CN219260127U - Wire rod quenching heat treatment thermal insulation equipment - Google Patents

Abstract

The utility model discloses a wire quenching heat treatment heat preservation device, which comprises: the equipment base is provided with a driving moving-out type heating and heat-preserving structure; the driving moving-out type heating insulation structure comprises: the device comprises an insulation box, an insulation cavity, a driving and placing assembly, a pair of heating and installing cavities, a pair of temperature adjusting pipes, a controller, a pair of filling cavities and a pair of sealing doors; the utility model relates to the technical field of quenching equipment, and the scheme has the beneficial effects that: the problems that heat preservation cannot be carried out at a specific temperature and the austenitizing degree of the workpiece is influenced by too fast cooling in the conventional quenching process of the workpiece, so that the quenching effect of the workpiece is influenced, the quenching standard cannot be reached, and the quality of the workpiece is influenced are solved.

Description

Wire rod quenching heat treatment thermal insulation equipment

Technical Field

The utility model relates to the technical field of quenching equipment, in particular to wire rod quenching heat treatment heat preservation equipment.

Background

Quenching is a heat treatment process in which steel is heated to a temperature above a critical temperature Ac3 or Ac1, held for a period of time to fully or partially austenitize the steel, and then rapidly cooled to below Ms at a cooling rate greater than the critical cooling rate to effect martensitic transformation. The solution treatment or the heat treatment process with the rapid cooling process of materials such as aluminum alloy, copper alloy, titanium alloy, toughened glass and the like is commonly called quenching, and when the existing workpiece is subjected to quenching processing, heat preservation cannot be carried out at a specific temperature, the austenitizing degree of the workpiece is influenced by the cooling too rapidly, so that the quenching effect of the workpiece is influenced, the quenching standard cannot be reached, and the quality of the workpiece is influenced.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a wire quenching heat treatment insulation apparatus comprising: the equipment base is provided with a driving moving-out type heating and heat-preserving structure;

the driving moving-out type heating insulation structure comprises: the device comprises an insulation box, an insulation cavity, a driving and placing assembly, a pair of heating and installing cavities, a pair of temperature adjusting pipes, a controller, a pair of filling cavities and a pair of sealing doors;

the insulation can is installed on equipment base upper wall, and the insulation chamber is seted up inside the insulation can, and the drive is placed the subassembly and is installed at the insulation intracavity, and a pair of heating installation chamber is seted up inside insulation can both sides wall, and a pair of temperature-regulating tube is installed in a pair of heating installation chamber, and the controller is installed on the insulation can lateral wall, and a pair of filling chamber is seted up in the insulation can wall, and a pair of sealing door is installed at insulation can front opening position.

Preferably, the pair of sealing doors are mounted on the incubator by hinges.

Preferably, a pair of temperature-adjusting pipes are installed in the heating installation cavity through the fixing block.

Preferably, heat preservation cotton is arranged in the pair of filling cavities.

Preferably, the drive placement assembly comprises: two pairs of fixed slide ways, a fixed frame, two pairs of slide bars, a plurality of placement racks, a pair of mounting grooves, a pair of driving motors, a pair of rotating gears and a pair of fixed racks;

the two pairs of fixed slide ways are arranged on two side wall surfaces in the heat preservation cavity, the two pairs of slide bars are arranged on the upper and lower positions of two side wall surfaces of the fixing frame, the fixing frame is arranged on the two pairs of fixed slide ways through the two pairs of slide bars, the plurality of placing net racks are arranged on the fixing frame, a pair of mounting grooves are formed in the lower wall surface of the heat preservation cavity, a pair of driving motors are arranged in the pair of mounting grooves, a pair of rotating gears are arranged on the output ends of the pair of driving motors, a pair of fixed racks are arranged on the lower wall surface of the fixing frame, and the pair of rotating gears are meshed with the pair of fixed racks.

Preferably, a pair of driving motors are installed in a pair of installation grooves through a motor frame.

