CN112024079A

CN112024079A - Meat grinder capable of quickly feeding and canning

Info

Publication number: CN112024079A
Application number: CN202010867312.8A
Authority: CN
Inventors: 曾泰
Original assignee: Fuzhou Lianjiang Jiupin Technology Co ltd
Current assignee: Fuzhou Lianjiang Jiupin Technology Co ltd
Priority date: 2020-08-25
Filing date: 2020-08-25
Publication date: 2020-12-04

Abstract

The invention discloses a meat grinder capable of quickly feeding and canning, which comprises a box body, wherein a left-right through working cavity is arranged in the box body, a guide rail plate is fixedly arranged at the bottom of the working cavity, a motor is fixedly arranged in the right side wall of the working cavity, the left side of the motor is in power connection with a main power shaft, a connecting transmission shaft is rotatably arranged on the rear side wall of the box body, a transition transmission shaft is fixedly arranged on the rear side wall of the box body, a plug block is fixedly arranged below the right side of a discharge pipe, a feed inlet is fixedly arranged on a meat grinding barrel, the automatic meat grinding and canning functions can be realized, quantitative seasonings can be automatically added, the seasonings can be prevented from being stirred unevenly, and the canning process is quicker and more efficient due to the simultaneous working of the guide.

Description

Meat grinder capable of quickly feeding and canning

Technical Field

The invention relates to the technical field related to food processing, in particular to a meat grinder capable of quickly feeding and canning.

Background

The traditional meat grinder basically only has a meat grinding function, and then enters a production line to enter the next step, such as adding seasoning, stirring and canning, the operation is low in efficiency, labor cost is increased, the requirement on food preservation is higher, bacteria are easy to breed, and the meat grinder capable of quickly feeding and canning can solve the problems.

Disclosure of Invention

In order to solve the problems, the meat grinder capable of quickly feeding and canning is designed in the embodiment, and comprises a box body, a working cavity which is through from left to right is arranged in the box body, a guide rail plate is fixedly arranged at the bottom of the working cavity, a movable plate is arranged on the guide rail plate in a sliding manner, a sliding motor is fixedly arranged on the left side of the guide rail plate in the front side wall of the working cavity, the rear side of the sliding motor is in power connection with a screw rod which is in threaded connection with the movable plate, a groove which is provided with an opening and is through from left to right is arranged in the movable plate, a main shaft is rotatably arranged on the front side wall of the groove, a main sleeve shaft is rotatably arranged on the main shaft, the main sleeve shaft extends backwards and penetrates through and is rotatably connected with the rear side wall of the groove, the main shaft extends backwards and penetrates through the main sleeve shaft, a first transmission gear, the main sleeve shaft is fixedly provided with a second main belt wheel positioned in the groove and a second transmission gear positioned in the working cavity, a first auxiliary shaft and a second auxiliary shaft are respectively rotatably arranged on the front side wall and the rear side wall of the groove, the first auxiliary shaft and the second auxiliary shaft are positioned on the left side of the main shaft, a first auxiliary belt wheel is fixedly arranged on the first auxiliary shaft, the first main belt wheel is connected with the first auxiliary belt wheel through a first main transmission belt, a second auxiliary belt wheel is fixedly arranged on the second auxiliary shaft, the second main belt wheel is connected with the second auxiliary belt wheel through a second main transmission belt, a power transmission shaft positioned on the left side of the main shaft and an input transmission shaft positioned on the right side of the main shaft are respectively rotatably arranged on the rear side wall of the working cavity, and an output main belt wheel, a power main belt wheel, a first power gear and a second power gear are respectively and fixedly arranged on the power transmission, the input transmission shaft is rotatably provided with an input sleeve shaft, the input transmission shaft is fixedly provided with a first input belt wheel positioned on the front side of the input sleeve shaft and a first input gear positioned on the rear side of the input sleeve shaft, the first input belt wheel is connected with a first input belt, the first input belt extends out of the box body rightwards, the input sleeve shaft is fixedly provided with a second input belt wheel and a second input gear, the second input belt wheel is positioned on the front side of the second input gear, the second input belt wheel is connected with a second input belt, the second input belt extends out of the box body rightwards, the first transmission gear can be meshed with the first power gear and the first input gear, the second transmission gear can be meshed with the second power gear and the second input gear, the rear side wall of the working cavity is positioned on the left side of the power transmission shaft and rotatably provided with an output transmission shaft, the output transmission shaft is from back to front respectively fixed mounting have output secondary pulley, first output band pulley and second output band pulley, the output secondary pulley pass through the output belt with the output primary pulley is connected, first output band pulley is connected with first output band, first output band stretches out left the box, second output band pulley is connected with the second output band, the second output band stretches out left the box, works as the movable plate removes to last time, the second primary transport area with second input band and second output band align, works as the movable plate removes to foremost time, first primary transport area with first input band and first output band align, four wait to tin on first primary transport area, second input band and the first input band all have placed.

