CN217397864U - Mould transfer device of ancient building brick on assembly line - Google Patents

Abstract

The utility model provides a mould transfer device of ancient building brick on assembly line, including perpendicular mould conveyer and the wooden frame conveyer of arranging, mould conveyer tip is established in one side of wooden frame conveyer, has set firmly transfer mechanism between mould conveyer and wooden frame conveyer, and transfer mechanism is used for removing the mould to the wooden frame on, and wooden frame conveyer tip has set firmly pile up neatly mechanism, and pile up neatly mechanism one side is equipped with the buttress seat, and pile up neatly mechanism is used for removing the wooden frame pile up neatly on the buttress seat. Carry to shifting mechanism department on the mould conveyer, the clamp plate that removes about in the shifting mechanism and the tip of first picture peg centre gripping mould drag to the wooden frame on the wooden frame conveyer in, move it to pile up neatly mechanism department through the wooden frame conveyer, can mention wooden frame commentaries on classics removal buttress seat department through the centre gripping of relative movement and lift pivoted second picture peg in the pile up neatly mechanism and pile up, in rethread fork truck will whole batch wooden frame commentaries on classics removal baking house, improve the efficiency of wooden frame and pile up neatly on the mould greatly, use manpower and materials sparingly.

Description

Mould transfer device of ancient building brick on assembly line

Technical Field

The utility model relates to a field of ancient building brick production, concretely relates to mould transfer device of ancient building brick on assembly line.

Background

On current ancient building brick production water line, need transport to the baking house and dry after the mould has been filled to the mud material, wherein need artifically carry the mould to the wooden frame on, then carry the pile with the wooden frame, during rethread fork truck will whole batch wooden frame transfer moves the baking house, artifical transport pile up neatly wastes time and energy, greatly reduced production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides the mould transfer device of ancient building brick on assembly line, solves the problem among the above-mentioned background art.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: the mould stacking mechanism comprises a mould conveyor and a wooden frame conveyor which are vertically arranged, the end part of the mould conveyor is arranged on one side of the wooden frame conveyor, a transfer mechanism is fixedly arranged between the mould conveyor and the wooden frame conveyor and used for moving a mould onto a wooden frame, a stacking mechanism is fixedly arranged on the end part of the wooden frame conveyor, a stacking base is arranged on one side of the stacking mechanism, and the stacking mechanism is used for moving the wooden frame onto the stacking base for stacking.

In the preferred scheme, the mould conveyer and the wooden frame conveyer are conveyed through a plurality of synchronous belts, and intervals exist between the synchronous belts.

In the preferred scheme, the support frame in the transfer mechanism is arranged on a wood frame conveyor, one end of the support frame is positioned on a mold conveyor, a sliding plate capable of sliding left and right is arranged on the support frame, a lifting fixing seat is arranged below the sliding plate, pressing plates on two sides of one end of the fixing seat are fixedly connected with a first inserting plate, and the end parts of the pressing plates are hinged on the fixing seat.

In the preferred scheme, sliding rails are fixedly arranged on two sides of a support frame, two ends of a sliding plate abut against the sliding rails through sliding blocks to slide, rotating synchronous belt wheels are fixedly arranged on two ends of the support frame, the synchronous belt wheels are connected through synchronous belts, one side of each synchronous belt is fixed on the sliding plate through a pressing plate, and a first motor connected with the synchronous belt wheels is arranged on one side of the synchronous belt wheels at the end parts;

the first motor drives the synchronous belt pulley to rotate, so that the synchronous belt is driven to pull the sliding plate to abut against the sliding rail to move.

In the preferred scheme, a first air cylinder and a first guide post are arranged between the sliding plate and the fixed seat, a cylinder barrel of the first air cylinder is fixed on the sliding plate, the end part of a piston rod of the first air cylinder is fixed on the fixed seat, the first guide post is arranged on two sides of the first air cylinder, one end of the first guide post is fixed on the fixed seat, and the other end of the first guide post is abutted against the sliding plate to slide.

