CN113716496B

CN113716496B - Convenient various steel of unloading is rolled up production transfer conveyer

Info

Publication number: CN113716496B
Application number: CN202111283837.8A
Authority: CN
Inventors: 姜松; 陈凯; 范旭
Original assignee: JIANGSU PIONEER TECHNOLOGY CO LTD
Current assignee: JIANGSU PIONEER TECHNOLOGY CO LTD
Priority date: 2021-11-01
Filing date: 2021-11-01
Publication date: 2021-12-31
Anticipated expiration: 2041-11-01
Also published as: CN113716496A

Abstract

The invention discloses a color steel coil production transfer transportation device convenient for unloading, which comprises a manual forklift main body, wherein an operation adjusting rod is arranged on the manual forklift main body, two forklift forks are symmetrically arranged at the front end of the manual forklift main body, a buffer device is arranged in each of the two forklift forks, and each buffer device comprises a rubber baffle and a buffer spring. The invention relates to a transfer transportation device for producing color steel coils convenient to unload, which belongs to the field of transportation devices.

Description

Convenient various steel of unloading is rolled up production transfer conveyer

Technical Field

The invention relates to the field of conveying devices, in particular to a color steel coil production transfer conveying device convenient for unloading.

Background

The color steel coil is a composite material, also called color coating steel plate, and is a product prepared by continuously carrying out chemical conversion coating treatment such as surface degreasing, phosphorization and the like on strip steel on a production line, coating organic coating and baking. The steel plate has the mechanical strength and the easy forming performance of the steel plate, and also has the good decoration and corrosion resistance of organic materials. The coating types of the color steel coil can be divided into: polyester, silicon modified polyester, polyvinylidene fluoride, high weather resistant polyester and clinker sol. The color steel materials are divided into five types: packaging, household appliances, building materials, optical materials and decorative materials. The manual forklift is a dual-purpose vehicle for lifting, loading, unloading and short-distance transportation, and does not generate sparks and electromagnetic fields. It is especially suitable for loading and unloading automobile and loading and unloading transportation of inflammable, explosive and fire-forbidden articles in workshop, warehouse, dock, station, goods yard, etc. The product has the characteristics of balanced lifting, flexible rotation, convenient operation and the like.

The prior manual forklift with patent number CN201920551356.2 can adjust the distance between the forks to ensure the stability of the workpiece on the forks, but is not convenient for unloading, when the prior manual forklift is used for transferring and transporting the color steel coil, the color steel coil is generally not easy to drop from the forklift during transportation, when the color steel coil is supported, the color steel coil is located at the rear position of the fork of the forklift, and when the color steel coil is located at the rear position of the fork of the forklift, the front side of the fork of the forklift protrudes too long relative to the color steel coil placed on the fork, so that the color steel coil to be unloaded cannot be close to the color steel coil placed in the transfer, which is inconvenient for tightly placing the adjacent color steel coils, and in order to make the color steel coil tightly placed after the transfer, the occupied space is reduced, the fork of the forklift needs to be lowered first, the color steel coil is landed, then move fork truck backward, then rise the fork truck fork again, use the front side of fork truck fork to lift various steel book, then promote fork truck for various steel book on the fork truck is close to the transfer and places the various steel book of completion, lift various steel book off again at last and make it land, this kind of discharge mode is not convenient for fast lift various steel book off from the fork truck fork under the condition of closely putting, thereby finally reduced work efficiency.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a transfer transportation device for producing color steel coils convenient for unloading, which can place color steel coils on a fork of a forklift when in use by arranging a slidable sliding device on the fork, can slide the sliding device forwards when the color steel coils need to be unloaded from the fork of the forklift, so that the color steel coils are positioned at the front side of the fork of the forklift and then put down to land, thereby avoiding the problem that the unloading can be finished by repeatedly lifting the fork of the forklift under the condition of tight arrangement, finally being convenient for quickly unloading the color steel coils from the fork of the forklift under the condition of tight arrangement, improving the working efficiency, reducing the impact of the sliding device on the fork of the forklift during unloading by arranging a buffer device, prolonging the service life of the forklift, installing a resistance reducing ball on the sliding device, the resistance of the sliding device in the moving process can be reduced, and the sliding device can be conveniently fixed by arranging the fixing device, so that the sliding device is prevented from moving due to external force when not required to move.