Advantageous effects

The utility model provides wire quenching heat treatment heat preservation equipment which has the beneficial effects that the driving moving-out type heating heat preservation structure is adopted, the driving structure automatically drives a heated part to enter the heat preservation equipment, and the temperature-adjusting structure is used for preserving heat of a workpiece to ensure quenching effect, so that the problems that the austenitizing degree of the workpiece cannot be influenced due to incapability of preserving heat at a specific temperature and too fast cooling when the existing workpiece is subjected to quenching processing are solved, the quenching effect of the workpiece cannot be influenced, the quenching standard cannot be reached, and the quality of the workpiece is influenced.

Drawings

Fig. 1 is a schematic diagram of a front cross-sectional structure of a wire quenching heat treatment and insulation device according to the present utility model.

Fig. 2 is a schematic perspective view of a fixing frame of the heat-treating and insulating device for quenching wires.

Fig. 3 is a schematic diagram of a front view structure of a wire quenching heat treatment and insulation device according to the present utility model.

In the figure: 1-an equipment base; 2-an incubator; 3-a heat preservation cavity; 4-heating the mounting cavity; 5-a temperature regulating tube; 6-a controller; 7-filling the cavity; 8-sealing the door; 9-hinges; 10-fixing blocks; 11-heat preservation cotton; 12-fixing a slideway; 13-a fixing frame; 14-sliding bar; 15-placing a net rack; 16-mounting slots; 17-a drive motor; 18-rotating a gear; 19-fixing a rack; 20-motor frame.

Detailed Description

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.

Examples: referring to fig. 1-3, the main components of the present case are: the equipment comprises an equipment base 1, wherein a driving moving-out type heating and heat-preserving structure is arranged on the equipment base 1;

the driving moving-out type heating insulation structure comprises: the heat preservation box 2, the heat preservation cavity 3, the driving and placing assembly, the pair of heating and installing cavities 4, the pair of temperature adjusting pipes 5, the controller 6, the pair of filling cavities 7 and the pair of sealing doors 8;

the heat preservation box 2 is installed on the upper wall surface of the equipment base 1, the heat preservation cavity 3 is formed in the heat preservation box 2, the driving placement assembly is installed in the heat preservation cavity 3, the pair of heating installation cavities 4 are formed in the two side wall surfaces of the heat preservation box 2, the pair of temperature adjusting pipes 5 are installed in the pair of heating installation cavities 4, the controller 6 is installed on the side wall surface of the heat preservation box 2, the pair of filling cavities 7 are formed in the wall surface of the heat preservation box 2, and the pair of sealing doors 8 are installed at the front opening position of the heat preservation box 2.

When the driving-moving type heating and heat-preserving structure is used, a workpiece after heating is placed on the driving placement component, the workpiece is driven to move into a heat-preserving cavity 3 formed in the heat-preserving box 2, the sealing door 8 is closed, the temperature-regulating pipe 5 installed in the heating installation cavity 4 is started to regulate the temperature through the controller 6 installed on the heat-preserving box 2, and the workpiece in the heat-preserving cavity 3 is preserved at constant temperature.

In the specific implementation, further, a pair of sealing doors 8 are mounted on the incubator 2 through hinges 9.

In the specific implementation process, further, a pair of temperature-adjusting pipes 5 are installed in the heating installation cavity 4 through the fixing blocks 10.

In the specific implementation process, further, a pair of filling cavities 7 are internally provided with heat preservation cotton 11.

