CN219094550U - Core rod grinding feeding pretreatment device - Google Patents

Abstract

The utility model discloses a core rod grinding feeding pretreatment device, which comprises: the equipment base is provided with a movable omnibearing pretreatment cooling structure; the movable omnibearing pretreatment cooling structure comprises: the device comprises a movable seat, a driving movable clamping assembly, a supporting frame, a pair of fixed rods, a special-shaped bracket and a low-temperature mist cooling treatment assembly; the utility model relates to the technical field of core rod pretreatment equipment, and the beneficial effects of the scheme are as follows: the core rod cooling pretreatment equipment solves the problems that the existing core rod cooling pretreatment equipment is simple in structure, can only carry out rapid spray cooling through the cooperation of a spray shower and the movement of the core rod, cannot carry out uniform cooling pretreatment according to different temperatures of different positions of the core rod, and causes different pretreatment temperatures of the core rod and affects the subsequent processing and use of the core rod.

Description

Core rod grinding feeding pretreatment device

Technical Field

The utility model relates to the technical field of core rod pretreatment equipment, in particular to a core rod grinding and feeding pretreatment device.

Background

The utility model relates to cooling treatment equipment for a mandrel production line, which comprises a transparent cover body, wherein the transparent cover body is arranged between two sections of mandrel processing devices, an upper sliding rail and a lower sliding rail are respectively arranged in the cover body, an upper spraying shower is arranged in the upper sliding rail in a sliding manner, a lower spraying shower is arranged in the lower sliding rail in a sliding manner, and a water supply driving unit is arranged at the upper part of the cover body. According to the utility model, the transparent cover body is arranged between the two sections of core rod processing devices, the upper sliding rail and the lower sliding rail in the cover body are respectively provided with the upper spraying shower head and the lower spraying shower head, the reciprocating movement spraying of the upper spraying shower head and the lower spraying shower head is realized in the moving process of the core rod, the uniform spraying cooling of the peripheral surface of the core rod is ensured, the sprayed cooling water flows into the spraying water recovery tank along the water collecting groove at the bottom of the transparent cover body, is collected in a concentrated manner from the collecting opening after being filtered by the filtering template, the problem of nonuniform cooling of the surface of the core rod is effectively solved, meanwhile, the collecting treatment of the spraying water is finished, the efficient and environment-friendly effects are realized, the structure is simple, the rapid spraying cooling is realized only through the cooperation of the spraying shower heads and the movement of the core rod, the uniform cooling pretreatment cannot be carried out according to different temperatures of different positions of the core rod, and the different pretreatment temperatures of the core rod are caused, and the subsequent processing and use of the core rod is affected.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a mandrel mill feed pretreatment device comprising: the equipment base is provided with a movable omnibearing pretreatment cooling structure;

the movable omnibearing pretreatment cooling structure comprises: the device comprises a movable seat, a driving movable clamping assembly, a supporting frame, a pair of fixed rods, a special-shaped bracket and a low-temperature mist cooling treatment assembly;

the movable seat is arranged at the middle of the upper wall surface of the equipment base and is positioned at the front side, the driving movable clamping assembly is arranged on the movable seat and the equipment base, the support frame is arranged at the rear position of the movable seat, the pair of fixing rods are arranged at the lower position of the support frame, the special-shaped support is arranged on the pair of fixing rods, and the low-temperature mist cooling treatment assembly is arranged on the support frame and the special-shaped support.

Preferably, the driving moving clamping assembly comprises: the device comprises a pair of moving grooves, a pair of moving blocks, a moving platform, a pair of linear module translation tables, a pair of rotary driving motors, a pair of reducers and a pair of fixed clamps; the pair of movable grooves are formed in the movable base, the pair of movable blocks are embedded in the pair of movable grooves, the movable platform is arranged on the pair of movable blocks, the pair of linear module translation tables are arranged at two side positions of the upper wall surface of the equipment base, the movable ends of the pair of linear module translation tables are arranged on two side wall surfaces of the movable platform, the pair of rotary driving motors are arranged at two side positions of the upper wall surface of the movable platform, the pair of reducers are arranged at the inner side positions of the pair of rotary driving motors, the input ends of the pair of reducers are connected with the output ends of the pair of rotary driving motors, and the pair of fixed fixtures are arranged at the output ends of the pair of reducers.

Preferably, the movable ends of the pair of linear module translation stages are arranged on the movable platform through connecting rods.

Preferably, the pair of rotary drive motors are mounted on the mobile platform by means of fixing bolts.

Preferably, the low temperature mist cooling treatment assembly comprises: a pair of liquid storage tanks, an atomizer, a pumping device, a plurality of conveying pipes, a plurality of flow control valves and a plurality of cooling spray heads;

the utility model discloses a pair of liquid storage pot is installed in support frame upper wall both sides position, and the atomizer is installed in a pair of liquid storage pot intermediate position, and a pair of liquid storage pot is connected with the atomizer, and the pump sending ware is installed in atomizer the place ahead position, and the pump sending ware is connected with the atomizer, and a plurality of conveyer pipe upper ends are installed on the pump sending ware, and a plurality of flow control valves are installed on the dysmorphism support, and a plurality of conveyer pipe lower extreme is installed on a plurality of flow control valves, and a plurality of cooling shower nozzles inlay and are put on the dysmorphism support, and a plurality of cooling shower nozzles are connected with a plurality of flow control valves.