2. Technical scheme

In order to achieve the purpose, the invention adopts the technical scheme that:

a color steel coil production transfer transportation device convenient for unloading comprises a manual forklift main body, wherein an operation adjusting rod is installed on the manual forklift main body, two forklift forks are symmetrically installed at the front end of the manual forklift main body, a buffer device is installed in each forklift fork, each buffer device comprises a rubber baffle and a buffer spring, a sliding device is respectively and slidably installed on each forklift fork, each sliding device comprises a sliding placing plate and an anti-falling sliding block, the sliding placing plate is arranged at the upper end of the anti-falling sliding block, a plurality of resistance reducing balls are respectively and symmetrically installed on each anti-falling sliding block, a fixing device is installed on each forklift fork, each fixing device comprises a spring pressing plate, a fixing spring, a connecting supporting plate and a fixing clamping block, the fixing springs are arranged at the lower end of the spring pressing plate, two connecting supporting plates are symmetrically arranged on the outer wall of the spring pressing plate, the fixed clamping blocks are two and are respectively arranged at the outer ends of the two connecting supporting plates.

Further, the lower extreme of manual fork truck main part is provided with the slip gyro wheel, the front end of manual fork truck main part is provided with spring mounting panel, spring mounting panel passes through the front end of welded mode fixed mounting in manual fork truck main part, spring mounting panel is located between two fork truck forks.

Further, two fork trucks of said fork truck are all fixedly mounted on the front end of the main body of the hand fork truck by welding, the lower ends of two fork trucks of said fork truck are all fitted with an adjustable roller, the upper ends of two fork trucks of said fork truck are all equipped with a connecting chute, the front side inner wall of two said connecting chutes is all equipped with a spring receiving groove, two said fork trucks of said fork truck are all equipped with two ball rolling grooves symmetrically, four said ball rolling grooves are respectively opened at the bottom of two connecting chutes, the left and right ends of two said fork trucks of said fork truck are both equipped with two anti-drop connecting grooves symmetrically, four said anti-drop connecting grooves respectively pass through the left and right ends of two fork trucks of said two connecting chutes, the upper ends of two said fork trucks of said fork truck are both equipped with a fixture block receiving groove, two said fixture block receiving grooves are respectively opened behind two connecting chutes, two a connect logical groove has all been seted up to the inner of fork truck fork, just connect logical groove and be located the upper end of fork truck fork simultaneously, two connect logical groove and accomodate the groove with the inner of two fork truck forks and two fixture blocks respectively and run through.

Further, two buffer installs respectively in two connection spouts that two fork truck fork upper ends were seted up, two buffer spring is located two connection spouts front side inner wall respectively and sets up two springs and accomodates the inslot, buffer spring accomodates the inslot at the spring through viscose fixed mounting, two rubber baffle is located two connection spouts that two fork truck fork upper ends were seted up respectively, rubber baffle can carry out the back-and-forth movement in connecting the spout, rubber baffle and buffer spring pass through viscose fixed mounting and are in the same place. Through setting up buffer, the impact of slider to fork truck fork when can falling the discharge to promote fork truck's life.

Further, two on the slider slide and place the board and be located the top of two fork truck forks respectively, two the upper end that the board was placed in the slip all is provided with a plurality of rubber antislip strip, two slide and place and all seted up a fixed slot on the board, two fixed slot will slide respectively and place the upper and lower both ends of board and run through two fixed slot all sets up at the rear of rubber antislip strip, slide and place the board and pass through the upper end of screw fixed mounting at the anticreep slider.

Furthermore, a plurality of rubber antislip strip is even setting, a plurality of rubber antislip strip all places the upper end of board through viscose fixed mounting in the slip.

Furthermore, two last two anticreep sliders of slider are T shape structure, anticreep slider slidable mounting is in the connection spout and the anticreep spread groove of seting up on the fork truck goods fork, two a plurality of ball rotor groove, a plurality of have all been seted up to the lower extreme of anticreep slider the ball rotor groove is spherical structure. Through set up slidable slider on the fork truck fork, can be when using, place the color steel coil on it, when needs lift the color steel coil off from the fork truck fork, can slide slider forward, thereby make the color steel be in the front side of fork truck fork, then put down it make it land can, and then avoided needing repeated lift fork truck fork under the condition of closely putting and just can accomplish the unloading, the final quick lift the color steel coil off from the fork truck fork under the condition of closely putting of being convenient for, work efficiency has been promoted.