In an implementation, the driving placement module further includes: two pairs of fixed slide ways 12, a fixed frame 13, two pairs of slide bars 14, a plurality of placement racks 15, a pair of mounting grooves 16, a pair of driving motors 17, a pair of rotating gears 18 and a pair of fixed racks 19;

two pairs of fixed slide ways 12 are arranged on two side wall surfaces in the heat preservation cavity 3, two pairs of slide bars 14 are arranged on the upper and lower positions of two side wall surfaces of a fixed frame 13, the fixed frame 13 is arranged on the two pairs of fixed slide ways 12 through the two pairs of slide bars 14, a plurality of placing racks 15 are arranged on the fixed frame 13, a pair of mounting grooves 16 are formed in the lower wall surface of the heat preservation cavity 3, a pair of driving motors 17 are arranged in the pair of mounting grooves 16, a pair of rotating gears 18 are arranged on the output ends of the pair of driving motors 17, a pair of fixed racks 19 are arranged on the lower wall surface of the fixed frame 13, and a pair of rotating gears 18 are meshed with the pair of fixed racks 19.

When the drive placement component is used, the drive motor 17 installed in the installation groove 16 is started to rotate, the drive motor 17 drives the rotary gear 18 installed on the output end of the drive motor to rotate, the rotary gear 18 drives the fixed rack 19 meshed with the rotary gear 18 and installed on the fixed frame 13 to move outwards, the fixed rack 19 is matched with the fixed slide way 12 and the slide bar 14 to drive the fixed frame 13 to move outwards, a heated workpiece is placed on the placement net rack 15 on the fixed frame 13, the drive motor 17 drives the fixed frame 13 to move into the heat preservation cavity 3, and the fixed rack 19 is matched with the temperature-adjusting pipe 5 to conduct constant temperature preservation.

In an embodiment, further, a pair of drive motors 17 are mounted in a pair of mounting slots 16 by motor mount 20.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A wire quenching heat treatment insulation apparatus comprising: the equipment base is characterized in that a driving moving-out type heating and heat preserving structure is arranged on the equipment base;

the driving moving-out type heating insulation structure comprises: the device comprises an insulation box, an insulation cavity, a driving and placing assembly, a pair of heating and installing cavities, a pair of temperature adjusting pipes, a controller, a pair of filling cavities and a pair of sealing doors;

the insulation can is installed on equipment base upper wall, and the insulation chamber is seted up inside the insulation can, and the drive is placed the subassembly and is installed at the insulation intracavity, and a pair of heating installation chamber is seted up inside insulation can both sides wall, and a pair of temperature-regulating tube is installed in a pair of heating installation chamber, and the controller is installed on the insulation can lateral wall, and a pair of filling chamber is seted up in the insulation can wall, and a pair of sealing door is installed at insulation can front opening position.

2. The wire quenching heat treatment and insulation apparatus as recited in claim 1 wherein the pair of sealing doors are mounted to the insulation can by hinges.

3. The wire quenching heat treatment and insulation apparatus as recited in claim 1 wherein the pair of temperature regulating tubes are mounted in the heating mounting chamber by a fixed block.

4. The wire quenching heat treatment and insulation apparatus as recited in claim 1 wherein insulation cotton is disposed within the pair of filling chambers.

5. The wire quenching heat treatment and insulation apparatus as recited in claim 1, wherein the drive placement assembly comprises: two pairs of fixed slide ways, a fixed frame, two pairs of slide bars, a plurality of placement racks, a pair of mounting grooves, a pair of driving motors, a pair of rotating gears and a pair of fixed racks;

the two pairs of fixed slide ways are arranged on two side wall surfaces in the heat preservation cavity, the two pairs of slide bars are arranged on the upper and lower positions of two side wall surfaces of the fixing frame, the fixing frame is arranged on the two pairs of fixed slide ways through the two pairs of slide bars, the plurality of placing net racks are arranged on the fixing frame, a pair of mounting grooves are formed in the lower wall surface of the heat preservation cavity, a pair of driving motors are arranged in the pair of mounting grooves, a pair of rotating gears are arranged on the output ends of the pair of driving motors, a pair of fixed racks are arranged on the lower wall surface of the fixing frame, and the pair of rotating gears are meshed with the pair of fixed racks.

6. The wire quenching heat treatment and insulation apparatus as recited in claim 5 wherein the pair of drive motors are mounted in the pair of mounting slots by a motor mount.

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