the glass tube traction mechanism is utilized to achieve the purpose of traction work of the glass tube and ensure the continuous conveying of the glass tube.

Claims (3)

1. The utility model provides a glass pipe spare draws forming device which characterized in that: the automatic conveying device comprises a workbench (1), a fuel tank (17), a conveying box (4), a cooling box (8) and a traction mechanism, wherein the conveying box (4) is arranged on the workbench (1), a transmission shaft (5) penetrates through the conveying box (4), spiral conveying blades (6) are arranged on the outer wall of the transmission shaft (5), one end of the transmission shaft (5) penetrates out of the conveying box (4) and is provided with a driven wheel (18), the driven wheel (18) is meshed with a driving wheel (3), the driving wheel (3) is connected with a motor (2) through a driving shaft, a spray pipe (7) is buried in the transmission shaft (5), one end of the spray pipe (7) extends into the outlet end of the conveying box (4), the other end of the spray pipe (7) penetrates through the conveying box (4) and is connected with the fuel tank (17), the outlet end of the conveying box (4) is connected with the inlet end of the cooling box (8), a plurality, the outlet end of the cooling box (8) is provided with a support frame, the support frame is provided with two limiting idler wheels (10) and a second conveying wheel (11), the two limiting idler wheels (10) are arranged in parallel and are positioned on one side of the second conveying wheel (11), the other side of the second conveying wheel (11) is provided with a traction mechanism, the traction mechanism comprises a second motor (16), a third motor (15), a second driving wheel (14), a second driven wheel (12) and a conveying belt (13), the number of the second driving wheel (14) and the number of the second driven wheel (12) are two, each second driving wheel (14) corresponds to one second driven wheel (12), the second driving wheel (14) and the second driven wheel (12) are transversely arranged into an upper row and a lower row, each second driving wheel (14) and each second driven wheel (12) are connected through the conveying belt (13), and the two second driving wheels (14) are respectively connected with, the rotation directions of the second motor (16) and the third motor (15) are opposite.

2. The glass tube drawing and forming device as claimed in claim 1, wherein: and a bearing is arranged at the joint of the transmission shaft (5) and the conveying box (4).

3. The glass tube drawing and forming device as claimed in claim 1, wherein: and a bearing is arranged on the inner wall of the end part of the transmission shaft (5) positioned outside the conveying box (4), and the inner ring of the bearing penetrates through the spray pipe (7).

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