CN112741138A - Marinated meat product processing equipment with heavy metal detection function and method thereof - Google Patents

Abstract

The application relates to the field of food processing, in particular to a marinated meat product processing device with a heavy metal detection function and a method thereof, wherein the marinated meat product processing device comprises a base station and an injection bin, a feeding hole and a discharging hole are formed in the injection bin, and a conveying device is arranged in the injection bin; an injection pressing plate is arranged in the injection bin, a needle tube is vertically arranged on the injection pressing plate, the injection pressing plate is fixedly connected with a power device arranged on the top wall of the injection bin, and the power device can drive the injection pressing plate to be close to or far away from the conveying device; the injection pressing plate is also provided with a switch device, the water outlet end of the switch device is communicated with the needle tube, the water inlet end of the switch device is communicated with a high-pressure water pump arranged on the top wall of the injection bin, and the high-pressure water pump is communicated with a brine tank arranged on the top wall of the injection bin; the two opposite side walls in the injection bin are also provided with fixing plates, and when the switch device is abutted against the fixing plates, the switch device enables the needle tube to be communicated with the water outlet end of the high-pressure water pump. This application has the effect that just flow out the salt solution when reducing the needle tubing and not inserting in the meat extravagant.

Description

Marinated meat product processing equipment with heavy metal detection function and method thereof

Technical Field

The application relates to the field of food processing, in particular to a marinated meat product processing device with a heavy metal detection function and a method thereof.

Background

At present, the marinated meat product is a traditional food in China and is deeply favored by people of all nationalities in China, so the marinated meat product has a very large consumption market in China. The preparation of the stewed meat product tends to be industrialized, and generally, the process of the stewed meat product in industry is generally as follows: thawing, injecting with saline water, vacuum rolling (pickling), steaming in a jacketed pan, vacuum packaging, sterilizing at high temperature, air drying, draining, and boxing.

The brine injection machine injects brine and auxiliary materials into meat, and the injected aqueous solution can tenderize and soften the meat, thereby improving the yield of meat products and the tenderness and taste of the meat products.

The common saline injection machine comprises an injection pressing plate, wherein a plurality of needle tubes communicated with an external saline tank are fixedly arranged on the injection pressing plate, and a liquid pumping device is arranged in the saline tank; the injection pressing plate and the power device are arranged above the conveying belt for conveying the meat, and when the meat runs to the lower part of the injection pressing plate, the power device enables the injection pressing plate to drive the needle tube to move downwards so as to insert the needle tube into the meat for injection. However, in the prior art, when the power device starts to operate, the pump liquid device works together, the needle tube starts to inject the saline outwards, and the saline does not enter the meat but flows to the lower part of the conveyor belt, so that waste is caused.

In view of the above-mentioned related art, the inventors considered that there was a drawback that the saline flowing out of the needle tube before the needle tube was inserted into the meat was wasted.

Disclosure of Invention

Just outflow brine is extravagant defect when not inserting meat in order to reduce the needle tubing, this application provides a steamed meat products processing equipment with heavy metal detects function.

In a first aspect, the application provides a braised meat product processing equipment with heavy metal detects function adopts following technical scheme:

a marinated meat product processing device with a heavy metal detection function comprises a base platform and an injection bin, wherein the injection bin is hollow, a feeding hole and a discharging hole are formed in the injection bin, and a conveying device communicated with the feeding hole and the discharging hole is arranged in the injection bin; an injection pressing plate is arranged in the injection bin, a needle tube with a downward needle head is vertically arranged on the injection pressing plate, the injection pressing plate is fixedly connected with a power device arranged on the top wall of the injection bin, and the power device can drive the injection pressing plate to be close to or far away from the conveying device; the injection pressing plate is also provided with a switch device, the water outlet end of the switch device is communicated with the needle tube, the water inlet end of the water outlet device is communicated with a high-pressure water pump arranged on the top wall of the injection bin, and the high-pressure water pump is communicated with a brine tank arranged on the top wall of the injection bin; the two opposite side walls in the injection bin are also provided with fixing plates, and when the switch device is abutted against the fixing plates, the switch device enables the needle tube to be communicated with the water outlet end of the high-pressure water pump; still include heavy metal detection device.

By adopting the technical scheme, when the needle tube starts to move downwards, the switch device does not abut against the fixing plate, so that the needle tube cannot discharge water; when the switch device is abutted against the fixing plate, the needle tube is inserted into the meat, and the needle tube starts to discharge water, so that the probability that the needle tube starts to discharge water when moving downwards and is not inserted into the meat is reduced, the waste of water is reduced, and the resources are saved; meanwhile, the heavy metal monitoring device can detect the heavy metal content of the meat, so that the safety of the equipment is enhanced.

