CN215092303U - Electric automatization pay-off structure - Google Patents

Abstract

The utility model discloses an electric automatization pay-off structure, including unable adjustment base and conveying platform, the both ends of conveying platform all are provided with the pillar, and unable adjustment base's upper surface is provided with adjusting device, horizontal pole, left fixed plate and right fixed plate respectively, and adjusting device is located the geometric centre of unable adjustment base's upper surface, adjusting device's bottom surface and unable adjustment base's upper surface connection. The middle upper part of the adjusting device is provided with a cross rod. The adjusting device is used for adjusting the height positions of the cross rod on the left fixing plate and the right fixing plate. The adjusting motor can rotate forwards or backwards to reduce or increase the height of the cross rod according to the working requirement through the adjusting device, and the purpose of automatically controlling the height of the cross rod can be achieved. According to the scale marks on the height adjusting groove, the height of the cross rod can be controlled at an accurate height position, the working efficiency and the accuracy of height adjustment are improved, the time is saved, and the working efficiency is improved.

Description

Electric automatization pay-off structure

Technical Field

The utility model relates to an electrical engineering auxiliary assembly technical field especially relates to an electric automatization pay-off structure.

Background

The electrical engineering industry is related to all the industries in the society, and along with the continuous development of the society, the electrical engineering also achieves the application in the field of the building industry and develops rapidly.

The structure that utilizes electric automatization's engineering principle to carry out the pay-off is also more at present, can realize conveying the construction material of engineering, but also has some actual problems, for example the chinese utility model patent: CN212374369U, entitled "an electric automatic feeding structure", in which the adjustment of the crossbar is realized by manually fixing the adjusting bolt and different adjusting holes to each other to adjust the height of the crossbar, but holds that the manual adjustment requires a long time and the height of the adjustment is not accurate enough.

The current height adjustment is realized through manual adjustment, the time required for height adjustment is long, the height adjustment is not accurate, and the feeding efficiency is affected.

SUMMERY OF THE UTILITY MODEL

To the technical problem, the utility model provides an electric automatization pay-off structure, through the height of adjusting device automatic adjustment horizontal pole according to the work demand.

In order to achieve the purpose, the utility model is realized by the following technical scheme:

the utility model provides an electric automatization pay-off structure, includes unable adjustment base and conveying platform, and the both ends of conveying platform all are provided with the pillar, and the top surface and the bottom surface of conveying platform of pillar are connected, the bottom surface and unable adjustment base's upper surface connection of pillar. The upper surface of unable adjustment base is provided with adjusting device, horizontal pole, left fixed plate and right fixed plate respectively, and left fixed plate is located conveying platform's left side, and right fixed plate is located conveying platform's right side. The adjusting device is positioned on the geometric center of the upper surface of the fixed base, and the bottom surface of the adjusting device is connected with the upper surface of the fixed base. The middle upper part of the adjusting device is provided with a cross rod, the cross rod penetrates through the adjusting device and the strut respectively, the left end of the cross rod penetrates through the left fixing plate, and the right end of the cross rod penetrates through the right fixing plate. The adjusting device is used for adjusting the height positions of the cross rod on the left fixing plate and the right fixing plate.

Compared with the prior art, the utility model has the advantages of it is following: the adjusting motor can rotate forwards or backwards to reduce or increase the height of the cross rod according to the working requirement through the adjusting device, and the purpose of automatically controlling the height of the cross rod can be achieved. According to the scale marks on the height adjusting groove, the height of the cross rod can be controlled at an accurate height position, the working efficiency and the accuracy of height adjustment are improved, the time is saved, and the working efficiency is improved.

More preferably: adjusting device includes front bezel, back plate, left side board and right side board, and the bottom surface of front bezel, the bottom surface of back plate, the bottom surface of left side board and the bottom surface of right side board all with unable adjustment base's upper surface connection, front bezel, back plate, left side board and right side board end to end, and the front bezel is parallel with the back plate, has the distance between front bezel and the back plate, and the left side board is parallel with the right side board, and the left side board has the distance with the right side board.