Furthermore, a plurality of the drag reduction balls are respectively arranged in a plurality of ball rotating grooves symmetrically formed at the lower ends of the two anti-falling sliding blocks, the drag reduction balls can rotate in the ball rotating grooves, and the drag reduction balls are in contact with the inner walls of the ball rolling grooves. By installing the drag reduction balls on the sliding device, the resistance of the sliding device in the moving process can be reduced.

Further, last fixed spring setting of fixing device is in the upper end of spring mounting panel, two fixed fixture block is installed respectively and is taken in the inslot at two fixture blocks that two fork truck fork upper ends were seted up, fixed fixture block can reciprocate in the fixture block takes in the inslot, spring clamp plate, joint support board and fixed fixture block are integrated into one piece structure. Through setting up fixing device, can be convenient for fix slider to when preventing that slider no longer need remove, receive external force and remove.

Furthermore, the lower extreme of operation regulation pole is provided with connection structure, the upper end of operation regulation pole is provided with controls the connecting block, control the symmetry on the connecting block and install two hand handles.

3. Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

(1) the sliding device is arranged on the fork of the forklift, so that the color steel coil can be placed on the sliding device when the forklift is used, and when the color steel coil needs to be detached from the fork of the forklift, the sliding device can slide forwards, so that the color steel is positioned on the front side of the fork of the forklift, and then the color steel coil is put down to land on the ground, thereby avoiding the situation that the fork of the forklift needs to be repeatedly lifted under the condition of tight placement so as to finish the unloading, finally being convenient for rapidly detaching the color steel coil from the fork of the forklift under the condition of tight placement, and improving the working efficiency;

(2) by arranging the buffer device, the impact of the sliding device on the fork of the forklift can be reduced during unloading, so that the service life of the forklift is prolonged;

(3) the resistance of the sliding device in the moving process can be reduced by installing the resistance-reducing balls on the sliding device;

(4) through setting up fixing device, can be convenient for fix slider to when preventing that slider no longer need remove, receive external force and remove.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the present invention of a hand truck transporting color steel coils;

FIG. 3 is a schematic structural view of the fork of the forklift of the present invention;

FIG. 4 is an enlarged view of the invention at A of FIG. 3;

FIG. 5 is a schematic view of the sliding device of the present invention;

FIG. 6 is a schematic view of the construction of the sliding device and drag reducing balls of the present invention;

FIG. 7 is a schematic structural diagram of a buffering device according to the present invention;

fig. 8 is a schematic structural view of the fixing device of the present invention.

In the figure: 1. a manual forklift body; 2. a forklift fork; 3. a buffer device; 4. a sliding device; 5. resistance reducing balls; 6. a fixing device; 7. operating the adjusting rod; 8. a spring mounting plate; 9. an adjustable roller; 10. connecting the sliding chute; 11. a ball rolling groove; 12. anti-drop connecting grooves; 13. a fixture block receiving groove; 14. connecting the through grooves; 15. a rubber baffle; 16. a buffer spring; 17. sliding the placing plate; 18. rubber antislip strips; 19. fixing the clamping groove; 20. an anti-drop slide block; 21. rolling ball rotary grooves; 22. a spring pressing plate; 23. fixing the spring; 24. connecting the supporting plate; 25. fixing the fixture block; 26. controlling the connecting block; 27. a handle portion; 28. and (5) a connecting structure.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1:

