CN221607179U - Full-automatic frame machine of frame sign indicating number that falls - Google Patents

Abstract

The utility model discloses a full-automatic frame pouring and stacking machine which comprises a feeding mechanism, wherein one side of the feeding mechanism is provided with a pouring mechanism, the top of the feeding mechanism is provided with a feeding mechanism, the feeding mechanism is connected with a frame stacking mechanism, and the top of the frame stacking mechanism is provided with a frame withdrawing mechanism. The beneficial effects of the utility model are as follows: according to the utility model, through the collocation and use of the feeding mechanism, the pouring mechanism, the feeding mechanism, the frame stacking mechanism and the frame returning mechanism, the automatic feeding, overturning and pouring, returning, frame returning and frame stacking can be realized on the material frames, so that the material frames can be automatically subjected to pouring and cleaning before being arranged and stacked, manual pouring is not needed, the labor intensity of workers is reduced, stable stacking can be realized after the pouring and cleaning, the continuous processing and use effects are realized, and the use efficiency is improved.

Description

Full-automatic frame machine of frame sign indicating number that falls

Technical Field

The utility model belongs to the technical field of frame stacking machines, and particularly relates to a full-automatic frame pouring frame stacking machine.

Background

The frame stacking machine is used for stacking material frames on a tray and a pallet (wood and plastic) according to a certain arrangement, automatically stacking the material frames, stacking multiple layers, pushing out the material frames, facilitating forklift transportation, and carrying out full-automatic operation management, and is simple, convenient and easy to master, labor force can be greatly reduced, labor intensity is reduced, the use effect of the existing frame stacking machine is single, only the material frames can be singly arranged and stacked, the material frames cannot be automatically subjected to material pouring cleaning before being arranged and stacked, manual material pouring cleaning is required, labor intensity of workers is high, and efficiency is low.

Disclosure of utility model

In view of the above-mentioned problems with the background art, the present utility model has as its object: aims at providing a full-automatic frame inverting and stacking machine.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

The full-automatic frame pouring and stacking machine comprises a feeding mechanism, wherein a frame pouring mechanism is arranged on one side of the feeding mechanism, a feeding mechanism is arranged at the top of the feeding mechanism, the feeding mechanism is connected with a frame stacking mechanism, and a frame withdrawing mechanism is arranged at the top of the frame stacking mechanism;

the feeding mechanism comprises a portal, feeding screw rods are arranged on the left side and the right side of the portal, feeding bearing seats are arranged on the upper side and the lower side of the feeding screw rods, the feeding screw rods are connected with feeding nut moving seats, an L-shaped locking plate is arranged on the inner side of each feeding nut moving seat, a feeding plate is hinged to the inner side of each L-shaped locking plate, a first motor is arranged on the right side of the top of the portal, a power output end of each first motor is connected with a first transmission group, the other side of each first transmission group is connected with the corresponding feeding screw rod on the right side, the feeding screw rods on the right side are connected with a second transmission group on the upper side of each first transmission group, and the other side of each second transmission group is connected with the corresponding feeding screw rod on the left side;

The pouring mechanism comprises triangular supports arranged on two sides of the portal frame, a rotating shaft is arranged between the triangular supports on two sides, a second motor is arranged on the outer side of one side of the triangular supports, the power output end of the second motor is connected with the rotating shaft, a plurality of clamping seats which are uniformly arranged are arranged on the surface of the rotating shaft, the top of each clamping seat is connected with a turnover seat, a cover is arranged on the outer side of the top of each turnover seat, and notch grooves are formed in two sides of the cover;

The feeding mechanism comprises a supporting beam arranged on a portal frame, a third motor is arranged on the outer side of the supporting beam, a feeding screw rod is connected to the power output end of the third motor, feeding bearing seats are arranged on two sides of the feeding screw rod, the feeding screw rod and the feeding bearing seats on two sides are arranged in the supporting beam, the feeding screw rod is connected with a feeding nut moving seat, the feeding nut moving seat is connected with a moving plate, and a feeding frame is arranged at the bottom of the moving plate;

