CN218932243U - Temperature control device for continuous heat treatment of castings - Google Patents

Abstract

The utility model relates to the technical field of heat treatment, in particular to a temperature control device for continuous heat treatment of castings, which comprises a main body part group, wherein the main body part group comprises a main body shell, a feed door is arranged on one side of the main body shell, a transmission roller is arranged in the main body shell, and a main body supporting plate is arranged on one side of the transmission roller; the control component group comprises a control end main body, one side of the control end main body is provided with a heat conduction pipe, one side of the heat conduction pipe far away from the control end main body is provided with a radiating fin, and one side of the radiating fin is provided with a fan; and the extrusion part group is arranged inside the main body shell. The utility model can avoid the controller fault caused by high temperature and stabilize the structure and shape of the internal casting when heated, thereby enhancing the practical type of the whole device.

Description

Temperature control device for continuous heat treatment of castings

Technical Field

The utility model relates to the technical field of heat treatment, in particular to a temperature control device for continuous heat treatment of castings.

Background

Heat treatment, which is a metal hot working process in which a material is heated, held and cooled in a solid state to obtain a desired structure and properties. The role of heat treatment is becoming increasingly recognized in the progression from the stone age to the copper and iron age. As early as 770 to 222 years before the male, chinese has found in production practice that the properties of steel change due to the influence of temperature and compression set. The softening treatment of white cast iron is an important process for manufacturing farm tools, so that the current heat treatment device basically meets the needs of people, but still has some problems.

When continuous heat treatment is required to be carried out on castings, the control panel of the heat treatment device is always overheated due to the excessively high temperature, so that the control circuit is extremely easy to fail, and when continuous heat treatment is carried out on castings, part of castings are easy to deform due to different structures and materials, so that a temperature control device for continuous heat treatment of castings is needed to solve the problems.

Disclosure of Invention

In order to overcome the technical problems, the utility model aims to provide a temperature control device for continuous heat treatment of castings, so as to solve the problems that a control circuit of the heat treatment device provided in the background art is easy to overheat and the castings subjected to heat treatment are deformed randomly.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the temperature control device for continuous heat treatment of castings comprises a main body part group, wherein the main body part group comprises a main body shell, a feed door is arranged on one side of the main body shell, a transmission roller is arranged in the main body shell, and a main body supporting plate is arranged on one side of the transmission roller; the control component group comprises a control end main body, one side of the control end main body is provided with a heat conduction pipe, one side of the heat conduction pipe far away from the control end main body is provided with a radiating fin, and one side of the radiating fin is provided with a fan; and the extrusion part group is arranged inside the main body shell.

Preferably: one side of control end main part is provided with the connecting pipe, and control end main part and main part shell pass through the connecting pipe and connect, the material of heat pipe sets up to copper, the heat pipe is provided with two sets of, and two sets of heat pipes are to propping the both sides that distribute at the control end main part, the inside at the control end main part is connected to the one end of heat pipe.

Preferably: the other end of the heat conduction pipe is connected with radiating fins, the radiating fins are provided with a plurality of groups, the radiating fins are uniformly distributed on the heat conduction pipe, a supporting body is arranged outside the fan, the fan is connected with the control end main body through the supporting body, and a ventilation partition plate is arranged outside the fan.

Preferably: the extrusion part group comprises a motor, one end of the motor is provided with a driving belt, one end of the driving belt, far away from the motor, is provided with a screw rod, and one end of the screw rod, far away from the driving belt, is provided with a pressing plate.

Preferably: the outside of motor passes through fixed bolster connection at the top of main body shell, the lead screw is provided with four groups, and four groups lead screw evenly distributed is on the four corners of main body shell, the drive belt is provided with three groups, and lead screw and motor pass through the drive belt and connect.

Preferably: the main body shell is provided with a bearing at the position corresponding to the screw rod, the main body shell is connected with the screw rod through the bearing, the screw rod is provided with a nut pair at the position corresponding to the pressing plate, the screw rod is connected with the pressing plate through the nut pair, the main body support plate is provided with the bearing at the position corresponding to the screw rod, the main body support plate is connected with the screw rod through the bearing, and the bottom of the protective cover is connected at the top position of the main body shell.

