CN216638203U - High-order upset feed arrangement of raw materials of puffed rice saccharide food preparation - Google Patents

Abstract

The utility model provides a raw material high-position overturning and feeding device for preparing popcorn sugar type food, which comprises a rack structure, wherein a lifting frame structure is matched on the rack structure in a sliding manner, the lifting frame structure is connected with a synchronous chain lifting mechanism for driving the lifting frame structure to lift and slide along the rack structure, and the synchronous chain lifting mechanism is connected with a transmission device for providing lifting power; a box body structure for supporting and limiting the stirring tank is rotatably arranged on the lifting frame structure; the box body structure is connected with a turnover guide mechanism which is used for guiding the box body structure and driving the box body structure to rotate; the side of the frame structure is provided with a blanking frame structure. This feed arrangement can be used for the mixed raw materials agitator tank's of puffed rice sugar class food promotion material loading and the automatic unloading operation of empting of high-order of agitator tank, replaces traditional artifical material loading process, has improved material loading efficiency, has reduced operation personnel's intensity of labour.

Description

High-order upset feed arrangement of raw materials of puffed rice saccharide food preparation

Technical Field

The utility model belongs to the technical field of cereal puffed food processing, and particularly relates to a raw material high-position overturning feeding device and method for preparing popcorn saccharide food.

Background

During the preparation and processing of puffed popcorn and sugar type food, puffed cereals, popcorn, maltose and edible oil are stirred in a stirring tank to be fully mixed, and then poured into a forming machine to be rolled, formed and sliced.

Because the agitator tank that adopts at present is split type, after the mixer is accomplished the stirring of the inside mixed raw materials of agitator tank, need the propelling movement to the material loading machine position, empty the inside material of agitator tank into subsequent rolling forming production line, at the in-process of empting, at first need promote the agitator tank, then slope it again to realize empting of material. Traditional material loading process mainly adopts the mode of hoist and mount to realize the material loading, and the material is poured to the artifical mode of empting of rethread, and among the foretell technology process, because agitator tank weight is big, manual work intensity is high, and work efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides the raw material high-position overturning feeding device and the raw material high-position overturning feeding method for the preparation of the popcorn saccharide type food.

In order to achieve the technical features, the utility model is realized as follows: the raw material high-position overturning and feeding device for preparing the popcorn sugar type food comprises a rack structure, wherein a lifting frame structure is matched on the rack structure in a sliding manner, the lifting frame structure is connected with a synchronous chain lifting mechanism for driving the lifting frame structure to lift and slide along the rack structure, and the synchronous chain lifting mechanism is connected with a transmission device for providing lifting power; a box body structure for supporting and limiting the stirring tank is rotatably arranged on the lifting frame structure; the box body structure is connected with a turnover guide mechanism which is used for guiding the box body structure and driving the box body structure to rotate; the side of the frame structure is provided with a blanking frame structure.

The rack structure comprises a fixed bottom plate, wherein the top of the fixed bottom plate is fixed with an upright column in parallel, and the top of the upright column is fixed with a top plate; a vertical guide rail is fixed on the outer side wall of the upright post; adjacent upright posts are fixedly connected through a plurality of groups of U-shaped rods which are vertically arranged at equal intervals.

The lifting frame structure comprises inner side sliding plates which are arranged in parallel, the inner side sliding plates are fixedly connected through inner rib plates, the inner rib plates are fixedly connected through pull rod screws, guide wheels are supported and installed on the edges of the inner side sliding plates through roller installation rods, and the guide wheels and vertical guide rails of the frame structure are in sliding fit.

The transmission device comprises a motor, the motor is fixedly installed at the top of a fixed bottom plate of the frame structure through a motor base, a driving belt wheel is installed on an output shaft of the motor, the driving belt wheel is in meshing transmission with a driven belt wheel through a belt, the driven belt wheel is installed on an input shaft of a speed reducer, and the output shaft of the speed reducer is connected with a synchronous chain lifting mechanism.