as shown in fig. 1, 2, 3, 4, 5 and 6, the color steel coil production transfer transportation device convenient for unloading comprises a manual forklift body 1, sliding rollers are arranged at the lower end of the manual forklift body 1, a spring mounting plate 8 is arranged at the front end of the manual forklift body 1, the spring mounting plate 8 is fixedly arranged at the front end of the manual forklift body 1 in a welding manner, the spring mounting plate 8 is positioned between two forklift forks 2, an operation adjusting rod 7 is arranged on the manual forklift body 1, a connecting structure 28 is arranged at the lower end of the operation adjusting rod 7, an operation connecting block 26 is arranged at the upper end of the operation adjusting rod 7, two hand handles 27 are symmetrically arranged on the operation connecting block 26, the two forklift forks 2 are symmetrically arranged at the front end of the manual forklift body 1, and the two forklift forks 2 are both fixedly arranged at the front end of the manual forklift body 1 in a welding manner, the lower ends of two forklift forks 2 are respectively provided with an adjustable idler wheel 9, the upper ends of the two forklift forks 2 are respectively provided with a connecting chute 10, the inner wall of the front side of the two connecting chutes 10 is respectively provided with a spring accommodating groove, the two forklift forks 2 are respectively and symmetrically provided with two ball rolling grooves 11, four ball rolling grooves 11 are respectively arranged at the bottom ends of the two connecting chutes 10, the left and right ends of the two forklift forks 2 are respectively and symmetrically provided with two anti-falling connecting grooves 12, the left and right ends of the two forklift forks 2 are respectively penetrated through the two connecting chutes 10 by the four anti-falling connecting grooves 12, the upper ends of the two forklift forks 2 are respectively provided with a fixture block accommodating groove 13, the two fixture block accommodating grooves 13 are respectively arranged at the rear parts of the two connecting chutes 10, the inner ends of the two forklift forks 2 are respectively provided with a connecting through groove 14, and the connecting through groove 14 is simultaneously positioned at the upper ends of the forklift forks 2, the two connecting through grooves 14 respectively penetrate the inner ends of two forklift forks 2 and two fixture block accommodating grooves 13, a sliding device 4 is slidably mounted on each forklift fork 2, each sliding device 4 comprises a sliding placing plate 17 and an anti-falling sliding block 20, the sliding placing plate 17 is arranged at the upper end of the anti-falling sliding block 20, the two sliding placing plates 17 on the two sliding devices 4 are respectively positioned above the two forklift forks 2, a plurality of rubber anti-sliding strips 18 are arranged at the upper ends of the two sliding placing plates 17, a fixed clamping groove 19 is arranged on each sliding placing plate 17, the two fixed clamping grooves 19 respectively penetrate the upper end and the lower end of each sliding placing plate 17, the two fixed clamping grooves 19 are respectively arranged behind the rubber anti-sliding strips 18, the sliding placing plates 17 are fixedly mounted at the upper ends of the anti-falling sliding blocks 20 through screws, the plurality of rubber anti-sliding strips 18 are uniformly arranged, the plurality of rubber anti-sliding strips 18 are fixedly mounted at the upper ends of the sliding placing plates 17 through viscose, the two anti-drop sliding blocks 20 on the two sliding devices 4 are both of a T-shaped structure, the anti-drop sliding blocks 20 are slidably mounted in a connecting chute 10 and an anti-drop connecting groove 12 which are formed in a fork 2 of the forklift, a plurality of ball rotating grooves 21 are symmetrically formed in the lower ends of the two anti-drop sliding blocks 20, the plurality of ball rotating grooves 21 are all of a spherical structure, the sliding device 4 can slide back and forth on the fork 2 of the forklift, when the anti-drop device is used, the fork 2 of the forklift can be moved to the lower side of a color steel coil, so that the color steel coil is positioned right above the sliding device 4, then the fork 2 of the forklift is lifted upwards by using an operation adjusting rod 7, so that the color steel coil is lifted finally, the color steel coil is positioned at the upper end of the sliding device 4, after the color steel coil is moved to a designated position, in order to enable the gap between the color steel coils which are adjacently positioned to be smaller, more color steel coils can be positioned in the same storage space, reduce the storage cost of placing of color coil of strip, can slide slider 4 and the color coil of strip can be in strip of strip, the strip of.

Example 2:

as shown in fig. 1 and 7, a buffer device 3 is installed in each of two forklift forks 2, each buffer device 3 comprises a rubber baffle 15 and a buffer spring 16, the two buffer devices 3 are respectively installed in two connecting chutes 10 formed at the upper ends of the two forklift forks 2, the two buffer springs 16 are respectively located in two spring accommodating grooves formed on the inner walls of the front sides of the two connecting chutes 10, the buffer springs 16 are fixedly installed in the spring accommodating grooves through viscose, the two rubber baffles 15 are respectively located in the two connecting chutes 10 formed at the upper ends of the two forklift forks 2, the rubber baffle 15 can move back and forth in the connecting chutes 10, the rubber baffle 15 and the buffer springs 16 are fixedly installed together through viscose, the existence of the buffer device 3 can reduce the impact of the sliding device 4 on the forklift forks 2 during unloading, thereby prolonging the service life of the forklift trucks, the rubber baffles 15 on the buffer devices 3 can extrude the buffer springs 16 under the impact of the sliding device 4, thereby causing the buffer spring 16 to contract, in the process, causing the impact force of the slide 4 to decrease.

