CN219288587U - Oil-immersed transfer assembly for small twist - Google Patents

Abstract

The utility model discloses an oil immersed transfer assembly for small fried dough twists, and belongs to the technical field of food processing. The oil tank is filled with oil and can accommodate one transferring bucket; the transfer vehicle can move, oil is contained in the transfer vehicle, and a plurality of transfer hoppers can be placed side by side; the weighing platform is positioned below the tail end of an output belt of the small twist production device, the transfer platform is positioned beside the weighing platform, the platform balance and the oil supplementing barrel are positioned beside the transfer platform, the platform balance can weigh the oil groove and the total weight of the oil therein and the transfer bucket, the oil supplementing barrel is used for manually supplementing oil to the oil groove on the platform balance, the weighing platform and the transfer platform are respectively provided with an oil groove, the transfer bucket in the oil groove on the weighing platform can receive the small twist output by the output belt, the top of the transfer bucket is provided with two grab handles side by side, and the top of the transfer bucket is provided with an oil penetrating hole; when the transfer hopper is positioned in the oil groove and the transfer vehicle, the small twist in the transfer hopper is all immersed in the oil.

Description

Oil-immersed transfer assembly for small twist

Technical Field

The utility model belongs to the technical field of food processing, and particularly relates to an oil immersed transfer assembly for small fried dough twists.

Background

The small twist is an old traditional snack. The main production area is in the Yanning city of Hubei province, chong yang county. The small fried dough twist is golden and striking, sweet, crisp, sweet but not greasy, fresh in taste and delicious in teeth and cheeks; is delicious and not greasy, and does not cause excessive internal heat when people eat more. Is rich in protein, amino acid, multiple vitamins and microelements.

The preparation method of the small fried dough twist is different from the preparation method of the big fried dough twist, and the preparation process of the big fried dough twist is as follows: dough kneading, machine-made or manual processing of the fried dough twist, a swinging plate (the fried dough twist is placed in a frying tray), frying (the frying tray is placed in a hanging cage, and the hanging cage is placed in a frying pot for frying), oil draining, cooling and packaging (the fried dough twist is manually taken out from the tray and swung into a packaging arrangement), and the like.

The processing equipment of the big twist can be seen from the patent with the application number of CN 201010292632.1, and the patent discloses a multi-face static washboard of a twist machine and an array twist machine, which comprises a transmission driving washboard, a static washboard, a shaping device and a twist receiving and sending device, wherein the transmission driving washboard, the static washboard and the shaping device are positioned on the same twist making rack, and the shaping device is arranged behind the static washboard; the fixed washboard is a multi-face fixed washboard of the dough twist machine, the multi-face fixed washboard of the dough twist machine is correspondingly transmitted to drive the washboard to be arranged in a row, and is hinged with a fixed washboard bracket fixed on the dough twist machine frame through a hinged joint at the top of the fixed washboard, and the surface of the transmitted driven washboard is provided with anti-skid patterns; the multi-face static washboard comprises an elastomer with a hard plate on the top face, wherein the bottom face of the elastomer is provided with adjacent double-strand noodle twisting faces and twist twisting faces, the twist twisting faces are grooves relative to the double-strand noodle twisting faces, and the height difference of the two faces is matched with the corresponding twist.

