CN211494664U - High-efficient ham and egg canning machine and have canning system of this canning machine - Google Patents

Abstract

The utility model belongs to the food processing field, concretely relates to high-efficient ham and egg canning machine and have this canning machine's canning system, including the canning machine frame, set up the loading hopper in the canning machine frame, set up in the loading hopper lower extreme and be used for separating the mold core mechanism with the ham and egg, be used for falling into the first pushing equipment that the ham and egg propelling movement who separates the mold core mechanism goes out, be used for embracing the ham and egg that releases in separating the mold core mechanism from embracing into the embracing mechanism of jar form and be used for embracing the ham and egg who becomes jar form and push into the second pushing equipment of jar. The utility model discloses a machine transportation ham and automatic arrange the ham and egg into the jar of packing into, reduced workman's intensity of labour, provided workman's labor efficiency, but also can reduce the problem that the ham and egg is inaccurate in quantity of canning in-process, reduced the cost of production.

Description

High-efficient ham and egg canning machine and have canning system of this canning machine

Technical Field

The utility model belongs to the food processing field, concretely relates to high-efficient ham and egg canning machine and have this canning system of canning machine.

Background

The ham sausage contains the nutrients such as protein, fat, carbohydrate, various mineral substances, vitamins and the like which are needed by human bodies, has the advantages of high absorption rate, good palatability, strong satiety and the like, is suitable for being processed into various delicacies, and is a meat food which is popular with consumers. The ham sausage production engineering generally comprises the procedures of raw material unfreezing, trimming, mincing, chopping, primary rolling and kneading, static pickling, secondary rolling and kneading, burdening, brine preparation, filling, high-pressure sterilization, cooling, canning and the like, wherein the canning procedure still needs manual operation of workers, mechanical automatic canning is not realized, the production efficiency is low, the labor intensity is high, and the cost is high.

SUMMERY OF THE UTILITY MODEL

In order to compensate for the defects of the prior art, the utility model provides a high-efficient ham sausage canning machine and a canning system technical scheme with the same.

The efficient ham sausage canning machine is characterized by comprising a canning machine frame, a feeding hopper arranged on the canning machine frame, a separation mold core mechanism arranged at the lower end of the feeding hopper and used for separating ham sausages, a first material pushing mechanism used for pushing the ham sausages falling into the separation mold core mechanism out, a embracing mechanism used for embracing the ham sausages pushed out from the separation mold core mechanism into a can shape, and a second material pushing mechanism used for pushing the ham sausages embracing into the can shape.

The efficient ham sausage canning machine is characterized by further comprising a swinging frame arranged between the feeding hopper and the separation mold core mechanism, and a swinging mechanism used for driving the swinging frame to swing left and right, wherein the swinging mechanism comprises a swinging motor, a rotating wheel connected with the swinging motor in a transmission manner, and a connecting rod connected with one end of the swinging motor in a rotating manner, and the other end of the connecting rod is connected with the swinging frame in a rotating manner.

A high-efficient ham sausage canning machine, its characterized in that still including be arranged in advance spacing limit mechanism to separating the ham sausage that releases in the mold core mechanism, limit mechanism in advance sets up the first opening that corresponds with the limiting plate including setting up in the spacing cylinder of canning machine frame bottom and the limiting plate of being connected with the output shaft cooperation of spacing cylinder in the canning machine frame, the limiting plate can be followed the upper surface that stretches out the canning machine frame in this first opening and carried on spacingly to the ham sausage.

The efficient ham sausage canning machine is characterized in that the separation mold core mechanism comprises a mold core shell and a group of partition plates fixedly connected in the mold core shell, and a separation channel matched with the shape and size of ham sausages is formed between every two adjacent partition plates.

A high-efficient ham and egg canning machine, its characterized in that first pushing equipment includes that first material cylinder and the first material pushing member of being connected with the output shaft cooperation of first material cylinder of pushing away, set up a set of first push pedal that corresponds with the separation passageway that separates the mold core mechanism on the first material pushing member.

The efficient ham sausage canning machine is characterized in that the embracing mechanism comprises an embracing cylinder, a movable embracing plate fixedly connected with an output shaft of the embracing cylinder, and a fixed embracing plate arranged on a frame of the canning machine, wherein the movable embracing plate and the fixed embracing plate can be enclosed into a shape matched with a can.