Preferably, the special-shaped bracket is provided with mounting holes for mounting a plurality of cooling spray heads.

Advantageous effects

The utility model provides a core rod grinding feeding pretreatment device which has the beneficial effects that a movable omnibearing pretreatment cooling structure is adopted in the scheme, and the rapid cooling pretreatment is carried out by matching with the rotation of a core rod by using a mist spraying mode, so that different cooling effects can be carried out by controlling the flow of cooling mist according to different temperatures of different positions of the core rod, the cooling temperature uniformity of the core rod is ensured, the pretreatment effect is ensured, the problems that the conventional core rod cooling pretreatment device is simple in structure, the rapid spraying cooling is carried out only by matching with the movement of the core rod by a spraying shower, and the uniform cooling pretreatment cannot be carried out according to different temperatures of different positions of the core rod, so that the pretreatment temperatures of the core rod are different everywhere, and the subsequent processing use of the core rod is affected are solved.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a mandrel mill feed pretreatment device according to the present utility model.

Fig. 2 is a schematic perspective view of a special-shaped bracket of a mandrel grinding and feeding pretreatment device.

Fig. 3 is a schematic view of a front view partially enlarged structure of a mandrel mill feed pretreatment device according to the present utility model.

In the figure: 1-an equipment base; 2-a movable seat; 3-supporting frames; 4-a fixed rod; 5-a special-shaped bracket; 6-a moving groove; 7-moving blocks; 8-a mobile platform; 9-a linear module translation stage; 10-a rotary drive motor; 11-a decelerator; 12-fixing a clamp; 13-connecting rods; 14-fixing bolts; 15-a liquid storage tank; 16-atomizer; 17-a pumper; 18-a conveying pipe; 19-a flow control valve; 20-cooling the spray head; 21-mounting holes.

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 base 1, wherein a movable omnibearing pretreatment cooling structure is arranged on the device base 1;

the movable omnibearing pretreatment cooling structure comprises: the device comprises a movable seat 2, a driving movable clamping assembly, a supporting frame 3, a pair of fixing rods 4, a special-shaped bracket 5 and a low-temperature mist cooling treatment assembly;

the movable seat 2 is arranged at the middle front position of the upper wall surface of the equipment base 1, the driving movable clamping assembly is arranged on the movable seat 2 and the equipment base 1, the support frame 3 is arranged at the rear position of the movable seat 2, the pair of fixing rods 4 are arranged at the lower position of the support frame 3, the special-shaped support 5 is arranged on the pair of fixing rods 4, and the low-temperature mist cooling treatment assembly is arranged on the support frame 3 and the special-shaped support 5.

It should be noted that, in using the all-round preliminary treatment cooling structure of portable, the drive through moving and remove the clamping subassembly of installing on the seat 2 carries out the clamping to the plug that needs to carry out the preliminary treatment fixedly to move the dysmorphism support 5 below of installing on the dead lever 4 under its effect, carry out even cooling preliminary treatment processing through the low temperature fog of installing on support frame 3 and the dysmorphism support 5, cooperate outside infrared temperature imaging device to adjust the flow of cooling fog in real time simultaneously, guarantee that the cooling is even.

In the implementation process, the driving moving clamping assembly further comprises: a pair of moving grooves 6, a pair of moving blocks 7, a moving platform 8, a pair of linear module translation stages 9, a pair of rotary drive motors 10, a pair of decelerator 11, and a pair of fixing jigs 12;

the pair of moving grooves 6 are formed in the moving seat 2, the pair of moving blocks 7 are embedded in the pair of moving grooves 6, the moving platform 8 is mounted on the pair of moving blocks 7, the pair of linear module translation stages 9 are mounted on two side surfaces of the upper wall surface of the equipment base 1, the moving ends of the pair of linear module translation stages 9 are mounted on two side surfaces of the moving platform 8, the pair of rotary driving motors 10 are mounted on two side surfaces of the upper wall surface of the moving platform 8, the pair of reducers 11 are mounted on the inner side positions of the pair of rotary driving motors 10, the input ends of the pair of reducers 11 are connected with the output ends of the pair of rotary driving motors 10, and the pair of fixed clamps 12 are mounted on the output ends of the pair of reducers 11. When the driving moving clamping assembly is used, a core rod to be preprocessed is fixed to a pair of fixing clamps 12, a pair of linear module translation tables 9 are started to drive a moving platform 8 to move backwards through a pair of connecting rods 13 matched with a moving block 7 installed in a moving groove 6, the core rod is made to move to the position below a special-shaped support 5 installed on a fixing rod 4, a pair of rotary driving motors 10 are started to rotate, the core rod is driven to rotate through the fixing clamps 12 after the decelerating effect of a pair of reducers 11, and the low-temperature mist cooling processing assembly is matched to perform uniform cooling preprocessing processing.