The frame stacking mechanism comprises a first support, a second support, a third support and a fourth support, wherein the first support, the second support, the third support and the fourth support are arranged in a rectangular array, a power assembly is arranged at the top of each of the first support, the second support, the third support and the fourth support, frame stacking screw rods are arranged in the first support, the second support, the third support and the fourth support, the top of each frame stacking screw rod is connected with the power assembly, frame stacking bearing seats are arranged at the upper side and the lower side of each frame stacking screw rod, frame stacking screw rods are connected with frame stacking nut moving seats, each frame stacking nut moving seat is connected with a lifting seat, an assembly block is arranged at the bottom of each lifting seat, four frame stacking devices are arranged at the top of each assembly block, and connecting frames are arranged among the first support, the second support, the third support and the fourth support;

The power assembly comprises a fourth motor, the power output end of the fourth motor is connected with a third transmission group, the third transmission group is connected with a fourth transmission group, the fourth transmission group is connected with a fifth transmission group, the fifth transmission group is connected with a sixth transmission group, the fourth transmission group is arranged at the top of the first bracket and the second bracket, the fifth transmission group is arranged at the top of the second bracket and the third bracket, and the sixth transmission group is arranged at the top of the third bracket and the fourth bracket;

The frame returning mechanism comprises a hanging frame arranged at the bottom of the connecting frame, a linear sliding rail is arranged at the bottom of the hanging frame, a cylinder locking plate is connected with the linear sliding rail in a sliding manner, a cylinder is arranged in a locking manner of the cylinder locking plate, and a pushing block is connected with the power output end of the cylinder.

Further limited, the portal is installed in the both sides of material loading lead screw and is gone up the material loading guide bar, both sides go up the material loading guide bar all sliding connection has the slider, one side locking of slider is installed on L shape jam plate. The structural design ensures that the L-shaped lock plate performs stable guiding movement.

Further limited, the slide rail is installed to the top both sides of supporting beam, slide rail sliding connection has the slide, the slide locking is installed in the bottom of movable plate. Such a structural design ensures a stable guiding movement of the moving plate.

Further limited, sign indicating number frame guide bar is still installed to the inside both sides of first support, second support, third support and fourth support, sign indicating number frame guide bar sliding connection has a sign indicating number frame slider, one side locking of sign indicating number frame slider is installed on the elevating seat. The structural design ensures that the lifting seat performs stable guiding movement.

Further defined, the first transmission group, the second transmission group, the third transmission group, the fourth transmission group, the fifth transmission group and the sixth transmission group are identical in structure, and the transmission groups are composed of a toothed belt and two toothed gears. Such a structural design facilitates the connection for power transmission.

The beneficial effects of the utility model are as follows: according to the utility model, through the collocation and use of the feeding mechanism, the pouring mechanism, the feeding mechanism, the frame stacking mechanism and the frame returning mechanism, the automatic feeding, overturning and pouring, returning, frame returning and frame stacking can be realized on the material frames, so that the material frames can be automatically subjected to pouring and cleaning before being arranged and stacked, manual pouring is not needed, the labor intensity of workers is reduced, stable stacking can be realized after the pouring and cleaning, the continuous processing and use effects are realized, and the use efficiency is improved.

Drawings

The utility model can be further illustrated by means of non-limiting examples given in the accompanying drawings;

FIG. 1 is a schematic diagram of the overall structure of a full-automatic frame inverting and stacking machine according to an embodiment of the utility model;

Fig. 2 is a schematic structural diagram of a feeding mechanism of a full-automatic frame inverting and stacking machine according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a structure of a pouring mechanism of a full-automatic frame pouring and stacking machine according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a feeding mechanism of a full-automatic frame inverting and stacking machine according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a frame stacking mechanism of a full-automatic frame reversing frame stacking machine according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram of a frame returning mechanism of a full-automatic frame returning and stacking machine according to an embodiment of the present utility model;