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

1. the control component group is arranged on the control end main body, when the heat of the heat treatment device is radiated into the control end main body, the heat conduction pipe can conduct the heat into the radiating fins, the heat and the external basic surface can be increased, and the air flow on the radiating fin surface is accelerated by the fan arranged on the side surface of the radiating fin, so that the conducted heat is taken away, the purpose of controlling the temperature of the control end main body is achieved, the control end main body of the heat treatment device can not be influenced by the internal high temperature, the safe operation is stabilized, and the working efficiency is increased;

2. this temperature regulating device of continuous thermal treatment of foundry goods is provided with extrusion part group, present thermal treatment device is at the in-process of using, the mechanism deformation can take place for some foundry goods because of structure and material difference, consequently, extrusion part group of design, can be after the foundry goods is put into main part shell inside, control start main part shell upper motor, when control motor, the rotation of motor just can drive the motion of lead screw through the drive belt, and the lead screw is rotatory, and the clamp plate that the lead screw passes through nut pair connection will can do the vertically removal in the inside of main part shell, when the foundry goods is placed inside the main part shell, control motor makes the clamp plate move down and pushes down inside foundry goods, even take place the foundry goods to be heated to warp like this, also can keep the shape because of the extrusion of visor, the design of this extrusion part group has avoided the foundry goods to be heated to take place to warp, and the material waste that leads to, thereby the material cost has been reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a control component assembly part of the present utility model;

FIG. 3 is a schematic view of the overall explosive structure of the present utility model;

FIG. 4 is a schematic diagram of the structure of FIG. 3A according to the present utility model;

fig. 5 is a schematic overall sectional structure of the present utility model.

In the figure: 01. a main body component group; 11. a main body housing; 12. a feed gate; 13. a conveying roller; 14. a main body support plate; 02. a control component group; 21. a control end main body; 22. a heat conduction pipe; 23. a heat sink; 24. a fan; 03. a pressing member group; 31. a motor; 32. a transmission belt; 33. a screw rod; 34. a pressing plate; 35. and a protective cover.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, an embodiment of the present utility model is provided: the screw rod 33 and the fan 24 used in the application are all directly available products in the market, and the principle and the connection mode are all the prior art well known to those skilled in the art, so the description is omitted herein, and the temperature control device for continuous heat treatment of castings comprises a main body part group 01, wherein the main body part group 01 comprises a main body shell 11, a feed door 12 is arranged on one side of the main body shell 11, a transmission roller 13 is arranged in the main body shell 11, and a main body support plate 14 is arranged on one side of the transmission roller 13; the control component group 02, the control component group 02 includes a control end main body 21, a heat conducting pipe 22 is arranged at one side of the control end main body 21, a cooling fin 23 is arranged at one side of the heat conducting pipe 22 far away from the control end main body 21, and a fan 24 is arranged at one side of the cooling fin 23; the pressing member group 03, the pressing member group 03 being provided inside the main body casing 11.

One side of the control end main body 21 is provided with a connecting pipe, the control end main body 21 is connected with the main body shell 11 through the connecting pipe, the material of the heat conduction pipe 22 is set to copper, the heat conduction pipe 22 is provided with two groups, the two groups of heat conduction pipes 22 are distributed on two sides of the control end main body 21 in a opposite supporting mode, and one end of the heat conduction pipe 22 is connected inside the control end main body 21.

The other end of the heat conduction pipe 22 is connected with radiating fins 23, the radiating fins 23 are provided with a plurality of groups, the radiating fins 23 are uniformly distributed on the heat conduction pipe 22, a supporting body is arranged outside the fan 24, the fan 24 is connected with the control end main body 21 through the supporting body, and a ventilation partition plate is arranged outside the fan 24.

The extrusion part group 03 comprises a motor 31, one end of the motor 31 is provided with a driving belt 32, one end of the driving belt 32 far away from the motor 31 is provided with a screw rod 33, and one end of the screw rod 33 far away from the driving belt 32 is provided with a pressing plate 34.

The outside of motor 31 passes through the fixed bolster to be connected at the top of main body shell 11, and lead screw 33 is provided with four groups, and four groups of lead screw 33 evenly distributed are on the four corners of main body shell 11, and drive belt 32 is provided with three groups, and lead screw 33 and motor 31 pass through drive belt 32 and connect.

The main body shell 11 is provided with a bearing at a position corresponding to the screw rod 33, the main body shell 11 is connected with the screw rod 33 through the bearing, the screw rod 33 is provided with a nut pair at a position corresponding to the pressing plate 34, the screw rod 33 is connected with the pressing plate 34 through the nut pair, the main body supporting plate 14 is provided with a bearing at a position corresponding to the screw rod 33, the main body supporting plate 14 is connected with the screw rod 33 through the bearing, and the bottom of the protective cover 35 is connected at the top position of the main body shell 11.