The synchronous chain lifting mechanism comprises a driving chain wheel arranged on an output shaft of the transmission device, the driving chain wheel is in meshing transmission with a driven chain wheel through a chain, and the chain is fixedly connected with an inner side sliding plate of the lifting frame structure through a chain clamping plate; the driven chain wheel is rotatably installed on a top bearing seat through a chain wheel main shaft, the top bearing seat is arranged on a bearing lifting seat in a sliding fit mode, a lifting adjusting screw rod is arranged at the bottom end of the top bearing seat, and the lifting adjusting screw rod and a top plate of the rack structure form a threaded transmission fit and adjust the height of the top bearing seat.

The box body structure comprises a box body mounting plate fixed on the lifting frame structure, limiting bolts are processed at the edges of two sides of the box body mounting plate, a bearing box body is rotatably mounted on the outer side wall of the box body mounting plate through a box body bearing seat and a box body rotating shaft, a positioning step is arranged in the middle of the bearing box body, and limiting baffles are symmetrically arranged at the edge of the top of the bearing box body; the bearing box body is matched with the overturning guide mechanism and drives the bearing box body to rotate around the rotating shaft of the box body.

The overturning guide mechanism comprises a vertical sliding chute fixed on the side edge of the rack structure, and the tail end of the top of the vertical sliding chute is provided with an arc-shaped sliding chute; the outer side wall of the bearing box body of the box body structure is provided with a pressure lever, the pressure lever is provided with a connecting rod, the outer side wall of the top end of the connecting rod is fixedly provided with a guide post, and the guide post, the vertical sliding groove and the arc-shaped sliding groove form sliding guide fit.

The blanking frame structure comprises a blanking frame, an inclined blanking frame body is fixed to the top of the blanking frame, a blanking plate is supported on the inclined blanking frame body, and side baffles are arranged on two sides of the inclined blanking frame body.

The box structure cooperatees with the agitator tank structure that is used for bearing the agitator tank, the agitator tank structure includes the agitator tank body, and the agitator tank body supports through the vertical scroll and installs at the top of agitator tank backup pad, and the head pulley is installed to the bottom front end of agitator tank backup pad, and the rear wheel is installed to the bottom rear end of agitator tank backup pad, and the rear wheel is installed at the both ends of rear wheel axle.

The utility model has the following beneficial effects:

1. this feed arrangement can be used for the mixed raw materials agitator tank's of puffed rice sugar class food promotion material loading and the automatic unloading operation of empting of high-order of agitator tank, replaces traditional artifical material loading process, has improved material loading efficiency, has reduced operation personnel's intensity of labour.

2. The lifting frame structure can provide a guide rail for lifting the lifting frame structure, and therefore the lifting frame structure can be guaranteed to be capable of achieving lifting action.

3. Through foretell hoisting frame structure can realize the lift action, and then drive the box structure and realize going up and down, can be used for constituting vertical sliding fit with vertical guide rail through the leading wheel.

4. The transmission device can be used for providing lifting power.

5. The synchronous chain lifting mechanism can be used for lifting the lifting frame structure.

6. Can be used for bearing the weight of the agitator tank body through foretell box structure.

7. Can be used for driving the box structure through foretell upset guiding mechanism and rotate, and then realize that the upset of agitator tank structure is emptyd.

8. Through foretell unloading frame structure can be used for carrying out the unloading to the material of empting, makes it enter into rolling equipment.

Drawings

The utility model is further illustrated by the following figures and examples.

FIG. 1 is a first perspective three-dimensional view of the overall structure of the present invention.

FIG. 2 is a second perspective three-dimensional view of the overall structure of the present invention.

FIG. 3 is a second perspective three-dimensional view of the overall structure of the present invention.

FIG. 4 is a first perspective three-dimensional view of the present invention after carrying the agitator tank structure.

FIG. 5 is a second perspective three-dimensional view of the present invention after carrying the agitator tank structure.

