CN220868960U - Aluminum extruder alkali pool roof board moving device - Google Patents

Abstract

The utility model relates to the technical field of movable roof boards, in particular to a device for realizing stable forward-backward translational movement of an alkali pool roof board of an aluminum extruder. The utility model discloses a roof board moving device of an alkali pool of an aluminum extruder, which comprises linear guide rails symmetrically and parallelly arranged on a roof, wherein each linear guide rail is slidably provided with a sliding block, the top of each sliding block is fixed with a roof board, and one end of a short side of each roof board is connected with a telescopic electric screw rod type push-pull device. The utility model aims to solve the technical problem of providing a device for realizing stable forward and backward translation movement of an alkali pool roof plate of an aluminum extruder.

Description

Aluminum extruder alkali pool roof board moving device

Technical Field

The utility model relates to the technical field of movable roof boards, in particular to a device for realizing stable forward-backward translational movement of an alkali pool roof board of an aluminum extruder.

Background

In the process of producing the high-voltage cable aluminum sheath, the aluminum extruder head of the company aluminum extruder can solidify aluminum blocks on the aluminum extruder head. After each production, the head of the aluminum extruder is maintained, so that the quality of the next high-voltage cable aluminum sheath production can be ensured to be qualified. Because the aluminum block cannot be removed by manual knocking, the head of the aluminum extruder is placed in a stainless steel pool, and the aluminum block is soaked and dissolved by a heated sodium hydroxide (NaOH) solution. According to the safety management requirement of a company, an alkali pool room made of stainless steel is required to be manufactured so as to meet the requirement of immersing the head of an aluminum extruder in sodium hydroxide solution.

However, the head of the aluminum extruder has a length of 0.6 meter, a width of 0.5 meter, a height of 0.7 meter and a weight of 1 ton, and an operator needs to use a remote controller to operate a crane to put the head into the alkali pool, wherein each cell has three cells, the length of each cell is about 1 meter, the length of the whole alkali pool is 3 meters, and the width of the whole alkali pool is 0.7 meter. The size of the alkali pool room of the aluminum extruder is 4.8 meters long, 2.8 meters wide and 2.3 meters high, the size of the top plate is 3.45 meters long, 1 meter wide and the whole specification is larger. If an electric screw type window opener is adopted to upwards jack one side of the top plate, the top plate can be too high, an operator can easily collide when hoisting a machine head by a crane, and a large potential safety hazard exists.

Accordingly, those skilled in the art have been working to develop a device for smooth translational movement of the roof plate of the alkali cell of an aluminum extruder.

Disclosure of utility model

In view of the above-mentioned drawbacks of the prior art, the present utility model discloses a device for moving a roof board of an alkali pool of an aluminum extruder, which aims to provide a device for realizing stable forward and backward translational movement of the roof board of the alkali pool of the aluminum extruder.

In order to achieve the above purpose, the utility model provides a device for moving a roof plate of an alkali pool of an aluminum extruder, which comprises linear guide rails symmetrically and parallelly arranged on the roof, wherein each linear guide rail is provided with a sliding block in a sliding manner, the top of each sliding block is fixed with the roof plate, one end of a short side of the roof plate is connected with a telescopic electric screw type push-pull device, and the electric screw type push-pull device can be an electric screw type window opener. The linear guide rail is fixed on the roof by bolts, the top plate is fixed on the slide block by bolts, and the slide block is arranged on the linear guide rail.

Preferably, the number of the sliding blocks arranged on each linear guide rail is two, and the initial positions of the two sliding blocks on each side are respectively arranged at two ends of the short side of the top plate, so that the sliding blocks can play a role in guiding and supporting and move along the linear guide rails. In order to ensure that the operation speeds of the two electric screw type push-pull devices are the same, a synchronizer is required to be arranged for the electric screw type push-pull devices, so that synchronous operation of the electric screw type push-pull devices on two sides of the top plate is realized, and the top plate is uniformly stressed.

