CN215620063U

CN215620063U - Hot melt converter

Info

Publication number: CN215620063U
Application number: CN202022967259.7U
Authority: CN
Inventors: 王智慧; 胡沙
Original assignee: Shanghai Hexu Information Technology Co ltd
Current assignee: Shanghai Hexu Information Technology Co ltd
Priority date: 2020-12-10
Filing date: 2020-12-10
Publication date: 2022-01-25
Anticipated expiration: 2030-12-10

Abstract

The utility model discloses a hot melt converter, comprising: the bottom plate, the internally mounted that the upper portion of bottom plate was equipped with fixed column and fixed column has the screw rod, the bottom surface of screw rod is equipped with from the driving wheel and from driving wheel and screw rod fixed connection, the power take off end that the left side of fixed column was equipped with motor and motor is equipped with the drive shaft. According to the utility model, the upper part of the bottom plate is provided with the fixed column, the screw rod is arranged in the fixed column, the bottom surface of the screw rod is provided with the driven wheel, the side surface of the fixed column is provided with the motor, the power output end of the motor is provided with the driving shaft, the driving shaft extends into the fixed column, the tail end of the driving shaft is provided with the driving wheel, the driving wheel and the driven wheel are mutually meshed, the telescopic column is arranged in the first threaded hole, the first threaded hole is formed in the telescopic column, the screw rod is in threaded connection with the first threaded hole, and the telescopic column is driven to move up and down through the rotation of the screw rod.

Description

Hot melt converter

Technical Field

The utility model relates to the technical field of hot melting machines, in particular to a hot melting converter.

Background

The hot-melt connection refers to a connection mode between nonmetal and nonmetal by heating to a (liquid) melting point. The method is widely applied to connection of novel pipes and pipe fittings such as PP-R pipes, PB pipes, PE-RT pipes, metal composite pipes, curved elastic vector aluminum alloy lining plastic composite pipeline systems and the like. In steel structure engineering, two metal reinforcing steel bars are connected by hot melting through electric heating equipment. The connecting point after the metal hot melting connection is cooled at normal temperature to reach the tensile stress of the original metal material, and the hot melting connection cannot be quenched so as to prevent the connecting point from being carbonized and embrittled and losing the tensile stress parameter of the original metal material. The hot melt connection mainly comprises: the hot melt socket joint is connected with the hot melt butt welding, and the hot melt connection has the advantages of simple and convenient connection, long service life, difficult corrosion and the like.

Its mounting structure of current hot melt mechanism is fixed, can't adjust the height of heat accumulation board, generally is the pipeline of artificially taking and putting during hot melt pipeline simultaneously, can't guarantee the parallel of pipeline, influences the hot melt effect. Therefore, a new technical solution needs to be provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a hot-melting converter, which solves the problems that the installation structure of the existing hot-melting mechanism in the prior art is fixed, the height of a heat storage plate cannot be adjusted, and meanwhile, pipelines are generally manually taken and placed during hot melting, so that the parallelism of the pipelines cannot be ensured, and the hot-melting effect is influenced.

In order to achieve the purpose, the utility model provides the following technical scheme: a heat stake converter, comprising: the heat storage device comprises a bottom plate, wherein a fixed column is arranged at the upper part of the bottom plate, a screw rod is arranged in the fixed column, a driven wheel is arranged on the bottom surface of the screw rod, the driven wheel is fixedly connected with the screw rod, a motor is arranged on the left side of the fixed column, a driving shaft is arranged at the power output end of the motor, the driving shaft extends into the fixed column, a driving wheel is arranged at the tail end of the driving shaft, the driving wheel is meshed with the driven wheel, a telescopic column is arranged in the fixed column, a first threaded hole is formed in the telescopic column, the first threaded hole is in threaded connection with the screw rod, a movable shaft is arranged on the inner side of the telescopic column, a connecting block is arranged on the inner side of the movable shaft, a controller is arranged on the left side of the connecting block, a heat storage plate is arranged on the right side of the connecting block, a plurality of groups of heated parts are arranged in the heat storage plate, a chute is arranged in the bottom plate, a movable plate is arranged on the upper part of the chute, a support column is arranged on the upper part of the movable plate, and a telescopic rod is arranged in the support column, the upper portion of telescopic link is equipped with the layer board and the layer board is half arc structure setting.

In a preferred embodiment of the present invention, a handle is disposed on the left side of the controller, and the handle is fixedly connected to the controller via a bolt.

As a preferred embodiment of the present invention, the bottom of the movable plate is provided with a pulley, and the movable plate is slidably connected to the chute through the pulley.

As a preferred embodiment of the present invention, a threaded column is disposed at the bottom of the telescopic rod, a second threaded hole is disposed inside the supporting column, and the second threaded hole is in threaded connection with the threaded column.

As a preferred embodiment of the present invention, the heat receiving unit is provided with a plurality of groups and the diameter of the heat receiving unit is decreased from the left to the right.