The frying device of the big twist can be seen in the patent with the application number of CN02228873.2, the patent discloses a frying device, a frying device of the big twist is a rectangular frying cage, a plurality of layers of shelves for placing frying trays are arranged on the shelves, the frying cage is hung on a hanging rod through a cantilever and a hanging wheel, and the frying device also comprises an energy-saving pot which is in the same shape as the rectangular frying cage and is wider than the rectangular frying cage; the twist pot lifting device consists of a suspender and a lever-type suspender lifting mechanism, a sliding arm of the twist pot lifting device is connected with a sliding block arranged in a chute of a vertical frame, the tail end of the suspender is fixed on the sliding arm, and the head end of the suspender is fixed at the bottom of the head end of the frame through a bracket. A plurality of frying trays can be placed in the rectangular frying cage and immersed in the rectangular energy-saving oil pan, so that the use efficiency of the oil pan and the frying device is improved, the yield of the fried dough twists is greatly improved, and the fried dough twists can be conveniently conveyed to a packaging line by the pot lifting device; the time and temperature control device can accurately control the frying and heating time of the fried dough twist, and ensures the quality of products. The patent with the application number of CN200720083709.8 discloses a fried food hanging basket, which is divided into two sides by taking a hanging rod as a center, each side consists of a chassis and a plurality of tray covers, a space for placing fried food trays is arranged below the tray covers, one side of each tray cover is provided with a supporting rod for supporting the tray covers to rotate and lift, the upper end of each supporting rod is connected with each layer of tray cover through a rotating connecting piece, the lower end of each supporting rod is sleeved with a sliding rod arranged at one side of the chassis through a rotating sleeve, and each rotating sleeve is also respectively connected with a pull rod. One end of the lifting slide bar is connected with the main upright post, and the other end is lapped on the top end of the auxiliary upright post and is connected with a hinge of a cylinder piston on the lifting slide bar. The front edge of the uppermost tray cover is pressed with two buckling pieces, the buckling pieces are arranged on the rotating handle, and the rotating handle is fixed on the chassis. The food frying basket corresponds to the rectangular frying cage of CN 02228873.2.

The processing process of the small fried dough twist comprises the following steps: machine-made fried dough twists (extruding, winding and cutting), frying, draining, cooling, packaging and the like. The utility model provides a little fried dough twist's processing equipment can see the patent of application number as CN201921275700.6, and this patent discloses a dough pressing mechanism of fried dough twist machine, including face pressing cylinder and face pressing plate subassembly, face pressing plate subassembly sliding connection is in the face pressing cylinder, still include servo motor, speed reducer casing, input screw rod, output telescopic screw rod and worm wheel, the worm wheel set up in the speed reducer casing, face pressing plate subassembly set up in the face pressing cylinder, output telescopic screw rod one end with the face pressing plate subassembly links to each other and sets up in the speed reducer casing, servo motor drive input screw rod rotates, input screw rod with the outside screw thread of worm wheel links to each other, output telescopic screw rod links to each other with the inboard screw thread of worm wheel, follows output telescopic screw rod's length direction is equipped with the spacing piece on the speed reducer casing, the spacing piece cooperation is in the spacing groove.

The small twist is different from the big twist in that the small twist is smaller and the processing amount is large, and the frying of a wobble plate is not needed. Before frying small dough twists, the small dough twists of multiple small dough twist processing devices need to be collected and transported to a fryer. However, the small twist has the characteristics of large quantity, small quantity and the like in the process of transferring, and is easy to adhere together, so that defective products appear.

Disclosure of Invention

In order to solve the problems, the embodiment of the utility model provides an oil immersed transfer assembly for small twist, which is immersed in oil all the time in the process of transferring a small twist production device to a frying device, so that adhesion is avoided. The technical scheme is as follows:

the embodiment of the utility model provides an oil immersed transfer assembly for small twist, which comprises a plurality of transfer hoppers 8, two oil tanks 6, a weighing platform 2, a transfer platform 3, a platform scale 4, an oil supplementing barrel 5 and at least two transfer carts 7, wherein the oil tanks 6 are filled with oil and can accommodate one transfer hopper 8; the transfer vehicle 7 can move, oil is contained in the transfer vehicle, and a plurality of transfer hoppers 8 can be arranged side by side; the weighing platform 2 is positioned below the tail end of an output belt 1 of the small twist production device, the transfer platform 3 is positioned beside the weighing platform 2, the platform balance 4 and the oil supplementing barrel 5 are positioned beside the transfer platform 3, the platform balance 4 can weigh the total weight of the oil groove 6, the oil in the oil groove 6 and the transfer bucket 8, the oil supplementing barrel 5 is used for manually supplementing the oil to the oil groove 6 on the platform balance 4, the weighing platform 2 and the transfer platform 3 are respectively provided with one oil groove 6, the transfer bucket 8 in the oil groove 6 on the weighing platform 2 can receive the small twist output by the output belt 1, and the top of the transfer bucket 8 is provided with two grab handles 9 side by side and oil penetration holes; when the transfer hopper 8 is positioned in the oil groove 6 and the transfer trolley 7, the small twist in the transfer hopper is all immersed in the oil.