Example 3:

as shown in fig. 6, a plurality of resistance reducing balls 5 are symmetrically installed on two anti-falling sliders 20, the plurality of resistance reducing balls 5 are respectively installed in a plurality of ball transfer grooves 21 symmetrically formed in the lower ends of the two anti-falling sliders 20, the resistance reducing balls 5 can rotate in the ball transfer grooves 21, the resistance reducing balls 5 contact with the inner walls of the ball transfer grooves 11, in the moving process of the sliding device 4, the resistance reducing balls 5 contact with the forklift forks 2, the resistance reducing balls 5 can rotate, and therefore the resistance of the sliding device 4 to move is reduced.

Example 4:

as shown in fig. 8, a fixing device 6 is installed on two forklift forks 2, the fixing device 6 includes a spring pressing plate 22, a fixing spring 23, a connecting support plate 24 and two fixing blocks 25, the fixing spring 23 is disposed at the lower end of the spring pressing plate 22, the connecting support plate 24 has two blocks symmetrically disposed on the outer wall of the spring pressing plate 22, the fixing blocks 25 have two blocks respectively disposed at the outer ends of the two connecting support plates 24, the fixing spring 23 on the fixing device 6 is disposed at the upper end of the spring mounting plate 8, the two fixing blocks 25 are respectively installed in two block accommodating grooves 13 formed at the upper ends of the two forklift forks 2, the fixing blocks 25 can move up and down in the block accommodating grooves 13, the spring pressing plate 22, the connecting support plate 24 and the fixing blocks 25 are formed as an integral structure, the fixing blocks 25 on the fixing device 6 can move up and down, the fixing device 6 is required to fix the sliding device 4 before the color steel coil is transported, at this moment, the fixing device 6 is pressed downwards firstly, so that the fixing fixture block 25 is accommodated in the fixture block accommodating groove 13, then the sliding device 4 is moved towards the rear side, when the sliding device 4 cannot move backwards continuously, the fixing device 6 is loosened, the fixing spring 23 can push the fixing fixture block 25 upwards, so that the fixing fixture block 25 is clamped into the fixing clamp groove 19 to fix the sliding device 4, when the sliding device 4 needs to move forwards, only the fixing device 6 needs to be pressed downwards firstly, and the fixing fixture block 25 is moved out of the fixing clamp groove 19.

Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a convenient various steel coils production transfer conveyer who unloads, includes manual fork truck main part (1), install operation regulation pole (7), its characterized in that on manual fork truck main part (1): the front end of the manual forklift main body (1) is symmetrically provided with two forklift forks (2), the upper ends of the two forklift forks (2) are respectively provided with a connecting chute (10), the upper ends of the two forklift forks (2) are respectively provided with a clamping block accommodating groove (13), two buffering devices (3) are respectively arranged in the two forklift forks (2), each buffering device (3) comprises a rubber baffle plate (15) and a buffering spring (16), the two buffering devices (3) are respectively arranged in the two connecting chutes (10) arranged at the upper ends of the two forklift forks (2), the two buffering springs (16) are respectively arranged in the two spring accommodating grooves arranged on the inner walls at the front sides of the two connecting chutes (10), the buffering springs (16) are fixedly arranged in the spring accommodating grooves through viscose, the two rubber baffle plates (15) are respectively arranged in the two connecting chutes (10) arranged at the upper ends of the two forklift forks (2), the rubber baffle (15) can move back and forth in the connecting sliding groove (10), the rubber baffle (15) and the buffer spring (16) are fixedly mounted together through viscose, two forklift forks (2) are all provided with a sliding device (4) in a sliding manner, the sliding device (4) comprises a sliding placing plate (17) and an anti-falling sliding block (20), the sliding placing plate (17) is arranged at the upper end of the anti-falling sliding block (20), the two anti-falling sliding blocks (20) are both symmetrically provided with a plurality of ball drag reduction devices (5), the two forklift forks (2) are provided with a fixing device (6), the fixing device (6) comprises a spring pressing plate (22), a fixing spring (23), a connecting supporting plate (24) and a fixing clamping block (25), the fixing spring (23) is arranged at the lower end of the spring pressing plate (22), the utility model discloses a fork truck, including spring clamp plate (22), joint support board (24), fixed fixture block (25) have two and the symmetry sets up on the outer wall of spring clamp plate (22), fixed fixture block (25) have two and set up respectively in the outer end of two joint support board (24), fixed spring (23) on fixing device (6) set up in the upper end of spring mounting board (8), two fixed fixture block (25) are installed respectively in two fixture blocks that two fork truck fork (2) upper ends were seted up and are received groove (13), fixed fixture block (25) can reciprocate in fixture block is received groove (13), spring clamp plate (22), joint support board (24) and fixed fixture block (25) are the integrated into one piece structure.