In the preferred scheme, inclined support rods are arranged on two sides of the end part of the fixed seat, a second air cylinder is arranged between each inclined support rod and the pressing plate, the end part of a cylinder barrel of the second air cylinder is hinged to each inclined support rod, and the end part of a piston rod of the second air cylinder is hinged to the middle part of the pressing plate;

the first inserting plate abuts against the bottom of the mold, the second air cylinder pushes the driving pressing plate to rotate and abut against the upper portion of the mold, so that the mold is clamped, and the sliding plate is moved to drag the mold to a wood frame on the wood frame conveyor.

In the preferred scheme, the base among the pile up neatly mechanism is equipped with the pivoted revolving stage, has set firmly the sliding seat on the revolving stage, and sliding seat one side is equipped with the support arm of lift, and support arm tip both sides are equipped with a plurality of relative slip's second picture peg.

In the preferred scheme, a second motor is fixedly arranged on one side of the base and used for driving the worm gear to rotate so as to drive the rotary table to rotate, a sliding block and a sliding rail are arranged between the support arm and the sliding seat, an air cylinder is arranged in the sliding seat, a cylinder barrel of the air cylinder is fixed in the sliding seat, and a piston rod of the air cylinder is fixed on the support arm.

In the preferred scheme, the connecting seat has set firmly below the support arm, and the connecting seat both sides are equipped with the link, are equipped with third cylinder and second guide post between link and the connecting seat, and the cylinder of third cylinder is fixed on the connecting seat, and the piston rod of third cylinder is fixed on the link, and the second guide post is established in the both sides of third cylinder, and second guide post one end is fixed on the connecting seat, and the other end supports and leans on and slides in the link.

In the preferred scheme, the second inserting plate is L-shaped, the end part of the second inserting plate is fixed on the connecting frame, the second inserting plate abuts against the bottom of the wooden frame, and the sliding seat drives the lifting and the rotating table to rotate, so that the wooden frame is stacked on the stacking seat.

The utility model provides an ancient building brick's mould transfer device on assembly line, carry to transfer mechanism department on the mould conveyer after the mould is filled finishes, the clamp plate that removes about through transferring in the mechanism and the tip of first picture peg centre gripping mould drag to the wooden frame on the wooden frame conveyer in, the wooden frame drives the mould and removes to pile up neatly mechanism department through the wooden frame conveyer, can mention wooden frame commentaries on classics removal buttress seat department with lift pivoted second picture peg centre gripping in through pile up neatly mechanism and carry out the pile, after the pile up is accomplished, the rethread fork truck will be whole batch of wooden frame commentaries on classics and removes and dry in the baking house, improve the efficiency of wooden frame and pile up neatly on the mould greatly, the material resources of using manpower sparingly.

Drawings

The invention will be further described with reference to the following drawings and examples:

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

fig. 2 is a top view of the transfer mechanism of the present invention;

fig. 3 is a front view of the transfer mechanism of the present invention;

fig. 4 is a schematic view of the first insert plate and the pressing plate clamping mold of the present invention;

fig. 5 is a top view of the stacking mechanism of the present invention;

fig. 6 is a front view of the stacking mechanism of the present invention;

in the figure: a mold conveyor 1; a wood frame conveyor 2; a transfer mechanism 3; a support frame 301; a slide rail 302; a sliding plate 303; a timing pulley 304; a timing belt 305; a first motor 306; a first cylinder 307; a first guide post 308; a first board 309; a platen 310; a second cylinder 311; a fixed base 312; a diagonal stay 313; a stacking mechanism 4; a base 401; a turntable 402; a slide mount 403; a second motor 404; a support arm 405; a connection seat 406; a third cylinder 407; a second guide post 408; a connecting frame 409; a second board 410; a pile seat 5; and a mold 6.