By adopting the technical scheme, a cavity is formed after the front plate, the rear plate, the left side plate and the right side plate are connected end to end, so that the sliding plate, the gear and the rack can be placed in the cavity, and the purpose of adjusting the height is realized.

More preferably: the sliding plate is arranged in a cavity formed between the front plate and the rear plate and between the left side plate and the right side plate, the inner wall of the rear wall front plate of the sliding plate is connected, the rack is arranged in the left sliding plate, the rack is in sliding connection with the sliding plate, and sliding grooves are formed in side plates at two ends of the sliding plate. The rack is meshed with a gear, the gear is connected with a coupler, one end of the coupler is coaxially connected with the gear, the other end of the gear is connected with an adjusting motor, the output end of the adjusting motor is connected with the other end of the coupler, the adjusting motor is connected with a rear plate, and the adjusting motor is used for driving the rack to move up and down in the sliding plate.

By adopting the technical scheme, the adjusting motor rotates to drive the coupler to rotate, the coupler rotates to drive the gear to rotate, the gear rotates to drive the left rack and the right rack which are meshed with the gear to move up and down in the left sliding plate and the right sliding plate, the purpose of changing the height is realized, and the purpose of automatically adjusting the height of the cross rod is finally realized.

More preferably: the rear wall of the sliding plate is detachably connected with the inner wall of the front plate.

By adopting the technical scheme, when the sliding plate and the rack are required to be maintained, the sliding plate and the rack can be conveniently detached.

The method is further optimized as follows: the rear plate is provided with a mounting hole, the adjusting motor is sleeved in the mounting hole, and the inner wall of the mounting hole is matched with the outer wall of the adjusting motor.

By adopting the technical scheme, the adjusting motor is firmly installed in the rear plate, and the motor is prevented from falling off from the rear plate, so that the effect of fixing the adjusting motor is achieved.

The method is further optimized as follows: the adjusting motor is a positive and negative rotating motor.

By adopting the technical scheme, the gear is driven to rotate clockwise or anticlockwise by utilizing the forward rotation or reverse rotation of the adjusting motor, and finally the downward movement or upward movement of the left rack and the right rack is realized, so that the purpose of adjusting the height of the vertical adjusting cross rod is realized.

The method is further optimized as follows: height adjusting grooves are formed in the left fixing plate and the right fixing plate, and scale marks are arranged on the outer walls of the height adjusting grooves.

By adopting the technical scheme, the height position of the cross rod is displayed through the scale marks, and convenience and data basis are provided for clearly adjusting the height position of the cross rod.

The method is further optimized as follows: the left end of the cross rod penetrates through the height adjusting groove in the left fixing plate, and the right end of the cross rod penetrates through the height adjusting groove in the right fixing plate.

By adopting the technical scheme, the left end and the right end of the cross rod move up and down in the height adjusting groove of the left fixing plate and the height adjusting groove of the right fixing plate, so that the purpose of adjusting the height of the cross rod is realized.

Drawings

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a schematic structural diagram of the adjusting device in the present embodiment;

FIG. 3 is a schematic structural diagram of the adjusting device in the present embodiment;

reference numerals: 1-fixing a base; 2-a transmission box; 3-a transfer platform; 4-a pillar; 5-a cross bar; 6-a regulating device; 60-adjusting the motor; 601-a coupling; 61-a front plate; 62-a back plate; 621-mounting holes; 63-left side plate; 64-right side plate; 66-a slide plate; 661-chute; 68-a rack; 69-gear; 7-left fixed plate; 71-height adjustment grooves; 72-graduation mark; 8-right fixed plate.

Detailed Description

The present invention will be described in further detail with reference to fig. 1, 2 and 3. It should be noted that the terms indicating the orientation in the upper, lower, left, right, front, rear, and the like referred to in the present application correspond to the orientation shown in the drawings of the specification.