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

the utility model is characterized in that a fixed column is arranged at the upper part of a bottom plate, a screw rod is arranged in the fixed column, a driven wheel is arranged on the surface of the bottom of the screw rod, a motor is arranged on the side surface of the fixed column, a driving shaft is arranged at the power output end of the motor, the driving shaft extends into the fixed column, a driving wheel is arranged at the tail end of the fixed column, the driving wheel and the driven wheel are mutually meshed, a telescopic column is arranged in a first threaded hole, a first threaded hole is arranged in the telescopic column, the screw rod is in threaded connection with the first threaded hole, the telescopic column is driven to move up and down by the rotation of the screw rod, a movable shaft is arranged on the side surface of the telescopic column, a connecting block is arranged between the movable shafts and is in rotary connection with the telescopic column through the movable shaft, a controller is arranged on the left side of the connecting block, a heat storage plate is arranged on the right side of the connecting block, a plurality of groups of heating parts are arranged in a cylindrical structure, a sliding groove is arranged in the bottom plate, and a movable plate is arranged on the upper part of the sliding groove, the upper portion of fly leaf is equipped with the bracing piece and the inside second screw hole that is equipped with of bracing piece, and the inside telescopic link that sets up of second screw hole and the bottom of telescopic link are equipped with the screw thread post, threaded connection between screw thread post and the second screw hole, and the top of telescopic link is equipped with the layer board and the layer board is half arc structure setting, and the height of layer board is the same with the height of heated portion.

Drawings

FIG. 1 is a schematic view of the overall connection structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the fixing post according to the present invention;

FIG. 3 is a schematic view of the internal structure of the support post of the present invention.

In the figure, 1, a bottom plate; 2. fixing a column; 3. a telescopic column; 4. a movable shaft; 5. connecting blocks; 6. a controller; 7. a grip; 8. a heat storage plate; 9. a heat receiving unit; 10. a motor; 11. a drive shaft; 12. a chute; 13. a movable plate; 14. a pulley; 15. a support pillar; 16. a telescopic rod; 17. a support plate; 18. a first threaded hole; 19. A screw; 20. a driven wheel; 21. a driving wheel; 22. a second threaded hole; 23. a threaded post.

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. 1-3, the present invention provides a technical solution: a heat stake converter, comprising: the bottom plate 1, the upper portion of the bottom plate 1 is provided with a fixed column 2, a screw rod 19 is installed inside the fixed column 2, a driven wheel 20 is arranged on the bottom surface of the screw rod 19, the driven wheel 20 is fixedly connected with the screw rod 19, a motor 10 is arranged on the left side of the fixed column 2, a driving shaft 11 is arranged at the power output end of the motor 10, the driving shaft 11 extends into the fixed column 2, a driving wheel 21 is installed at the tail end of the driving wheel 11, the driving wheel 21 is meshed with the driven wheel 20, a telescopic column 3 is arranged inside the fixed column 2, a first threaded hole 18 is formed inside the telescopic column 3, the first threaded hole 18 is in threaded connection with the screw rod 19, the fixed column 2 is arranged on the upper portion of the bottom plate 1, the screw rod 19 is installed inside the fixed column 2, a driven wheel 20 is arranged on the bottom surface of the screw rod 19, the motor 10 is arranged on the side surface of the fixed column 2, and the power output end of the motor 10 is provided with the driving shaft 11, the driving shaft 11 extends into the fixed column 2, the end of the driving shaft is provided with a driving wheel 21, the driving wheel 21 is meshed with a driven wheel 20, a telescopic column 3 is arranged in a first threaded hole 18, a first threaded hole 18 is arranged in the telescopic column 3, a screw rod 19 is in threaded connection with the first threaded hole 18, the telescopic column 3 is driven to move up and down through the rotation of the screw rod 19, a movable shaft 4 is arranged on the inner side of the telescopic column 3, a connecting block 5 is arranged on the inner side of the movable shaft 4, a controller 6 is arranged on the left side of the connecting block 5, a heat storage plate 8 is arranged on the right side of the connecting block, a plurality of groups of heated parts 9 are arranged in the heat storage plate 8, a sliding chute 12 is arranged in the bottom plate 1, a movable plate 13 is arranged on the upper portion of the sliding chute 12, a supporting column 15 is arranged on the upper portion of the movable plate 13, a telescopic rod 16 is arranged in the supporting column 15, a supporting plate 17 is arranged on the upper portion of the telescopic rod 16, and the supporting plate 17 is arranged in a semi-arc structure, the side surface of the telescopic column 3 is provided with movable shafts 4, connecting blocks 5 are arranged between the movable shafts 4, the connecting blocks 5 are rotatably connected with the telescopic column 3 through the movable shafts 4, the left side of each connecting block 5 is provided with a controller 6, the right side of each connecting block is provided with a heat storage plate 8, a plurality of groups of heated parts 9 are arranged in the heat storage plates 8, and the heated parts 9 are arranged in a cylindrical structure, the hot melting tube support is characterized in that a sliding groove 12 is formed in the bottom plate 1, a movable plate 13 is arranged on the upper portion of the sliding groove 12, a supporting rod is arranged on the upper portion of the movable plate 13, a second threaded hole 22 is formed in the supporting rod, a telescopic rod 16 is arranged in the second threaded hole 22, a threaded column 23 is arranged at the bottom of the telescopic rod 16, the threaded column 23 is in threaded connection with the second threaded hole 22, a supporting plate 17 is arranged on the top of the telescopic rod 16, the supporting plate 17 is arranged in a semi-arc structure, the height of the supporting plate 17 is the same as that of the heated portion 9, parallelism of hot melting tubes is guaranteed, and hot melting quality is improved.

