CN212706125U - High-efficient polishing system of stainless steel container - Google Patents

Abstract

The utility model discloses a high-efficient polishing system of stainless steel container, including the fixing base, be provided with the support column on the fixing base, the top of support column is provided with a supporting beam, be provided with the rolling disc on the fixing base, the rolling disc is connected with rotation actuating mechanism, and be provided with lower location axle on the rolling disc, the outer wall of lower location axle is provided with lower telescopic location arm, the tip of lower telescopic location arm is provided with the lower briquetting, be provided with first elevating system on the supporting beam, first elevating system is connected with the location axle, the outer wall of upper location axle is provided with telescopic location arm, the tip of telescopic location arm is provided with the upper briquetting; a positioning column is arranged between the supporting beam and the fixing seat, a plurality of horizontal reciprocating type driving mechanisms are arranged on the positioning column, the horizontal reciprocating type driving mechanisms are connected with polishing assemblies, and the positioning column is connected with a second lifting mechanism. The utility model discloses can fix a position stainless steel container steadily, carry out automatic polishing more comprehensively to stainless steel container's outer wall simultaneously.

Description

High-efficient polishing system of stainless steel container

Technical Field

The utility model belongs to the technical field of the container production, especially, stainless steel container's high-efficient polishing system.

Background

After the stainless steel container is processed, the surface of the stainless steel container generally needs to be polished to remove an oxide film and improve the surface smoothness. At present, the polishing of the container is generally mechanical polishing, the prior polishing system can refer to the utility model patent with application number 201721543090.4, the metal pressure container polishing equipment comprises a base, chutes are arranged at the middle positions of two sides of the top of the base, two sliders are connected inside the chutes in a sliding way, the tops of the two sliders are connected with a first hydraulic oil cylinder through fastening bolts, the tops of the two first hydraulic oil cylinders positioned at the same side of the base are connected with a same mounting plate through fastening bolts, the tops of the two mounting plates are connected with a vacuum pump through fastening bolts, the middle position of the top at the opposite side of the two mounting plates is connected with a rotating motor through fastening bolts, the output shafts of the two rotating motors are connected with rotary seats through fastening bolts, and the middle position at the opposite side of the two rotary seats is connected with a fixed sucker through fastening bolts, the intermediate position at base top both ends is connected with same door-shaped frame through fastening bolt, the intermediate position of door-shaped frame top inner wall is connected with the second hydraulic cylinder that three equidistance distributes through fastening bolt, and is three the one end that door-shaped frame was kept away from to the second hydraulic cylinder all is connected with the spring through fastening bolt, and is three the bottom of spring all is connected with pressure sensor through fastening bolt, and is three pressure sensor keeps away from the one end of spring and all is connected with the shell through fastening bolt, and is three the intermediate position of shell bottom inner wall all is connected with polishing motor, and is three polishing motor's output shaft all is connected with the polishing dish through fastening bolt. Such a polishing system suffers from the following drawbacks: 1. the container is fixed by the sucker, so that the container is heavy, poor in stability and easy to fall off from the sucker; 2. the polishing disk cannot axially move, and the surface of the container is difficult to be comprehensively polished.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stainless steel container's high-efficient polishing system can fix a position stainless steel container steadily, and polishes stainless steel container's outer wall comprehensively automatically.

The purpose of the utility model is realized like this: a high-efficiency polishing system of a stainless steel container comprises a fixed seat, wherein a vertical supporting column is arranged on one side of the fixed seat, a supporting beam is arranged at the top of the supporting column, a rotating disc is arranged on the fixed seat and connected with a rotation driving mechanism, a vertical lower positioning shaft is arranged on the upper surface of the rotating disc, at least 3 radial lower telescopic positioning arms are arranged on the outer wall of the lower positioning shaft, lower pressing blocks are arranged at the end parts of the lower telescopic positioning arms, a first lifting mechanism is arranged on the supporting beam and connected with a rotatable upper positioning shaft, the upper positioning shaft and the lower positioning shaft are coaxially arranged, at least 3 radial upper telescopic positioning arms are arranged on the outer wall of the upper positioning shaft, and upper pressing blocks are arranged at the end parts of the upper telescopic positioning arms; a vertical positioning column is arranged between the supporting beam and the fixing seat, a plurality of horizontal reciprocating type driving mechanisms are arranged on the positioning column, the horizontal reciprocating type driving mechanisms are connected with polishing assemblies, and the positioning column is connected with a second lifting mechanism.