Preferably, the cross section of the linear guide rail is I-shaped, the sliding block is provided with a sliding groove matched with the linear guide rail, and the bottom surface of the sliding block is higher than the bottom surface of the linear guide rail, so that interference between the sliding block and a roof can be avoided. And the I-shaped sliding block can prevent derailment or side tilting.

Preferably, a nipple is arranged on one side of the sliding block, and the nipple is used for providing lubricating oil for the inside of the sliding block.

Preferably, a rectangular through hole is formed in the roof, the top plate covers the rectangular through hole, the area of the top plate is larger than that of the rectangular through hole, and an aluminum extruder alkali pool is arranged below the rectangular through hole in the alkali pool room. The top plate is opened in a translation mode, the rectangular through hole can be completely exposed, and the machine head is conveniently hoisted and sent into an aluminum extruder alkali pool by a crane.

Preferably, the electric screw type push-pull device comprises a shell, one end in the shell is electrically connected with a control circuit board and a motor speed reducer in sequence, the motor speed reducer is connected with a screw rod and a sliding block, and the sliding block is connected with a telescopic push-pull rod. A lock nut with a through hole is arranged between the shell and the push-pull rod, and the inner side of the lock nut is in sliding fit with the push-pull rod.

Preferably, one end of the shell, which is close to the control circuit board, is connected with a wire, and the wire is connected with a 24V power supply. Through the power supply, control motor reducer speed reduction through control circuit board, motor reducer drives the lead screw and rotates, and the lead screw rotates and drives the sliding block and remove, and the sliding block removes and drives the push-and-pull rod and stretch out and draw back, and then drives the roof translation of connection.

Preferably, a connecting block is vertically fixed at the free end of the push-pull rod, the connecting block is connected with the top plate, and the connecting block is connected with the top plate by adopting a nut.

Preferably, the electric screw type push-pull device is fixed on the roof through a support. The support is omega-shaped, the annular fixed ring of the support is matched with the shell of the electric screw type push-pull device, two support legs at the bottom are connected with the roof by nuts, and an elastic screw rod capable of adjusting the tightness is arranged between the two support legs.

Preferably, the electric screw type push-pull device is parallel to the linear guide rail, so that the smoothness of the movement of the top plate is ensured.

The beneficial effects of the utility model are as follows:

Through setting up linear guide, slider and electronic screw push-and-pull ware, the roof is opened to the mode that adopts the translation roof, adopts the mode roof of translation can not occupy vertical space, and operating personnel can not bump when hoisting the aircraft nose with the driving, avoids the potential safety hazard. The top plate makes opening and closing reciprocating motion on the roof, and an air cylinder or an electric screw type push-pull device can be selected as an actuating mechanism. However, the air cylinder needs to be provided with a power supply for the pneumatic electromagnetic valve besides compressed air, and the air cylinder is high in extending speed, and if the running speed of the air cylinder is adjustable, an adjusting valve or a throttle valve is additionally arranged, so that the air cylinder is complex. The electric screw type push-pull device is stable in running speed, the reciprocating motion can be realized by connecting a power supply, the reciprocating motion is more convenient, the reliability is high, and the purpose of stable front-back translation movement of the top plate of the alkali pool room of the aluminum extruder is realized.

Drawings

FIG. 1 is a schematic top view of an embodiment of the present utility model;

FIG. 2 is a schematic three-dimensional view of a linear guide and slider of the present utility model;

FIG. 3 is a schematic view of the structure of the electric screw type push-pull device of the present utility model;

Fig. 4 is a schematic structural view of a support for fixing an electric screw type push-pull device according to the present utility model.

In the above figures: 1. a linear guide rail; 2. a slide block; 21. a nipple; 3. a top plate; 4. an electric screw type push-pull device; 41. a housing; 42. a control circuit board; 43. a motor speed reducer; 44. a screw rod; 45. a push-pull rod; 46. an electric wire; 47. a connecting block; 5. an alkali pool of an aluminum extruder; 6. a support; 61. an annular fixing ring; 62. a support leg; 63. an elastic screw; 7. and (5) an alkali pool room.

