CN218976870U - Composite core rod processing soaking device - Google Patents

Abstract

The utility model discloses a composite core rod processing soaking device, which comprises: the equipment mounting plate is provided with a movable uniform heating structure; the movable uniform heating structure comprises: the utility model relates to the technical field of heating equipment, and discloses a high-frequency heating device which comprises a mounting box, a mounting cavity, a driving moving assembly, a pair of support rods, a pair of arc-shaped brackets, a support frame and a lifting adjusting high-frequency heating assembly, wherein the beneficial effects of the device are as follows: the core rod heating device solves the problems that an existing core rod heating device is complex in structure, the temperature inside a heating box is increased through a heating coil pipe, the core rod is subjected to uniform heat pretreatment processing by matching with a rotating structure, the heating efficiency of an electric heating pipe is low during operation, the heat utilization rate is low, the heating effect of the core rod is poor, and uniform temperature heating control cannot be performed according to the use requirement, so that the use is very inconvenient.

Description

Composite core rod processing soaking device

Technical Field

The utility model relates to the technical field of heating equipment, in particular to a composite core rod processing soaking device.

Background

The core component of the seamless steel tube continuous rolling tube unit is used for rolling the perforated capillary tube into a seamless steel tube by the combined action of the core component and a roller, the core component is used as one of important thermal deformation tools in the production process of the seamless steel tube, the surface quality of the core component directly influences the wall thickness precision and the inner surface quality of the steel tube, the core component is required to be subjected to uniform heat pretreatment processing before being used, the prior utility model with the publication number of CN214009748U discloses a large-diameter core rod heating device which comprises a heating box, the lower part of the right end of the heating box is connected with a box door in a hinge manner, the front part and the rear part of the lower end of the heating box are fixedly connected with supporting pieces, the middle part of the upper end and the middle part of the lower end of the heating box are fixedly connected with heaters, the right ends of the two heaters are fixedly connected with air ducts, the right part of the inner wall of the heating box is fixedly connected with a baffle plate, the large-diameter core rod heating equipment is characterized in that the rotating device is arranged, the core rod can be rotated when the core rod is heated, so that the outer surface of the core rod is heated uniformly, the heating efficiency is improved, the structure is complex, the temperature inside the heating box is increased through the heating coil pipe, the core rod is subjected to uniform heat pretreatment processing by matching with the rotating structure, the heating efficiency of the electric heating pipe is low, the heat utilization rate is low, the core rod heating effect is poor, and uniform temperature heating control cannot be performed according to the use requirement.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a composite core rod processing soaking device, comprising: the equipment mounting plate is provided with a movable uniform heating structure; the movable uniform heating structure comprises: the device comprises a mounting box, a mounting cavity, a driving moving assembly, a pair of support rods, a pair of arc-shaped brackets, a support frame and a lifting adjusting high-frequency heating assembly;

the installation box is installed in the middle position of the upper wall surface of the equipment installation plate, the installation cavity is formed in the installation box, the driving moving assembly is installed in the installation cavity, the pair of support rods are installed on the driving moving assembly, the pair of arc-shaped brackets are installed on the pair of support rods, the support frame is installed in the rear position of the upper wall surface of the equipment installation plate, and the lifting adjusting high-frequency heating assembly is installed on the support frame.

Preferably, the pair of arc brackets are mounted on the pair of support bars by a pair of fixed blocks.

Preferably, the driving moving assembly comprises: the device comprises a pair of multistage telescopic push rods, a pair of connecting blocks, a moving platform, a pair of connecting plates, a pair of combined sliding rails and two pairs of combined clamping rods;

the pair of multistage telescopic push rods are arranged at the front and rear positions in the installation cavity, the pair of connecting blocks are arranged at the two sides of the lower wall surface of the mobile platform, the pair of connecting plates are arranged at the two sides of the lower wall surface of the mobile platform, the pair of multistage telescopic push rods are arranged on the pair of connecting plates through the pair of connecting blocks, the pair of combined sliding rails are arranged at the front and rear wall surfaces in the installation cavity, the two pairs of combined clamping rods are arranged at the four corners of the lower wall surface of the mobile platform, and the lower ends of the two pairs of combined clamping rods are embedded into the pair of combined sliding rails.

Preferably, a groove for installing and connecting a pair of multistage telescopic push rods is formed in the pair of connecting plates.

Preferably, an infrared temperature imager for monitoring temperature is mounted on the mobile platform.

Preferably, the elevation adjusting high-frequency heating assembly comprises: the heating device comprises a heating frequency converter, a connecting wire, a pair of lifting push rods, a lifting plate, a heating controller and a high-frequency heating coil;

the heating frequency converter is installed on the upper wall surface of support frame top, and the connecting wire upper end is installed on the heating frequency converter, and a pair of lifter is installed on the lower wall surface of support frame top, and the lifter plate is installed on a pair of lifter output, and the heating controller is installed on the lifter plate upper wall surface, and the connecting wire lower extreme is installed on the heating controller, and high-frequency heating coil is installed on the lifter plate lower wall surface, and high-frequency heating coil is connected with the heating controller.

