CN218230547U - Arrange a set machine with flexible compensation structure - Google Patents

Abstract

The utility model relates to a arrange a set machine with flexible compensation structure, the loach carrying platform comprises a supporting fram, install the supporting component who is used for supporting conveyor belt on the support frame, be used for driving the belt winding unit of conveyor belt conveying and be used for driving the flexible compensation unit of level of conveyor belt level and flexible compensation. The utility model discloses a thereby servo motor provides power makes synchronous pulley and hold-in range drive the grip block with reciprocating rotation's mode, lower joint board, the gyro wheel, the connecting plate, remove the roller, slider and output support piece are reciprocating motion on the horizontal direction along linear slide rail, so that the last material of output support piece drops in the storage disc under the action that output support piece removed the withdrawal along linear slide rail, through removing the horizontal flexible of roller horizontal movement compensation conveyor belt, the weight load area of having got rid of the switching-over shaft group and having reciprocated carries the factor for servo motor's change, thereby improve equipment operation's stability.

Description

Arrange a set machine with flexible compensation structure

Technical Field

The utility model belongs to the technical field of the gang saw drive mechanism, concretely relates to gang saw with flexible compensation structure.

Background

When the dough products such as strip-shaped dough products, block-shaped dough products and the like are processed by a machine, the dough pieces which are cut out and have the size enough to be made into the single dough products need to be automatically conveyed to a tray by a tray arranging machine to be arranged in order so as to be conveniently conveyed to the next procedure for production and processing.

Patent numbers: CN109733828A, a transmission structure of a disc arranging machine, which is described in the specification of this patent application, "when a driving shaft of a synchronous belt rotates, the synchronous belt is driven to rotate, and due to the clamping of an upper limit plate and a lower clamp plate on a vertical connecting plate, the synchronous belt simultaneously drives a sliding block to slide on a horizontal sliding rail; simultaneously, a moving shaft fixed at one end of the transverse plate is driven to move horizontally; the moving shaft drives the third reversing shaft in the third rectangular hole channel to move upwards by the conveyor belt in the process of moving horizontally leftwards, so that the stable rotation of the whole conveyor belt is ensured, and the second reversing shaft in the third rectangular hole channel moves downwards under the driving of the conveyor belt when the moving shaft moves rightwards under the driving of the synchronous belt, so that the transverse extension of the conveyor belt is compensated by the up-and-down movement of the third reversing shaft. The technical scheme has the defects that: the self weight of the reversing shaft group can cause unstable factors to a driving motor for driving a driving shaft of the synchronous belt to rotate, the driving motor needs to bear the gravity when the reversing shaft group moves up and down, the load born by the driving motor is large, and the condition of unstable conveying is easy to occur.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a arrange set machine with flexible compensation structure for solving above-mentioned problem, aim at solving driving motor and need bear the gravity that the reversing shaft group reciprocated, driving motor load is great, appears carrying the unstable condition easily.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a tray arranging machine with a telescopic compensation structure comprises a support frame, wherein a support assembly for supporting a conveying belt, a belt winding unit for driving the conveying belt to convey and a horizontal telescopic compensation unit for driving the conveying belt to horizontally stretch and stretch for compensation are mounted on the support frame;

the supporting assembly comprises a middle supporting piece and an output supporting piece which is rotationally connected with the middle supporting piece, and the output supporting piece and the middle supporting piece are in sliding connection with the supporting frame;

the belt winding unit comprises a first driven conveyor roller positioned below the middle support and a second driven conveyor roller positioned below the output support;

horizontal flexible compensation unit includes servo motor, be located between first driven conveying roller and the driven conveying roller of second and through sprocket and chain and the synchronous pulley that servo motor output shaft is connected, two front and back symmetry install the linear slide rail on the support frame top end face, at least two with linear slide rail sliding connection's slider, be used for with the connecting plate that same side slider is connected with middle part support piece, locate between two connecting plates and rotate the removal roller of being connected with the connecting plate, locate the connecting plate below last grip block, joint lower joint board and a plurality of last grip block locate two and go up the gyro wheel that the grip block is close to synchronous pulley one side, the connecting plate is located the gyro wheel top, go up the grip block and be used for fixed hold-in range behind the joint board of lower joint board, the gyro wheel rotates with last grip block to be connected and with conveyor belt surface contact, both ends are all overlapped and are equipped with the belt pulley and front and back symmetry is equipped with two hold-in range that are used for connecting the belt pulley around driven conveying roller of second and synchronous pulley.