Working principle: the temperature control device for continuous heat treatment of castings is provided with a control component group 02, the existing heat treatment device is characterized in that in the continuous heating process, due to the high-temperature radiation in the interior, the control panel outside the control component group 02 is extremely easy to break down due to the high temperature, and therefore, the designed control component group 02 is provided with a heat conducting pipe 22 on a control end main body 21, when the heat of the heat treatment device is radiated into the control end main body 21, the heat conducting pipe 22 conducts the heat into a radiating fin 23, the heat and the external basic surface can be increased due to the multi-group design of the radiating fin 23, and the air flow on the surface of the radiating fin 23 is accelerated through a fan 24 arranged on the side surface of the radiating fin 23, so that the temperature of the control end main body 21 is controlled, the control end main body 21 of the heat treatment device can not be influenced by the high temperature in the interior, the safe operation is stable, and the working efficiency is increased. The temperature control device for continuous heat treatment of castings is provided with an extrusion part group 03, part of castings possibly deform due to different structures and materials in the using process of the conventional heat treatment device, so that the designed extrusion part group 03 can control and start a motor 31 on a main body shell 11 after the castings are placed in the main body shell 11, when the motor 31 is controlled, the motor 31 can rotate to drive a screw rod 33 to move through a transmission belt 32, the screw rod 33 rotates, a pressing plate 34 connected with the screw rod 33 through a nut pair can vertically move in the main body shell 11, when the castings are placed in the main body shell 11, the motor 31 is controlled to enable the pressing plate 34 to move downwards to press the castings in the main body shell 11, and therefore, even if the castings are deformed due to heat, the shape is maintained due to extrusion of a protective cover 35, the design of the extrusion part group 03 avoids material waste caused by the deformation of the castings due to heat, and material cost is reduced.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A temperature control device for continuous heat treatment of castings, comprising the following characteristics:

the feeding device comprises a main body part group (01), wherein the main body part group (01) comprises a main body shell (11), a feeding door (12) is arranged on one side of the main body shell (11), a transmission roller (13) is arranged in the main body shell (11), and a main body supporting plate (14) is arranged on one side of the transmission roller (13); the control component group (02), the control component group (02) comprises a control end main body (21), a heat conduction pipe (22) is arranged on one side of the control end main body (21), a radiating fin (23) is arranged on one side, far away from the control end main body (21), of the heat conduction pipe (22), and a fan (24) is arranged on one side of the radiating fin (23); and a pressing member group (03), wherein the pressing member group (03) is disposed inside the main body case (11).

2. A temperature control device for continuous heat treatment of castings according to claim 1, wherein: one side of control end main part (21) is provided with the connecting pipe, and control end main part (21) and main part shell (11) are connected through the connecting pipe, the material of heat pipe (22) sets up to copper, heat pipe (22) are provided with two sets of, and two sets of heat pipe (22) are to propping the both sides that distribute in control end main part (21), the inside at control end main part (21) is connected to the one end of heat pipe (22).

3. A temperature control device for continuous heat treatment of castings according to claim 1, wherein: the other end of the heat conduction pipe (22) is connected with radiating fins (23), the radiating fins (23) are provided with a plurality of groups, the radiating fins (23) are uniformly distributed on the heat conduction pipe (22), a supporting body is arranged outside the fan (24), the fan (24) is connected with the control end main body (21) through the supporting body, and a ventilation partition plate is arranged outside the fan (24).

4. A temperature control device for continuous heat treatment of castings according to claim 1, wherein: the extrusion part group (03) comprises a motor (31), one end of the motor (31) is provided with a transmission belt (32), one end, far away from the motor (31), of the transmission belt (32) is provided with a screw rod (33), and one end, far away from the transmission belt (32), of the screw rod (33) is provided with a pressing plate (34).

5. A temperature control device for continuous heat treatment of castings according to claim 4, wherein: the outside of motor (31) is connected at the top of main body shell (11) through the fixed bolster, lead screw (33) are provided with four groups, and four groups lead screw (33) evenly distributed are on the four corners of main body shell (11), drive belt (32) are provided with three groups, and lead screw (33) and motor (31) are connected through drive belt (32).

6. A temperature control device for continuous heat treatment of castings according to claim 5, wherein: the main body shell (11) is provided with a bearing at a position corresponding to the screw rod (33), the main body shell (11) is connected with the screw rod (33) through the bearing, the screw rod (33) is provided with a nut pair at a position corresponding to the pressing plate (34), the screw rod (33) is connected with the pressing plate (34) through the nut pair, the main body support plate (14) is provided with the bearing at a position corresponding to the screw rod (33), the main body support plate (14) is connected with the screw rod (33) through the bearing, and the bottom of the protective cover (35) is connected at the top position of the main body shell (11).

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