CN109169807B

CN109169807B - Automatic ham sorting and kneading equipment

Info

Publication number: CN109169807B
Application number: CN201811087011.2A
Authority: CN
Inventors: 杨清丹; 吴泽兰; 吴泽春; 陆廷华
Original assignee: Guizhou Haolin Food Development Co ltd; Guizhou Yanglaonai Food Co ltd
Current assignee: Guizhou Haolin Food Development Co ltd; Guizhou Yanglaonai Food Co ltd
Priority date: 2018-09-18
Filing date: 2018-09-18
Publication date: 2023-07-18
Anticipated expiration: 2038-09-18
Also published as: CN109169807A

Abstract

The utility model provides automatic ham sorting and kneading equipment which comprises an equipment body, wherein the equipment body is provided with a material limiting mechanism, a screening mechanism, a salt feeding device, a kneading mechanism and a conveying mechanism; the material limiting mechanism is positioned above the screening mechanism; the screening mechanism is positioned at the left side of the salt feeding device; the kneading mechanism is positioned on the right side of the salt feeding device; the conveying mechanism is positioned at the left side of the screening mechanism; the equipment body is provided with a feeding port, a defective product discharging port and a finished product discharging port. According to the utility model, the traditional manual salt feeding and kneading processes are realized through automatic machinery, so that not only can the manpower, material resources and production cost be saved, but also the ham salt smearing and kneading efficiency can be improved, the salt feeding and kneading period and time can be greatly reduced, and the production efficiency can be improved.

Description

Automatic ham sorting and kneading equipment

Technical Field

The utility model belongs to the technical field of ham processing, and particularly relates to automatic ham sorting and kneading equipment.

Background

The ham is made through eighty procedures including checking and accepting fresh pig legs, trimming leg blanks, pickling, immersing legs, washing legs, airing legs, shaping, fermenting and storing, grading, turning over, and oiling to obtain the final product.

An automatic ham sorting and arranging assembly line with publication number of CN206417568U belongs to the technical field of ham manufacturing, and comprises: frame, horizontal pipeline conveyer belt, first tensioning drive wheel block the sideframe, the vertical conveyer belt of side, the vertical conveyer belt of second tensioning drive wheel, the vertical conveyer belt in center is established in the center department of horizontal pipeline conveyer belt, the vertical conveyer belt in center is connected with the frame relatively, the vertical conveyer belt in center divide into two passageways with horizontal pipeline conveyer belt, the vertical conveyer belt in center quantity has two, the vertical conveyer belt in third tensioning drive wheel in center, the tensioning is at the both ends of the vertical conveyer belt in center. The device can integrate ham scattered in various states into a parallel orientation, so that a worker can carry the hooves of the ham only by stretching his hands, and the ham can be conveniently taken and placed. However, the ham can only be sorted and arranged, then salted and kneaded manually or in other modes, and if the ham is manually worked in the process, a great deal of manpower and financial resources are consumed, and the degree of pickling is possibly not ideal due to uneven manual kneading force. Moreover, the ham is weighed during sorting, and the ham with the weight is selected for curing, but some ham with the weight which does not reach the standard is also easy to be selected due to manual errors.

Disclosure of Invention

In order to solve the technical problems, the utility model provides automatic ham sorting and kneading equipment.

The utility model is realized by the following technical scheme.

The utility model provides automatic ham sorting and kneading equipment which comprises an equipment body, wherein the equipment body is provided with a material limiting mechanism, a screening mechanism, a salt feeding device, a kneading mechanism and a conveying mechanism; the material limiting mechanism is positioned above the screening mechanism; the screening mechanism is positioned at the left side of the salt feeding device; the kneading mechanism is positioned on the right side of the salt feeding device; the conveying mechanism is positioned at the left side of the screening mechanism; the equipment body is provided with a feeding port, a defective product discharging port and a finished product discharging port.

As a further technical improvement, the material limiting mechanism comprises a motor A, a signal receiver, a telescopic rod and a baffle plate; the motor A is arranged on the side surface of the feeding hole; the baffle is positioned below the feeding port; the signal receiver is arranged on the motor A; one end of the telescopic rod is connected with the motor A, and the other end of the telescopic rod is connected with the baffle.