Beneficially, a motor is fixedly installed in the right side wall of the working cavity, the left side of the motor is in power connection with a main power shaft, the main power shaft is fixedly provided with a main belt wheel and a transmission bevel gear, the transmission bevel gear is positioned on the left side of the main belt wheel, a meat mincing barrel is fixedly arranged in the working cavity, a meat inlet extending out of the box body is arranged above the meat mincing barrel, a working shaft is rotatably arranged on the right side wall of the working cavity of the box body below the main power shaft, the working shaft extends into the meat mincing barrel and is rotatably connected with the meat mincing barrel, the working shaft penetrates through and is rotatably connected with the meat mincing barrel, the working shaft is fixedly provided with an auxiliary belt wheel positioned in the working cavity and a spiral blade positioned in the meat mincing barrel, the secondary belt wheel is positioned on the right side of the spiral blade and is connected with the primary belt wheel through a transmission belt.

Beneficially, a linking transmission shaft is rotatably mounted on the rear side wall of the box body, a transition transmission shaft is fixedly mounted on the rear side wall of the box body, the linking transmission shaft is positioned on the right side of the transition transmission shaft, a power secondary pulley, a bevel gear and a half gear are fixedly mounted on the linking transmission shaft, the bevel gear is positioned on the front side of the power secondary pulley, the half gear is positioned on the front side of the bevel gear, the bevel gear is meshed with the transmission bevel gear, the power secondary pulley is connected with the power primary pulley through a transmission belt, a rotating gear is rotatably mounted on the front side of the transition transmission shaft, a first fixed block is fixedly mounted on the circumference of the rotating gear, a connecting rod is rotatably mounted on the first fixed block, a second fixed block is rotatably connected to the lower side of the connecting rod, a moving rod is fixedly mounted on, four discharge ports are arranged below the discharge pipe.

Advantageously, a plug block is fixedly mounted below the right side of the discharge pipe, the plug block is connected with the meat mincing barrel through a spring, and the discharge pipe and the plug block are in sliding fit with the meat mincing barrel.

Beneficially, a feed inlet is fixedly mounted on the meat mincing barrel, the feed inlet extends upwards to protrude out of the box body, and a stop block is fixedly mounted on the discharge pipe, extends upwards to penetrate through the stop block and is in sliding fit with the stop block to protrude upwards into the feed inlet.

The invention has the beneficial effects that: the automatic meat mincing and canning device is simple in structure and convenient to operate, can realize the automatic meat mincing and canning functions of meat, can automatically add quantitative seasoning, can prevent the seasoning from being stirred unevenly, and can lead the canning process to be quicker and more efficient due to the simultaneous working of the guide rail and the conveying belt.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a meat grinder capable of quickly charging and canning according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 2;