2. The color steel coil production transfer and transportation device convenient for unloading as claimed in claim 1, wherein: the lower extreme of manual fork truck main part (1) is provided with the slip gyro wheel, the front end of manual fork truck main part (1) is provided with spring mounting panel (8), spring mounting panel (8) are through the front end of welded mode fixed mounting in manual fork truck main part (1), spring mounting panel (8) are located between two fork truck forks (2).

3. The color steel coil production transfer and transportation device convenient for unloading as claimed in claim 1, wherein: the two forklift forks (2) are fixedly arranged at the front end of a manual forklift main body (1) in a welding mode, the lower ends of the two forklift forks (2) are respectively provided with an adjustable roller (9), the inner wall of the front side of the two connecting chutes (10) is respectively provided with a spring accommodating groove, the two forklift forks (2) are respectively and symmetrically provided with two ball rolling grooves (11), the four ball rolling grooves (11) are respectively arranged at the bottom ends of the two connecting chutes (10), the left and right ends of the two forklift forks (2) are respectively and symmetrically provided with two anti-falling connecting grooves (12), the four anti-falling connecting grooves (12) respectively penetrate through the left and right ends of the two forklift forks (2) and the two connecting chutes (10), and the two clamping block accommodating grooves (13) are respectively arranged at the rear sides of the two connecting chutes (10), two a connect logical groove (14) has all been seted up to the inner of fork truck fork (2), just connect logical groove (14) and be located the upper end of fork truck fork (2) simultaneously, two connect logical groove (14) and run through inner and two fixture block storage groove (13) of two fork truck forks (2) respectively.

4. The color steel coil production transfer and transportation device convenient for unloading as claimed in claim 1, wherein: two slip on slider (4) are placed board (17) and are located the top of two fork truck forks (2) respectively, two the upper end that slip was placed board (17) all is provided with a plurality of rubber antislip strip (18), two slip is placed and all has seted up one fixed slot (19) on board (17), two fixed slot (19) are respectively with two upper and lower both ends that slip was placed board (17) and run through, two fixed slot (19) are all seted up at the rear of rubber antislip strip (18), slip is placed board (17) and is passed through the upper end of screw fixed mounting at anticreep slider (20).

5. The convenient-to-unload color steel coil production transfer and transportation device as claimed in claim 4, wherein: the rubber anti-slip strips (18) are evenly arranged and fixedly mounted at the upper end of the sliding placement plate (17) through viscose glue.

6. The convenient-to-unload color steel coil production transfer and transportation device as claimed in claim 3, wherein: two anticreep slider (20) on slider (4) are T shape structure, in connecting spout (10) and anticreep spread groove (12) of seting up on fork truck fork (2) are connected to anticreep slider (20) slidable mounting, two a plurality of ball turn trough (21), a plurality of have been seted up to the equal symmetry of lower extreme of anticreep slider (20) ball turn trough (21) are spherical structure.

7. The convenient-to-unload color steel coil production transfer and transportation device as claimed in claim 6, wherein: the anti-drag slide block is characterized in that the anti-drag balls (5) are respectively arranged in a plurality of ball rotating grooves (21) symmetrically formed at the lower ends of the two anti-drop slide blocks (20), the anti-drag balls (5) can rotate in the ball rotating grooves (21), and the anti-drag balls (5) are in contact with the inner walls of the ball rolling grooves (11).

8. The color steel coil production transfer and transportation device convenient for unloading as claimed in claim 1, wherein: the lower extreme of operation regulation pole (7) is provided with connection structure (28), the upper end of operation regulation pole (7) is provided with controls connecting block (26), control and control on connecting block (26) symmetry and install two hand handle (27).