As a further technical improvement, the screening mechanism comprises a movable plate, a screening barrel, a straight rod, a motor B, a driving gear and a driven gear; the movable plate is arranged in the screening barrel; the driven gear is arranged on the side circle center of the screening barrel; the driving gear is arranged on the motor B; one end of the straight rod is connected with the driving gear, and the other end of the straight rod is connected with the driven gear; a limiting plate is arranged on the screening barrel; the limiting plates are arranged on two sides of the screening barrel and are in collision contact with the movable plates.

As a further technical improvement, a detection rod is arranged in the screening barrel; the detection rod is provided with a sensor B and a sensor C; the sensor B is located above the sensor C.

As a further technical improvement, the side surface of the screening barrel is provided with a semicircular groove; a compression spring is arranged in the groove; the compression spring is connected with the movable plate; and a sensor A is arranged at the initial position of the movable plate.

As a further technical improvement, the salt feeding device comprises a salt feeding mechanism A and a salt feeding mechanism B; the salt feeding mechanism A is located above the salt feeding mechanism B.

As a further technical improvement, the salt feeding mechanism A comprises a salt box A, a pipeline A, a high-pressure air pump A, a water tank A and a spraying port A; the high-pressure air pump A is positioned at the head end of the pipeline A, and the salt box A and the water tank A are positioned below the pipeline A and are connected with the pipeline A; the salt box A is positioned above the water tank A; the material spraying opening A is positioned at the tail end of the pipeline A; the salt feeding mechanism B comprises a salt box B, a pipeline B, a high-pressure air pump B, a water tank B and a spraying port B; the high-pressure air pump B is positioned at the head end of the pipeline B, and the salt box B and the water tank B are positioned in front of the pipeline B and are connected with the pipeline B; the salt box B is positioned at the rear of the water tank B; and the material spraying opening B is connected with the pipe body of the pipeline B.

As a further technical improvement, a recovery tank is arranged below the salt feeding mechanism B.

As a further technical improvement, the conveying mechanism comprises a conveying belt A and a conveying belt B; the conveyor belt A is positioned between the defective product discharge port and the screening mechanism; the conveying belt B is positioned between the salt feeding mechanism A and the salt feeding mechanism B, one end of the conveying belt B is connected with the kneading mechanism, and the other end of the conveying belt B is positioned below the screening mechanism.

As a further technical improvement, the kneading mechanism comprises a roller, a hydraulic column and a base; the roller is arranged on the bottom rod through a hydraulic column; and a pressure sensor is arranged on the hydraulic column.

The utility model has the beneficial effects that:

according to the utility model, the traditional manual salt feeding and kneading processes are realized through automatic machinery, so that not only can the manpower, material resources and production cost be saved, but also the ham salt smearing and kneading efficiency can be improved, the salt feeding and kneading period and time can be greatly reduced, and the production efficiency can be improved. According to the utility model, ham is automatically sorted and identified, so that manual or semi-automatic weighing is replaced, and the reliability and stability of production can be increased. The separated ham which does not meet the weight requirement is collected uniformly, and the ham is convenient to process. The automatic ham sorting machine can realize automatic sorting, salt smearing, pressing and kneading and sorting of ham, and is mechanically produced in the whole process, so that compared with the traditional semiautomatic or manual operation, the automatic ham sorting machine greatly improves the production efficiency and reduces errors existing in manual selection.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

FIG. 2 is a schematic diagram of a screening mechanism of the present utility model.

Fig. 3 is a perspective view of the screening mechanism of the present utility model.

Fig. 4 is a schematic structural view of the salt feeding mechanism a of the present utility model.

Fig. 5 is a schematic structural view of the salt feeding mechanism B of the present utility model.

Fig. 6 is a schematic diagram showing the positions of the salt feeding mechanism B and the recovery tank according to the present utility model.

Fig. 7 is a schematic view of the kneading mechanism of the present utility model.

Fig. 8 is a schematic view of the connection of the cylinder to the hydraulic column of the present utility model.

Fig. 9 is a schematic view of a material limiting mechanism of the present utility model.