FIG. 4 is an enlarged schematic view of "C" of FIG. 3;

fig. 5 is an enlarged schematic view of "D" of fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The meat grinder capable of quickly feeding and canning comprises a box body 11, a left-right through working cavity 67 is arranged in the box body 11, a guide rail plate 43 is fixedly arranged at the bottom of the working cavity 67, a moving plate 42 is slidably arranged on the guide rail plate 43, a sliding motor 44 is fixedly arranged on the left side of the guide rail plate 43 in the front side wall of the working cavity 67, the rear side of the sliding motor 44 is in power connection with a screw rod 45 in threaded connection with the moving plate 42, a groove 40 with an upward opening and a left-right through is arranged in the moving plate 42, a main shaft 71 is rotatably arranged on the front side wall of the groove 40, a main sleeve shaft 70 is rotatably arranged on the main shaft 71, the main sleeve shaft 70 extends backwards and penetrates through and is rotatably connected with the rear side wall of the groove 40, a first transmission gear 68 is fixedly arranged in the working cavity 67 by extending backwards through the main sleeve shaft 70, the main shaft 71 is located in the groove 40 and fixedly provided with a first main belt pulley 62, the main sleeve shaft 70 is fixedly provided with a second main belt pulley 61 located in the groove 40 and a second transmission gear 69 located in the working cavity 67, the front side wall and the rear side wall of the groove 40 are respectively and rotatably provided with a first auxiliary shaft 56 and a second auxiliary shaft 50, the first auxiliary shaft 56 and the second auxiliary shaft 50 are located on the left side of the main shaft 71, the first auxiliary shaft 56 is fixedly provided with a first auxiliary belt pulley 55, the first main belt pulley 62 is connected with the first auxiliary belt pulley 55 through a first main transmission belt 54, the second auxiliary shaft 50 is fixedly provided with a second auxiliary belt pulley 51, the second main belt pulley 61 is connected with the second auxiliary belt pulley 51 through a second main transmission belt 49, and the rear side wall of the working cavity 67 is respectively and rotatably provided with a power transmission shaft 37 located on the left side of the main shaft 71 and an input transmission shaft 72 located on the right side of, an output main belt wheel 36, a power main belt wheel 35, a first power gear 34 and a second power gear 33 are fixedly mounted on the power transmission shaft 37 from back to front respectively, an input sleeve shaft 73 is rotatably mounted on the input transmission shaft 72, a first input belt wheel 63 positioned on the front side of the input sleeve shaft 73 and a first input gear 75 positioned on the rear side of the input sleeve shaft 73 are fixedly mounted on the input transmission shaft 72, the first input belt wheel 63 is connected with a first input belt 64, the first input belt 64 extends out of the box body 11 rightwards, a second input belt wheel 59 and a second input gear 74 are fixedly mounted on the input sleeve shaft 73, the second input belt wheel 59 is positioned on the front side of the second input gear 74, the second input belt wheel 59 is connected with a second input belt 60, the second input belt 60 extends out of the box body 11 rightwards, and the first transmission gear 68 can be meshed with the first power gear 34 and the first input gear 75, the second transmission gear 69 can be meshed with the second power gear 33 and the second input gear 74, an output transmission shaft 47 is rotatably installed on the rear side wall of the working cavity 67 on the left side of the power transmission shaft 37, an output secondary pulley 46, a first output pulley 57 and a second output pulley 52 are respectively and fixedly installed on the output transmission shaft 47 from back to front, the output secondary pulley 46 is connected with the output primary pulley 36 through an output belt 48, the first output pulley 57 is connected with a first output belt 58, the first output belt 58 extends out of the box body 11 to the left, the second output pulley 52 is connected with a second output belt 53, the second output belt 53 extends out of the box body 11 to the left, when the moving plate 42 moves to the last, the second primary transmission belt 49 is aligned with the second input belt 60 and the second output belt 53, when the moving plate 42 moves to the foremost, the first main conveyor belt 54 is aligned with the first input belt 64 and the first output belt 58, and four cans 41 to be filled are placed on each of the first main conveyor belt 54, the second main conveyor belt 49, the second input belt 60 and the first input belt 64.

