CN213111416U - Plastic-coated pipe transfer device - Google Patents

Abstract

The utility model relates to a section bar field of transporting discloses a plastic-coated pipe transfer device, including accepting portion and transporting portion, transporting portion includes many parallel arrangement's transportation rail, transports the vertical fender material post that is equipped with of rail one end, and accepting portion includes a plurality of accepts, and accept top side slope sets up, and the one side butt of transporting the rail is kept away from with keeping off the material post to one side that the slope is minimum to form V-arrangement accepting space, even there is a lifter bottom accepting, and when the lifter rises to the highest, the lowest of accepting top side is higher than and keeps off the material post. The pipe that it can effectively drop to the discharge end transports, avoids hindering follow-up ejection of compact to the pipe handling of being convenient for after transporting.

Description

Plastic-coated pipe transfer device

Technical Field

The utility model relates to a section bar field of transporting particularly, relates to a plastic-coated pipe transfer device.

Background

At present, when the plastic-coated pipe is produced or processed in a workshop, the finished pipe falls to the ground from the discharge end, and the finished pipe needs to be manually transferred to a stacking position, so that the disorder stacking of the discharge end pipe materials is prevented, and the subsequent discharging is influenced. During transferring, the pipes are tightly attached to the ground on the ground, so that the pipes are inconvenient to carry or hoist, and a large amount of labor and working time are consumed.

The present application is made in view of this feature.

Content of application

An object of the utility model is to provide a plastic-coated pipe transfer device, it can effectively transport the tubular product that the discharge end fell, avoids hindering the follow-up ejection of compact to the tubular product handling of being convenient for after transporting.

The embodiment of the application is realized by the following technical scheme:

the utility model provides a plastic-coated pipe transfer device, includes accepting portion and transportation portion, and transportation portion includes many parallel arrangement's transportation rail, transports the vertical fender material post that is equipped with of rail one end, accepting portion includes a plurality of accepting pieces, and accepting piece top side slope sets up, and one side that the transfer rail was kept away from with keeping off the material post to the one side butt that inclines the minimum to form V-arrangement accepting space, even there is the lifter bottom accepting piece, and when the lifter rose to the highest, the lowest department in accepting piece top side was higher than keeping off the material post.

Further, one side that keeps off the stock prop and be close to the transfer rail is equipped with the buffer board, and the buffer board becomes right angled triangle and sets up, and two right-angle sides of buffer board are connected with stock prop and transfer rail respectively, and the hypotenuse of buffer board is concave to be established to the arc limit.

Furthermore, the one end that keeps away from the material post of blocking of transfer rail even has the post of hindering the material, hinders one side that the material post is close to the material post and has laid first buffer layer.

Further, the radical of transfer rail is two, is equipped with the transfer platform between two transfer rails, and the transfer platform is close to and hinders the material post setting, and the transfer platform is close to the both sides of transfer rail and is equipped with spacing post respectively, the vertical spacing groove that has with spacing post sliding fit of opening of transfer rail top side works as when spacing post is located the spacing tank bottom, transfer platform top side and transfer rail top side parallel and level, transfer platform top side is opened there is the bearing groove, and the bearing groove is link up close to the both sides of transfer rail.

Furthermore, the top of the side wall of the bearing groove close to the two sides of the material blocking column and the material blocking column is arranged in a circular arc funnel shape.

Further, the supporting column is vertically arranged on one side, away from the material blocking column, of the bearing piece, the bottom end of the supporting column is fixedly connected, balls are uniformly paved on one side, close to the bearing piece, of the supporting column, and the bearing piece is in contact with the balls.

Furthermore, a reinforcing rib is arranged on one side, away from the bearing piece, of the supporting column.

Furthermore, the top side of the bearing piece is connected with a pressure reduction surface, and a second buffer layer is paved on the top surface of the pressure reduction surface.