Further, the rotation driving mechanism comprises a motor and a speed reducer, a rotating shaft is arranged on the lower surface of the rotating disc, and the motor, the speed reducer and the rotating shaft are sequentially connected.

Further, the lower telescopic positioning arm and the upper telescopic positioning arm are hydraulic cylinders.

Further, the first lifting mechanism is a hydraulic cylinder.

Further, the horizontal reciprocating driving mechanism is a hydraulic cylinder.

Further, the second lifting mechanism is a hydraulic cylinder.

Further, lower briquetting and last briquetting have curved pressing surface, and should press and be provided with the elasticity slipmat on the surface.

Further, the polishing assembly comprises a motor, and a polishing disk is connected to the motor.

The utility model has the advantages that: during polishing, the stainless steel container is hoisted to the rotating disc, the lower positioning shaft and the lower telescopic positioning arm are located in the stainless steel container, then the lower telescopic positioning arm is controlled to extend until the lower pressing block presses the inner wall of the stainless steel container, then the upper positioning shaft is driven by the first lifting mechanism to move downwards, the upper positioning shaft and the upper telescopic positioning arm enter the stainless steel container, the upper telescopic positioning arm is controlled to extend until the upper pressing block presses the inner wall of the stainless steel container, the stainless steel container is positioned, and the stability of the stainless steel container is high. Then utilize each horizontal reciprocating type actuating mechanism drive polishing subassembly to paste the outer wall of stainless steel container tightly, start polishing subassembly, rotation actuating mechanism and second elevating system, polishing subassembly polishes the outer wall of stainless steel container, rotation actuating mechanism drives the rolling disc and rotates according to the rotational speed of setting for, and then drives the stainless steel container and rotate, and second elevating system drives the reference column and reciprocates, and then drives each polishing subassembly and reciprocates to the realization is polished to stainless steel container automatically, comprehensively.

Drawings

Fig. 1 is a schematic front view of the present invention.

Reference numerals: 1-a fixed seat; 2-a support column; 3, supporting the beam; 4-rotating the disc; 5, a lower positioning shaft; 6, a lower telescopic positioning arm; 7, pressing the blocks; 8-a first lifting mechanism; 9, mounting a positioning shaft; 10-upper telescopic positioning arm; 11-pressing the block; 12-a positioning column; 13-a horizontally reciprocating drive mechanism; 14-a polishing assembly; 15-a second lifting mechanism; 16-a motor; 17-a reducer; 18-a rotating shaft; 19-elastic non-slip mat.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in figure 1, the utility model discloses a high-efficient polishing system of stainless steel container, including fixing base 1, fixing base 1 passes through fixed mounting such as rag bolt subaerial. One side of fixing base 1 is provided with vertical support column 2, the top of support column 2 is provided with a supporting beam 3, and support column 2 can with fixing base 1 welded connection, also can link to each other with fixing base 1 through the bolt, a supporting beam 3 also can with support column 2 welded connection.

The stainless steel container positioning device is characterized in that a rotating disc 4 is arranged on the fixing seat 1, the rotating disc 4 is connected with a rotation driving mechanism, and the rotating disc 4 is rotatably installed on the fixing seat 1 and used for positioning a stainless steel container and driving the stainless steel container to rotate. Specifically, the upper surface of rolling disc 4 is provided with vertical lower location axle 5, lower location axle 5 with rolling disc 4 welded connection or with rolling disc 4 integrated into one piece, the outer wall of lower location axle 5 is provided with 3 radial lower telescopic type registration arms 6 at least, the tip of lower telescopic type registration arm 6 is provided with briquetting 7 down, and lower telescopic type registration arm 6 can stretch out and draw back, and when lower telescopic type registration arm 6 extended, can promote briquetting 7 and compress tightly the inside wall of stainless steel container down. During polishing, the stainless steel container is lifted to the rotating disc 4, the lower end face of the stainless steel container is attached to the upper surface of the rotating disc 4, and when the rotating disc 4 rotates, the stainless steel container can be driven to rotate by using the friction force between the rotating disc 4 and the lower end face of the stainless steel container and the friction force between the lower pressing block 7 and the inner wall of the stainless steel container.