As the utility model discloses a further optimization scheme, install the lift mount on the support piece of middle part, the supporting component still includes the input support piece who rotates with the support frame and be connected.

As a further optimization scheme of the utility model, belt winding unit still includes belt motor, is located the tensioning roller of input support piece below, is located the tensioning roller below and the initiative conveying roller that is connected with the belt motor output shaft through sprocket and chain, the initiative conveying roller is located first driven conveying roller below.

As the utility model discloses a further optimization scheme, install the lift mount on the support piece of middle part, the symmetry articulates around on the lift mount has two lift cylinders, two lift cylinder removes the end and rotates with output support piece front and back both ends face respectively and be connected.

As a further optimization scheme of the utility model, the symmetry is equipped with two connecting seats, two on the support frame is close to input support piece's the side all articulated on the connecting seat have be used for respectively with input support piece around both ends face looks articulated telescopic link.

As the utility model discloses a further optimization scheme, the both ends symmetry is equipped with two risers around the support frame, the riser bottom all is equipped with spring, two be equipped with the circle axle between the spring top, the epaxial symmetrical cover of circle is equipped with two supporting wheels that are used for supporting the hold-in range.

As the utility model discloses a further optimization scheme, one side that middle part support piece was kept away from to output support piece and input support piece all rotates and is connected with two at least rotation drums, the drum is the installation of triangle-shaped shape and is used for supporting conveyor belt and uses the slope as external contact surface.

As a further optimization scheme of the utility model, the support frame outside is equipped with the shell body.

The beneficial effects of the utility model reside in that:

the utility model discloses a thereby servo motor provides power makes synchronous pulley and hold-in range drive the grip block with reciprocating rotation's mode, lower joint board, the gyro wheel, the connecting plate, remove the roller, slider and output support piece are reciprocating motion on the horizontal direction along linear slide rail, so that the last material of output support piece drops in the storage disc under the action that output support piece removed the withdrawal along linear slide rail, through removing the horizontal flexible of roller horizontal movement compensation conveyor belt, the weight load area of having got rid of the switching-over shaft group and having reciprocated carries the factor for servo motor's change, thereby improve equipment operation's stability.

Drawings

Fig. 1 is a perspective view of the overall structure of the present invention.

Fig. 2 is a perspective view of the present invention in a state where the front outer case is removed.

Fig. 3 is a front view of the present invention in a state where the front outer case is removed.

Fig. 4 is a perspective view of the utility model in a state that the front shell and the support frame are removed.

Fig. 5 is an enlarged view of the a-portion structure of fig. 2 according to the present invention.

Fig. 6 is an enlarged view of the structure of the part B in fig. 4.

In the figure: 1. a support frame; 101. an outer housing; 2. an output support; 3. a middle support; 4. an input support; 5. a conveyor belt; 6. a lifting fixing frame; 7. a lifting cylinder; 8. a connecting seat; 9. a telescopic rod; 10. a belt motor; 11. a servo motor; 12. a linear slide rail; 13. a slider; 14. a connecting plate; 15. a moving roller; 16. a tension roller; 17. an active delivery roller; 18. a first driven feed roller; 19. a second driven feed roller; 20. a synchronous pulley; 21. a synchronous belt; 22. an upper clamping plate; 23. a lower clamping and connecting plate; 24. a roller; 25. a vertical plate; 26. a circular shaft; 27. a spring; 28. and supporting the wheels.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