In the figure:

1-motor A, 2-feed inlet, 3-screening mechanism, 4-salt feeding mechanism A, 5-kneading mechanism, 6-finished product discharge outlet, 7-recovery tank, 8-conveyer B, 9-salt feeding mechanism B, 10-motor B, 11-support bar, 12-conveyer A, 13-inferior product discharge outlet, 14-movable plate, 15-sensor A, 16-compression spring, 17-sensor B, 18-sensor C, 19-driven gear, 20-screening barrel, 21-detection rod, 22-straight rod, 24-driving gear, 25-limiting plate, 26-salt box A, 27-pipeline A, 28-high-pressure air pump A, 29-water tank A, 30-spraying port A, 31-high-pressure air pump B, 32-salt box B, 33-water tank B, 34-spraying port B, 35-pipeline B, 36-roller, 37-base, 38-liquid column, 39-signal receiver, 40-telescopic rod, 41-baffle plate.

Detailed Description

The technical solution of the present utility model is further described below, but the scope of the claimed utility model is not limited to the above.

As shown in fig. 1-9, the automatic ham sorting and kneading equipment provided by the utility model comprises an equipment body, wherein the equipment body is provided with a material limiting mechanism, a screening mechanism 3, a salt feeding device, a kneading mechanism 5 and a conveying mechanism; the material limiting mechanism is positioned above the screening mechanism 3; the screening mechanism 3 is positioned at the left side of the salt feeding device; the kneading mechanism 5 is positioned on the right side of the salt feeding device; the conveying mechanism is positioned at the left side of the screening mechanism 3; the equipment body is provided with a feed inlet 2, a defective product discharge outlet 13 and a finished product discharge outlet 6.

The material limiting mechanism comprises a motor A1, a signal receiver 39, a telescopic rod 40 and a baffle 41; the motor A1 is arranged on the side surface of the feed inlet 2; the baffle 41 is positioned below the feed inlet 2; the signal receiver 39 is mounted on the motor A1; one end of the telescopic rod 40 is connected with the motor A1, and the other end is connected with the baffle 41. The material limiting mechanism can limit the feeding, so that the feeding blockage caused by too much ham which is put in at one time is prevented; and the sensor A15 is used for controlling the motor A1 to work so as to realize the opening and closing of the feed inlet 2 through the electric signal connection of the sensor A15 and the signal receiver 39.

The screening mechanism 3 comprises a movable plate 14, a screening barrel 20, a straight rod 22, a motor B10, a driving gear 24 and a driven gear 19; the movable plate 14 is installed in the screening tub 20; the driven gear 19 is arranged on the side circle center of the screening barrel 20; the driving gear 24 is mounted on the motor B10; one end of the straight rod 22 is connected with the driving gear 24, and the other end is connected with the driven gear 19; a limiting plate 25 is arranged on the screening barrel 20; the limiting plates 25 are installed at both sides of the screening barrel 20 and are in collision contact with the movable plate 14. The screening mechanism 3 is to put the ham between the limiting plate 25 and the movable plate 14, press the movable plate 14 to rotate along the outer ring of the screening barrel 20 by the weight of the ham when the ham falls, and detect the position of the movable plate 14 by the sensor B17 and the sensor C18 on the detecting rod 21 to judge whether the weight of the ham meets the requirement of production batch. If the weight requirements are met, the screening barrel 20 is rotated, and the ham is poured on a conveying mechanism to carry out salt feeding; if the weight requirements are not met, the screening barrel 20 is controlled to reversely rotate, and the ham which does not meet the weight requirements is sent to the defective product discharge port 13 for recovery treatment.

A detection rod 21 is arranged in the screening barrel 20; the detection rod 21 is provided with a sensor B17 and a sensor C18; the sensor B17 is located above the sensor C18. The sensors B17 and C18 employ position sensors that detect by detecting corresponding electronic signals on the movable plate 14.

A semicircular groove is formed in the side face of the screening barrel 20; a compression spring 16 is arranged in the groove; the compression spring 16 is connected with the movable plate 14; the initial position of the movable plate 14 is provided with a sensor A15. The ham falls down due to the weight of the ham and presses the movable plate 14 to move, the movable plate 14 presses the compression spring 16 to compress, and when the ham leaves the screening drum 20, the movable plate 14 is not pressed any more, and the compression spring 16 can return the movable plate 14 to the initial position. The sensor A15 adopts a color sensor or a position sensor, when the movable plate 14 is positioned at the initial position, the sensor A15 sends a signal to the signal receiver 39, and the baffle 41 is opened by the system control motor A1, so that the ham falls onto the screening barrel 20 from the feed inlet 2. When the movable plate 14 leaves the initial position, the sensor A15 can not detect the movable plate 14, and the motor A1 is controlled to close the feed inlet 2.

