CN218986461U

CN218986461U - Automatic rain cloth covering system

Info

Publication number: CN218986461U
Application number: CN202223330837.1U
Authority: CN
Inventors: 朱海东; 王程杰
Original assignee: Shanghai Yiwei Machinery Co ltd
Current assignee: Shanghai Yiwei Machinery Co ltd
Priority date: 2022-12-13
Filing date: 2022-12-13
Publication date: 2023-05-09
Anticipated expiration: 2032-12-13

Abstract

The present utility model relates to the field of automation. The automatic rain cloth covering system comprises at least two supporting frames, wherein each supporting frame comprises an upright post and a cross beam, the cross beams are fixed at the top of the upright post, and a space exists between two adjacent supporting frames; the rain cloth fixing device comprises a rain cloth fixing device, and is characterized by further comprising a main beam, wherein at least two electric telescopic bamboo joints are fixed on the main beam, the extending ends of the electric telescopic bamboo joints face downwards, the extending ends of the electric telescopic bamboo joints are connected to a pull rod extending in the left-right direction, and a fixing piece for fixing the rain cloth is arranged on the pull rod; the lower part of the cross beam is provided with a sliding rail, a pulley is arranged in the sliding rail, and the main beam is at least connected with the pulleys of the two cross beams. The utility model can complete automatic covering of the rain cloth of the truck.

Description

Automatic rain cloth covering system

Technical Field

The utility model relates to the field of automation, in particular to a rain cloth covering system.

Background

For trucks with larger volumes, manual raincloth covering is common at present, so that not only are several people required to cooperate with each other, but also part of people need to climb to the top of the truck to operate in the covering process, and the efficiency is low and the operation is dangerous.

Disclosure of Invention

The utility model aims to provide an automatic rain cloth covering system which can cover rain cloth, plastic films, net ropes, canvas and the like for vehicles.

The technical problems solved by the utility model can be realized by adopting the following technical scheme:

the automatic rain cloth covering system comprises at least two supporting frames, wherein each supporting frame comprises a stand column extending in the vertical direction and a cross beam extending in the front-rear direction, the cross beams are fixed at the top of the stand column, and a space exists between two adjacent supporting frames;

the rain cloth fixing device is characterized by further comprising a main beam extending in the left-right direction, wherein at least two electric telescopic bamboo joints are fixed on the main beam, the extending ends of the electric telescopic bamboo joints face downwards, the extending ends of the electric telescopic bamboo joints are connected to a pull rod extending in the left-right direction, and a fixing piece for fixing the rain cloth is arranged on the pull rod;

the beam is provided with a sliding rail extending in the front-back direction, a pulley is arranged in the sliding rail, and the main beam is at least connected with the pulleys of the two beams.

Firstly, driving a truck into a parking space of a delimited area, and then placing a rain cloth on the ground; then, the electric telescopic bamboo joint is controlled to put down the pull rod, and one end of the rain cloth is fixed on the pull rod by the fixing piece; then, controlling the electric telescopic bamboo joint to lift the pull rod, so that one end of the rain cloth is lifted to the upper part of the truck; then, controlling the main beam to move back and forth along the cross beam, so that one end of the rain cloth is dragged from one side of the truck to the other side of the truck; then, the electric telescopic bamboo joint is controlled to put down the pull rod, so that automatic covering of the truck rain cloth is completed.

In order to make braced frame's structure more stable, braced frame still includes to one side the stand, draws bracing piece to one side, the top of stand upwards is connected with draw the stand to one side, draw the top of stand to one side to connect to one side the top of bracing piece to one side, draw the bottom of bracing piece to one side to connect the crossbeam, draw the stand to one side the bracing piece to one side, the crossbeam forms triangle-shaped's structure.

In order to make the structure of the support frame more stable, two adjacent cross beams are connected through a connecting beam. At least two connecting beams are arranged between two adjacent cross beams, one connecting beam is connected to one end of the cross beam, which is close to the upright post, and the other connecting beam is connected to one end of the cross beam, which is far away from the upright post.

Preferably, the girder includes at least two first frame girders arranged side by side, and a distance between two first frame girders located at the outermost side is taken as a width of the girder. The utility model selects the structure of the main beam, adopts the first frame beam, and has the advantages of convenient width adjustment, light overall mass and convenient hanging of the electric telescopic bamboo joints.