The utility model provides a pair of plastic-coated pipe transfer device's beneficial effect is:

(1) keep off the stock column and accept the piece through setting up, and make the accept piece top side slope set up the accepting space that forms the V-arrangement, accomplish production or processing, the tubular product that falls from the discharge gate accepts, the tubular product both ends fall into respectively in two accepting spaces, thereby erect and fix tubular product, through setting up the lifter in the accept bottom, and set up the transfer rail, when needs are transported, rise two lifters in step, it rises to drive the accept, then drive tubular product to rise, until the lowest of accept top surface is higher than when keeping off the stock column, tubular product rolls forward under the effect of the horizontal component that the accept of top surface slope gave, cross and keep off stock column top, fall to the transfer rail on, and roll forward along the transfer rail, stop until slowing down, thereby realize the transportation of tubular product, avoid hindering follow-up ejection of compact.

(2) Through setting up the buffer board, the messenger crosses the tubular product at striker post top and can follow the arc roll downwards of buffer board top side (hypotenuse promptly), prevents on the one hand that tubular product from directly pounding and fall to transporting the rail on, and on the other hand further turns into kinetic energy with the gravitational potential energy of tubular product, makes tubular product can transport to more distant place.

(3) Through setting up the material blocking column, stop the speed reduction to the too big tubular product of kinetic energy that self kinetic energy was too big, or follow-up tubular product striking leads to, through setting up first buffer layer, subduct the rigidity striking of tubular product and material blocking column.

(4) Through setting up the transfer platform to realize the handling of the tubular product of transfer platform top, specifically, through setting up a plurality of spacing posts and a plurality of spacing grooves that correspond, carry out spacing on the horizontal direction to the transfer platform, and make the transfer platform can follow vertical direction lifting, with the separation of transfer rail, many spacing posts are used for tying and hang wire rope, thereby make the transfer platform can be hoisted by the overhead traveling crane.

(5) Through the top side that makes the transfer table and the parallel and level of transfer rail top side, be obstructed when avoiding tubular product to roll to, the notch of multirow spacing groove can slow down rolling tubular product many times, prevents that tubular product from rolling the overspeed.

(6) Through seting up the bearing groove on the transport table top side to make the bearing groove link up near the both sides of transporting the rail, when hoisting the transport table through the overhead traveling crane, be located the tubular product of its top and will fall into the bearing groove in, thereby carry on spacingly to tubular product roll direction, tubular product roll when preventing to hang the commentaries on classics.

(7) Through setting up the support column, support the accepting piece, prevent that it from taking place the slope of horizontal direction under the effect of horizontal component, further through laying the ball, prevent that accepting piece and support column lateral wall from crowding diely, make the accepting piece unable rise.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is the utility model discloses plastic-coated pipe transfer device's that embodiment provided looks sideways at half cut-away schematic diagram.

Icon: 10-a transfer rail; 101-a limiting groove; 11-a material blocking column; 12-a buffer plate; 13-a stock stop column; 131-a first buffer layer; 14-a support column; 141-a ball bearing; 15-reinforcing ribs; 20-a socket; 201-receiving space; 202-pressure reduction surface; 203-a second buffer layer; 21-a lifting member; 30-a transfer station; 31-a limiting column; 32-carrying groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present application, it should be noted that if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which is usually placed when the product of the application is used, the description is only for convenience and simplicity, and the indication or suggestion that the referred device or element must have a specific orientation, be constructed in a specific orientation and be operated, and thus, should not be construed as limiting the present application.