In the figure: the device comprises a rack structure 1, a transmission device 2, a lifting frame structure 3, a synchronous chain lifting mechanism 4, a box body structure 5, a turnover guide mechanism 6, a blanking frame structure 7 and a stirring tank structure 8;

a fixed bottom plate 101, a vertical column 102, a U-shaped rod 103, a vertical guide rail 104 and a top plate 105;

a motor 202, a driving pulley 203, a motor base 204, a driven pulley 205 and an input shaft 206;

a roller mounting rod 301, a guide wheel 302, an inner side slide plate 303, an inner rib plate 304 and a pull rod screw 305;

a driving sprocket 401, a chain clamping plate 402, a driven sprocket 403, a sprocket main shaft 404, a top bearing seat 405, a bearing lifting seat 406 and a lifting adjusting screw 407;

the device comprises a limit bolt 501, a box body mounting plate 502, a box body bearing seat 503, a box body rotating shaft 504, a limit baffle 505, a positioning step 506 and a bearing box body 507;

the device comprises an arc-shaped sliding groove 601, a vertical sliding groove 602, a guide post 603, a connecting rod 604 and a pressure lever 605;

a blanking frame 701, an inclined blanking frame body 702, a blanking plate 703 and a side baffle 704;

agitator tank 801, vertical shaft 802, agitator tank support plate 803, rear wheel axle 804, head wheel 805, rear wheel 806.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1-5, the high-position turning feeding device for raw materials for preparing popcorn sugar foods comprises a frame structure 1, wherein a lifting frame structure 3 is matched on the frame structure 1 in a sliding manner, the lifting frame structure 3 is connected with a synchronous chain lifting mechanism 4 for driving the lifting frame structure to slide up and down along the frame structure 1, and the synchronous chain lifting mechanism 4 is connected with a transmission device 2 for providing lifting power; a box body structure 5 for supporting and limiting the stirring tank is rotatably arranged on the lifting frame structure 3; the box body structure 5 is connected with a turnover guide mechanism 6 which is used for guiding the box body structure and driving the box body structure to rotate; a blanking frame structure 7 is arranged on the side edge of the frame structure 1. This feed arrangement can be used for the mixed raw materials agitator tank's of puffed rice sugar class food promotion material loading and the automatic unloading operation of empting of high-order of agitator tank, replaces traditional artifical material loading process, has improved material loading efficiency, has reduced operation personnel's intensity of labour. In the concrete use, through 2 drive synchronous chain hoist mechanism 4 of transmission, through 4 drive hoisting frame structure 3 of synchronous chain hoist mechanism, drive box structure 5 and agitator tank structure 8 whole lift through hoisting frame structure 3, the rethread upset guiding mechanism 6 overturns box structure 5, realizes empting.

Further, the rack structure 1 includes a fixed bottom plate 101, a vertical column 102 is fixed on the top of the fixed bottom plate 101 in parallel, and a top plate 105 is fixed on the top of the vertical column 102; a vertical guide rail 104 is fixed on the outer side wall of the upright post 102; the adjacent upright posts 102 are fixedly connected through a plurality of groups of U-shaped rods 103 which are vertically arranged at equal intervals. Through foretell rack construction 1 can provide the guide rail that hoisting frame structure 3 goes up and down, and then guarantee that hoisting frame structure 3 can realize the lift action. Vertical guidance is achieved by vertical guide rails 104.

Further, the hoisting frame structure 3 comprises inner sliding plates 303 arranged in parallel, the inner sliding plates 303 are fixedly connected through inner rib plates 304, the inner rib plates 304 are fixedly connected through pull rod screws 305, the edges of the inner sliding plates 303 are supported and mounted with guide wheels 302 through roller mounting rods 301, and the guide wheels 302 and the vertical guide rails 104 of the frame structure 1 form a sliding fit. Through foretell hoisting frame structure 3 can realize the lift action, and then drive box structure 5 and realize going up and down, can be used for constituting vertical sliding fit with vertical guide rail 104 through leading wheel 302.