The efficient ham sausage canning machine is characterized in that the second pushing mechanism comprises a second pushing cylinder, a second push plate and a can positioning seat, the second push plate is fixedly connected with an output shaft of the second pushing cylinder, the positions of the second push plate and the can positioning seat correspond to the positions of the fixed embracing plates, and the shape of the second push plate is matched with that of a can.

The efficient ham sausage canning system is characterized by comprising a feeding conveyor for feeding, a deviation-rectifying conveyor for adjusting the orientation of ham sausages and the canning machine which are sequentially arranged.

The efficient ham sausage canning system is characterized by further comprising a selecting conveyor, a can discharging conveyor and a workbench, wherein the feeding conveyor, the deviation correcting conveyor, the selecting conveyor, the can filling machine, the can discharging conveyor and the workbench are sequentially matched and arranged.

The efficient ham sausage canning system is characterized in that a first baffle and an inclined second baffle are arranged on the deviation correcting conveyor, a deviation correcting channel is formed between the first baffle and the second baffle, and the second baffle corresponds to the discharge end of the feeding conveyor.

The utility model has the advantages that: the utility model discloses a machine transportation ham and automatic arrange the ham and egg into the jar of packing into, reduced workman's intensity of labour, provided workman's labor efficiency, but also can reduce the problem that the ham and egg is inaccurate in quantity of canning in-process, reduced the cost of production.

Drawings

FIG. 1 is a schematic view of the structure of the can filling machine of the present invention;

FIG. 2 is an exploded view of the can filling machine of the present invention;

FIG. 3 is one of the schematic structural views of the can filling machine of the present invention when the cover is taken out;

FIG. 4 is a second schematic structural view of the can filling machine of the present invention when the cover is taken out;

FIG. 5 is a third schematic view of the structure of the can filling machine of the present invention when the cover is taken out;

FIG. 6 is a fourth schematic view of the structure of the can filling machine of the present invention when the cover is taken out;

FIG. 7 is a schematic structural view of a divided mold core mechanism of the present invention;

fig. 8 is a schematic structural view of a first pushing mechanism in the present invention;

fig. 9 is a schematic view of a swing frame structure in the present invention;

FIG. 10 is a schematic structural view of a canning system according to the present invention;

fig. 11 is a schematic structural view of the deviation rectifying conveyor of the present invention.

In the figure: the can filling machine comprises a can filling machine frame 101, a first opening 10100, a mold core shell 102, a partition 10200, a support plate 103, a swing frame 104, a swing frame inclined plate 1040, a swing motor 105, a slide block 107, a first pushing piece 108, a first push plate 10800, a first pushing cylinder 109, a fixed embracing plate 1010, a second push plate 1011, an embracing cylinder 1012, a can positioning seat 1015, a limiting cylinder 1016, a feeding hopper 1019, a movable embracing plate 1020, a slide rail 1021, a limiting plate 1022, a second pushing cylinder 1024, a front baffle 1026, a rotating wheel 1027, a connecting rod 1028, a selecting conveyor 2, a rectifying conveyor 3, a first baffle 300, a second baffle 301, a feeding conveyor 4, a can discharging conveyor 5, a can 8 and a workbench 9.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1 to 9, a high-efficiency ham sausage canning machine includes a canning machine frame 101, a feeding hopper 1019 disposed on the canning machine frame 101, a separating mold core mechanism disposed at the lower end of the feeding hopper 1019 and used for separating ham sausages, a swinging frame 104 disposed between the feeding hopper 1019 and the separating mold core mechanism, a swinging mechanism for driving the swinging frame 104 to swing left and right, a first material pushing mechanism for pushing out the ham sausages falling into the separating mold core mechanism, a pre-limiting mechanism for pre-limiting the ham sausages pushed out from the separating mold core mechanism, a clasping mechanism for clasping the ham sausages pushed out from the separating mold core mechanism into a can shape, and a second material pushing mechanism for pushing the clasped ham sausages into the can 8. Specifically, a plurality of stands of fixed connection on the can filling machine frame 101, the upper end fixed connection backup pad 103 of stand, a plurality of fixed plates of fixed connection on the backup pad 103, feeding funnel 1019 fixed connection on the fixed plate, sway the frame 104 and be located between backup pad 103 and the fixed plate, sway the bottom of frame 104 through the gyro wheel and backup pad 103 roll connection that set up, separate mold core mechanism fixed connection between can filling machine frame 101 and backup pad 103.