The transfer hopper 8 in the embodiment of the utility model is a rectangular groove, a plurality of oil penetration holes are uniformly distributed at the bottom of the transfer hopper, and one end of the transfer hopper in the length direction is an inclined plane; the inclined surface is arranged at the other end of the inclined surface from top to bottom; the grab handle 9 is arranged along the width direction of the transfer hopper 8, is arranged in the middle of the transfer hopper 8 and is positioned above the oil groove 6 and the transfer trolley 7; the distance between the two handles 9 is 30-50cm.

Specifically, the length of the transfer hopper 8 in the embodiment of the utility model is matched with the width of the output belt 1, the width is 25-45cm, and the depth is 15-30cm.

Preferably, the bottom of the transfer hopper 8 in the embodiment of the utility model is provided with an anti-sticking orifice plate.

The transfer cart 7 in the embodiment of the utility model comprises a rectangular groove 10, a bracket 11 at the lower side of the rectangular groove 10, a plurality of rollers 12 at the bottom of the bracket 11, a collecting groove 13 on the bracket 11 and positioned at the periphery of the rectangular groove 10, and an oil collecting barrel 14 on the bracket 11 and positioned below the rectangular groove 10, wherein the height of the rectangular groove 10 is matched with the height of the frying device, and a plurality of transfer hoppers 8 can be placed in the rectangular groove; the collecting groove 13 is of a square structure matched with the rectangular groove 10, the top of the collecting groove is lower than the top of the rectangular groove 10, and the bottom of the collecting groove is connected with the oil collecting barrel 14 through a pipeline 15.

Specifically, a plurality of transfer hoppers 8 are placed in the rectangular groove 10 in the embodiment of the utility model in the length direction thereof, the length direction of the transfer hoppers 8 is perpendicular to the length direction of the rectangular groove 10, two support bars 16 are arranged in the rectangular groove 10 in parallel, the support bars 16 are arranged along the length direction of the rectangular groove 10, and the bottoms of the transfer hoppers 8 are placed on the two support bars 16.

Specifically, the support 11 in the embodiment of the present utility model is a rectangular frame structure that is matched with the collecting groove 13 in size, the number of the rollers 12 is four, and the rollers 12 are universal wheels, and the four rollers 12 are respectively located at four corners of the bottom of the support 11.

Preferably, the middle rotary table 3 is flush with and adjacent to the weighing table 2, the weighing table 2 is adjacent to the platform balance 4, and the weighing table 2, the middle rotary table 3, the platform balance 4 and the oil replenishing barrel 5 are all positioned in the oil collecting tank 17.

The technical scheme provided by the embodiment of the utility model has the beneficial effects that: the embodiment of the utility model provides an oil immersed transfer assembly for small fried dough twists, which is immersed in oil all the time in the process of transferring a small fried dough twist production device to a frying device, and adhesion is avoided. In addition, the weight of the small twist transferred each time is controllable, and the processing accuracy is ensured.

Drawings

Fig. 1 is a schematic structural view of an oil-immersed transfer assembly for small twist in an embodiment of the present utility model when collecting small twist;

FIG. 2 is a schematic view of the structure of FIG. 1 transferring a sump containing small twist to a turntable;

FIG. 3 is a schematic view of the structure of FIG. 2 for transferring a transfer hopper containing small twist to a transfer cart;

FIG. 4 is a schematic view of the structure of FIG. 3 transferring an empty transfer hopper to an oil sump on a transfer table;

FIG. 5 is a schematic view of the structure of a transfer bucket;

fig. 6 is a schematic structural view of the transfer cart.