In the description of the present application, it should also be noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" should be interpreted broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Examples

Referring to fig. 1, the present embodiment provides a plastic-coated pipe transferring device, which includes a receiving portion and a transferring portion, wherein the transferring portion includes a plurality of transferring rails 10 disposed in parallel, two transferring rails 10 are taken as an example in the present embodiment, and the number of transferring rails 10 may be selected according to actual situations in other embodiments. The equal vertical fender material post 11 that is equipped with of one end of two transport rail 10 homonymies, two transport rail 10 symmetries set up, the accepting part includes a plurality of receiving 20, uses two receiving 20 as the example in this embodiment, and two receiving 20 correspond with a transport rail 10 respectively, and receiving 20 top side slope sets up, and the one side butt of transporting rail 10 is kept away from with fender material post 11 on the one side that the slope is minimum to form V-arrangement accepting space 201, receiving 20 bottom even has lift 21, and when lift 21 rose to the highest, receiving 20 top side minimum is higher than fender material post 11. Through setting up fender post 11 and receiving part 20, and make the top side slope of receiving part 20 set up the receiving space 201 that forms the V-arrangement, production or processing are accomplished, the tubular product that falls from the discharge gate accepts, the tubular product both ends fall into two receiving space 201 respectively, thereby erect and fix tubular product, through setting up lifting part 21 in receiving part 20 bottom, and set up transfer rail 10, when needs are transported, rise two lifting part 21 in step, drive receiving part 20 and rise, then drive tubular product and rise, until receiving part 20 top surface lower position is higher than when keeping off post 11, tubular product rolls forward under the effect of the horizontal force that receiving part 20 that the top surface slopes endowed, cross fender post 11 top, fall to transfer rail 10 on, and roll forward along transfer rail 10, stop until slowing down, thereby realize the transportation of tubular product, avoid hindering follow-up ejection of compact.

It should be noted that the lifting member 21 in this embodiment is a hydraulic cylinder, and in other embodiments, an air cylinder, a scissor lifting arm, or the like may be used.

In order to prevent to cross the direct pound of tubular product that keeps off material post 11 forward rolling and fall to transfer rail 10 on, further optimize the transfer route, one side that keeps off material post 11 and be close to transfer rail 10 is equipped with buffer board 12, and buffer board 12 becomes right triangle and sets up, and two right-angle sides of buffer board 12 are connected with keeping off material post 11 and transfer rail 10 respectively, and the hypotenuse of buffer board 12 is concave to be established as the arc limit. Through setting up buffer board 12, the messenger crosses the tubular product that keeps off the 11 tops of material post and can follow the arc roll downwards of buffer board 12 top sides (hypotenuse promptly), prevents on the one hand that tubular product from directly pounding and fall to transfer rail 10 on, and on the other hand further turns into kinetic energy with the gravitational potential energy of tubular product, makes tubular product can transport to more distant place.

In order to prevent the pipe from rolling out of the terminal of the transfer rail 10, a material blocking column 13 is connected to one end of the transfer rail 10 far away from the material blocking column 11, and a first buffer layer 131 is laid on one side of the material blocking column 13 close to the material blocking column 11. Through setting up the material blocking column 13, stop the speed reduction to the too big tubular product of kinetic energy that self kinetic energy was too big, or follow-up tubular product striking leads to, through setting up first buffer layer 131, subduct the rigid impact of tubular product and material blocking column 13.

For further transporting tubular product, be equipped with the transfer platform 30 between two transfer rails 10, the transfer platform 30 is close to and hinders the setting of material post 13, and the both sides that the transfer platform 30 is close to transfer rail 10 are equipped with spacing post 31 respectively, the vertical division in transfer rail 10 top side has the spacing groove 101 with spacing post 31 sliding fit, works as when spacing post 31 is located spacing groove 101 bottom, transfer platform 30 top side and transfer rail 10 top side parallel and level, transfer platform 30 top side is opened there is bearing groove 32, and bearing groove 32 link up near the both sides of transfer rail 10. Through setting up the transfer platform 30 to realize the handling of the tubular product of transfer platform 30 top, specifically, through setting up a plurality of spacing posts 31 and a plurality of spacing grooves 101 that correspond, carry out spacing on the horizontal direction to transfer platform 30, and make transfer platform 30 can follow vertical direction lifting, separate with transfer rail 10, many spacing posts 31 are used for tying and hang wire rope, thereby make transfer platform 30 can be hoisted by the overhead traveling crane. Through the top side that makes the transfer table 30 and the parallel and level of transfer rail 10 top side, be obstructed when avoiding tubular product to roll to, the notch of multirow spacing groove 101 can slow down rolling tubular product many times, prevents that tubular product from rolling the overspeed. Through seting up bearing groove 32 on the transport table 30 top side to make bearing groove 32 link up near the both sides of transfer rail 10, when hoisting transport table 30 through the overhead traveling crane, be located the tubular product of its top and will fall into in bearing groove 32, thereby it is spacing to carry out the tubular product roll direction, tubular product roll when preventing to hang the commentaries on classics.