Detailed Description

Example 1

As shown in fig. 1-6, the mould transfer device for the ancient building bricks on the assembly line comprises a mould conveyor 1 and a wooden frame conveyor 2 which are vertically arranged, the end part of the mould conveyor 1 is arranged on one side of the wooden frame conveyor 2, a transfer mechanism 3 is fixedly arranged between the mould conveyor 1 and the wooden frame conveyor 2, the transfer mechanism 3 is used for moving a mould 6 to a wooden frame, a stacking mechanism 4 is fixedly arranged on the end part of the wooden frame conveyor 2, a stacking base 5 is arranged on one side of the stacking mechanism 4, and the stacking mechanism 4 is used for moving the wooden frame to the stacking base 5 for stacking. From this structure, the mould 6 of having filled the mud material on mould conveyer 1 moves transfer mechanism 3 department, through transfer mechanism 3 with the 6 centre gripping of mould drag the wooden frame that wooden frame conveyer 2 went up the removal in, the wooden frame area mould moves pile up neatly mechanism 4 department, mentions the rotation through pile up neatly mechanism 4 with the wooden frame centre gripping and places pile on the buttress seat 5, and automated control operates, saves manpower and materials greatly.

In a preferred scheme, the die conveyor 1 and the wood frame conveyor 2 are conveyed through a plurality of synchronous belts, and intervals exist between the synchronous belts. With this structure, the first insert plate 309 and the second insert plate 410 enter the lower part of the mold 6 and the wooden frame through the gap between the timing belts, so that the mold 6 and the wooden frame can be clamped and transported.

In a preferable scheme, a support frame 301 in the transfer mechanism 3 is arranged on the wood frame conveyor 2, one end of the support frame 301 is positioned on the mold conveyor 1, a sliding plate 303 which slides left and right is arranged on the support frame 301, a lifting fixed seat 312 is arranged below the sliding plate 303, a pressing plate 310 and a first inserting plate 309 are arranged on two sides of one end of the fixed seat 312, the first inserting plate 309 is fixedly connected with the fixed seat 312, and the end part of the pressing plate 310 is hinged on the fixed seat 312. With the structure, the first inserting plate 309 and the pressing plate 310 clamp and pull the mold 6, the fixing seat 312 can drive the mold 6 to ascend and descend, and the sliding plate 303 can drive the mold 6 to slide.

In the preferred scheme, slide rails 302 are fixedly arranged on two sides of a support frame 301, two ends of a sliding plate 303 abut against the slide rails 302 through slide blocks to slide, rotating synchronous pulleys 304 are fixedly arranged on two ends of the support frame 301, the synchronous pulleys 304 are connected through a synchronous belt 305, one side of the synchronous belt 305 is fixed on the sliding plate 303 through a pressing plate, and a first motor 306 connected with the synchronous pulley 304 is arranged on one side of the end part;

the first motor 306 drives the synchronous pulley 304 to rotate, so as to drive the synchronous belt 305 to pull the sliding plate 303 to move against the sliding rail 302. With this structure, the timing belt 305 is fixedly connected to the sliding plate 303, so that the sliding plate 303 can be made to slide against the slide rail 302 when the timing belt 305 moves.

Preferably, a first cylinder 307 and a first guide column 308 are arranged between the sliding plate 303 and the fixed seat 312, a cylinder barrel of the first cylinder 307 is fixed on the sliding plate 303, a piston rod end of the first cylinder 307 is fixed on the fixed seat 312, the first guide columns 308 are arranged on two sides of the first cylinder 307, one end of each first guide column 308 is fixed on the fixed seat 312, and the other end of each first guide column 308 abuts against the sliding plate 303 to slide. With this structure, the first cylinder 307 pushes the driving fixing seat 312 to ascend and descend, and the first guiding column 308 ensures smooth ascending and descending.

In a preferable scheme, inclined supporting rods 313 are arranged on two sides of the end part of the fixed seat 312, a second air cylinder 311 is arranged between the inclined supporting rods 313 and the pressing plate 310, the end part of a cylinder barrel of the second air cylinder 311 is hinged on the inclined supporting rods 313, and the end part of a piston rod of the second air cylinder 311 is hinged in the middle of the pressing plate 310;

the first inserting plate 309 abuts against the bottom of the mold 6, the second air cylinder 311 pushes and drives the pressing plate 310 to rotate and abut against the upper portion of the mold 6, so that the mold 6 is clamped, and the sliding plate 303 is moved to drag the mold 6 into a wooden frame on the wooden frame conveyor 2.