Advantageous effects

The utility model provides a composite core rod processing soaking device which has the beneficial effects that a movable uniform heating structure is adopted in the scheme, a core rod is quickly heated in a high-frequency heating mode, meanwhile, the heating temperature can be controlled in real time by matching with the movable structure and a temperature monitoring structure, the heating uniformity of the core rod is ensured, the structure is simple, the service efficiency is high, the problems that the existing core rod heating equipment is complex in structure, the temperature in a heating box is increased through a heating coil pipe, the uniform heat pretreatment processing is carried out on the core rod by matching with a rotating structure, the heating efficiency of an electric heating pipe is low, the heat utilization rate is low, the heating effect of the core rod is poor, the uniform temperature heating control cannot be carried out according to the use requirement, and the use is very inconvenient are solved.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a soaking device for processing a composite mandrel according to the present utility model.

Fig. 2 is a schematic top view of an installation box of the soaking device for processing composite core rods.

Fig. 3 is a schematic bottom perspective view of a moving platform of a soaking device for processing a composite mandrel according to the present utility model.

In the figure: 1-an equipment mounting plate; 2-installing a box; 3-a mounting cavity; 4-supporting rods; 5-arc-shaped brackets; 6-supporting frames; 7-fixing blocks; 8-a multi-stage telescopic push rod; 9-connecting blocks; 10-a mobile platform; 11-connecting plates; 12-a combined sliding rail; 13-a combined clamping rod; 14-an infrared temperature imager; 15-heating a frequency converter; 16-connecting lines; 17-lifting push rod; 18-lifting plates; 19-a heating controller; 20-high frequency heating coil.

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 device comprises a device mounting plate 1, wherein a movable uniform heating structure is arranged on the device mounting plate 1;

the movable uniform heating structure comprises: the device comprises a mounting box 2, a mounting cavity 3, a driving and moving assembly, a pair of support rods 4, a pair of arc-shaped brackets 5, a support frame 6 and a lifting and adjusting high-frequency heating assembly;

the mounting box 2 is arranged at the middle position of the upper wall surface of the equipment mounting plate 1, the mounting cavity 3 is formed inside the mounting box 2, the driving moving assembly is arranged in the mounting cavity 3, the pair of support rods 4 are arranged on the driving moving assembly, the pair of arc-shaped brackets 5 are arranged on the pair of support rods 4, the support frame 6 is arranged at the rear position of the upper wall surface of the equipment mounting plate 1, and the lifting adjusting high-frequency heating assembly is arranged on the support frame 6.

When the movable uniform heating structure is used, a core rod to be subjected to uniform heating pretreatment passes through a coil of a lifting adjusting high-frequency heating assembly and is placed on an arc-shaped bracket 5 arranged on a supporting rod 4, the core rod is supported and fixed through the arc-shaped bracket 5, the lifting adjusting high-frequency heating assembly arranged on a supporting frame 6 is started to generate a high-frequency electromagnetic field to heat the core rod, and meanwhile, a driving moving assembly arranged in an installation cavity 3 in an installation box 2 is started to drive the core rod to move left and right, so that the core rod can be uniformly heated.

In the implementation process, further, a pair of arc-shaped brackets 5 are mounted on a pair of support rods 4 through a pair of fixing blocks 7.

In an implementation, the driving moving assembly further includes: a pair of multistage telescopic push rods 8, a pair of connecting blocks 9, a mobile platform 10, a pair of connecting plates 11, a pair of combined slide rails 12 and two pairs of combined clamping rods 13;

the pair of multistage telescopic push rods 8 are arranged at the front and rear positions in the installation cavity 3, the pair of connecting blocks 9 are arranged at the output ends of the pair of multistage telescopic push rods 8, the pair of connecting plates 11 are arranged at the two side positions of the lower wall surface of the mobile platform 10, the output ends of the pair of multistage telescopic push rods 8 are arranged on the pair of connecting plates 11 through the pair of connecting blocks 9, the pair of combined sliding rails 12 are arranged at the front and rear wall surfaces in the installation cavity 3, the two pairs of combined clamping rods 13 are arranged at the four corners of the lower wall surface of the mobile platform 10, and the lower ends of the two pairs of combined clamping rods 13 are embedded into the pair of combined sliding rails 12. When the driving moving assembly is used, a pair of multistage telescopic push rods 8 which are oppositely installed in the installation cavity 3 respectively shrink and stretch out, and the connecting plates 11 connected with the multistage telescopic push rods are driven to move through the connecting blocks 9, so that the connected moving platform 10 is driven to move, the moving platform 10 drives the core rods on the arc-shaped brackets 5 to move left and right, and the high-frequency heating assembly is matched for lifting and adjusting to uniformly heat the core rods.