In order to conveniently lift the transfer platform 30, the pipes can effectively fall into the bearing groove 32, and the top of the side wall of the bearing groove 32 close to the two sides of the material blocking column 11 and the material blocking column 13 is in a circular arc funnel-shaped arrangement.

In order to prevent the receiving part 20 from being inclined towards the direction far away from the material blocking column 11 under the action of the horizontal component force, a supporting column 14 is vertically arranged on one side, far away from the material blocking column 11, of the receiving part 20, the bottom end of the supporting column 14 is fixedly connected, balls 141 are uniformly paved on one side, close to the receiving part 20, of the supporting column 14, and the receiving part 20 is in contact with the balls 141. Through setting up support column 14, support socket 20, prevent that it from taking place the slope of horizontal direction under the effect of horizontal component, further through laying ball 141, prevent socket 20 and support column 14 lateral wall crowded deadly, make socket 20 unable rising.

In order to prevent the supporting column 14 from falling or deforming, the side of the supporting column 14 facing away from the socket 20 is provided with a reinforcing rib 15.

In order to reduce the pressure when the pipe falls to the top side of the socket 20, the top side of the socket 20 is connected with a pressure reducing surface 202, so that the prior contact between the socket 20 and the pipe is changed into surface contact, and the contact pressure is reduced, and a second buffer layer 203 is paved on the top surface of the pressure reducing surface 202, so that the falling pipe is buffered.

In summary, the utility model provides a plastic-coated pipe transfer device, which is provided with a material blocking column and a bearing piece, and the top side of the bearing piece is obliquely arranged to form a V-shaped bearing space, the tube which is produced or processed and falls from the discharge hole is received, two ends of the tube respectively fall into two receiving spaces, thereby erecting and fixing the pipe, arranging the lifting piece at the bottom of the bearing piece and arranging the transfer rail, when the pipe needs to be transported, the two lifting pieces are synchronously lifted to drive the receiving piece to be lifted, then the pipe is driven to be lifted until the lowest position of the top surface of the receiving piece is higher than the material blocking column, the pipe rolls forwards under the action of horizontal component force given by the receiving piece with the inclined top surface, passes over the top of the material blocking column and falls onto the transport rail, and roll along the transfer rail forward until the speed reduction stops to realize the transportation of tubular product, avoid hindering follow-up ejection of compact. Through setting up the buffer board, the messenger crosses the tubular product at striker post top and can follow the arc roll downwards of buffer board top side (hypotenuse promptly), prevents on the one hand that tubular product from directly pounding and fall to transporting the rail on, and on the other hand further turns into kinetic energy with the gravitational potential energy of tubular product, makes tubular product can transport to more distant place. Through setting up the material blocking column, stop the speed reduction to the too big tubular product of kinetic energy that self kinetic energy was too big, or follow-up tubular product striking leads to, through setting up first buffer layer, subduct the rigidity striking of tubular product and material blocking column. Through setting up the transfer platform to realize the handling of the tubular product of transfer platform top, specifically, through setting up a plurality of spacing posts and a plurality of spacing grooves that correspond, carry out spacing on the horizontal direction to the transfer platform, and make the transfer platform can follow vertical direction lifting, with the separation of transfer rail, many spacing posts are used for tying and hang wire rope, thereby make the transfer platform can be hoisted by the overhead traveling crane. Through the top side that makes the transfer table and the parallel and level of transfer rail top side, be obstructed when avoiding tubular product to roll to, the notch of multirow spacing groove can slow down rolling tubular product many times, prevents that tubular product from rolling the overspeed. Through seting up the bearing groove on the transport table top side to make the bearing groove link up near the both sides of transporting the rail, when hoisting the transport table through the overhead traveling crane, be located the tubular product of its top and will fall into the bearing groove in, thereby carry on spacingly to tubular product roll direction, tubular product roll when preventing to hang the commentaries on classics. Through setting up the support column, support the accepting piece, prevent that it from taking place the slope of horizontal direction under the effect of horizontal component, further through laying the ball, prevent that accepting piece and support column lateral wall from crowding diely, make the accepting piece unable rise.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (8)