The supporting beam 3 is provided with a first lifting mechanism 8, the first lifting mechanism 8 is connected with a rotatable upper positioning shaft 9, a mounting seat can be arranged on the first lifting mechanism 8, and the upper positioning shaft 9 is mounted on the mounting seat through a bearing so as to ensure that the upper positioning shaft 9 can rotate. The upper positioning shaft 9 and the lower positioning shaft 5 are coaxially arranged, so that the stainless steel container is stably positioned. The outer wall of the upper positioning shaft 9 is provided with at least 3 radial upper telescopic positioning arms 10, the end part of each upper telescopic positioning arm 10 is provided with an upper pressing block 11, each upper telescopic positioning arm 10 can push the upper pressing block 7 to press the inner side wall of the stainless steel container when each upper telescopic positioning arm 10 extends. The stability of the stainless steel container can be ensured by positioning the upper end and the lower end of the stainless steel container.

A vertical positioning column 12 is arranged between the supporting beam 3 and the fixing seat 1, and the positioning column 12 is in sliding fit with the supporting beam 3 and the fixing seat 1. The polishing machine is characterized in that a plurality of horizontal reciprocating type driving mechanisms 13 are arranged on the positioning columns 12, the horizontal reciprocating type driving mechanisms 13 are connected with polishing components 14, each polishing component 14 comprises a motor, each motor is connected with a polishing disc, and each motor drives each polishing disc to rotate, so that a workpiece can be polished. The horizontal reciprocating type driving mechanism 13 can drive the polishing component 14 to move horizontally, so that the polishing component 14 is attached to the stainless steel container to polish the stainless steel container, and the polishing component 14 can be driven to leave the stainless steel container after polishing. The positioning column 12 is connected with a second lifting mechanism 15, and the second lifting mechanism 15 can drive the positioning column 12 to move up and down, so that the polishing component 14 is driven to move up and down, and the outer wall of the stainless steel container can be polished comprehensively.

The utility model discloses specific working process does: during polishing, the stainless steel container is hoisted to the rotating disc 4, the lower positioning shaft 5 and the lower telescopic positioning arm 6 are located in the stainless steel container, then the lower telescopic positioning arm 6 is controlled to extend until the lower pressing block 7 presses the inner wall of the stainless steel container, then the upper positioning shaft 9 is driven by the first lifting mechanism 8 to move downwards, the upper positioning shaft 9 and the upper telescopic positioning arm 10 enter the stainless steel container, the upper telescopic positioning arm 10 is controlled to extend until the upper pressing block 11 presses the inner wall of the stainless steel container, the stainless steel container is positioned, and the stability of the stainless steel container is high. Then utilize each horizontal reciprocating type actuating mechanism 13 drive polishing subassembly 14 to paste the outer wall of tight stainless steel container, start polishing subassembly 14, rotation driving mechanism and second elevating system 15, polishing subassembly 14 polishes the outer wall of stainless steel container, rotation driving mechanism drives rolling disc 4 and rotates according to the rotational speed of settlement, and then drives the stainless steel container and rotate, second elevating system 15 drives reference column 12 and reciprocates, and then drives each polishing subassembly 14 and reciprocates, thereby realize polishing the stainless steel container automatically, comprehensively. After polishing, the polishing component 14, the rotation driving mechanism and the second lifting mechanism 15 are closed, the horizontal reciprocating type driving mechanism 13 drives the polishing component 14 to reset, the upper telescopic type positioning arm 10 and the lower telescopic type positioning arm 6 are controlled to shorten, the first lifting mechanism 8 drives the upper positioning shaft 9 to move out of the stainless steel container, and then the stainless steel container can be lifted away.