In the figure: 1 output belt, 2 weighing platform, 3 revolving stage, 4 platform balance, 5 oil supply bucket, 6 oil groove, 7 transfer car, 8 transfer bucket, 9 grab handles, 10 rectangular channel, 11 support, 12 gyro wheels, 13 collecting groove, 14 oil collection bucket, 15 pipeline, 16 support bar, 17 oil collecting groove.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present utility model more apparent.

Example 1

Referring to fig. 1-6, embodiment 1 provides an oil immersed transfer assembly of small twist, comprising M transfer hoppers 8, two oil tanks 6, a weighing platform 2, a transfer platform 3, a platform scale 4, an oil replenishment barrel 5, N transfer carts 7, and the like. The oil sump 6 contains oil which can house a transfer hopper 8 which is slightly larger than the transfer hopper 8. The transfer cart 7 is movable to move from the small twist production device to the frying device (to pour the small twist in the transfer hoppers 8 into the frying device) and contains oil therein, in which K transfer hoppers 8 can be placed side by side. M, N and K are integers greater than or equal to 2, and the number of M is preferably greater than N. The weighing station 2 is located below the end of the output belt 1 of the small twist production device for weighing the oil sump 6 and its inner oil thereon, the transfer hopper 8 and the total weight of the small twist. The middle rotary table 3 is positioned beside the weighing table 2, and the platform balance 4 and the oil supplementing barrel 5 are positioned beside the middle rotary table 3; further, the transfer table 3 is flush with and adjacent to the weighing table 2, the weighing table 2 is adjacent to the platform scale 4, and the surface of the weighing table 2 is smooth to shake the oil groove 6 thereon so as to allow small twist to be dispersed in the oil and uniformly distributed. The platform balance 4 can weigh the total weight of the oil groove 6 and the oil therein and the transfer hopper 8, and the oil supplementing barrel 5 is used for manually supplementing the oil to the oil groove 6 on the platform balance 4 (such as by a water ladle). The first operator at the weighing platform 2, the second operator is arranged at the position of the middle rotary table 3, the platform balance 4 and the oil supplementing barrel 5, and the distance between the two operators is convenient for the second operator to operate. An oil groove 6 is respectively arranged on the weighing platform 2 and the transfer platform 3; specifically, the oil groove 6 on the weighing platform 2 is perpendicular to the output belt 1, and the transfer hopper 8 in the oil groove 6 on the weighing platform 2 can receive small twist output by the output belt 1. Two grab handles 9 (which are convenient for operators to hold and further move the transfer bucket 8) are arranged side by side at the top of the transfer bucket 8, and oil holes are formed in the grab handles to allow oil to pass through. When the transfer hopper 8 is positioned in the oil sump 6 and the transfer car 7, the small twist therein is all immersed in the oil.

The working process of the assembly is as follows: the operation flow of the first operator is as follows: the oil groove 6 is taken away from the platform balance 4 (the small twist is not arranged in the transfer hopper 8), the small twist output by the output belt 1 is received by the transfer hopper 8 in the oil groove 6 on the weighing platform 2, the output belt 1 is controlled to stop after a certain weight (first weight) is reached, and the transfer hopper 8 is transferred into the oil groove on the transfer platform 3. The operation flow of the second operator is as follows: the transfer hopper 8 in the oil groove 6 on the transfer table 3 is transferred into the transfer vehicle 7, the empty transfer hopper 8 (from the transfer vehicle 7) is placed in the oil groove 6, the oil groove 6 and the empty transfer hopper 8 are placed on the platform balance 4, the oil supplementing barrel 5 is supplemented with oil according to the weight (second weight) on the platform balance, and the small twist in the transfer hopper 8 is ensured to be a specific value through the first weight and the second weight. The operation flow of the third operator is as follows: the transfer cart 7 is pushed back and forth between the small twist production device and the frying device.