In a preferred scheme, a base 401 in the palletizing mechanism 4 is provided with a rotating rotary table 402, a sliding seat 403 is fixedly arranged on the rotary table 402, a lifting support arm 405 is arranged on one side of the sliding seat 403, and a plurality of second inserting plates 410 which slide relatively are arranged on two sides of the end part of the support arm 405. With the structure, the rotary table 402 can drive the sliding seat 403 to rotate, so that the wooden frame on the wooden frame conveyor 2 can be placed on the stack seat 5 in a rotating mode, the second inserting plate 410 can be placed at the bottom of the wooden frame through the lifting support arm 405, and the wooden frame can be clamped and transported through the second inserting plate 410 which slides relatively.

In a preferable scheme, a second motor 404 is fixedly arranged on one side of the base 401, the second motor 404 is used for driving a worm gear to rotate so as to drive the rotary table 402 to rotate, a sliding block and a sliding rail are arranged between the supporting arm 405 and the sliding seat 403, an air cylinder is arranged in the sliding seat 403, a cylinder barrel of the air cylinder is fixed in the sliding seat 403, and a piston rod of the air cylinder is fixed on the supporting arm 405.

In a preferable scheme, a connecting seat 406 is fixedly arranged below the supporting arm 405, connecting frames 409 are arranged on two sides of the connecting seat 406, a third air cylinder 407 and a second guide column 408 are arranged between the connecting frames 409 and the connecting seat 406, a cylinder barrel of the third air cylinder 407 is fixed on the connecting seat 406, a piston rod of the third air cylinder 407 is fixed on the connecting frame 409, the second guide column 408 is arranged on two sides of the third air cylinder 407, one end of the second guide column 408 is fixed on the connecting seat 406, and the other end of the second guide column 408 abuts against the connecting frame 409 to slide. With the structure, the third cylinder 407 pushes the connecting frame 409 to move, and the second guiding column 408 ensures that the connecting frame 409 moves smoothly.

In a preferable scheme, the second inserting plate 410 is in an L shape, the end part of the second inserting plate 410 is fixed on the connecting frame 409, the second inserting plate 410 abuts against the bottom of the wooden frame, and the sliding seat 403 drives the lifting and the rotating platform 402 to rotate, so that the wooden frame is stacked on the stack seat 5. With the structure, the second inserting plates 410 on the two sides are driven by the third air cylinders 407 to move relatively to unfold, then the sliding seats 403 drive the support arms 405 to drive the second inserting plates 410 to move downwards below the wooden frame, and then the third air cylinders 407 drive the second inserting plates 410 to move relatively to contract, so that the second inserting plates 410 abut against the two sides of the wooden frame, and then the support arms 405 are driven to move upwards, so that the wooden frame can be transferred to the stacking seats 5 to be stacked.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and should not be considered as limitations of the present invention, and the protection scope of the present invention should be defined by the technical solutions described in the claims, and includes equivalent alternatives of technical features in the technical solutions described in the claims. I.e., equivalent alterations and modifications within the scope of the invention, are also intended to be covered by the scope of this invention.

Claims (10)

1. Mould transfer device of ancient building brick on assembly line, characterized by: including perpendicular mould conveyer (1) and wooden frame conveyer (2) of arranging, establish in one side of wooden frame conveyer (2) mould conveyer (1) tip, shift mechanism (3) have set firmly between mould conveyer (1) and wooden frame conveyer (2), shift mechanism (3) are used for moving mould (6) to the wooden frame on, wooden frame conveyer (2) tip has set firmly pile up neatly mechanism (4), pile up neatly mechanism (4) one side is equipped with buttress seat (5), pile up neatly mechanism (4) are used for moving the wooden frame to pile up on buttress seat (5).

2. The mold transfer device for the ancient building bricks on the assembly line according to claim 1, wherein: the mould conveyor (1) and the wooden frame conveyor (2) are conveyed through a plurality of synchronous belts, and intervals exist between the synchronous belts.

3. The mold transfer device for the ancient building bricks on the assembly line according to claim 1, wherein: support frame (301) among transfer mechanism (3) are established on wooden frame conveyer (2), support frame (301) one end is located mould conveyer (1), be equipped with horizontal gliding sliding plate (303) on support frame (301), sliding plate (303) below is equipped with fixing base (312) of lift, fixing base (312) one end both sides clamp plate (310) and first picture peg (309), first picture peg (309) and fixing base (312) fixed connection, clamp plate (310) tip articulates on fixing base (312).