Further, the transmission device 2 includes a motor 202, the motor 202 is fixedly installed on the top of the fixed bottom plate 101 of the frame structure 1 through a motor base 204, a driving pulley 203 is installed on an output shaft of the motor 202, the driving pulley 203 is in meshing transmission with a driven pulley 205 through a belt, the driven pulley 205 is installed on an input shaft 206 of a speed reducer 201, and the output shaft of the speed reducer 201 is connected with the synchronous chain lifting mechanism 4. The transmission 2 can be used for providing lifting power. In operation, the motor 202 drives the driving pulley 203, the driving pulley 203 drives the driven pulley 205, the driven pulley 205 drives the speed reducer 201, and the speed reducer 201 drives the timing chain lifting mechanism 4.

Further, the synchronous chain lifting mechanism 4 comprises a driving sprocket 401 mounted on the output shaft of the transmission device 2, the driving sprocket 401 is in meshing transmission with a driven sprocket 403 through a chain, and the chain is fixedly connected with the inner sliding plate 303 of the lifting frame structure 3 through a chain clamping plate 402; the driven sprocket 403 is rotatably mounted on a top bearing seat 405 through a sprocket main shaft 404, the top bearing seat 405 is in sliding fit with a bearing lifting seat 406, a lifting adjusting screw 407 is arranged at the bottom end of the top bearing seat 405, and the lifting adjusting screw 407 and the top plate 105 of the frame structure 1 form threaded transmission fit and adjust the height of the top bearing seat 405. The lifting frame structure 3 can be lifted by the above-described synchronous chain lifting mechanism 4. In the course of the work, drive sprocket 401 through reduction gear 201 drive synchronous chain hoist mechanism 4, through drive sprocket 401 drive chain, through chain and chain splint 402 drive hoisting frame structure 3 wholly rise along rack construction 1, and then drive box structure 5 and agitator tank structure 8 and wholly rise.

Further, the box structure 5 comprises a box mounting plate 502 fixed on the lifting frame structure 3, limit bolts 501 are processed on two side edges of the box mounting plate 502, a bearing box 507 is rotatably mounted on the outer side wall of the box mounting plate 502 through a box bearing seat 503 and a box rotating shaft 504, a positioning step 506 is arranged in the middle of the bearing box 507, and limit baffles 505 are symmetrically arranged on the top edge of the bearing box 507; the carrying case 507 is engaged with the turn-over guide mechanism 6 and driven to rotate about the case rotating shaft 504. The above-described tank structure 5 can be used to carry the agitation tank 801. In the working process, the stirring tank structure 8 is integrally pushed into the box body structure 5, and the limiting baffle 505 and the positioning step 506 jointly act to further support and limit the stirring tank structure 8.

Further, the overturning guide mechanism 6 comprises a vertical chute 602 fixed at the side of the rack structure 1, and an arc chute 601 is arranged at the tail end of the top of the vertical chute 602; the outer side wall of a bearing box body 507 of the box body structure 5 is provided with a pressure lever 605, the pressure lever 605 is provided with a connecting rod 604, the outer side wall of the top end of the connecting rod 604 is fixed with a guide post 603, and the guide post 603, the vertical sliding groove 602 and the arc-shaped sliding groove 601 form sliding guide fit. Can be used for driving box structure 5 through foretell upset guiding mechanism 6 and rotate, and then realize that the upset of agitator tank structure 8 is emptyd. In the specific working process, the guide post 603, the vertical sliding groove 602 and the arc-shaped sliding groove 601 form sliding guide fit, when the guide post 603 moves to the highest position, the arc-shaped sliding groove 601 drives the connecting rod 604 to rotate, and the bearing box body 507 is pressed downwards to rotate around the box body rotating shaft 504.

Further, the blanking frame structure 7 includes a blanking frame 701, an inclined blanking frame body 702 is fixed on the top of the blanking frame 701, a blanking plate 703 is supported on the inclined blanking frame body 702, and side baffles 704 are arranged on two sides of the inclined blanking frame body 702. Can be used for carrying out the unloading to the material of empting through foretell unloading frame structure 7, make it enter into rolling equipment.