Optionally, the switch device includes a main cylinder, a plunger, a spring, a connecting rod and an abutting rod; the bottom end of the main cylinder is closed, the top end of the main cylinder is opened, the side wall of the main cylinder is communicated with an integrally formed water inlet pipe, and the plunger piston is in up-and-down sliding fit with the inner cavity of the main cylinder; one end of the spring is fixedly connected with the inner bottom wall of the main cylinder, and the other end of the spring is fixedly connected with the lower end of the plunger; one end of the connecting rod is positioned in the main cylinder and is fixedly connected with the top end of the plunger, and the other end of the connecting rod is bent outwards to the bottom of the main cylinder and is connected with a horizontally arranged touch rod; when the switch device is placed still, the side wall of the plunger abuts against the communication position of the water inlet pipe and the side wall of the main cylinder, and the fixing plate is provided with a through hole which coaxially corresponds to the main cylinder and is matched with the main cylinder.

By adopting the technical scheme, the connecting rod is fixed when the abutting rod is abutted by the fixing plate, the main cylinder is still driven by the power device to descend at the moment, so that the spring is stretched, the side wall of the plunger is separated from the joint of the abutting water inlet pipe and the main cylinder, so that the saline water is added into the main cylinder from the water inlet pipe, and the needle tube is communicated with the water outlet; when the power device drives the main cylinder to move upwards, the abutting rod is separated from the fixing plate, the spring stretches the plunger and the connecting rod to move downwards, so that the side wall of the plunger again abuts against the communication position of the water inlet pipe and the main cylinder, the needle tube is separated from the meat, and water outlet is stopped; the spring can play the effect that resets to the plunger, has strengthened switching device's practicality and convenience.

Optionally, the plunger includes cylinder and seal cover, and the seal cover is rubber material and cover and locates the cylinder outer wall.

Through adopting above-mentioned technical scheme, the seal cover of rubber material can increase the compactness that plunger lateral wall and main section of thick bamboo inner wall were contradicted for the plunger is better to the sealing capacity of inlet tube with main section of thick bamboo junction, has reduced because of the inlet tube leaks the probability that leads to the water pipe to go out water.

Optionally, an end cover is arranged at the top end of the main cylinder, threads are formed on the inner side of the end cover, threads are also formed on the outer wall of the top end of the main cylinder, and the end cover is screwed with the threads on the top end of the main cylinder; the top of the end cover is provided with a connecting hole matched with the connecting rod.

Through adopting above-mentioned technical scheme, the end cover can shelter from a main section of thick bamboo top, has reduced the probability that debris got into in a main section of thick bamboo for can remain stable sliding fit between plunger and the main section of thick bamboo inner chamber, strengthened switching device's stability and practicality.

Optionally, a bottom cover with an opening at one end is arranged at the bottom of the main cylinder, and the bottom cover is clamped with the bottom of the main cylinder; a plurality of water outlet holes are formed in the bottom of the main cylinder, and the bottom end of the bottom cover is communicated with an inner cavity of the needle tube.

By adopting the technical scheme, the needle tube can be conveniently disassembled through the bottom cover without disassembling the structure of the main barrel, meanwhile, the bottom cover and the main barrel are clamped to facilitate the installation and the disassembly, and the convenience and the easy use of the switch device are enhanced.

Optionally, the inner cavity of bottom sets firmly the round sealed pad, and when bottom and the joint of main section of thick bamboo bottom, the outer wall of a main section of thick bamboo is contradicted to the lateral wall of sealed pad.

Through adopting above-mentioned technical scheme, sealed pad can reduce when switching device switches on, the probability of the junction of bottom and main section of thick bamboo lateral wall outside infiltration has reduced the waste of salt solution, has practiced thrift the water resource.

Optionally, fixing rods are fixedly arranged on the side walls of two opposite sides of the fixing plate, fixing holes matched with the fixing rods are formed in the side walls of two opposite sides of the injection bin, and the fixing rods on the two sides of the fixing plate are in inserting fit with the fixing holes in the corresponding side walls of the injection bin; the fixed holes are arranged on the side wall of the injection bin from bottom to top in sequence.