The main reference numerals are as follows:

The feeding mechanism 1, a portal 101, a feeding screw rod 102, a feeding bearing seat 103, a feeding nut moving seat 104, an L-shaped lock plate 105, a feeding plate 106, a first motor 107, a first transmission group 108, a second transmission group 109, a feeding guide rod 110 and a sliding block 111;

The material pouring mechanism 2, a triangular support frame 201, a rotating shaft 202, a second motor 203, a clamping seat 204, a turnover seat 205, a cover 206 and a notch 207;

The feeding mechanism 3, the supporting beam 301, the third motor 302, the feeding screw 303, the feeding bearing seat 304, the moving plate 305, the feeding frame 306, the sliding rail 307 and the sliding seat 308;

The frame stacking mechanism 4, a first support 401, a second support 402, a third support 403, a fourth support 404, a power component 405, a frame stacking screw rod 406, a frame stacking bearing seat 407, a frame stacking nut moving seat 408, a lifting seat 409, an assembly block 410, a frame stacking 411, a guiding anti-rotation device 412, a connecting frame 413, a frame stacking guide rod 414 and a frame stacking sliding block 415;

A power assembly 405, a fourth motor 4051, a third gear set 4052, a fourth gear set 4053, a fifth gear set 4054, and a sixth gear set 4055;

the frame returning mechanism 5, a hanging frame 501, a linear slide rail 502, a cylinder locking plate 503, a cylinder 504 and a pushing block 505;

toothed belt 6, belt gear 7, material frame 8.

Detailed Description

In order that those skilled in the art will better understand the present utility model, the following technical scheme of the present utility model will be further described with reference to the accompanying drawings and examples.

As shown in fig. 1-6, a full-automatic frame pouring and stacking machine is disclosed, wherein a pouring mechanism 2 is arranged on one side of a feeding mechanism 1, a feeding mechanism 3 is arranged at the top of the feeding mechanism 1, a frame stacking mechanism 4 is connected with the feeding mechanism 1, and a frame withdrawing mechanism 5 is arranged at the top of the frame stacking mechanism 4;

The feeding mechanism 1 comprises a portal frame 101, wherein a feeding screw rod 102 is arranged on the left side and the right side of the portal frame 101, a feeding bearing seat 103 is arranged on the upper side and the lower side of the feeding screw rod 102, the feeding screw rod 102 is connected with a feeding nut moving seat 104, an L-shaped lock plate 105 is arranged on the inner side of the feeding nut moving seat 104, a feeding plate 106 is hinged on the inner side of the L-shaped lock plate 105, a first motor 107 is arranged on the right side of the top of the portal frame 101, the power output end of the first motor 107 is connected with a first transmission group 108, the other side of the first transmission group 108 is connected with a right feeding screw rod 102, the right feeding screw rod 102 is connected with a second transmission group 109 on the upper side of the first transmission group 108, and the other side of the second transmission group 109 is connected with the left feeding screw rod 102;

the pouring mechanism 2 comprises triangular supports 201 arranged on two sides of the portal 101, a rotating shaft 202 is arranged between the triangular supports 201 on two sides, a second motor 203 is arranged on the outer side of one triangular support 201, the power output end of the second motor 203 is connected with the rotating shaft 202, a plurality of evenly-arranged clamping seats 204 are arranged on the surface of the rotating shaft 202, the tops of the clamping seats 204 are connected with overturning seats 205, a cover 206 is arranged on the outer side of the top of the overturning seats 205, and notch grooves 207 are formed in two sides of the cover 206;

The feeding mechanism 3 comprises a supporting beam 301 arranged on the portal frame 101, a third motor 302 is arranged on the outer side of the supporting beam 301, a feeding screw rod 303 is connected to the power output end of the third motor 302, feeding bearing seats 304 are arranged on two sides of the feeding screw rod 303, the feeding screw rod 303 and the feeding bearing seats 304 on two sides are arranged in the supporting beam 301, the feeding screw rod 303 is connected with a feeding nut moving seat, the feeding nut moving seat is connected with a moving plate 305, and a feeding frame 306 is arranged at the bottom of the moving plate 305;