Referring to fig. 5, the transfer bucket 8 in the embodiment of the present utility model is a rectangular groove, the bottom of which is uniformly provided with a plurality of oil penetration holes (round holes, the diameter is preferably less than 3 mm), and one end of the transfer bucket in the length direction is an inclined plane so as to be convenient for pouring into the frying device. The inclined plane is arranged from top to bottom inclined at the other end, such as the front end or the rear end inclined. The grab handle 9 is arranged along the width direction of the transfer bucket 8, is arranged in the middle of the transfer bucket 8, is positioned above the oil groove 6 and the transfer trolley 7, and is specifically a hollow round tube. The distance between the two handles 9 is 30-50cm, so that the holding operation is convenient.

Specifically, the length of the transfer hopper 8 in the embodiment of the utility model is matched with the width of the output belt 1, the width is 25-45cm, and the depth is 15-30cm. So as to facilitate the operation and control of the lifting operation by a single person.

Preferably, an anti-sticking pore plate is arranged at the bottom of the transfer hopper 8 in the embodiment of the utility model so as to reduce the possibility of sticking the bottom of the lower twist, and the anti-sticking pore plate is particularly a tetrafluoroethylene plate and is uniformly distributed on the tetrafluoroethylene plate.

Referring to fig. 6, the transfer cart 7 in the embodiment of the present utility model includes a rectangular groove 10, a bracket 11, four rollers 12, a collecting groove 13, an oil collecting barrel 14, and the like, where the rollers 12, the bracket 11, and the rectangular groove 10 are sequentially disposed from bottom to top. The height of the rectangular groove 10 is matched with the height of the frying device, a plurality of transfer hoppers 8 can be placed side by side in the frying device, the support 11 is of a rectangular frame structure matched with the collecting groove 13 in size, and the four rollers 12 are respectively positioned at four corners of the bottom of the support 11. The collecting channel 13 forms a gab-like structure around the rectangular channel 10 to receive the spilled oil; specifically, the inner side of the collecting groove 13 and the outer side of the rectangular groove 10 share a groove side, the top of which is lower than the top of the rectangular groove 10, and the bottom of which is connected to the oil collecting bucket 14 through a pipe 15 (vertically disposed). The oil collection tub 14 is provided (preferably detachably) on the support 11 and is located below the rectangular groove 10 (and also below the collecting channel 13).

Specifically, K (specifically, three) transfer hoppers 8 are placed side by side in the longitudinal direction of the rectangular slot 10 in the embodiment of the present utility model. The length direction of the transfer bucket 8 is perpendicular to the length direction of the rectangular groove 10, two support bars 16 are arranged in parallel at the inner bottom of the rectangular groove 10, the support bars 16 are arranged along the length direction of the rectangular groove 10, and the bottom of the transfer bucket 8 is arranged on the two support bars 16. Specifically, the rectangular slot 10 has a length slightly greater than the width of the K transfer hoppers 8 and a width slightly greater than the length of the transfer hoppers 8.

Preferably, the weighing platform 2, the transfer platform 3, the platform balance 4 and the oil replenishing barrel 5 in the embodiment of the utility model are all positioned in the oil collecting tank 17 to avoid oil from spilling, and the height of the side edge of the oil collecting tank 17 is lower, such as less than 2cm.

Example 2

Referring to fig. 1-2, embodiment 2 provides an oil immersed transfer assembly of small twist, the output belt 1 is arranged along the front-back direction, the weighing platform 2 is arranged below the rear end of the output belt 1, the transfer hopper 8 on the output belt is arranged along the left-right direction, the middle rotary table 3 is arranged on the right side adjacent to the weighing platform 2, the platform scale 4 is arranged in front of the left side of the middle rotary table 3, the oil supplementing barrel 5 is arranged in front of the platform scale 4, the right side of the middle rotary table 3 is provided with a transfer vehicle 7 along the front-back direction, two sides of the frying device are respectively provided with a transfer vehicle 7, and other positions are provided with a transfer vehicle 7. The transfer car 7 can be provided with 3 transfer hoppers 8 side by side.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (8)