The swing mechanism comprises a swing motor 105 fixedly connected to the support plate 103, a rotating wheel 1027 in transmission connection with the swing motor 105, and a connecting rod 1028 with one end rotatably connected with the rotating wheel 1027, wherein the other end of the connecting rod 1028 is rotatably connected with the swing frame 104. Specifically, runner 1027 is fixed to be cup jointed on the output shaft of swaying motor 105, and swaying motor 105 is gear motor, and connecting rod 1028 is articulated with runner 1027 eccentric position. In addition, one side of the upper end of the swinging frame 104 is fixedly connected with a swinging frame inclined plate 1040, the swinging frame inclined plate 1040 is positioned in the feeding hopper 1019 and is close to one side of the feeding hopper 1019, so that ham sausages can be vibrated when the feeding is carried out, and two sides of the upper end of the swinging frame 104 are provided with horizontal side plates for containing the ham sausages, so that the ham sausages are prevented from falling out. When the ham sausage separating machine works, the swinging motor 105 drives the rotating wheel 1027 to rotate, the rotating wheel 1027 drives the connecting rod 1028 to rotate, and the connecting rod 1028 drives the swinging frame to reciprocate left and right and has the function of enabling ham sausages to fall into the separating die core mechanism completely through vibration.

The pre-limiting mechanism comprises a limiting cylinder 1016 arranged at the bottom of the can filling machine rack 101 and a limiting plate 1022 fixedly connected with an output shaft of the limiting cylinder 1016, a first opening 10100 corresponding to the limiting plate 1022 is arranged on the can filling machine rack 101, and the limiting plate 1022 can limit ham sausages from the upper surface of the can filling machine rack 101 extending out of the first opening 10100. During operation, spacing cylinder 1016 drives limiting plate 1022 and moves up, and limiting plate 1022 stretches out from first opening 10100, carries on spacingly to the ham and egg.

The separating core mechanism comprises a core shell 102 fixedly connected to the canning machine frame 101 and a group of separating plates 10200 fixedly connected to the inside of the core shell 102, and separating channels matching with the shape of the ham sausages are formed between the adjacent separating plates 10200.

The first material pushing mechanism comprises a first material pushing cylinder 109 and a first material pushing piece 108 which is connected with an output shaft of the first material pushing cylinder 109 in a matched mode, and a group of first push plates 10800 corresponding to the separation channels of the separation mold core mechanism are arranged on the first material pushing piece 108. Specifically, the first material pushing cylinder 109 is fixedly connected to the lower end of the can filling machine frame 101, the first material pushing mechanism further comprises a sliding block 107 fixedly connected with an output shaft of the first material pushing cylinder 109 and a sliding rail 1021 arranged on the can filling machine frame 101, the sliding block 107 is slidably connected with the sliding rail 1021, the sliding block 107 is further fixedly connected with the first material pushing piece 108, a second opening is formed in the top of the can filling machine frame 101, the sliding rail 1021 is installed on the second opening, and the sliding block 107 penetrates through the second opening and is fixedly connected with the first material pushing piece 108. During operation, the first pushing cylinder 109 drives the first pushing member 108 to move, and the first pushing plate 10800 on the first pushing member 108 is inserted into the separation channel to push out the ham sausage in the separation channel. Because the size and the number of the separating channels in the separating core mechanism and the height of the first material pushing plate 108 can be set according to requirements, the number of the ham sausages pushed out by the first material pushing mechanism is fixed every time as long as the number of the ham sausages loaded into the feeding hopper 1019 is ensured to be large enough.

The embracing mechanism comprises an embracing cylinder 1012 fixedly connected to the can filling machine frame 101, a movable embracing plate 1020 fixedly connected with an output shaft of the embracing cylinder 1012, and a fixed embracing plate 1010 fixedly connected to the can filling machine frame 101, wherein the movable embracing plate 1020 and the fixed embracing plate 1010 are positioned at two sides of the front end of the separation mold core mechanism, and the movable embracing plate 1020 and the fixed embracing plate 1010 can be enclosed into a shape matched with the can 8. During operation, the embracing cylinder 1012 drives the movable embracing plate 1020 to move towards the fixed embracing plate 1010, and the movable embracing plate 1020 is closed with the fixed embracing plate 1010. In addition, a front baffle 1026 is disposed at the upper end of the can loader frame 101, and the front baffle 1026 is located at the front end of the embracing mechanism and is located between the movable embracing plate 1020 and the fixed embracing plate 1010.