An electric automatization pay-off structure, as shown in fig. 1, includes unable adjustment base 1 and conveying platform 3, and conveying platform 3's both ends all are provided with pillar 4, and the top surface of pillar 4 is connected with conveying platform 3's bottom surface, and the bottom surface of pillar 4 and unable adjustment base 1's upper surface are connected. The upper surface of unable adjustment base 1 is provided with adjusting device 6, horizontal pole 5, left fixed plate 7 and right fixed plate 8 respectively, and left fixed plate 7 is located the left side of conveying platform 3, and right fixed plate 8 is located the right side of conveying platform 3. The adjusting device 6 is positioned on the geometric center of the upper surface of the fixed base 1, and the bottom surface of the adjusting device 6 is connected with the upper surface of the fixed base 1. The middle upper part of the adjusting device 6 is provided with a cross rod 5, the cross rod 5 penetrates through the adjusting device 6 and the strut 4 respectively, the left end of the cross rod 5 penetrates through the left fixing plate 7, and the right end of the cross rod 5 penetrates through the right fixing plate 8. The adjusting device 6 is used for adjusting the height positions of the cross rod 5 on the left fixing plate 7 and the right fixing plate 8. Here, it should be noted that, transfer platform 3 is external to have the conveying motor, is used for driving transfer platform 3 to convey the material on unable adjustment base 1 after the conveying motor starts, and the conveying motor is prior art, and the existing device that provides power of this device when conveying the material can be obtained through buying the standard part on the market, and moreover, the conveying motor is not the scope that this application will relate to the protection, so does not appear in the specification drawing.

Specifically, in the present embodiment, the adjusting device 6 includes a front plate 61, a rear plate 62, a left side plate 63, and a right side plate 64, as shown in fig. 2, the bottom surface of the front plate 61, the bottom surface of the rear plate 62, the bottom surface of the left side plate 63, and the bottom surface of the right side plate 64 are all connected to the upper surface of the fixed base 1, the front plate 61, the rear plate 62, the left side plate 63, and the right side plate 64 are connected end to end, the front plate 61 is parallel to the rear plate 62, a distance exists between the front plate 61 and the rear plate 62, the left side plate 63 is parallel to the right side plate 64, and the left side plate 63 is spaced from the right side plate 64, so that a cavity is formed after the front plate 61, the rear plate 62, the left side plate 63, and the right side plate 64 are connected end to end, so that a sliding plate 66, a gear 69, and a rack 68 can be placed in the cavity, and the purpose of adjusting height is achieved.

Specifically, in this embodiment, a sliding plate 66 is disposed in a cavity formed between the front plate 61 and the rear plate 62 and between the left side plate 63 and the right side plate 64, the inner wall of the rear wall of the sliding plate 66 is connected to the front plate 61, a rack 68 is disposed in the left sliding plate 66, the rack 68 is slidably connected to the sliding plate 66, and sliding grooves 661 are disposed on side plates at two ends of the sliding plate 66. The gear rack 68 is meshed with a gear 69, the gear 69 is connected with a coupler 601, one end of the coupler 601 is coaxially connected with the gear 69, the other end of the gear 69 is connected with an adjusting motor 60, the output end of the adjusting motor 60 is connected with the other end of the coupler 601, the adjusting motor 60 is connected with the rear plate 62, the adjusting motor 60 is used for driving the gear rack 68 to move up and down in the sliding plate 66, the coupler 601 is driven to rotate through rotation of the adjusting motor 60, the gear 69 rotates to drive the gear 69 to rotate, the gear 69 rotates to drive the left gear rack 68 and the right gear rack 68 which are meshed with the gear rack to move up and down in the left sliding plate 66 and the right sliding plate 66, the purpose of changing the height is achieved, and the purpose of automatically adjusting the height of the cross rod 5 is finally achieved.