The frame stacking mechanism 4 comprises a first support 401, a second support 402, a third support 403 and a fourth support 404, wherein the first support 401, the second support 402, the third support 403 and the fourth support 404 are arranged in a rectangular array, a power component 405 is arranged at the top of each frame, the second support 402 is fixedly arranged on one side of the portal 101, frame stacking screw rods 406 are arranged in the first support 401, the second support 402, the third support 403 and the fourth support 404, the top of each frame stacking screw rod 406 is connected with the power component 405, frame stacking bearing seats 407 are arranged on the upper side and the lower side of each frame stacking screw rod 406, frame stacking screw rods 406 are connected with frame stacking nut moving seats 408, lifting seats 409 are connected with frame stacking nut moving seats 408, assembly blocks 410 are arranged at the bottom of each lifting seat 409, guide anti-rotation devices 412 are arranged between the first support 401 and the second support 402 and between the third support 403 and the fourth support 404, and connecting frames 413 are arranged between the first support 401, the second support 402, the third support 403 and the fourth support 404;

The power assembly 405 comprises a fourth motor 4051, a power output end of the fourth motor 4051 is connected with a third transmission group 4052, the third transmission group 4052 is connected with a fourth transmission group 4053, the fourth transmission group 4053 is connected with a fifth transmission group 4054, the fifth transmission group 4054 is connected with a sixth transmission group 4055, the fourth transmission group 4053 is mounted on the top of the first bracket 401 and the second bracket 402, the fifth transmission group 4054 is mounted on the top of the second bracket 402 and the third bracket 403, and the sixth transmission group 4055 is mounted on the top of the third bracket 403 and the fourth bracket 404;

The frame withdrawing mechanism 5 comprises a hanging frame 501 arranged at the bottom of the connecting frame 413, a linear sliding rail 502 is arranged at the bottom of the hanging frame 501, a cylinder locking plate 503 is connected with the linear sliding rail 502 in a sliding manner, a cylinder 504 is arranged in a locking manner of the cylinder locking plate 503, and a pushing block 505 is connected with the power output end of the cylinder 504.

Preferably, the portal frame 101 is provided with feeding guide rods 110 at two sides of the feeding screw rod 102, the feeding guide rods 110 at two sides are both connected with sliding blocks 111 in a sliding manner, and one side of each sliding block 111 is installed on the L-shaped locking plate 105 in a locking manner. Such a structural design ensures a stable guiding movement of the L-shaped lock plate 105. In practice, other guiding movement configurations of the L-shaped lock plate 105 are contemplated as appropriate

Preferably, the two sides of the top of the supporting beam 301 are provided with sliding rails 307, the sliding rails 307 are slidably connected with sliding seats 308, and the sliding seats 308 are locked and installed at the bottom of the moving plate 305. Such a structural design ensures a stable guiding movement of the moving plate 305. In practice, other guiding movement configurations of the movable plate 305 may be considered as appropriate

Preferably, two sides of the inside of the first bracket 401, the second bracket 402, the third bracket 403 and the fourth bracket 404 are also provided with a frame guide rod 414, the frame guide rod is slidably connected with a frame sliding block 415, and one side of the frame sliding block 415 is locked and installed on the lifting seat 409. Such a structural design ensures a stable guiding movement of the lifting seat 409. In practice, other guiding movement configurations of the lift base 409 may be considered as appropriate

Preferably, the first transmission set 108, the second transmission set 109, the third transmission set 4052, the fourth transmission set 4053, the fifth transmission set 4054 and the sixth transmission set 4055 are all identical in structure, and the transmission sets are composed of a toothed belt 6 and two toothed wheels 7. Such a structural design facilitates the connection for power transmission. In practice, other configurations of the first gear set 108, the second gear set 109, the third gear set 4052, the fourth gear set 4053, the fifth gear set 4054 and the sixth gear set 4055 are contemplated as appropriate.