In a specific implementation process, further, a pair of connecting plates 11 are provided with grooves for installing and connecting a pair of multistage telescopic push rods 8.

In an implementation, further, an infrared temperature imager 14 for monitoring temperature is mounted on the mobile platform 10.

In the specific implementation process, the lifting adjusting high-frequency heating assembly further comprises: a heating frequency converter 15, a connecting wire 16, a pair of lifting push rods 17, a lifting plate 18, a heating controller 19 and a high-frequency heating coil 20;

the heating frequency converter 15 is installed on the upper wall surface at the top of the supporting frame 6, the upper end of the connecting wire 16 is installed on the heating frequency converter 15, a pair of lifting push rods 17 are installed on the lower wall surface at the top of the supporting frame 6, the lifting plate 18 is installed on the output ends of the lifting push rods 17, the heating controller 19 is installed on the upper wall surface of the lifting plate 18, the lower end of the connecting wire 16 is installed on the heating controller 19, the high-frequency heating coil 20 is installed on the lower wall surface of the lifting plate 18, and the high-frequency heating coil 20 is connected with the heating controller 19.

When the lifting adjusting high-frequency heating assembly is used, the extending height of the lifting push rod 17 is adjusted according to the size of the core rod, the lifting plate 18 drives the position of the adjusting high-frequency heating coil, the core rod passes through the high-frequency heating coil 20 and is placed on the arc-shaped support 5, the heating frequency converter 15 is started to provide energy, the heating controller 19 is started to cooperate with the heating frequency converter 15 to generate high-strength electric power, the high-frequency heating coil 20 is internally generated with a strong magnetic field by utilizing an electromagnetic principle, the core rod is heated under the action of the strong magnetic field, the temperature of the core rod is monitored in real time by cooperating with the infrared temperature imager 14, and the moving assembly is driven to drive the core rod to perform position adjustment, so that the core rod is uniformly heated.

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 composite core rod processing soaking device, comprising: the equipment mounting plate is characterized in that a movable uniform heating structure is arranged on the equipment mounting plate;

the movable uniform heating structure comprises: the device comprises a mounting box, a mounting cavity, a driving moving assembly, a pair of support rods, a pair of arc-shaped brackets, a support frame and a lifting adjusting high-frequency heating assembly;

the installation box is installed in the middle position of the upper wall surface of the equipment installation plate, the installation cavity is formed in the installation box, the driving moving assembly is installed in the installation cavity, the pair of support rods are installed on the driving moving assembly, the pair of arc-shaped brackets are installed on the pair of support rods, the support frame is installed in the rear position of the upper wall surface of the equipment installation plate, and the lifting adjusting high-frequency heating assembly is installed on the support frame.

2. The composite core rod processing soaking apparatus according to claim 1, wherein the pair of arc-shaped brackets are mounted on the pair of support rods by a pair of fixing blocks.

3. The composite core rod processing soaking apparatus according to claim 1, wherein the driving moving assembly comprises: the device comprises a pair of multistage telescopic push rods, a pair of connecting blocks, a moving platform, a pair of connecting plates, a pair of combined sliding rails and two pairs of combined clamping rods;

the pair of multistage telescopic push rods are arranged at the front and rear positions in the installation cavity, the pair of connecting blocks are arranged at the two sides of the lower wall surface of the mobile platform, the pair of connecting plates are arranged at the two sides of the lower wall surface of the mobile platform, the pair of multistage telescopic push rods are arranged on the pair of connecting plates through the pair of connecting blocks, the pair of combined sliding rails are arranged at the front and rear wall surfaces in the installation cavity, the two pairs of combined clamping rods are arranged at the four corners of the lower wall surface of the mobile platform, and the lower ends of the two pairs of combined clamping rods are embedded into the pair of combined sliding rails.

4. The composite core rod processing soaking device according to claim 3, wherein a pair of connecting plates are provided with grooves for mounting and connecting a pair of multistage telescopic push rods.

5. A composite mandrel processing soaking device according to claim 3, wherein an infrared temperature imager for monitoring temperature is mounted on the moving platform.

6. The composite core rod processing soaking apparatus according to claim 1, wherein the elevation adjusting high frequency heating assembly comprises: the heating device comprises a heating frequency converter, a connecting wire, a pair of lifting push rods, a lifting plate, a heating controller and a high-frequency heating coil;

the heating frequency converter is installed on the upper wall surface of support frame top, and the connecting wire upper end is installed on the heating frequency converter, and a pair of lifter is installed on the lower wall surface of support frame top, and the lifter plate is installed on a pair of lifter output, and the heating controller is installed on the lifter plate upper wall surface, and the connecting wire lower extreme is installed on the heating controller, and high-frequency heating coil is installed on the lifter plate lower wall surface, and high-frequency heating coil is connected with the heating controller.

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