Specifically, in the present embodiment, the rear wall of the sliding plate 66 is detachably connected to the inner wall of the front plate 61, and when the sliding plate 66 and the rack 68 need to be maintained, for example, when lubricating oil is added to the sliding plate 66, or when oil stains or dirt on the inner wall of the front plate 61 are cleaned, the sliding plate 66 and the rack 68 can be conveniently detached.

Specifically, in this embodiment, the rear plate 62 is provided with a mounting hole 621, as shown in fig. 3, the adjusting motor 60 is sleeved in the mounting hole 621, and an inner wall of the mounting hole 621 is adapted to an outer wall of the adjusting motor 60, so that the adjusting motor 60 is firmly mounted in the rear plate 62, and the motor is prevented from falling off from the rear plate 62, thereby playing a role of fixing the adjusting motor 60.

Specifically, in this embodiment, the adjusting motor 60 is a forward and reverse rotation motor, and the forward rotation or reverse rotation of the adjusting motor 60 drives the gear 69 to rotate clockwise or counterclockwise, so as to finally realize the downward movement or upward movement of the rack 68, thereby achieving the purpose of adjusting the height of the vertical adjusting cross bar 5.

Specifically, height adjusting groove 71 has all been seted up on left fixed plate 7, the right fixed plate 8 in this embodiment, is provided with scale mark 72 on height adjusting groove 71's the outer wall, shows the high position of horizontal pole 5 through scale mark 72, provides convenience and data basis for the high position of clearly adjusting horizontal pole 5.

Specifically, in this embodiment, the left end of the cross rod 5 passes through the height adjusting groove 71 on the left fixing plate 7, the right end of the cross rod 5 passes through the height adjusting groove 71 on the right fixing plate 8, and the left end and the right end of the cross rod 5 move up and down in the height adjusting groove 71 of the left fixing plate 7 and the height adjusting groove 71 on the right fixing plate 8, so as to adjust the height of the cross rod 5.

Working principle and process for adjusting height of cross bar 5

With reference to fig. 1, 2 and 3, the working principle and the process of adjusting the height of the cross bar 5 are described in detail as follows:

the working principle is as follows: put into transmission case 2 with the material, conveying platform 3 conveys the material under conveying motor's drive, if the high position of horizontal pole 5 needs to be adjusted, the accessible starts adjusting motor 60 and realizes, specifically adjusting motor 60 corotation drives gear 69 corotation, with gear 69 meshing's rack 68 downstream, realize reducing the height of horizontal pole 5, when adjusting motor 60 reversal, drive gear 69 anticlockwise rotation, with gear 69 meshing's rack 68 upward movement, realize rising horizontal pole 5's effect.

Taking the cross bar 5 at the height position shown in fig. 2 as an example, the height of the cross bar 5 is specifically adjusted as follows:

starting the adjusting motor 60, setting the adjusting motor 60 in a forward rotation state, starting the clockwise rotation of the adjusting motor 60, driving the coupler 601 to rotate clockwise, driving the gear 69 to rotate clockwise by the coupler 601, moving the rack 68 engaged with the gear 69 downwards, moving the cross bar 5 connected with the rack 68 downwards along with the rack 68, stopping the adjusting motor 60 when the cross bar moves to a required position of the scale mark 72 on the height adjusting groove 71, and stopping the rotation or movement of the coupler 601, the gear 69 and the rack 68 along with the rotation, finally stopping the movement of the cross bar 5. The adjusting motor 60 is set in a reverse rotation state, the adjusting motor 60 starts to rotate anticlockwise and drives the coupler 601 to rotate anticlockwise, the coupler 601 drives the gear 69 to rotate anticlockwise, the rack 68 meshed with the gear 69 moves upwards, the cross bar 5 connected with the rack 68 moves upwards along with the rack 68 at the moment, when the cross bar moves to a required scale mark 72 position on the height adjusting groove 71, the adjusting motor 60 is stopped, and the coupler 601, the gear 69 and the rack 68 stop rotating or moving along with the rack 68, so that the cross bar 5 stops moving finally. Therefore, the purpose of adjusting the height of the cross rod 5 is achieved by controlling the forward rotation and the reverse rotation of the adjusting motor 60, and the device is convenient, reliable, simple, rapid and high in working efficiency.