In this embodiment, when in use, the used material frame 8 is moved to the feeding mechanism 1 by the cart, then the feeding mechanism 1 is started, the first motor 107 drives the first transmission group 108 to move, the first transmission group 108 drives the second transmission group 109, the second transmission group 109 drives the feeding screw rods 102 on two sides of the portal 101 to rotate along the feeding bearing seat 103, so that the feeding screw rods 102 drive the feeding nut moving seat 104, the feeding nut moving seat 104 drives the L-shaped locking plate 105, the L-shaped locking plate 105 drives the feeding plate 106 to move downwards, when the feeding plate 106 moves to the material frame 8, The feeding plate 106 rotates along the L-shaped locking plate 105 under the downward moving effect, so that the feeding plate 106 is changed from horizontal to vertical, the feeding plate 106 can pass through the material frame 8 and move to the lower side of the feeding plate, when the feeding plate 106 is positioned at the lower side of the material frame 8, the first motor 107 is reversed, so that the feeding nut moving seat 104 drives the L-shaped locking plate 105, the L-shaped locking plate 105 drives the feeding plate 106, the feeding plate 106 drives the material frame 8 to move upwards, the feeding mechanism 3 is started after the feeding plate 106 moves to a designated position, the third motor 302 drives the feeding screw 303 to rotate along the feeding bearing seat 304, So that the feeding screw rod 303 drives the feeding nut moving seat, the feeding nut moving seat drives the moving plate 305, the moving plate 305 drives the feeding frame 306, the feeding frame 306 pushes the material frame 8 on the feeding plate 106 to enter the pouring mechanism 2, after the material frame 8 enters the pouring mechanism 2, two sides of the material frame 8 are inserted into the notch 207, and simultaneously, the second motor 203 is started, so that the second motor 203 drives the rotating shaft 202 to rotate, the rotating shaft 202 drives the clamping seat 204, the clamping seat 204 drives the turning seat 205, the turning seat 205 drives the cover 206 and the material frame 8 to turn, so that the material in the material frame 8 is poured into the cover 206, then flows out of the cover 206 into the rear end cleaning machine, after the overturning of the material frame 8 is completed, the second motor 203 controls the material frame 8 to reset, then after the material frame 8 is driven to move to a designated position by the feeding mechanism 3, the frame withdrawing mechanism 5 is started, the air cylinder 504 pushes the push block 505 to descend and move into the material frame 8, then the linear slide rail 502 drives the air cylinder locking plate 503 to slide, the air cylinder locking plate 503 drives the air cylinder 504, the air cylinder 504 drives the push block 505, the push block 505 drives the material frame 8 to move into the frame stacking mechanism 4, when the push block 505 drives the material frame 8 to move into the frame stacking mechanism 4, the material frame 8 is guided by the anti-rotation device 412, After the frame retracting mechanism 5 is stably installed in the frame 411, the power component 405 is started, the fourth motor 4051 drives the third transmission group 4052, the third transmission group 4052 drives the fourth transmission group 4053, the fourth transmission group 4053 drives the fifth transmission group 4054, the fifth transmission group 4054 drives the sixth transmission group 4055, the four frame screws 406 simultaneously rotate along the frame bearing seat 407, the frame screws 406 drive the frame nut moving seat 408, the frame nut moving seat 408 drives the lifting seat 409, the lifting seat 409 drives the assembly block 410, The assembling block 410 drives the stacking frame 411, and the stacking frame 411 drives the stacked material frames 8 to move downwards for one frame, and the subsequent material frames 8 are waited for being arranged and stacked.