Further, box structure 5 cooperatees with a stirred tank structure 8 that is used for bearing the agitator tank, stirred tank structure 8 includes stirred tank body 801, and stirred tank body 801 supports through vertical scroll 802 and installs the top at stirred tank backup pad 803, and head wheel 805 is installed to the bottom front end of stirred tank backup pad 803, and rear wheel 804 is installed to the bottom rear end of stirred tank backup pad 803, and rear wheel 806 is installed at the both ends of rear wheel 804. The stirring tank structure 8 can be used for mixing and stirring raw materials.

The working process and principle of the utility model are as follows:

firstly, popcorn, maltose and edible oil for preparing the popcorn candy are placed in a stirring tank 801, and the whole stirring tank 801 is pushed to a stirrer to be stirred;

after the raw materials are stirred, mixed and uniformly stirred, the stirring tank structure 8 is pushed to move to the position of the box body structure 5, and the stirring tank structure 8 is limited through a limiting baffle 505 and a positioning step 506 so as to be fixedly supported on the bearing box body 507;

step three, starting the transmission device 2, driving a driving belt wheel 203 through a motor 202, driving a driven belt wheel 205 through the driving belt wheel 203, and driving a speed reducer 201 through the driven belt wheel 205;

driving a driving sprocket 401 of the synchronous chain lifting mechanism 4 through the speed reducer 201, driving a chain through the driving sprocket 401, and driving the lifting frame structure 3 to integrally lift along the rack structure 1 through the chain and a chain clamping plate 402 so as to drive the box body structure 5 and the stirring tank structure 8 to integrally lift;

step five, in the ascending process of the box body structure 5, the guide post 603 of the overturning guide mechanism 6, the vertical sliding groove 602 and the arc-shaped sliding groove 601 form sliding guide fit, when the guide post 603 moves to the position of the arc-shaped sliding groove 601, the connecting rod 604 presses down the bearing box body 507 under the action of the pressure lever 605, so that the bearing box body 507 rotates around the box body rotating shaft 504, the whole stirring tank structure 8 is overturned, the material in the stirring tank structure is poured into the discharging frame structure 7, and then the stirring tank structure is sent to a subsequent rolling production line through the discharging frame structure 7.

Claims (9)

1. High-order upset feed arrangement of raw materials of puffed rice saccharide food preparation, its characterized in that: the lifting mechanism comprises a rack structure (1), wherein a lifting frame structure (3) is matched on the rack structure (1) in a sliding manner, the lifting frame structure (3) is connected with a synchronous chain lifting mechanism (4) used for driving the lifting frame structure to slide up and down along the rack structure (1), and the synchronous chain lifting mechanism (4) is connected with a transmission device (2) used for providing lifting power; a box body structure (5) for supporting and limiting the stirring tank is rotatably arranged on the lifting frame structure (3); the box body structure (5) is connected with a turnover guide mechanism (6) which is used for guiding the box body structure and driving the box body structure to rotate; a blanking frame structure (7) is arranged on the side edge of the frame structure (1).

2. The popcorn sugar food preparation material high-level flip-feed apparatus according to claim 1, wherein: the rack structure (1) comprises a fixed bottom plate (101), upright columns (102) are fixed on the top of the fixed bottom plate (101) in parallel, and top plates (105) are fixed on the tops of the upright columns (102); a vertical guide rail (104) is fixed on the outer side wall of the upright post (102); the adjacent upright posts (102) are fixedly connected through a plurality of groups of U-shaped rods (103) which are vertically arranged at equal intervals.

3. The popcorn sugar food preparation material high-level flip-feed apparatus according to claim 1, wherein: the lifting frame structure (3) comprises inner side sliding plates (303) which are arranged in parallel, the inner side sliding plates (303) are fixedly connected through inner rib plates (304), the inner rib plates (304) are fixedly connected through pull rod screws (305), the edges of the inner side sliding plates (303) are supported and installed with guide wheels (302) through roller installation rods (301), and the guide wheels (302) are in sliding fit with vertical guide rails (104) of the frame structure (1).