The second pushing mechanism comprises a second pushing cylinder 1024, a second pushing plate 1011 and a pot positioning seat 1015, wherein the second pushing plate 1011 and the pot positioning seat 1015 are fixedly connected with an output shaft of the second pushing cylinder 1024, the positions of the second pushing plate 1011 and the pot positioning seat 1015 correspond to the position of the fixed embracing plate 1010, and the shape of the second pushing plate 1011 is matched with that of the pot 8. During operation, the second pushing cylinder 1024 drives the second pushing plate 1011 to move, and the second pushing plate 1011 pushes the ham sausage gathered between the movable embracing plate 1020 and the fixed embracing plate 1010 into the jar 8 on the jar positioning seat 1015.

Referring to fig. 10 and 11, the efficient ham sausage canning system comprises a feeding conveyor 4 for feeding, a deviation-correcting conveyor 3 for adjusting the orientation of ham sausages, a selecting conveyor 2, the canning machine 1, a can discharging conveyor 5 and a workbench 9 which are arranged in sequence. The deviation rectifying conveyor 3 is provided with a first baffle 300 and an inclined second baffle 301, a deviation rectifying channel is formed between the first baffle 300 and the second baffle 301, the width of the deviation rectifying channel is slightly larger than that of a single ham sausage, and the position of the second baffle 301 corresponds to that of the discharge end of the feeding conveyor 4.

The above-mentioned conveyors are all known in the art.

The utility model discloses a canning process:

ham sausages are placed on a feeding conveyor 4 and are conveyed to a deviation correcting conveyor 3 through the feeding conveyor 4, the advancing direction of the deviation correcting conveyor 3 is vertical to the advancing direction of the feeding conveyor 4, the ham sausages firstly fall onto a second baffle 301, fall off from the second baffle 301 and are blocked by a first baffle 300, so that the ham sausages can only be in a vertical state on the deviation correcting conveyor 3 and are conveyed to a selecting conveyor 2, the advancing direction of the selecting conveyor 2 is vertical to the advancing direction of the deviation correcting conveyor 3, the ham sausages conveyed to the selecting conveyor 2 are vertical to the advancing direction of the selecting conveyor 2, unqualified ham sausages can be manually removed from the selecting conveyor 2, meanwhile, the ham sausages can be manually corrected, the ham sausages are conveyed to a feeding hopper 1019 of a canning machine by the selecting conveyor 2, and the ham sausages pass through the feeding hopper 1019, The swinging frame 104 falls into the separated mold core mechanism, at the moment, the swinging mechanism drives the swinging frame 104 to swing, so that the ham sausages can fall into the separated mold core mechanism more smoothly, the ham sausages falling into the separated mold core mechanism are separated by the partition board 10200, then the first pushing member 108 of the first pushing mechanism moves towards the mold core mechanism, the first pushing plate 10800 on the first pushing member 108 pushes out the ham sausage in the separation channel, then the movable embracing plate 1020 in the embracing mechanism pushes the ham sausages to move towards the fixed embracing plate 1010, the ham sausages are embraced into a bundle by the movable embracing plate 1020 and the fixed embracing plate 1010, then the ham sausages are pushed into the pots 8 placed on the pot positioning seats 1015 in advance by a second pushing plate 1011 in the second material pushing mechanism, the pots 8 are taken out manually, the lids are covered, the pots are placed on the pot discharging conveyor 5 and conveyed to the workbench 9 by the pot discharging conveyor 5, and the pots 8 are packaged manually.

The utility model has the advantages that:

the utility model discloses a PLC control pushes away the material automatically, has reduced workman's intensity of labour, stops artifical canning substandard product and lacks or the many condition, and three people can accomplish single ham and sausage and select the defective goods, and the canning is covered work such as cover, provides labor efficiency, has reduced the recruitment number.

2, the utility model discloses both can make the workman concentrate the production, be convenient for manage and practice thrift the production area.