Detailed Description

The present utility model will be further described with reference to the drawings and examples, and it should be noted that in the description of the present utility model, the terms "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, only for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific manner, and thus should not be construed as limiting the present utility model. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, the utility model provides a roof board moving device of an aluminum extruder alkali pool, which comprises linear guide rails 1 symmetrically and parallelly arranged on a roof, wherein each linear guide rail 1 is slidably provided with a sliding block 2, the top of each sliding block 2 is fixedly provided with a roof board 3, one end of the short side of each roof board 3 is connected with a telescopic electric screw type push-pull device 4, and the electric screw type push-pull device 4 can be an electric screw type window opener. The linear guide rail 1 is fixed on the roof by bolts, the top plate 3 is fixed on the slide block 2 by bolts, and the slide block 2 is arranged on the linear guide rail 1. Specifically, rectangular through holes are formed in the roof of the alkali pool room 7, the top plate 3 covers the rectangular through holes, the area of the top plate 3 is larger than that of the rectangular through holes, and an aluminum extruder alkali pool 5 is arranged below the rectangular through holes in the alkali pool room 7. The top plate 3 is opened in a translation mode, the rectangular through holes can be completely exposed, and the machine head is conveniently hoisted and sent into the aluminum extruder alkali pool 5 by a crane. Of course, the electric screw type push-pull 4 is parallel to the linear guide 1, thereby ensuring the smoothness of the movement of the top plate 3.

In the above embodiment, through setting up linear guide 1, slider 2 and electronic screw rod formula push-and-pull 4, adopt translation roof 3's mode to open roof 3, adopt translation mode roof 3 can not occupy vertical space, and operating personnel can not bump when hoisting the aircraft nose with the driving, avoids the potential safety hazard. The top plate 3 makes opening and closing reciprocating motion on the roof, and an air cylinder or an electric screw type push-pull 4 can be selected as an actuating mechanism. However, the air cylinder needs to be provided with a power supply for the pneumatic electromagnetic valve besides compressed air, and the air cylinder is high in extending speed, and if the running speed of the air cylinder is adjustable, an adjusting valve or a throttle valve is additionally arranged, so that the air cylinder is complex. The electric screw type push-pull device 4 is stable in running speed, the reciprocating motion can be realized by connecting a power supply, the reciprocating motion is more convenient, the reliability is high, and the purpose of stable forward and backward translational movement of the roof plate 3 of the alkali pool 5 of the aluminum extruder is realized.

Specifically, the number of the sliding blocks 2 arranged on each linear guide rail 1 is two, and the initial positions of the two sliding blocks 2 on each side are respectively arranged at two ends of the short side of the top plate 3, so that the sliding blocks 2 can play a role in guiding and supporting and move along the linear guide rails 1. In order to ensure that the running speeds of the two electric screw type push-pull devices 4 are the same, synchronizers are required to be arranged for the electric screw type push-pull devices 4, so that the synchronous running of the electric screw type push-pull devices 4 on two sides of the top plate 3 is realized, and the top plate 3 is uniformly stressed.

As shown in fig. 2, the cross section of the linear guide rail 1 is i-shaped, the sliding block 2 is provided with a sliding groove matched with the linear guide rail 1, and the bottom surface of the sliding block 2 is higher than the bottom surface of the linear guide rail 1, so that interference between the sliding block 2 and the roof can be avoided. And the I-shaped slide block 2 can prevent from derailing or tilting. Meanwhile, a nipple 21 is provided at one side of the slider 2, and the nipple 21 is used for providing lubrication oil for the inside of the slider 2.