The electric telescopic bamboo joint comprises a base and a telescopic rod connected below the base. Preferably, the main beam comprises two first frame beams, and the base is sandwiched between the two first frame beams. Thereby utilize the base of the electronic flexible bamboo joint of high accommodation of main beam, make the height of holistic structure higher.

The slide rail preferably comprises two second frame beams arranged side by side. The first frame beam comprises an upper supporting rod positioned above, a lower supporting rod positioned below and a connecting rod for connecting the upper supporting rod and the lower supporting rod, and the end part of the upper supporting rod is propped against the second frame beam; the end part of the lower support rod extends from the lower part of the second frame beams to the position between the two second frame beams. A driving trolley capable of moving along the two second frame beams is arranged between the two second frame beams, and the end part of the lower supporting rod is connected to the driving trolley. And the driving trolley is connected with a driving motor so as to serve as the pulley.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a side view of the structure of FIG. 1;

fig. 3 is a front view of the structure of fig. 1.

Detailed Description

In order that the manner in which the utility model is practiced, as well as the features and objects and functions thereof, will be readily understood and appreciated, the utility model will be further described in connection with the accompanying drawings.

Referring to fig. 1, 2 and 3, the automatic rain cloth covering system includes at least two support frames including a vertical column 13 extending in a vertical direction, a cross beam 9 extending in a front-rear direction, the cross beam 9 being fixed on top of the vertical column 13 with a space between adjacent two support frames. The automatic rain cloth covering system further comprises a main beam extending in the left-right direction, at least two electric telescopic bamboo joints are fixed on the main beam, the extending ends of the electric telescopic bamboo joints face downwards, the extending ends of the electric telescopic bamboo joints are connected to a pull rod 16 extending in the left-right direction, and a fixing piece 17 for fixing the rain cloth is arranged on the pull rod 16; the lower part of the cross beam 9 is provided with a sliding rail extending in the front-back direction, a pulley is arranged in the sliding rail, and the main beam is at least connected with the pulleys of the two cross beams 9. Firstly, driving a truck into a parking space of a delimited area, and then placing a rain cloth on the ground; then, the electric telescopic bamboo joint is controlled to put down the pull rod, and one end of the rain cloth is fixed on the pull rod by the fixing piece; then, controlling the electric telescopic bamboo joint to lift the pull rod, so that one end of the rain cloth is lifted to the upper part of the truck; then, the main beam is controlled to move back and forth along the cross beam 9, so that one end of the rain cloth is dragged from one side of the truck to the other side of the truck; then, the electric telescopic bamboo joint is controlled to put down the pull rod, so that automatic covering of the truck rain cloth is completed.

In order to make braced frame's structure more stable, braced frame still includes to draw stand 11, draws bracing piece 10 to one side, and the top of stand 13 upwards is connected with to one side and draws stand 11 to one side, draws the top of stand 11 to one side to connect to one side to the top of bracing piece 10 to one side, draws bracing piece 10 to one side to the bottom to connect crossbeam 9, draws stand 11 to one side, draws bracing piece 10, crossbeam 9 to form the structure of triangle-shaped. The cable-stayed support rods 10 can be provided with a plurality of cable-stayed support rods. Thereby forming a plurality of triangular structures, further improving the stability of the frame structure, wherein the bottom of one diagonal bracing rod 10 is preferably close to one end of the cross beam 9 far away from the upright 13, and wherein the bottom of one diagonal bracing rod 10 is preferably close to the middle of the cross beam 9. The connection between the cable-stayed support rod 10 and the cable-stayed upright post 11 and the cross beam 9 is preferably connected through a rotating shaft, so that a certain deformation capacity is provided by utilizing the rotating shaft.

In fig. 1, the diagonal-pulling upright post 11, the cross beam 9 and the upright post 13 are sequentially connected from top to bottom, namely, the top of the upright post 13 is provided with a first supporting platform, the bottom of the cross beam 9 is provided with a second supporting platform, and the first supporting platform and the second supporting platform are connected through bolts; the top of the cross beam 9 is provided with a third supporting platform, the bottom of the inclined-pull upright post 11 is provided with a fourth supporting platform, and the third supporting platform is connected with the fourth supporting platform through bolts. A first triangular support plate is arranged between the first support platform and the side wall of the upright post 13 to increase the connection strength of the first triangular support plate. A second triangular support plate is arranged between the fourth support platform and the side wall of the inclined-pulling upright post 11 so as to increase the connection strength of the position.