4. The mold transfer device for ancient building bricks on assembly line according to claim 3, which is characterized in that: sliding rails (302) are fixedly arranged on two sides of a supporting frame (301), two ends of a sliding plate (303) abut against the sliding rails (302) through sliding blocks to slide, rotating synchronous belt wheels (304) are fixedly arranged on two ends of the supporting frame (301), the synchronous belt wheels (304) are connected through a synchronous belt (305), one side of the synchronous belt (305) is fixed on the sliding plate (303) through a pressing plate, and a first motor (306) connected with the synchronous belt wheels (304) is arranged on one side of the end portion;

the first motor (306) drives the synchronous pulley (304) to rotate, so as to drive the synchronous belt (305) to pull the sliding plate (303) to move against the sliding rail (302).

5. The mold transfer device for ancient building bricks on assembly line according to claim 3, which is characterized in that: a first air cylinder (307) and a first guide column (308) are arranged between the sliding plate (303) and the fixed seat (312), a cylinder barrel of the first air cylinder (307) is fixed on the sliding plate (303), the end part of a piston rod of the first air cylinder (307) is fixed on the fixed seat (312), the first guide column (308) is arranged on two sides of the first air cylinder (307), one end of the first guide column (308) is fixed on the fixed seat (312), and the other end of the first guide column (308) abuts against the sliding plate (303) to slide.

6. The mold transfer device for ancient building bricks on assembly line according to claim 3, which is characterized in that: inclined supporting rods (313) are arranged on two sides of the end portion of the fixing seat (312), a second air cylinder (311) is arranged between each inclined supporting rod (313) and the pressing plate (310), the end portion of a cylinder barrel of each second air cylinder (311) is hinged to each inclined supporting rod (313), and the end portion of a piston rod of each second air cylinder (311) is hinged to the middle of the pressing plate (310);

the first inserting plate (309) abuts against the bottom of the mold (6), the second air cylinder (311) pushes and drives the pressing plate (310) to rotate and abut against the upper portion of the mold (6), so that the mold (6) is clamped, and the sliding plate (303) is moved to drag the mold (6) into a wooden frame on the wooden frame conveyor (2).

7. The mold transfer device for ancient building bricks on a production line according to claim 1, which is characterized in that: a base (401) in the stacking mechanism (4) is provided with a rotating rotary table (402), a sliding seat (403) is fixedly arranged on the rotary table (402), a lifting support arm (405) is arranged on one side of the sliding seat (403), and a plurality of second inserting plates (410) which slide relatively are arranged on two sides of the end portion of the support arm (405).

8. The mold transfer device for the ancient building bricks on the production line according to claim 7, wherein: one side of the base (401) is fixedly provided with a second motor (404), the second motor (404) is used for driving a worm gear to rotate so as to drive the rotary table (402) to rotate, a sliding block and a sliding rail are arranged between the support arm (405) and the sliding seat (403), an air cylinder is arranged in the sliding seat (403), a cylinder barrel of the air cylinder is fixed in the sliding seat (403), and a piston rod of the air cylinder is fixed on the support arm (405).

9. The mold transfer device for ancient building bricks on assembly line according to claim 7, wherein: support arm (405) below sets firmly connecting seat (406), connecting seat (406) both sides are equipped with link (409), be equipped with third cylinder (407) and second guide post (408) between link (409) and connecting seat (406), the cylinder of third cylinder (407) is fixed on connecting seat (406), the piston rod of third cylinder (407) is fixed on link (409), the both sides at third cylinder (407) are established in second guide post (408), second guide post (408) one end is fixed on connecting seat (406), the other end supports and leans on and slides in link (409).

10. The apparatus for transferring mold for ancient building bricks on assembly line according to claim 9, wherein: the second inserting plate (410) is L-shaped, the end part of the second inserting plate (410) is fixed on the connecting frame (409), the second inserting plate (410) abuts against the bottom of the wooden frame, and the sliding seat (403) drives the second inserting plate to lift and the rotary table (402) to drive the second inserting plate to rotate, so that the wooden frame is stacked on the stacking seat (5).

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