In the implementation process, further, the moving ends of the pair of linear module translation stages 9 are mounted on the moving platform 8 through connecting rods 13.

In the implementation, further, a pair of rotary driving motors 10 are mounted on the moving platform 8 through fixing bolts 14.

In an implementation process, the low-temperature mist cooling treatment assembly further comprises: a pair of liquid reservoirs 15, an atomizer 16, a pump 17, a plurality of delivery pipes 18, a plurality of flow control valves 19, and a plurality of cooling spray heads 20;

the two sides of the upper wall surface of the support frame 3 are provided with a pair of liquid storage tanks 15, an atomizer 16 is arranged at the middle position of the pair of liquid storage tanks 15, the pair of liquid storage tanks 15 are connected with the atomizer 16, a pumping device 17 is arranged at the front position of the atomizer 16, the pumping device 17 is connected with the atomizer 16, the upper ends of a plurality of conveying pipes 18 are arranged on the pumping device 17, a plurality of flow control valves 19 are arranged on the special-shaped support 5, the lower ends of a plurality of conveying pipes 18 are arranged on the plurality of flow control valves 19, a plurality of cooling spray heads 20 are embedded on the special-shaped support 5, and a plurality of cooling spray heads 20 are connected with the plurality of flow control valves 19.

When the low-temperature mist cooling treatment unit is used, the atomizer 16 mounted on the support frame 3 is started to pump out low-temperature cooling water from the pair of liquid tanks 15 and perform ultrasonic atomization, the atomized low-temperature Wen Shuiwu is conveyed into the conveying pipe 18 under the action of the pump 17, the low-temperature mist outflow amount of the flow control valve 19 is controlled according to the temperature measured by the external infrared temperature imaging equipment, the low-temperature mist is sprayed onto the surface of the core rod through the cooling spray head 20, and the core rod is subjected to uniform cooling pretreatment processing through the low-temperature mist.

In a specific implementation process, further, the special-shaped bracket 5 is provided with mounting holes 21 for mounting a plurality of cooling spray heads 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 mandrel mill feed pretreatment device comprising: the equipment base is characterized in that a movable omnibearing pretreatment cooling structure is arranged on the equipment base;

the movable omnibearing pretreatment cooling structure comprises: the device comprises a movable seat, a driving movable clamping assembly, a supporting frame, a pair of fixed rods, a special-shaped bracket and a low-temperature mist cooling treatment assembly;

the movable seat is arranged at the middle of the upper wall surface of the equipment base and is positioned at the front side, the driving movable clamping assembly is arranged on the movable seat and the equipment base, the support frame is arranged at the rear position of the movable seat, the pair of fixing rods are arranged at the lower position of the support frame, the special-shaped support is arranged on the pair of fixing rods, and the low-temperature mist cooling treatment assembly is arranged on the support frame and the special-shaped support.

2. The mandrel mill feed pretreatment device according to claim 1, wherein the driving moving clamping assembly comprises: the device comprises a pair of moving grooves, a pair of moving blocks, a moving platform, a pair of linear module translation tables, a pair of rotary driving motors, a pair of reducers and a pair of fixed clamps;

the pair of movable grooves are formed in the movable base, the pair of movable blocks are embedded in the pair of movable grooves, the movable platform is arranged on the pair of movable blocks, the pair of linear module translation tables are arranged at two side positions of the upper wall surface of the equipment base, the movable ends of the pair of linear module translation tables are arranged on two side wall surfaces of the movable platform, the pair of rotary driving motors are arranged at two side positions of the upper wall surface of the movable platform, the pair of reducers are arranged at the inner side positions of the pair of rotary driving motors, the input ends of the pair of reducers are connected with the output ends of the pair of rotary driving motors, and the pair of fixed fixtures are arranged at the output ends of the pair of reducers.

3. The mandrel mill feed pretreatment device according to claim 2, wherein the moving ends of the pair of linear die set translation stages are mounted on the moving platform by connecting rods.

4. The mandrel mill feed pretreatment device according to claim 2, wherein a pair of rotary drive motors are mounted on the moving platform by means of fixing bolts.

5. The mandrel mill feed pretreatment device according to claim 1, wherein the low temperature mist cooling treatment assembly comprises: a pair of liquid storage tanks, an atomizer, a pumping device, a plurality of conveying pipes, a plurality of flow control valves and a plurality of cooling spray heads;

the utility model discloses a pair of liquid storage pot is installed in support frame upper wall both sides position, and the atomizer is installed in a pair of liquid storage pot intermediate position, and a pair of liquid storage pot is connected with the atomizer, and the pump sending ware is installed in atomizer the place ahead position, and the pump sending ware is connected with the atomizer, and a plurality of conveyer pipe upper ends are installed on the pump sending ware, and a plurality of flow control valves are installed on the dysmorphism support, and a plurality of conveyer pipe lower extreme is installed on a plurality of flow control valves, and a plurality of cooling shower nozzles inlay and are put on the dysmorphism support, and a plurality of cooling shower nozzles are connected with a plurality of flow control valves.

6. The mandrel mill feed pretreatment device according to claim 5, wherein the profiled support is provided with mounting holes for mounting a plurality of cooling spray heads.

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