Through adopting above-mentioned technical scheme, the dead lever at fixed plate both ends can be inserted and establish in the fixed orifices of co-altitude not so that the fixed plate can be fixed at co-altitude not, and this makes the fixed plate can adapt to the not meat of co-altitude of different types, has strengthened the practicality and the convenience of fixed plate.

Optionally, at least two fixing rods are arranged on one side of each fixing rod, a limiting nut is screwed on the end of each fixing rod, which is located outside the side wall of the injection bin, and the diameter of each limiting nut is larger than that of each fixing hole.

By adopting the technical scheme, at least two fixing rods are arranged, so that the probability that the fixing plates rotate along the fixing rods can be reduced, and the fixing plates can be kept in a horizontal fixing state; the nut reduces the probability that the fixing rod is separated from the side wall of the injection bin, and the stability of the fixing plate is enhanced.

Optionally, at least two fixing rods are provided on each side of the fixing plate.

Through adopting above-mentioned technical scheme, every side is equipped with two dead levers, and two dead levers can be fixed the fixed plate and the lateral wall in injection storehouse and can Europe restriction fixed plate's rotation for the stability of fixed plate is better.

In a second aspect, the application method of the marinated meat product processing equipment with the heavy metal detection function adopts the following technical scheme: conveying the meat from the feed inlet to the discharge outlet on a conveying device; stopping the conveying device when the meat moves into the region to be added; the control switch device and the needle tube move downwards together; taking the time point when the needle tube is inserted into the meat and the touch rod of the switch device is pressed against the upper surface of the fixing plate as an initial time point; after the starting time point, the needle tube continues to move downwards, the switching device controls the water inlet tube to feed water and then injects the water into the meat through the needle tube, and the injection operation is started; after the injection is finished, the power device is controlled to drive the switch device and the needle tube to move upwards, the switch device is separated from the fixing plate, water cannot flow out of the water inlet pipe, the needle tube is separated from the meat, and the injection operation is finished; and starting the conveying device to convey the injected meat to the discharge hole.

By the method, the switching devices are not conducted in the process of opposite movement, the switching devices are conducted only when the switching devices abut against the fixing plate, the needle tubes are inserted into meat to inject saline water at the moment, and waste caused by water flowing out when the needle tubes are not inserted into the meat during downward movement is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the needle tube starts to move downwards, the switch device does not abut against the fixing plate, so that the needle tube cannot discharge water; when the switch device is abutted against the fixing plate, the needle tube is inserted into the meat, and the needle tube starts to discharge water, so that the probability that the needle tube starts to discharge water when moving downwards and is not inserted into the meat is reduced, the waste of water is reduced, and the resources are saved;

2. the end cover can shield the top of the main cylinder, so that the probability of sundries entering the main cylinder is reduced, the plunger and the inner cavity of the main cylinder can be in stable sliding fit, and the stability and the practicability of the switch device are enhanced;

3. the sealing gasket can reduce the probability of water seepage outwards at the joint of the bottom cover and the side wall of the main cylinder when the switch device is switched on, thereby reducing the waste of salt water and saving water resources.

Drawings

FIG. 1 is a schematic view showing the whole of a processing apparatus in an embodiment of the present application;

FIG. 2 is a schematic view showing the entire internal structure of a processing apparatus in the embodiment of the present application;

FIG. 3 is a schematic diagram showing the structure of the switch device inside the injection chamber in the embodiment of the present application;

fig. 4 is an exploded schematic view showing the structure of a switching device in the embodiment of the present application;

fig. 5 is a partial cross-sectional view schematically showing the connection relationship of the internal structures of the switching device in the embodiment of the present application.