As shown in fig. 1-6, a tray arranging machine with a telescopic compensation structure comprises a support frame 1, wherein a support assembly for supporting a conveying belt 5, a belt winding unit for driving the conveying belt 5 to convey, and a horizontal telescopic compensation unit for driving the conveying belt 5 to horizontally stretch and compensate are mounted on the support frame 1;

the supporting assembly comprises a middle supporting piece 3 and an output supporting piece 2 which is rotationally connected with the middle supporting piece 3, and the output supporting piece 2 and the middle supporting piece 3 are connected with the supporting frame 1 in a sliding mode;

the belt winding unit comprises a first driven conveyor roller 18 located below the central support 3 and a second driven conveyor roller 19 located below the output support 2;

the horizontal telescopic compensation unit comprises a servo motor 11, a synchronous pulley 20 which is arranged between a first driven conveying roller 18 and a second driven conveying roller 19 and is connected with an output shaft of the servo motor 11 through a chain wheel and a chain, two linear slide rails 12 symmetrically arranged on the top end surface of the support frame 1 in a front-back mode, at least two sliders 13 connected with the linear slide rails 12 in a sliding mode, a connecting plate 14 used for connecting the sliders 13 on the same side with a middle support piece 3, a moving roller 15 arranged between the two connecting plates 14 and rotationally connected with the connecting plate 14, an upper clamping plate 22 arranged below the connecting plate 14, a lower clamping plate 23 clamped below the upper clamping plate 22 and a plurality of rollers 24 arranged on one side of the synchronous pulley 20, wherein the connecting plate 14 is arranged above the rollers 24, the upper clamping plate 22 and the lower clamping plate 23 are clamped and used for fixing the synchronous belt 21, the rollers 24 are rotationally connected with the upper clamping plate 22 and are in surface contact with the conveying belt 5, the front end and the rear end of the second driven conveying roller 19 and the synchronous pulley 20 are sleeved with belt pulleys, and two synchronous pulleys 21 symmetrically arranged on the front end and the rear end of the synchronous pulley 21 used for connecting the belt.

In this embodiment, the belt winding unit further includes a belt motor 10, a tension roller 16 located below the input support 4, and a driving feed roller 17 located below the tension roller 16 and connected to the output shaft of the belt motor 10 via a sprocket and a chain, wherein the driving feed roller 17 is located below the first driven feed roller 18.

It should be noted that, in this embodiment, the conveying belt 5 is sequentially attached to the upper portions of the output support member 2, the middle support member 3, the input support member 4 and the tension roller 16, is attached to the upper portion of the first driven conveying roller 18 after being wound to the upper portion of the driving conveying roller 17 through the lower portion of the driving conveying roller 17 for conveying, is attached to the lower portion of the roller 24 after being wound to the upper portion of the second driven conveying roller 19 through the lower portion of the second driven conveying roller 19 for conveying, and is attached to the bottom portion of the output support member 2 after being wound to the upper portion of the moving roller 15 through the lower portion of the moving roller 15 for conveying.

When the belt conveyor is used, the belt motor 10 is started, the belt motor 10 drives the driving conveying roller 17 to rotate anticlockwise through the output shaft of the belt motor 10 and the chain wheel chain, the driving conveying roller 17 rotates to drive the conveying belt 5 to convey, materials are conveyed into the belt conveyor from the input support member 4 and are conveyed out of the output support member 2, when the materials are conveyed to the output support member 2 while the conveying belt 5 conveys, the servo motor 11 is started, the belt motor 10 temporarily works, the servo motor 11 drives the synchronous pulley 20 to rotate clockwise through the output shaft of the servo motor 11 and the chain wheel chain, the synchronous pulley 20 rotates clockwise to drive the synchronous belt 21 to convey from the second driven conveying roller 19 to the synchronous pulley 20, so as to drive the second driven conveying roller 19 to rotate clockwise, at the moment, the conveying belt 5 between the feed end of the input support member 4 and the second driven conveying roller 19 can be tightened, the shape of the conveyor belt 5 between the discharge end of the output support member 2 and the second driven conveyor roller 19 can be changed, and the upper clamping plate 22, the lower clamping plate 23, the connecting plate 14, the sliding block 13, the moving roller 15, the output support member 2 and the middle support member 3 fixed on the synchronous belt 21 can move along the linear slide rail 12 towards the input support member 4, so that the conveyor belt 5 between the discharge end of the output support member 2 and the second driven conveyor roller 19 can tighten the conveyor belt 5 between the second driven conveyor roller 19 and the moving roller 15 and the conveyor belt 5 between the discharge end of the output support member 2 and the moving roller 15 again along with the movement of the moving roller 15, so that the materials conveyed on the output support member 2 fall into a storage disc placed below the output support member 2 and are neatly arranged in the storage disc, and the servo motor 11 works to drive the synchronous belt wheel 20 to rotate anticlockwise through the output shaft of the servo motor 11 and the chain wheel, the counterclockwise rotation of the synchronous pulley 20 will drive the synchronous belt 21 to transfer from the synchronous pulley 20 to the direction of the second driven conveying roller 19, thereby driving the second driven conveying roller 19 to rotate counterclockwise, and the upper clamping plate 22 fixed on the synchronous belt 21, the lower clamping plate 23, the connecting plate 14, the slider 13, the moving roller 15, the output support 2 and the middle support 3 will move along the linear slide rail 12 to the direction of the discharging end of the output support 2, the rollers 24 are arranged so that the upper clamping plate 22 and the lower clamping plate 23 move relative to the conveying belt 5, and the conveying belt 5 between the moving roller 15 and the rollers 24 can be kept in a tight state, until the output support 2 recovers the initial position, the servo motor 11 stops working, and continues to provide power for the rotation of the driving conveying roller 17 through the belt motor 10, so as to continue to convey the material, and the next group of materials can be conveyed by repeating the above actions.