As shown in fig. 3, the electric screw type push-pull device 4 comprises a housing 41, one end in the housing 41 is electrically connected with a control circuit board 42 and a motor reducer 43 in sequence, the motor reducer 43 is connected with a screw rod 44 and a sliding block, and the sliding block is connected with a telescopic push-pull rod 45. A lock nut with a through hole inside is arranged between the shell 41 and the push-pull rod 45, and the inner side of the lock nut is in sliding fit with the push-pull rod 45. The end of the housing 41 near the control circuit board 42 is connected with a wire 46, and the wire 46 is connected with a 24V power supply. The motor speed reducer 43 is controlled to reduce speed through the control circuit board 42 after the power is supplied by the power supply, the motor speed reducer 43 drives the lead screw 44 to rotate, the lead screw 44 rotates to drive the sliding block (not shown in the figure) to move, the sliding block moves to drive the push-pull rod 45 to stretch and retract, and then the connected top plate 3 is driven to translate. Meanwhile, a connecting block 47 is vertically fixed at the free end of the push-pull rod 45, the connecting block 47 is connected with the top plate 3, and the connecting block 47 is connected with the top plate 3 by adopting a nut.

As shown in fig. 1, the electric screw type push-pull device 4 is fixed on the roof of a house through a support 6. As shown in fig. 4, the support 6 is omega-shaped, the annular fixing ring 61 of the support 6 is matched with the housing 41 of the electric screw type push-pull 4, two support legs 62 at the bottom are connected with the roof by nuts, and an elastic screw 63 capable of adjusting tightness is arranged between the two support legs 62.

The foregoing describes in detail preferred embodiments of the present utility model. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the utility model by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (10)

1. An aluminum extruder alkali pond roof board mobile device, its characterized in that: including symmetry and parallel mount in linear guide (1) on roof, every equal slidable mounting has slider (2) on linear guide (1), roof (3) are fixed at the top of slider (2), the one end of the minor face of roof (3) is connected with telescopic electronic screw push-and-pull ware (4).

2. The aluminum extruder base pool roof board moving device of claim 1, wherein: the number of the sliding blocks (2) arranged on each linear guide rail (1) is two.

3. The aluminum extruder base pool roof board moving device of claim 1, wherein: the cross section of the linear guide rail (1) is I-shaped, the sliding block (2) is provided with a sliding groove matched with the linear guide rail (1), and the bottom surface of the sliding block (2) is higher than the bottom surface of the linear guide rail (1).

4. The aluminum extruder base pool roof board moving device of claim 1, wherein: one side of the sliding block (2) is provided with a nozzle tip (21), and the nozzle tip (21) is used for providing lubricating oil for the inside of the sliding block (2).

5. The aluminum extruder base pool roof board moving device of claim 1, wherein: rectangular through holes are formed in the roof, the top plate (3) covers the rectangular through holes, the area of the top plate (3) is larger than that of the rectangular through holes, and an aluminum extruder alkali pool (5) is arranged below the rectangular through holes in the alkali pool room (7).

6. The aluminum extruder base pool roof board moving device of claim 1, wherein: the electric screw type push-pull device (4) comprises a shell (41), one end in the shell (41) is electrically connected with a control circuit board (42) and a motor speed reducer (43) in sequence, the motor speed reducer (43) is connected with a screw rod (44) and a sliding block, and the sliding block is connected with a telescopic push-pull rod (45).

7. The aluminum extruder base pool roof board moving device of claim 6, wherein: one end of the shell (41) close to the control circuit board (42) is connected with an electric wire (46), and the electric wire (46) is connected with a 24V power supply.

8. The aluminum extruder base pool roof board moving device of claim 6, wherein: the free end of the push-pull rod (45) is vertically fixed with a connecting block (47), and the connecting block (47) is connected with the top plate (3).

9. The aluminum extruder base pool roof board moving device of claim 6, wherein: the electric screw type push-pull device (4) is fixed on the roof through a support (6).

10. The aluminum extruder base pool roof board moving device of claim 1, wherein: the electric screw type push-pull device (4) is parallel to the linear guide rail (1).