Further improved, as shown in fig. 1: the left side of the controller 6 is provided with a handle 7, the handle 7 is fixedly connected with the controller 6 through a bolt, and the handle 7 is convenient for adjusting the rotation angle of the heat accumulation plate 8.

Further improved, as shown in fig. 1: the bottom of the movable plate 13 is provided with a pulley 14, the movable plate 13 is slidably connected with the chute 12 through the pulley 14, and the movable plate 13 is slidably connected with the chute 12 through the pulley 14, so that the movable plate 13 can be moved to the position of the heated portion 9.

In a further improvement, as shown in fig. 3: the bottom of telescopic link 16 is equipped with screw thread post 23 and the inside of support column 15 is equipped with second screw hole 22, threaded connection between second screw hole 22 and the screw thread post 23 rotates screw thread post 23 and can adjusts the height of telescopic link 16.

Further improved, as shown in fig. 1: the heating unit 9 is provided with a plurality of groups, and the diameter of the heating unit 9 is reduced from left to right in turn, so that the heating unit can be suitable for hot melt pipes under different belts.

The side surface of a telescopic column 3 is provided with movable shafts 4, a connecting block 5 is installed between the movable shafts 4, the connecting block 5 is rotatably connected with the telescopic column 3 through the movable shafts 4, the left side of the connecting block 5 is provided with a controller 6, the right side of the connecting block 5 is provided with a heat storage plate 8, a plurality of groups of heated parts 9 are arranged in the heat storage plate 8, the heated parts 9 are arranged in a cylindrical structure, a sliding groove 12 is arranged in a bottom plate 1, the upper part of the sliding groove 12 is provided with a movable plate 13, the upper part of the movable plate 13 is provided with a supporting rod, a second threaded hole 22 is arranged in the supporting rod, a telescopic rod 16 is arranged in the second threaded hole 22, the bottom of the telescopic rod 16 is provided with a threaded column 23, the threaded column 23 is in threaded connection with the second threaded hole 22, the top of the telescopic rod 16 is provided with a supporting plate 17, the supporting plate 17 is arranged in a semi-arc structure, and the height of the supporting plate 17 is the same as that of the heated parts 9.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A heat stake converter, comprising: the method comprises the following steps: the improved structure of the telescopic column comprises a bottom plate (1), wherein a fixed column (2) is arranged at the upper part of the bottom plate (1), a screw rod (19) is arranged inside the fixed column (2), a driven wheel (20) is arranged on the bottom surface of the screw rod (19), the driven wheel (20) is fixedly connected with the screw rod (19), a motor (10) is arranged on the left side of the fixed column (2), a driving shaft (11) is arranged at the power output end of the motor (10), the driving shaft (11) extends into the fixed column (2), a driving wheel (21) is arranged at the tail end of the driving shaft (11), the driving wheel (21) is meshed with the driven wheel (20), a telescopic column (3) is arranged inside the fixed column (2), a first threaded hole (18) is arranged inside the telescopic column (3), the first threaded hole (18) is in threaded connection with the screw rod (19), a movable shaft (4) is arranged on the inner side of the telescopic column (3), and a connecting block (5) is arranged on the inner side of the movable shaft (4), the left side of connecting block (5) is equipped with controller (6) and the right side is equipped with heat accumulation board (8), the inside of heat accumulation board (8) is equipped with a plurality of groups and receives heat (9), the inside of bottom plate (1) is equipped with spout (12) and spout (12) upper portion and is equipped with fly leaf (13), the inside that the upper portion of fly leaf (13) was equipped with support column (15) and support column (15) is equipped with telescopic link (16), the upper portion of telescopic link (16) is equipped with layer board (17) and is the setting of half arc structure.

2. A heat stake converter as defined in claim 1, wherein: the left side of the controller (6) is provided with a handle (7), and the handle (7) is fixedly connected with the controller (6) through a bolt.

3. A heat stake converter as defined in claim 1, wherein: the bottom of the movable plate (13) is provided with a pulley (14), and the movable plate (13) is connected with the chute (12) in a sliding manner through the pulley (14).

4. A heat stake converter as defined in claim 1, wherein: the bottom of telescopic link (16) is equipped with screw thread post (23) and the inside of support column (15) is equipped with second screw hole (22), threaded connection between second screw hole (22) and screw thread post (23).

5. A heat stake converter as defined in claim 1, wherein: the heating unit (9) is provided with a plurality of groups, and the diameters of the heating unit (9) are reduced from left to right in sequence.