In order to stabilize the structure of the support frame, two adjacent cross beams 9 are connected by a connecting beam 1. At least two connecting beams 1 are arranged between two adjacent cross beams 9, one of the connecting beams is connected to one end of the cross beam 9 close to the upright 13, and the other connecting beam is connected to one end of the cross beam 9 far from the upright 13.

In order to make the girder slide more stable, the girder has a certain width. The width is preferably not less than 5cm. It is further preferred that the girder comprises at least two first frame beams 2 arranged side by side, with the distance between the two first frame beams 2 located at the outermost side as the width of the girder. The utility model selects the structure of the main beam, adopts the first frame beam 2, and has the advantages of convenient width adjustment, light overall mass and convenient hanging of the electric telescopic bamboo joints.

The electric telescopic bamboo joint comprises a base 5 and a telescopic rod 15 connected below the base 5. The telescoping rod 15 is preferably stainless steel 304. Preferably, the girder comprises two first frame beams 2, the foundation 5 being sandwiched between the two first frame beams 2. The base 5 and the second frame beam may be connected by means of a connection 4. The connecting piece 4 is preferably a single chain electric hoist. Thereby utilize the base of the electronic flexible bamboo joint of high accommodation of main beam, make the height of holistic structure higher. The telescopic rod 15 is used as the extending end of the electric telescopic bamboo joint. A pull rod is connected to the bottom of the telescopic rod 15. May be a welded connection.

The slide rail is preferably fixed under the cross beam 9 by means of a hoisting fixture 6. The utility model selects the connection mode of the sliding rail and the cross beam 9, is convenient to install after the connection mode is selected, and can reduce the production difficulty of the cross beam 9. The hoisting fixing member 6 may be a flange or an n-shaped fixing plate. At least two hoisting fixing pieces 6 are arranged.

The slide rail preferably comprises two second frame beams 7 arranged side by side. The first frame beam 2 comprises an upper supporting rod 23 positioned above, a lower supporting rod positioned below and a connecting rod for connecting the upper supporting rod 23 and the lower supporting rod, and the end part of the upper supporting rod 23 is propped against the second frame beam 7; the ends of the lower support bars extend from below the second frame beams 7 to between the two second frame beams. A driving trolley 8 which can move along the two second frame beams 7 is arranged between the two second frame beams 7, and the end part of the lower supporting rod is connected to the driving trolley. The driving trolley 8 is connected with a driving motor 3. And the second frame beam is provided with a trolley wire fixing bracket, and a driving wire of the driving motor is clamped on the trolley wire fixing bracket. The drive wire is preferably a five-core trolley wire. The cross beam 9 is preferably a square box beam, so that the bottom is planar, and the sliding rail is convenient to hang.

Preferably, the second frame beam is provided with a strip-shaped containing chute at a position corresponding to the end part of the upper supporting rod, a pulley is fixed on the end part of the upper supporting rod, and the pulley is inserted into the chute.

An electric cabinet 22 is fixed on the main beam, and a cover 21 is arranged above the electric cabinet, so that the electric cabinet 22 is protected from rain and sun by the cover 21. The electric cabinet is also preferably sandwiched between two first frame beams 2.

The outer side wall of the upright post 13 is provided with a threading pipe 14, the bottom of the upright post 13 is fixedly provided with a main power supply control box 18 or a control key, and the control key at least comprises an emergency stop button 19. A control line is arranged in the threading pipe in a penetrating way, one end of the control line is connected with a main power supply control box, the other end of the control line is connected with an electric cabinet, and the electric cabinet is electrically connected with a driving motor and an electric telescopic bamboo joint.

In order to further increase the stability of the structure, an auxiliary frame 20 may be provided between two adjacent support frames. The auxiliary frame 20 is different from the supporting frame in that no slide rail is provided under the auxiliary frame 20, and the other is not different. The end parts of the cross beams 9 of the supporting frame and the auxiliary frame are preferably provided with warning lamps so as to warn. The warning lamp can be composed of a plurality of small lamps. The height, width and other information of a truck applicable to the automatic rain cloth covering system can be displayed by controlling the illumination and non-illumination of the small lamp, or the working state and fault information of the automatic rain cloth covering device can be displayed by controlling the illumination and non-illumination of the small lamp.