Further, install lift mount 6 on middle part support piece 3, the symmetry articulates around on lift mount 6 has two lift cylinders 7, two lift cylinder 7 removes the end and rotates with output support piece 2 front and back both ends face respectively and is connected, supports lift cylinder 7 through lift mount 6, through the turned angle for middle part support piece 3 of lift cylinder 7 work adjustment output support piece 2 to the height on 2 discharge ends of adjustment output support piece apart from ground, so that place the memory disc that the co-altitude is used for placing the material in output support piece 2 bottom.

Further, the support assembly further comprises an input support 4 rotatably connected to the support frame 1.

Furthermore, two connecting seats 8 are symmetrically arranged on the side face, close to the input supporting piece 4, of the supporting frame 1, two telescopic rods 9 which are respectively used for being hinged with the front end face and the rear end face of the input supporting piece 4 are hinged to the connecting seats 8, the inclination of the input supporting piece 4 relative to the middle supporting piece 3 can be adjusted by adjusting the length of the telescopic rods 9, the input supporting piece can be conveniently connected with conveying structures on other equipment, and the assembly line type processing is formed.

Preferably, the support frame 1 is provided with two risers 25 in front and back both ends symmetry, riser 25 bottom all is equipped with spring 27, two be equipped with round axle 26 between the spring 27 top, the symmetrical cover is equipped with two supporting wheels 28 that are used for supporting hold-in range 21 on the round axle 26, plays the supporting role to spring 27 through riser 25, supports round axle 26 through spring 27, supports hold-in range 21 through supporting wheel 28 for keep the hold-in range 21's of below degree of tightening.

In this embodiment, conveyor belt 5 laminates in proper order in output support piece 2, middle part support piece 3, input support piece 4 and tensioning roller 16's top, through initiative conveyor roller 17 below around the top conveying of laminating first driven conveyor roller 18 behind initiative conveyor roller 17 top, through the conveying of laminating gyro wheel 24 below behind second driven conveyor roller 19 below around to second driven conveyor roller 19 top, again through removing roller 15 below around laminating output support piece 2 bottom conveying after removing roller 15 top, endless transfer conveyor belt 5 to in the transported substance material.

Further, one side that middle part support piece 3 was kept away from to output support piece 2 and input support piece 4 all rotates and is connected with two at least rotations drums, the drum is the installation of triangle-shaped shape and uses conveyor belt 5 and uses decurrent slope as external contact surface, and the use of laminating mutually is imported and exported with the input of other conveying equipment in being convenient for, and the laminating is inseparabler.