The salt feeding device comprises a salt feeding mechanism A4 and a salt feeding mechanism B9; the salt feeding mechanism A4 is located above the salt feeding mechanism B9. The salt spraying mechanism A4 mainly performs salt spraying and wiping on the upper surface of the ham, and the salt spraying mechanism B9 mainly performs salt spraying and wiping on the lower surface of the ham.

The salt feeding mechanism A4 comprises a salt box A26, a pipeline A27, a high-pressure air pump A28, a water tank A29 and a spraying port A30; the high-pressure air pump A28 is positioned at the head end of the pipeline A27, and the salt box A26 and the water tank A29 are positioned below the pipeline A27 and are connected with the pipeline A27; the salt box A26 is positioned above the water tank A29; the material spraying port A30 is positioned at the tail end of the pipeline A27; the salt feeding mechanism B9 comprises a salt box B32, a pipeline B35, a high-pressure air pump B31, a water tank B33 and a spraying port B34; the high-pressure air pump B31 is positioned at the head end of the pipeline B35, and the salt box B32 and the water tank B33 are positioned in front of the pipeline B35 and are connected with the pipeline B35; the salt box B32 is positioned behind the water tank B33; the material spraying opening B34 is connected with the pipe body of the pipeline B35. In the salt feeding mechanism A4, after the high-pressure air pump A28 blows out strong air flow, salt in the salt box A26 moves along with the air flow, meanwhile, the water tank A29 connected with the pipeline A27 generates negative pressure for the interior of the water tank A29 due to the strong air flow action in the pipeline A27, so that moisture in the water tank A29 is absorbed into the air flow, the air flow mixes the salt with the moisture, and the mixture is sprayed out through the spraying opening A30, so that the salt is easy to adhere to ham. The salt feeding mechanism B9 is similar.

A recovery groove 7 is arranged below the salt feeding mechanism B9. The recovery tank 7 can recycle the salt which is not adhered to the ham in the salt spraying and salt adding processes so as to be recycled, thereby saving the production cost.

The conveying mechanism comprises a conveying belt A12 and a conveying belt B8; the conveyor belt A12 is positioned between the defective product discharge port 13 and the screening mechanism 3; the conveyor belt B8 is positioned between the salt feeding mechanism A4 and the salt feeding mechanism B9, one end of the conveyor belt B is connected with the kneading mechanism 5, and the other end of the conveyor belt B is positioned below the screening mechanism 3. The conveyor belt A12 is used for conveying ham which does not meet the weight requirement to the defective product discharge port 13 for recycling treatment; the conveyor belt B8 is used for conveying the ham into a salt feeding device for salt coating operation, and after salt coating is finished, the ham with salt is conveyed to a pressing and kneading mechanism 5 for pressing and kneading. The conveyor belt A12 is arranged between the screening mechanism 3 and the defective product discharge port 13 through the supporting rod 11.

The kneading mechanism 5 comprises a roller 36, a hydraulic column 38 and a base 37; the roller 36 is mounted on the bottom bar by a hydraulic column 38; the hydraulic column 38 is provided with a pressure sensor. The kneading mechanism 5 kneads the surface of the ham mainly through a roller 36 and a hydraulic column 38, and kneads the salt into the ham. In the kneading process, the pressure sensor on the hydraulic column 38 can detect the pressure value transmitted by the roller 36 at any time, and when the thickness of the ham is too thick, the hydraulic column 38 is controlled to properly descend by a certain height, so that the ham is prevented from being blocked between the rollers 36 and being unable to advance; when the ham is relatively flat, the hydraulic column 38 is controlled to rise a certain distance to carry out kneading, so that the phenomenon that the flat ham cannot be fully kneaded is avoided. After the kneading is finished, the dough is transported to a finished product discharge port 6. The equipment body is a large-scale steel frame structure, is structurally provided with a plurality of connecting pieces for installing a material limiting mechanism, a screening mechanism 3, a salt feeding device, a kneading mechanism 5 and a conveying mechanism, and is wrapped by adopting a material which is difficult to rust and is perforated and ventilated on the surface.