The fixing piece for fixing the rain cloth can be a hook, a claw, a clip and the like. Thereby utilizing the hanging holes at the edge of the rain cloth to be hooked by the hooks, the clamping claws and the clamps. The utility model can also be a rod-shaped body in an n shape, and the two ends of the rod-shaped body are preferably inserted and connected with the upper part of the pull rod in a pluggable way. When in use, the rod-shaped body is pulled down, two ends of the rod-shaped body penetrate through the hanging holes in the rain cloth, then the rod-shaped body is inserted on the pull rod, and the end part of the rain cloth is pressed by the rod-shaped body. It is also preferable that both ends of the rod-shaped body are rotatably connected to the upper portion of the pull rod. When the rain cloth clamp is used, the rod-shaped body is taken down, the rain cloth is paved on the pull rod, and then the rod-shaped body (the rain cloth clamp) is pressed down from the upper part of the pull rod, so that the rain cloth can be clamped on the pull rod. The end of the rain cloth is pressed by the rod-shaped body.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. The automatic rain cloth covering system comprises at least two supporting frames, wherein each supporting frame comprises a stand column extending in the vertical direction and a cross beam extending in the front-rear direction, the cross beams are fixed at the top of the stand column, and a space exists between two adjacent supporting frames;

2. The automatic raincloth covering system according to claim 1, wherein the support frame further comprises a diagonal column and a diagonal support rod, the top of the column is upwardly connected with the diagonal column, the top of the diagonal column is connected with the top of the diagonal support rod, the bottom of the diagonal support rod is connected with the cross beam, and the diagonal column, the diagonal support rod and the cross beam form a triangular structure.

3. The automatic rainfly covering system of claim 2, wherein the plurality of diagonal support bars, wherein the bottom of one diagonal support bar is near the end of the beam that is remote from the upright, and wherein the bottom of one diagonal support bar is near the middle of the beam.

4. The automatic raincloth covering system according to claim 2, wherein the diagonal upright post, the cross beam and the upright post are sequentially connected from top to bottom, namely, a first supporting platform is arranged at the top of the upright post, a second supporting platform is arranged at the bottom of the cross beam, and the first supporting platform and the second supporting platform are connected through bolts; the top of the cross beam is provided with a third supporting platform, the bottom of the diagonal upright post is provided with a fourth supporting platform, and the third supporting platform is connected with the fourth supporting platform through bolts; a first triangular support plate is arranged between the first support platform and the side wall of the upright post; and a second triangular support plate is arranged between the fourth support platform and the side wall of the inclined-pull upright post.

5. The automatic rainfly covering system of claim 1, wherein the main beam comprises at least two first frame beams arranged side by side, and a distance between two first frame beams located at the outermost side is taken as a width of the main beam.

6. The automatic rainfly covering system of claim 5, wherein the motorized telescopic bamboo joint comprises a base, a telescopic rod connected below the base, two first frame beams, and the base is sandwiched between the two first frame beams.

7. The automatic rainfly covering system of claim 5, wherein the slide rail comprises two second frame beams disposed side by side;

the first frame beam comprises an upper supporting rod positioned above, a lower supporting rod positioned below and a connecting rod for connecting the upper supporting rod and the lower supporting rod, and the end part of the upper supporting rod is propped against the second frame beam; the end part of the lower support rod extends from the lower part of the second frame beams to the position between the two second frame beams;

a driving trolley capable of moving along the two second frame beams is arranged between the two second frame beams, the end part of the lower supporting rod is connected to the driving trolley, and a driving motor is connected to the driving trolley so as to drive the trolley to serve as the pulley.

8. The automatic rain cloth covering system according to claim 7, wherein the second frame beam is provided with a receiving bar-shaped chute at a position corresponding to an end of the upper support bar, and a pulley is fixed to the end of the upper support bar, and the pulley is inserted into the chute.

9. The automatic rain cloth covering system of any of claims 1-8, wherein the cross beam is a square shaped box beam, and the slide rail is secured below the cross beam by a lifting fixture.

10. The automatic raincloth covering system according to any one of claims 1 to 8, wherein the fixing member is a rod-shaped body having an "n" shape, and both ends of the rod-shaped body are inserted in an upper portion of the tie rod in a pluggable manner.