Wherein, when the production process walks, the material pouring mechanism 2 is when the material pouring, feed mechanism 1 can drive material frame 8 upward movement, when material pouring mechanism 2 accomplishes the material pouring back, when reset through feed mechanism 3, feed mechanism 1 drives material frame 8 and removes the assigned position, and when feed mechanism 3 resets back, move frame mechanism 5 and start, drive material frame 8 and remove in frame mechanism 4, after material frame 8 removes from feed mechanism 3, feed mechanism 3 continues again to push into material frame 8 on the feed mechanism 1 in the material pouring mechanism 2, frame mechanism 4 can drive material frame 8 downward movement at this same time, wait for subsequent material frame 8 to arrange the sign indicating number to put.

When the feeding nut moving seat 104 drives the L-shaped locking plate 105 to move, the L-shaped locking plate 105 synchronously drives the sliding block 111 to slide along the feeding guide rod 110, so as to ensure that the L-shaped locking plate 105 performs stable guiding movement, when the feeding nut moving seat drives the moving plate 305 to move, the moving plate 305 synchronously drives the sliding seat 308 to slide along the sliding rail 307, so as to ensure that the moving plate 305 performs stable guiding movement, and when the code frame nut moving seat 408 drives the lifting seat 409 to move, the lifting seat 409 synchronously drives the code frame sliding block 415 to slide along the code frame guide rod 414, so as to ensure that the lifting seat 409 performs stable guiding movement.

When the first motor 107 is started, the first motor 107 drives the first transmission group 108, the first transmission group 108 synchronously drives the second transmission group 109, so that the first transmission group 108 and the second transmission group 109 can synchronously drive the feeding screws 102 on two sides of the gantry 101 to synchronously rotate, when the fourth motor 4051 is started, the fourth motor 4051 drives the third transmission group 4052, the third transmission group 4052 drives the fourth transmission group 4053, the fourth transmission group 4053 drives the fifth transmission group 4054 to drive the sixth transmission group 4055, and the third transmission group 4052, the fourth transmission group 4053, the fifth transmission group 4054 and the sixth transmission group 4055 can synchronously drive the frame screws 406 in the first bracket 401, the second bracket 402, the third bracket 403 and the fourth bracket 404 to synchronously rotate.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims of this utility model, which are within the skill of those skilled in the art, can be made without departing from the spirit and scope of the utility model disclosed herein.

Claims (5)

1. A full-automatic frame machine of frame sign indicating number that falls, its characterized in that: the automatic feeding device comprises a feeding mechanism (1), wherein a pouring mechanism (2) is arranged on one side of the feeding mechanism (1), a feeding mechanism (3) is arranged at the top of the feeding mechanism (1), the feeding mechanism (1) is connected with a frame stacking mechanism (4), and a frame withdrawing mechanism (5) is arranged at the top of the frame stacking mechanism (4);

The feeding mechanism (1) comprises a portal (101), wherein feeding screw rods (102) are arranged on the left side and the right side of the portal (101), feeding bearing seats (103) are arranged on the upper side and the lower side of the feeding screw rods (102), the feeding screw rods (102) are connected with feeding nut moving seats (104), L-shaped lock plates (105) are arranged on the inner sides of the feeding nut moving seats (104), feeding plates (106) are hinged to the inner sides of the L-shaped lock plates (105), a first motor (107) is arranged on the right side of the top of the portal (101), a first transmission group (108) is connected to the power output end of the first motor (107), the other side of the first transmission group (108) is connected to the right side of the feeding screw rods (102), a second transmission group (109) is connected to the upper side of the first transmission group (108), and the other side of the second transmission group (109) is connected to the left side of the feeding screw rods (102).

The pouring mechanism (2) comprises triangular supports (201) arranged on two sides of a portal frame (101), a rotating shaft (202) is arranged between the triangular supports (201) on two sides, a second motor (203) is arranged on one side of the triangular supports (201), a power output end of the second motor (203) is connected with the rotating shaft (202), a plurality of clamping seats (204) are uniformly arranged on the surface of the rotating shaft (202), a plurality of overturning seats (205) are connected to the tops of the clamping seats (204), a cover cap (206) is arranged on the outer side of the top of the overturning seats (205), and notch grooves (207) are formed in two sides of the cover cap (206);