4. The popcorn sugar food preparation material high-level flip-feed apparatus according to claim 1, wherein: the transmission device (2) comprises a motor (202), the motor (202) is fixedly installed at the top of a fixed bottom plate (101) of the frame structure (1) through a motor base (204), a driving belt wheel (203) is installed on an output shaft of the motor (202), the driving belt wheel (203) is in meshing transmission with a driven belt wheel (205) through a belt, the driven belt wheel (205) is installed on an input shaft (206) of a speed reducer (201), and an output shaft of the speed reducer (201) is connected with a synchronous chain lifting mechanism (4).

5. The popcorn sugar food preparation material high-level flip feeding apparatus according to claim 1 or 4, wherein: the synchronous chain lifting mechanism (4) comprises a driving chain wheel (401) arranged on an output shaft of the transmission device (2), the driving chain wheel (401) is in meshed transmission with a driven chain wheel (403) through a chain, and the chain is fixedly connected with an inner side sliding plate (303) of the lifting frame structure (3) through a chain clamping plate (402); driven sprocket (403) passes through sprocket main shaft (404) and rotates and installs on top bearing frame (405), and top bearing frame (405) is through sliding fit on bearing lift seat (406), and the bottom of top bearing frame (405) is provided with lift adjusting screw (407), and lift adjusting screw (407) constitutes screw drive cooperation with roof (105) of rack construction (1) to adjust the height of top bearing frame (405).

6. The popcorn sugar food preparation material high-level flip-feed apparatus according to claim 1, wherein: the box body structure (5) comprises a box body mounting plate (502) fixed on the lifting frame structure (3), limit bolts (501) are processed on the edges of two sides of the box body mounting plate (502), a bearing box body (507) is rotatably mounted on the outer side wall of the box body mounting plate (502) through a box body bearing seat (503) and a box body rotating shaft (504), a positioning step (506) is arranged in the middle of the bearing box body (507), and limit baffles (505) are symmetrically arranged on the edge of the top of the bearing box body (507); the bearing box body (507) is matched with the overturning guide mechanism (6) and drives the same to rotate around the box body rotating shaft (504).

7. The popcorn sugar food preparation material high-level flip-feed apparatus according to claim 1, wherein: the overturning guide mechanism (6) comprises a vertical sliding chute (602) fixed on the side edge of the rack structure (1), and the tail end of the top of the vertical sliding chute (602) is provided with an arc-shaped sliding chute (601); a pressure lever (605) is arranged on the outer side wall of a bearing box body (507) of the box body structure (5), a connecting rod (604) is arranged on the pressure lever (605), a guide column (603) is fixed on the outer side wall of the top end of the connecting rod (604), and the guide column (603) is matched with the vertical sliding groove (602) and the arc sliding groove (601) in a sliding and guiding manner.

8. The popcorn sugar food preparation material high-level flip-feed apparatus according to claim 1, wherein: the blanking frame structure (7) comprises a blanking frame (701), an inclined blanking frame body (702) is fixed to the top of the blanking frame (701), a blanking plate (703) is supported on the inclined blanking frame body (702), and side baffles (704) are arranged on two sides of the inclined blanking frame body (702).

9. The popcorn sugar food preparation material high-level flip-feed apparatus according to claim 1, wherein: box structure (5) and agitator tank structure (8) that are used for bearing the agitator tank cooperate, agitator tank structure (8) are including the agitator tank body (801), and the agitator tank body (801) is supported through vertical scroll (802) and is installed at the top of agitator tank backup pad (803), and head pulley (805) are installed to the bottom front end of agitator tank backup pad (803), and rear wheel axle (804) are installed to the bottom rear end of agitator tank backup pad (803), and rear wheel (806) are installed at the both ends of rear wheel axle (804).

Images