Advantageously, a motor 12 is fixedly arranged in the right side wall of the working cavity 67, a main power shaft 13 is dynamically connected to the left side of the motor 12, the main power shaft 13 is fixedly provided with a main belt pulley 14 and a transmission bevel gear 66, the transmission bevel gear 66 is positioned at the left side of the main belt pulley 14, a meat grinding barrel 19 is fixedly arranged in the working cavity 67, a meat inlet 21 extending out of the box body 11 is arranged above the meat grinding barrel 19, a working shaft 17 is rotatably arranged on the right side wall of the working cavity 67 below the main power shaft 13, the working shaft 17 penetrates through and is rotatably connected with the meat grinding barrel 19, the auxiliary belt pulley 16 positioned in the working cavity 67 and the spiral blade 18 positioned in the meat grinding barrel 19 are fixedly arranged on the working shaft 17, the secondary pulley 16 is connected with the primary pulley 14 through a transmission belt 15, and the primary power shaft 13 drives the helical blade 18 to rotate through the primary pulley 14 and the secondary pulley 16.

Beneficially, an engaging transmission shaft 30 is rotatably mounted on the rear side wall of the box body 11, a transition transmission shaft 31 is fixedly mounted on the rear side wall of the box body 11, the engaging transmission shaft 30 is located on the right side of the transition transmission shaft 31, a power secondary pulley 29, a bevel gear 65 and a half gear 25 are fixedly mounted on the engaging transmission shaft 30, the bevel gear 65 is located on the front side of the power secondary pulley 29, the half gear 25 is located on the front side of the bevel gear 65, the bevel gear 65 is engaged with the transmission bevel gear 66, the power secondary pulley 29 is connected with the power primary pulley 35 through a transmission belt 32, a rotating gear 27 is rotatably mounted on the front side of the transition transmission shaft 31, a first fixed block 38 is fixedly mounted on the circumference of the rotating gear 27, a connecting rod 26 is rotatably mounted on the first fixed block 38, and a second fixed block 39 is rotatably connected to, second fixed block 39 fixed mounting has carriage release lever 28, carriage release lever downside fixed mounting has discharging pipe 24, discharging pipe 24 below is equipped with four discharge gates 20, main power shaft 13 passes through it drives to link up transmission shaft 30 half gear 25 rotates, half gear 25 passes through running gear 27 drives carriage release lever 28 intermittent type nature reciprocates.

Advantageously, a plug 77 is fixedly mounted below the right side of the discharge pipe 24, the plug 77 is connected with the minced steak barrel 19 through a spring 76, the discharge pipe 24 and the plug 77 are in sliding fit with the minced steak barrel 19, and when the discharge pipe 24 moves downwards, the spring 76 is compressed, so that the minced steak barrel 19 is communicated with the discharge pipe 24.

Beneficially, a feed inlet 23 is fixedly installed on the meat mincing barrel 19, the feed inlet extends upwards to protrude out of the box body 11, a stop block 22 is fixedly installed on the discharge pipe 24, the stop block 22 extends upwards to penetrate through and is in sliding fit with the feed inlet 23, the discharge pipe 24 drives the stop block 22 to move upwards, and the stop block 22 blocks the feed inlet 23.

The steps of using a fast-feed and canning meat grinder of the present invention are described in detail below with reference to fig. 1 to 5:

in the initial state, the motor 12 and the sliding motor 44 stop rotating, the moving plate 42 is located at the rearmost side of the guide rail plate 43, the second input belt 60, the first input belt 64 and the first main conveyor belt 54 are respectively provided with four cans 41 to be filled, the stop 22 blocks the feed opening 23, and the spring 76 is in the initial state.