Claims

1. Automatic ham sorting and kneading equipment comprises an equipment body and is characterized in that: the equipment body is provided with a material limiting mechanism, a screening mechanism (3), a salt feeding device, a kneading mechanism (5) and a conveying mechanism; the material limiting mechanism is positioned above the screening mechanism (3); the screening mechanism (3) is positioned at the left side of the salt feeding device; the kneading mechanism (5) is positioned on the right side of the salt feeding device; the conveying mechanism is positioned at the left side of the screening mechanism (3); the equipment body is provided with a feed inlet (2), a defective product discharge outlet (13) and a finished product discharge outlet (6);

the material limiting mechanism comprises a motor A (1), a signal receiver (39), a telescopic rod (40) and a baffle plate (41); the motor A (1) is arranged on the side surface of the feed inlet (2); the baffle (41) is positioned below the feed inlet (2); the signal receiver (39) is arranged on the motor A (1); one end of the telescopic rod (40) is connected with the motor A (1), and the other end of the telescopic rod is connected with the baffle (41);

the screening mechanism (3) comprises a movable plate (14), a screening barrel (20), a straight rod (22), a motor B (10), a driving gear (24) and a driven gear (19); the movable plate (14) is arranged in the screening barrel (20); the driven gear (19) is arranged on the side circle center of the screening barrel (20); the driving gear (24) is arranged on the motor B (10); one end of the straight rod (22) is connected with the driving gear (24), and the other end is connected with the driven gear (19); a limiting plate (25) is arranged on the screening barrel (20); the limiting plates (25) are arranged on two sides of the screening barrel (20) and are in collision contact with the movable plates (14).

2. The ham automatic sorting kneading device according to claim 1, wherein: a detection rod (21) is arranged in the screening barrel (20); the detection rod (21) is provided with a sensor B (17) and a sensor C (18); sensor B (17) is located above sensor C (18).

3. The ham automatic sorting kneading device according to claim 1, wherein: a semicircular groove is formed in the side face of the screening barrel (20); a compression spring (16) is arranged in the groove; the compression spring (16) is connected with the movable plate (14); a sensor A (15) is arranged at the initial position of the movable plate (14).

4. The ham automatic sorting kneading device according to claim 1, wherein: the salt feeding device comprises a salt feeding mechanism A (4) and a salt feeding mechanism B (9); the salt feeding mechanism A (4) is positioned above the salt feeding mechanism B (9).

5. The automatic ham sorting and kneading device according to claim 4, wherein: the salt feeding mechanism A (4) comprises a salt box A (26), a pipeline A (27), a high-pressure air pump A (28), a water tank A (29) and a spraying port A (30); the high-pressure air pump A (28) is positioned at the head end of the pipeline A (27), and the salt box A (26) and the water tank A (29) are positioned below the pipeline A (27) and are connected with the pipeline A (27); the salt box A (26) is positioned above the water tank A (29); the material spraying opening A (30) is positioned at the tail end of the pipeline A (27); the salt feeding mechanism B (9) comprises a salt box B (32), a pipeline B (35), a high-pressure air pump B (31), a water tank B (33) and a spraying port B (34); the high-pressure air pump B (31) is positioned at the head end of the pipeline B (35), and the salt box B (32) and the water tank B (33) are positioned in front of the pipeline B and are connected with the pipeline B (35); the salt box B (32) is positioned behind the water tank B (33); the material spraying opening B (34) is connected with the pipe body of the pipeline B (35).

6. The automatic ham sorting and kneading device according to claim 4, wherein: a recovery groove (7) is arranged below the salt feeding mechanism B (9).

7. The ham automatic sorting kneading device according to claim 1, wherein: the conveying mechanism comprises a conveying belt A (12) and a conveying belt B (8); the conveyor belt A (12) is positioned between the defective product discharge port (13) and the screening mechanism (3); the conveyor belt B (8) is positioned between the salt feeding mechanism A (4) and the salt feeding mechanism B (9), one end of the conveyor belt B is connected with the kneading mechanism (5), and the other end of the conveyor belt B is positioned below the screening mechanism (3) side.

8. The ham automatic sorting kneading device according to claim 1, wherein: the kneading mechanism (5) comprises a roller (36), a hydraulic column (38) and a base (37); the roller (36) is arranged on the bottom rod through a hydraulic column (38); the hydraulic column (38) is provided with a pressure sensor.