3 the utility model provides a separate mold core mechanism and first pushing away the product tinning that can make it be applicable to different specifications of material 108 design, the production facility's of being convenient for diversification.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a high-efficient ham and egg canning machine, its characterized in that includes canning machine frame (101), set up feeding funnel (1019) on canning machine frame (101), set up in feeding funnel (1019) lower extreme and be used for separating the partition mold core mechanism with the ham and egg, be used for falling into the first pushing equipment who separates the ham and egg propelling movement of mold core mechanism and go out, be used for embracing the ham and egg who releases from separating in the mold core mechanism and embracing the embracing mechanism that becomes the canning and be used for embracing the ham and egg who becomes the canning and push into the second pushing equipment of jar (8).

2. The efficient ham sausage canning machine according to claim 1, further comprising a swinging frame (104) arranged between the feeding hopper (1019) and the separating mold core mechanism, and a swinging mechanism for driving the swinging frame (104) to swing left and right, wherein the swinging mechanism comprises a swinging motor (105), a rotating wheel (1027) in transmission connection with the swinging motor (105), and a connecting rod (1028) with one end rotatably connected with the rotating wheel (1027), and the other end of the connecting rod (1028) is rotatably connected with the swinging frame (104).

3. The high-efficiency ham sausage canning machine according to claim 1, further comprising a pre-limiting mechanism for pre-limiting ham sausages pushed out from the separation mold core mechanism, wherein the pre-limiting mechanism comprises a limiting cylinder (1016) arranged at the bottom of the canning machine frame (101) and a limiting plate (1022) connected with an output shaft of the limiting cylinder (1016) in a matched manner, a first opening (10100) corresponding to the limiting plate (1022) is formed in the canning machine frame (101), and the limiting plate (1022) can limit the ham sausages by extending out of the upper surface of the canning machine frame (101) from the first opening (10100).

4. A high efficiency ham sausage canning machine according to claim 1, 2 or 3, characterized in that the separating core mechanism comprises a core shell (102) and a set of partitions (10200) fixedly connected in the core shell (102), and a separating channel matched with the shape and size of the ham sausage is formed between the adjacent partitions (10200).

5. The efficient ham sausage canning machine according to claim 4, wherein the first pushing mechanism comprises a first pushing cylinder (109) and a first pushing member (108) in fit connection with an output shaft of the first pushing cylinder (109), and a group of first push plates (10800) corresponding to the separation channels of the separation core mechanism are arranged on the first pushing member (108).

6. The efficient ham sausage canning machine according to claim 1, 2 or 3, wherein the embracing mechanism comprises an embracing cylinder (1012), a movable embracing plate (1020) fixedly connected with an output shaft of the embracing cylinder (1012), and a fixed embracing plate (1010) arranged on the frame (101) of the canning machine, and the movable embracing plate (1020) and the fixed embracing plate (1010) can enclose a shape fitting the can (8).

7. The efficient ham sausage canning machine according to claim 6, wherein the second pushing mechanism comprises a second pushing cylinder (1024), a second pushing plate (1011) fixedly connected with the output shaft of the second pushing cylinder (1024) and a can positioning seat (1015), the positions of the second pushing plate (1011) and the can positioning seat (1015) correspond to the position of the fixed embracing plate (1010), and the shape of the second pushing plate (1011) is matched with the shape of the can (8).

8. An efficient ham sausage canning system, which is characterized by comprising a feeding conveyor (4) for feeding, a deviation-correcting conveyor (3) for adjusting the orientation of ham sausages and the canning machine (1) as claimed in any one of claims 1-7, which are arranged in sequence.

9. The efficient ham sausage canning system according to claim 8, further comprising a selecting conveyor (2), a can discharging conveyor (5) and a workbench (9), wherein the feeding conveyor (4), the deviation correcting conveyor (3), the selecting conveyor (2), the can filling machine (1), the can discharging conveyor (5) and the workbench (9) are sequentially arranged in a matching manner.

10. The high-efficiency ham sausage canning system according to claim 8 or 9, wherein the deviation correcting conveyor (3) is provided with a first baffle (300) and a second inclined baffle (301), a deviation correcting channel is formed between the first baffle (300) and the second baffle (301), and the second baffle (301) corresponds to the discharge end of the feeding conveyor (4).

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