When the meat mincing machine is used, meat is put in from the meat inlet 21, the motor 12 and the sliding motor 44 are started, the motor 12 drives the main belt wheel 14 and the transmission bevel gear 66 to rotate through the main power shaft 13, the main belt wheel 14 drives the working shaft 17 to rotate through the transmission belt 15 and the secondary belt wheel 16, the working shaft 17 drives the spiral blade 18 to rotate to perform meat mincing work, the transmission bevel gear 66 drives the connecting transmission shaft 30 to rotate through the bevel gear 65, the connecting transmission shaft 30 drives the half gear 25 and the power secondary belt wheel 29 to rotate, the power secondary belt wheel 29 drives the power main belt wheel 35 to rotate through the transmission belt 32, so as to drive the power transmission shaft 37 to rotate, the power transmission shaft 27 drives the output main belt wheel 36, the first power gear 34 and the second power gear 33 to rotate, the output main belt wheel 36 drives the output belt 48 to rotate through the output belt 48, so as to drive the second output belt wheel, the second output belt wheel 52 and the first output belt wheel 57 respectively drive the second output belt 53 and the first output belt 58 to transmit; the semi-gear 25 intermittently drives the rotating gear 27 to rotate, the rotating gear 27 drives the moving rod 28 and the discharging pipe 24 to intermittently move up and down through the connecting rod 26, the sliding motor 44 drives the moving plate 42 to move back and forth through the screw rod 45, when the moving plate 42 moves to the rear side of the guide rail plate 43, the to-be-canned food 41 on the first main conveyor belt 54 is just positioned below the discharging pipe 24, meanwhile, the discharging pipe 24 moves down to drive the stop block 22 to move down, the feeding hole 23 adds flavoring into the minced steak barrel 19, the spring 76 compresses, the minced steak barrel 19 is communicated with the discharging pipe 24, meat products are injected into the to-be-canned food 41, meanwhile, the second power gear 33 drives the second transmission gear 69 and the second input gear 74 to rotate, the second transmission gear 69 drives the second main belt wheel 61 to rotate through the main sleeve shaft 70, the second main belt wheel 61 drives the second main conveyor belt 49 to work, and the second input, thereby driving the second input belt 60 to work, and conveying the cans 41 to be filled on the second input belt 60 to the second main conveyor belt 49; when canning is completed, the rotating gear 27 drives the discharging pipe 24 to move upwards, the spring 76 is reset, the plug 77 moves upwards to block the opening of the minced steak barrel 19, the stop block 22 moves upwards to block the feeding hole 23, seasoning feeding is stopped, uneven stirring is prevented, meanwhile, the sliding motor 44 drives the moving plate 42 to move forwards, when the to-be-canned 41 moved onto the second main conveyor belt 49 is positioned below the discharging pipe 24, the discharging pipe 24 just moves downwards to start canning of a new round, meanwhile, the main shaft 71 moves forwards along with the moving plate 42, the first transmission gear 68 is meshed with the first power gear 34 and the first input gear 75, so that the main shaft 71 and the input transmission shaft 72 drive the first main belt wheel 62 and the first input belt wheel 63 to rotate, the first main conveyor belt 54 and the first input belt 64 work to convey the canned meat products on the first main conveyor belt 54 onto the first output belt 58 to be conveyed out of the box body 11, and convey the to-be-canned 41 on the first input belt 64 onto the first main conveyor, the operation is repeated in such a way; when the operation is finished, the moving plate 42 moves to the end, the stopper 22 blocks the feed opening 23, the motor 12 and the slide motor 44 stop operating, and the initial state is recovered.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. The utility model provides a meat grinder that can quick reinforced tinning, includes the box, its characterized in that: the utility model discloses a transmission device of a motor vehicle, including box, guide plate and main shaft, be equipped with the working chamber that link up about in the box, working chamber bottom fixed mounting has the guide rail board, slidable mounting has the movable plate on the guide rail board, it has sliding motor to lie in guide rail board left side fixed mounting in the lateral wall before the working chamber, sliding motor rear side power connection have with movable plate threaded connection's screw rod, be equipped with the recess that the opening upwards link up about and in the movable plate, rotatable mounting has the main shaft on the lateral wall before the recess, rotatable mounting has the main sleeve axle on the main shaft, the main sleeve axle extends backward and runs through and is rotated and connected the rear wall of recess, the main shaft extends backward and runs through the main sleeve axle in the working chamber fixed mounting has first drive gear, the main shaft is located fixed mounting has first main belt pulley in the recess, main sleeve axle fixed mounting has the second main belt pulley that, a first auxiliary shaft and a second auxiliary shaft are respectively rotatably mounted on the front side wall and the rear side wall of the groove, the first auxiliary shaft and the second auxiliary shaft are positioned on the left side of the main shaft, a first auxiliary belt pulley is fixedly mounted on the first auxiliary shaft, the first main belt pulley is connected with the first auxiliary belt pulley through a first main conveying belt, a second auxiliary belt pulley is fixedly mounted on the second auxiliary shaft, the second main belt pulley is connected with the second auxiliary belt pulley through a second main conveying belt, a power transmission shaft positioned on the left side of the main shaft and an input transmission shaft positioned on the right side of the main shaft are respectively rotatably mounted on the rear side wall of the working cavity, an output main belt pulley, a power main belt pulley, a first power gear and a second power gear are respectively fixedly mounted on the power transmission shaft from back to front, an input sleeve shaft is rotatably mounted on the input transmission shaft, a first input belt pulley positioned on the front side of the input sleeve shaft and a first input gear positioned on the rear, the first input belt wheel is connected with a first input belt, the first input belt extends out of the box body rightwards, a second input belt wheel and a second input gear are fixedly mounted on the input sleeve shaft, the second input belt wheel is positioned on the front side of the second input gear, the second input belt wheel is connected with a second input belt, the second input belt extends out of the box body rightwards, the first transmission gear can be meshed with the first power gear and the first input gear, the second transmission gear can be meshed with the second power gear and the second input gear, the rear side wall of the working cavity is positioned on the left side of the power transmission shaft and is rotatably provided with an output transmission shaft, the output transmission shaft is respectively and fixedly provided with an output secondary belt wheel, a first output belt wheel and a second output belt wheel from back to front, and the output secondary belt wheel is connected with the output main belt wheel through an output belt, the first output belt wheel is connected with a first output belt, the first output belt extends out of the box body leftwards, the second output belt wheel is connected with a second output belt, the second output belt extends out of the box body leftwards, when the movable plate moves to the last, the second main conveyor belt is aligned with the second input belt and the second output belt, when the movable plate moves to the foremost, the first main conveyor belt is aligned with the first input belt and the first output belt, and four cans to be filled are placed on the first main conveyor belt, the second input belt and the first input belt.