The rotation driving mechanism can be a gear mechanism driven by a motor, teeth meshed with the gear are arranged on the circumferential surface of the rotating disc 4, preferably, the rotation driving mechanism comprises a motor 16 and a speed reducer 17, a rotating shaft 18 is arranged on the lower surface of the rotating disc 4, and the motor 16, the speed reducer 17 and the rotating shaft 18 are sequentially connected.

The lower telescopic positioning arm 6 and the upper telescopic positioning arm 10 can adopt rod pieces with manually adjusted lengths, in order to realize automatic control and ensure that the upper pressing block 11 and the lower pressing block 7 have enough pressure on the stainless steel container, the lower telescopic positioning arm 6 and the upper telescopic positioning arm 10 are hydraulic cylinders.

The first lifting mechanism 8, the horizontal reciprocating driving mechanism 13 and the second lifting mechanism 15 may be any of various driving mechanisms, and preferably, the first lifting mechanism 8 is a hydraulic cylinder. The horizontal reciprocating driving mechanism 13 is a hydraulic cylinder. The second lifting mechanism 15 is a hydraulic cylinder.

Because the inner wall of stainless steel container is the arcwall face, lower briquetting 7 and last briquetting 11 have curved pressing surface, and pressing surface and the inner wall cooperation of stainless steel container can increase area of contact, and should press and be provided with elasticity slipmat 19 on the face, can strengthen frictional force, further improve stainless steel container's positional stability.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. 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 (8)

1. An efficient polishing system for stainless steel containers is characterized in that: comprises a fixed seat (1), one side of the fixed seat (1) is provided with a vertical supporting column (2), the top of the supporting column (2) is provided with a supporting beam (3), the fixed seat (1) is provided with a rotating disc (4), the rotating disc (4) is connected with a rotation driving mechanism, the upper surface of the rotating disc (4) is provided with a vertical lower positioning shaft (5), the outer wall of the lower positioning shaft (5) is provided with at least 3 radial lower telescopic positioning arms (6), the end part of the lower telescopic positioning arm (6) is provided with a lower pressing block (7), the supporting beam (3) is provided with a first lifting mechanism (8), the first lifting mechanism (8) is connected with a rotatable upper positioning shaft (9), the upper positioning shaft (9) and the lower positioning shaft (5) are coaxially arranged, the outer wall of the upper positioning shaft (9) is provided with at least 3 radial upper telescopic positioning arms (10), an upper pressing block (11) is arranged at the end part of the upper telescopic positioning arm (10); be provided with vertical reference column (12) between supporting beam (3) and fixing base (1), be provided with a plurality of horizontal reciprocating type actuating mechanism (13) on reference column (12), horizontal reciprocating type actuating mechanism (13) are connected with polishing subassembly (14), reference column (12) are connected with second elevating system (15).

2. A high efficiency polishing system for stainless steel containers as claimed in claim 1 wherein: the rotation driving mechanism comprises a motor (16) and a speed reducer (17), a rotating shaft (18) is arranged on the lower surface of the rotating disc (4), and the motor (16), the speed reducer (17) and the rotating shaft (18) are sequentially connected.

3. A high efficiency polishing system for stainless steel containers as claimed in claim 1 wherein: the lower telescopic positioning arm (6) and the upper telescopic positioning arm (10) are hydraulic cylinders.

4. A high efficiency polishing system for stainless steel containers as claimed in claim 1 wherein: the first lifting mechanism (8) is a hydraulic cylinder.

5. A high efficiency polishing system for stainless steel containers as claimed in claim 1 wherein: the horizontal reciprocating type driving mechanism (13) is a hydraulic cylinder.

6. A high efficiency polishing system for stainless steel containers as claimed in claim 1 wherein: the second lifting mechanism (15) is a hydraulic cylinder.

7. A high efficiency polishing system for stainless steel containers as claimed in claim 1 wherein: the lower pressing block (7) and the upper pressing block (11) are provided with arc-shaped pressing surfaces, and elastic anti-slip pads (19) are arranged on the pressing surfaces.

8. A high efficiency polishing system for stainless steel containers as claimed in claim 1 wherein: the polishing assembly (14) comprises a motor, and a polishing disc is connected with the motor.

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