In this embodiment, the outside of the support frame 1 is provided with an outer casing 101 for shielding components, and the appearance is neat and beautiful.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (8)

1. The utility model provides a arrange a set machine with flexible compensation structure which characterized in that: the device comprises a support frame (1), wherein a support component for supporting a conveying belt (5), a belt winding unit for driving the conveying belt (5) to convey and a horizontal telescopic compensation unit for driving the conveying belt (5) to horizontally stretch and compensate are arranged on the support frame (1);

the supporting assembly comprises a middle supporting piece (3) and an output supporting piece (2) which is rotatably connected with the middle supporting piece (3), and the output supporting piece (2) and the middle supporting piece (3) are in sliding connection with the supporting frame (1);

the belt winding unit comprises a first driven conveyor roller (18) located below the intermediate support (3) and a second driven conveyor roller (19) located below the output support (2);

the horizontal telescopic compensation unit comprises a servo motor (11), a synchronous belt pulley (20) which is positioned between a first driven conveying roller (18) and a second driven conveying roller (19) and is connected with an output shaft of the servo motor (11) through a chain wheel and a chain, two linear slide rails (12) which are symmetrically arranged on the top end surface of the support frame (1) in the front-back direction, at least two slide blocks (13) which are connected with the linear slide rails (12) in a sliding manner, a connecting plate (14) which is used for connecting the slide blocks (13) on the same side with the middle supporting piece (3), a moving roller (15) which is arranged between the two connecting plates (14) and is rotationally connected with the connecting plate (14), an upper clamping plate (22) which is arranged below the connecting plate (14), a lower clamping plate (23) which is clamped below the upper clamping plate (22), and a plurality of idler wheels (24) which are arranged on one side of the two upper clamping plates (22) close to the synchronous belt pulley (20), the connecting plate (14) is positioned above the roller (24), the upper clamping plate (22) and the lower clamping plate (23) are clamped and then used for fixing the synchronous belt (21), the roller (24) is rotationally connected with the upper clamping plate (22) and is in surface contact with the conveying belt (5), the front end and the rear end of the second driven conveying roller (19) and the front end and the rear end of the synchronous pulley (20) are respectively sleeved with a pulley, and two synchronous belts (21) used for connecting the pulleys are symmetrically arranged in the front and the rear.

2. The disc arranging machine with the telescopic compensation structure as claimed in claim 1, wherein: the support assembly further comprises an input support (4) rotatably connected with the support frame (1).

3. The disc arranging machine with the telescopic compensation structure as claimed in claim 2, wherein: the belt winding unit further comprises a belt motor (10), a tension roller (16) located below the input supporting piece (4), and a driving conveying roller (17) located below the tension roller (16) and connected with an output shaft of the belt motor (10) through a chain wheel and a chain, wherein the driving conveying roller (17) is located below the first driven conveying roller (18).

4. The disc arranging machine with the telescopic compensation structure as claimed in claim 1, wherein: install lift mount (6) on middle part support piece (3), the symmetry articulates around on lift mount (6) has two lift cylinders (7), two lift cylinder (7) remove the end respectively with output support piece (2) around both ends face rotate to be connected.

5. The disc arranging machine with the telescopic compensation structure as claimed in claim 2, wherein: two connecting seats (8) are symmetrically arranged on the side face, close to the input supporting piece (4), of the supporting frame (1), and two telescopic rods (9) which are respectively hinged to the front end face and the rear end face of the input supporting piece (4) are hinged to the connecting seats (8).

6. The disc arranging machine with the telescopic compensation structure as claimed in claim 1, wherein: support frame (1) front and back both ends symmetry is equipped with two riser (25), riser (25) bottom all is equipped with spring (27), two be equipped with round axle (26) between spring (27) top, the symmetry cover is equipped with two supporting wheel (28) that are used for supporting hold-in range (21) on round axle (26).

7. The disc arranging machine with the telescopic compensation structure as claimed in claim 2, wherein: one side of the output supporting piece (2) and one side of the input supporting piece (4) far away from the middle supporting piece (3) are both rotationally connected with at least two rotating cylinders, and the cylinders are installed in a triangular shape and used for supporting the conveying belt (5) and taking a slope as an external contact surface.

8. The disc arranging machine with the telescopic compensation structure as claimed in claim 1, wherein: the outside of the support frame (1) is provided with an outer shell (101).

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