The feeding mechanism (3) comprises a supporting beam (301) arranged on the portal frame (101), a third motor (302) is arranged on the outer side of the supporting beam (301), a feeding screw rod (303) is connected to the power output end of the third motor (302), feeding bearing seats (304) are arranged on two sides of the feeding screw rod (303), the feeding screw rod (303) and the feeding bearing seats (304) on two sides are arranged in the supporting beam (301), the feeding screw rod (303) is connected with a feeding nut moving seat, the feeding nut moving seat is connected with a moving plate (305), and a feeding frame (306) is arranged at the bottom of the moving plate (305);

The utility model provides a frame mechanism (4) including first support (401), second support (402), third support (403) and fourth support (404), first support (401), second support (402), third support (403) and fourth support (404) are rectangular array and arrange, and power component (405) are installed at its top, second support (402) fixed mounting is in one side of portal (101), install frame lead screw (406) in first support (401), second support (402), third support (403) and fourth support (404), the top and power component (405) of frame lead screw (406) are connected, frame bearing seat (407) are installed to the upper and lower both sides of frame lead screw (406), frame nut removes seat (408) are connected with lifting seat (409), assembly piece (410) are installed to the bottom of lifting seat (409), four assembly piece (410) are installed at the top of assembly piece (410), install between frame lead screw (401) and second support (401), install between frame lead screw (401) and the second support (401) and fourth support (401), install between frame lead screw (411) and the device (401) are all installed to frame lead screw (401) A connecting frame (413) is arranged between the third bracket (403) and the fourth bracket (404);

The power assembly (405) comprises a fourth motor (4051), a power output end of the fourth motor (4051) is connected with a third transmission group (4052), the third transmission group (4052) is connected with a fourth transmission group (4053), the fourth transmission group (4053) is connected with a fifth transmission group (4054), the fifth transmission group (4054) is connected with a sixth transmission group (4055), the fourth transmission group (4053) is arranged on the top of the first bracket (401) and the second bracket (402), the fifth transmission group (4054) is arranged on the top of the second bracket (402) and the third bracket (403), and the sixth transmission group (4055) is arranged on the top of the third bracket (403) and the fourth bracket (404);

The frame withdrawing mechanism (5) comprises a hanging frame (501) arranged at the bottom of a connecting frame (413), a linear sliding rail (502) is arranged at the bottom of the hanging frame (501), an air cylinder locking plate (503) is connected to the linear sliding rail (502) in a sliding mode, an air cylinder (504) is arranged in a locking mode of the air cylinder locking plate (503), and a pushing block (505) is connected to the power output end of the air cylinder (504).

2. The fully automatic frame inverting machine according to claim 1, wherein: the feeding guide rods (110) are arranged on two sides of the feeding screw rod (102) of the portal frame (101), sliding blocks (111) are connected to the feeding guide rods (110) on two sides in a sliding mode, and one side of each sliding block (111) is installed on the L-shaped locking plate (105) in a locking mode.

3. The full-automatic frame inverting machine according to claim 2, wherein: slide rails (307) are arranged on two sides of the top of the supporting beam (301), the slide rails (307) are connected with sliding seats (308) in a sliding mode, and the sliding seats (308) are arranged at the bottom of the moving plate (305) in a locking mode.

4. A fully automatic frame inverting machine as defined in claim 3, wherein: the frame stacking device is characterized in that frame stacking guide rods (414) are further arranged on two sides of the inside of the first support (401), the second support (402), the third support (403) and the fourth support (404), frame stacking sliding blocks (415) are connected to the frame stacking guide rods in a sliding mode, and one side of each frame stacking sliding block (415) is installed on the lifting seat (409) in a locking mode.

5. The full-automatic frame inverting machine according to claim 4, wherein: the first transmission group (108), the second transmission group (109), the third transmission group (4052), the fourth transmission group (4053), the fifth transmission group (4054) and the sixth transmission group (4055) are identical in structure, and each transmission group consists of a toothed belt (6) and two belt gears (7).