The adjusting motor 60 can rotate forwards or backwards to lower or raise the height of the cross rod 5 through the adjusting device 6 according to the working requirement, and the purpose of automatically controlling the height of the cross rod 5 can be achieved. According to the scale marks 72 on the height adjusting grooves 71, the height of the cross rod 5 can be controlled at an accurate height position, the working efficiency and the accuracy of height adjustment are improved, the time is saved, and the working efficiency is improved.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the present invention.

Claims (8)

1. An electric automatic feeding structure comprises a fixed base and a conveying platform, wherein two ends of the conveying platform are respectively provided with a supporting column, the top surface of each supporting column is connected with the bottom surface of the conveying platform, and the bottom surface of each supporting column is connected with the upper surface of the fixed base; the method is characterized in that: the upper surface of the fixed base is provided with an adjusting device, a cross rod, a left fixed plate and a right fixed plate respectively, the left fixed plate is positioned on the left side of the conveying platform, and the right fixed plate is positioned on the right side of the conveying platform; the adjusting device is positioned on the geometric center of the upper surface of the fixed base, and the bottom surface of the adjusting device is connected with the upper surface of the fixed base; a cross rod is arranged at the middle upper part of the adjusting device and penetrates through the adjusting device and the strut respectively, the left end of the cross rod penetrates through the left fixing plate, and the right end of the cross rod penetrates through the right fixing plate; the adjusting device is used for adjusting the height positions of the cross rod on the left fixing plate and the right fixing plate.

2. The electrically automated feeding structure of claim 1, wherein: adjusting device includes front bezel, back plate, left side board and right side board, the bottom surface of front bezel the bottom surface of back plate the bottom surface of left side board and the bottom surface of right side board all with unable adjustment base's upper surface connection, the front bezel the back plate the left side board and right side board end to end, the front bezel with the back plate is parallel, the front bezel with there is the distance between the back plate, the left side board with the right side board is parallel, the left side board with there is the distance in the right side board.

3. The electrically automated feeding structure of claim 2, wherein: a sliding plate is arranged in a cavity formed between the front plate and the rear plate and between the left side plate and the right side plate, the rear wall of the sliding plate is connected with the inner wall of the front plate, a rack is arranged in the left sliding plate and is connected with the sliding plate in a sliding manner, and sliding grooves are formed in the side plates at two ends of the sliding plate; the rack is meshed with a gear, the gear is connected with a coupler, one end of the coupler is coaxially connected with the gear, the other end of the gear is connected with an adjusting motor, the output end of the adjusting motor is connected with the other end of the coupler, the adjusting motor is connected with the rear plate, and the adjusting motor is used for driving the rack to move up and down in the sliding plate.

4. The electrically automated feeding structure of claim 3, wherein: the rear wall of the sliding plate is detachably connected with the inner wall of the front plate.

5. The electrically automated feeding structure of claim 3, wherein: the rear plate is provided with a mounting hole, the adjusting motor is sleeved in the mounting hole, and the inner wall of the mounting hole is matched with the outer wall of the adjusting motor.

6. The electrically automated feeding structure of claim 3, wherein: the adjusting motor is a positive and negative rotation motor.

7. The electrically automated feeding structure of claim 1, wherein: the left fixing plate and the right fixing plate are both provided with height adjusting grooves, and the outer walls of the height adjusting grooves are provided with scale marks.

8. The electrically automated feeding structure of claim 7, wherein: the left end of the cross rod penetrates through the height adjusting groove in the left fixing plate, and the right end of the cross rod penetrates through the height adjusting groove in the right fixing plate.

Images