1. A plastic-coated pipe transfer device is characterized by comprising a receiving part and a transfer part, wherein the transfer part comprises a plurality of transfer rails (10) which are arranged in parallel, one end of each transfer rail (10) is vertically provided with a material blocking column (11),

the accepting part comprises a plurality of accepting pieces (20), the top sides of the accepting pieces (20) are obliquely arranged, one side with the lowest inclination is abutted to one side, away from the transfer rail (10), of the material blocking column (11) to form a V-shaped accepting space (201), the bottom of the accepting piece (20) is connected with a lifting piece (21), and when the lifting piece (21) is lifted to the highest position, the lowest position of the top sides of the accepting piece (20) is higher than the material blocking column (11).

2. The plastic-coated pipe transfer device according to claim 1, wherein a buffer plate (12) is arranged on one side of the material blocking column (11) close to the transfer rail (10), the buffer plate (12) is arranged in a right triangle, two right-angle sides of the buffer plate (12) are respectively connected with the material blocking column (11) and the transfer rail (10), and the inclined side of the buffer plate (12) is concavely arranged into an arc-shaped side.

3. The plastic-coated pipe transfer device according to claim 1, characterized in that a material blocking column (13) is connected to one end of the transfer rail (10) far away from the material blocking column (11), and a first buffer layer (131) is laid on one side of the material blocking column (13) close to the material blocking column (11).

4. The plastic-coated pipe transfer device according to claim 3, wherein the number of the transfer rails (10) is two, a transfer table (30) is arranged between the two transfer rails (10), the transfer table (30) is arranged close to the material blocking column (13), two sides of the transfer table (30) close to the transfer rails (10) are respectively provided with a limiting column (31), the top side of the transfer rails (10) is vertically provided with a limiting groove (101) in sliding fit with the limiting column (31), when the limiting column (31) is positioned at the bottom of the limiting groove (101), the top side of the transfer table (30) is flush with the top side of the transfer rails (10),

the top side of the transfer platform (30) is provided with a bearing groove (32), and the two sides of the bearing groove (32) close to the transfer rail (10) are communicated.

5. The plastic-coated pipe transfer device according to claim 4, characterized in that the top of the side wall of the bearing groove (32) close to the two sides of the material blocking column (11) and the material blocking column (13) is arranged in a circular arc funnel shape.

6. The plastic-coated pipe transfer device according to claim 1, characterized in that a supporting column (14) is vertically arranged on one side of the bearing part (20) far away from the material blocking column (11), the bottom ends of the supporting columns (14) are fixedly connected, balls (141) are uniformly laid on one side of the supporting columns (14) close to the bearing part (20), and the bearing part (20) is in contact with the balls (141).

7. Plastic coated pipe transfer device according to claim 6, characterized in that the side of the support column (14) facing away from the adapter (20) is provided with a reinforcement (15).

8. The plastic-coated pipe transfer device according to claim 1, wherein the pressure reducing surface (202) is connected to the top side of the receiving member (20), and a second buffer layer (203) is laid on the top surface of the pressure reducing surface (202).

Images