1. The oil immersed transfer assembly for the small twist is characterized by comprising a plurality of transfer hoppers (8), two oil tanks (6), a weighing platform (2), a transfer platform (3), a platform scale (4), an oil supplementing barrel (5) and at least two transfer vehicles (7), wherein the oil tanks (6) are filled with oil and can accommodate one transfer hopper (8); the transfer vehicle (7) can move, oil is contained in the transfer vehicle, and a plurality of transfer hoppers (8) can be arranged side by side; the weighing platform (2) is positioned below the tail end of an output belt (1) of the small twist production device, the transfer platform (3) is positioned beside the weighing platform (2), the platform balance (4) and the oil supplementing barrel (5) are positioned beside the transfer platform (3), the platform balance (4) can weigh the total weight of the oil groove (6) and the internal oil and the transfer hopper (8), the oil supplementing barrel (5) is used for manually supplementing the oil to the oil groove (6) on the platform balance (4), the weighing platform (2) and the transfer platform (3) are respectively provided with an oil groove (6), the transfer hopper (8) in the oil groove (6) on the weighing platform (2) can accept the small twist output by the output belt (1), and the top of the transfer hopper (8) is provided with two grab handles (9) side by side and is provided with oil through holes; when the transfer hopper (8) is positioned in the oil groove (6) and the transfer trolley (7), the small twist in the transfer hopper is all immersed in the oil.

2. The oil immersed transfer assembly of small twist according to claim 1, wherein the transfer hopper (8) is a rectangular groove, a plurality of oil penetration holes are uniformly distributed at the bottom of the transfer hopper, and one end of the transfer hopper in the length direction is an inclined plane; the inclined surface is arranged at the other end of the inclined surface from top to bottom; the grab handle (9) is arranged along the width direction of the transfer hopper (8), is arranged in the middle of the transfer hopper (8) and is positioned above the oil groove (6) and the transfer vehicle (7); the distance between the two handles (9) is 30-50cm.

3. The small twist oil immersed transfer assembly according to claim 2, characterized in that the transfer hopper (8) has a length matching the width of the output belt (1) and a width of 25-45cm and a depth of 15-30cm.

4. The oil immersed transfer assembly of small twist according to claim 2, characterized in that an anti-sticking orifice plate is provided at the bottom of the transfer hopper (8).

5. The oil immersed transfer assembly of small twist according to claim 1, characterized in that the transfer cart (7) comprises a rectangular groove (10), a bracket (11) at the lower side of the rectangular groove (10), a plurality of rollers (12) at the bottom of the bracket (11), a collecting groove (13) on the bracket (11) and positioned around the rectangular groove (10) and an oil collecting barrel (14) on the bracket (11) and positioned below the rectangular groove (10), wherein the height of the rectangular groove (10) is matched with the height of the frying device and a plurality of transfer hoppers (8) can be placed side by side; the collecting groove (13) is of a square structure matched with the rectangular groove (10), the top of the collecting groove is lower than the top of the rectangular groove (10), and the bottom of the collecting groove is connected with the oil collecting barrel (14) through a pipeline (15).

6. The oil immersed transfer assembly of small twist according to claim 5, wherein a plurality of transfer hoppers (8) are arranged in the rectangular groove (10) in parallel in the length direction of the rectangular groove, the length direction of the transfer hoppers (8) is perpendicular to the length direction of the rectangular groove (10), two support bars (16) are arranged in the rectangular groove (10) in parallel, the support bars (16) are arranged along the length direction of the rectangular groove (10), and the bottoms of the transfer hoppers (8) are arranged on the two support bars (16).

7. The small twist oil immersed transfer assembly according to claim 6, wherein the support (11) is a rectangular frame structure matched with the collecting groove (13) in size, the number of the rollers (12) is four, the rollers are universal wheels, and the four rollers (12) are respectively positioned at four corners of the bottom of the support (11).

8. The small twist oil immersed transfer assembly according to claim 1, wherein the transfer table (3) is flush with and adjacent to the weighing table (2), the weighing table (2) is adjacent to the platform balance (4), and the weighing table (2), the transfer table (3), the platform balance (4) and the oil replenishment tank (5) are all located in the oil collection tank (17).

Images