2. A meat grinder capable of quick-feed canning as claimed in claim 1, characterized in that: fixed mounting has the motor in the working chamber right side wall, motor left side power is connected with the main power axle, main power axle fixed mounting has main belt pulley and transmission bevel gear, transmission bevel gear is located the main belt pulley left side, working chamber internal fixed mounting has the minced steak bucket, minced steak bucket top is equipped with and stretches out the meat inlet of box, be located on the box working chamber right side wall the main power axle below rotates and installs the working shaft, the working shaft stretches into the minced steak bucket and in the minced steak bucket rotates to be connected the working shaft runs through and rotate the connection the minced steak bucket, fixed mounting has on the working shaft and is located the counter pulley of working chamber and being located the helical blade in the minced steak bucket, the counter pulley is located helical blade right side, the counter pulley pass through driving belt with the main belt wheel is connected.

3. A meat grinder capable of quick-feed canning as claimed in claim 2, characterized in that: a linking transmission shaft is rotatably mounted on the rear side wall of the box body, a transition transmission shaft is fixedly mounted on the rear side wall of the box body and is positioned on the right side of the transition transmission shaft, a power secondary pulley, a bevel gear and a half gear are fixedly mounted on the linking transmission shaft, the bevel gear is positioned on the front side of the power secondary pulley, the half gear is positioned on the front side of the bevel gear, the bevel gear is meshed with the transmission bevel gear, the power secondary pulley is connected with the power primary pulley through a transmission belt, a rotating gear is rotatably mounted on the front side of the transition transmission shaft, a first fixed block is fixedly mounted on the circumference of the rotating gear, a connecting rod is rotatably mounted on the first fixed block, a second fixed block is rotatably connected to the lower side of the connecting rod, a moving rod is fixedly mounted on the second fixed block, four discharge ports are arranged below the discharge pipe.

4. A meat grinder capable of quick-feed canning as claimed in claim 3, characterized in that: discharging pipe right side below fixed mounting has the chock, the chock with the minced steak bucket passes through spring coupling, the discharging pipe with the chock all with minced steak bucket sliding fit.

5. A meat grinder capable of quick-filling and canning according to claim 4, characterized in that: the last fixed mounting of minced steak has the feed inlet, the feed inlet upwards extends and stretches out the box, fixed mounting has the dog on the discharging pipe, the dog upwards extends to run through and sliding fit upwards stretches into the feed inlet.