Description of reference numerals: 1. a base station; 11. a high pressure water pump; 12. a brine tank; 13. a water conduit; 2. an injection chamber; 21. a feed inlet; 22. a discharge port; 23. an injection platen; 24. a fixing plate; 25. fixing the rod; 26. a through hole; 27. a fixing hole; 28. a limit nut; 3. a conveying device; 31. a drive shaft; 32. a driven shaft; 33. a metal mesh belt; 34. a drive motor; 4. a power plant; 5. a switching device; 51. a main barrel; 52. a spring; 53. a plunger; 531. a cylinder; 532. sealing sleeves; 54. a connecting rod; 55. a touch bar; 56. an end cap; 561. connecting holes; 57. a bottom cover; 571. a gasket; 572. a needle tube; 58. a water outlet hole; 59. and (4) a water inlet pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a marinated meat product processing device with a heavy metal detection function, and with reference to fig. 1 and 2, the marinated meat product processing device comprises a base platform 1, wherein a hollow injection bin 2 is welded on the base platform 1, a feeding hole 21 and a discharging hole 22 are respectively formed in two opposite ends of the injection bin 2, and a conveying device 3 is arranged in the injection bin 2; an injection pressing plate 23 is arranged in the injection bin 2, a brine tank 12 and a high-pressure water pump 11 communicated with the brine tank 12 are arranged on the outer top wall of the injection bin 2, a switch device 5 is arranged on the injection pressing plate 23, the water inlet of the switch device 5 is communicated with the water outlet of the high-pressure water pump 11, and the water outlet of the switch device 5 is communicated with the needle tube 572; a fixing plate 24 with adjustable height is arranged between the conveying device 3 and the needle tube 572, a power device 4 capable of enabling the needle tube 572 to be close to or far away from the conveying device 3 is further fixedly arranged in the injection bin 2, and when the needle tube 572 is inserted into the meat, the switch device 5 is abutted by the fixing plate 24 to realize conduction water inlet; when the power device 4 drives the needle tube 572 to descend, the switch device 5 is not communicated, and the needle tube 572 does not discharge water, when the needle tube 572 is inserted into meat, the switch device 5 is abutted and communicated by the fixing plate 24, so that the needle tube 572 discharges water, waste caused by the fact that the needle tube 572 discharges water without being inserted into the meat is reduced, and water resources are saved.

Referring to fig. 1 and 2, the conveying device 3 includes a driving shaft 31, a driven shaft 32, a metal mesh belt 33 and a driving motor 34, two opposite side walls close to the discharge port 22 in the injection chamber 2 are respectively embedded with a same rotating bearing, inner rings of the two rotating bearings are horizontally opposite, two ends of the driving shaft 31 are respectively in interference fit with the inner rings of the two rotating bearings, one end of the driving shaft 31 is located outside the injection chamber 2, a base of the driving motor 34 is connected to the side wall of the injection chamber 2 through a bolt, and an output shaft of the driving motor 34 is connected with one end of the driving shaft 31 located outside the injection chamber 2 through a coupling and a driving shaft. The two opposite side walls of one end of the injection bin 2 close to the feed inlet 21 are respectively embedded with rotating bearings which are the same as those on the inner wall of the end close to the discharge outlet 22, the inner rings of the two rotating bearings are coaxially opposite, the diameters of the driving shaft 31 and the driven shaft 32 are the same, and the two ends of the driven shaft 32 are respectively in interference fit with the inner rings of the rotating bearings. The driving shaft 31 and the driven shaft 32 are arranged in parallel, the metal mesh belt 33 is sleeved on the driving shaft 31 and the driven shaft 32 in a closed mode, the driving motor 34 drives the driving shaft 31 to rotate, the driving shaft 31 drives the driven shaft 32 to rotate through the metal mesh belt 33, the metal mesh belt 33 can circularly run in the injection bin 2, meat is brought into the injection bin 2 from the feeding hole 21, and the meat is conveyed to the discharging hole 22 after the step of injecting saline water is completed.

Referring to fig. 3 and 4, the power device 4 may be a cylinder or a hydraulic lifting column, and the power device 4 is a cylinder in this embodiment. The cylinder body of cylinder is embedded perpendicularly in the top jade of injection storehouse 2 and the air inlet is located the top jade outside of injection storehouse 2, and the piston rod of cylinder is located injection storehouse 2, and the piston rod of cylinder and the welding of injection clamp plate 23 top make injection clamp plate 23 horizontal fixation. Two switch devices 5 are arranged on each side edge of the injection pressing plate 23 parallel to the advancing direction of the conveyor belt; the switch device 5 includes a main cylinder 51, a plunger 53, a spring 52, a link 54, and an interference lever 55; the top end of the main cylinder 51 is open, the bottom end is closed, the main cylinder 51 is vertically arranged, and the side wall is welded with the injection pressing plate 23; the plunger 53 comprises a cylinder 531 and a sealing sleeve 532 made of rubber, the sealing sleeve is of a tubular structure, an inner ring of the sealing sleeve 532 is in interference fit with the cylinder 531, and the sealing sleeve 532 is in up-and-down sliding fit with an inner cavity of the main cylinder 51. One end of the spring 52 is welded at the circle center position of the bottom of the inner cavity of the main cylinder 51, and the other end of the spring 52 is connected with one end of the column 531; the other end of the column 531 is welded with one end of a connecting rod 54 in the inner cavity of the main cylinder 51, the other end of the connecting rod 54 is bent outwards to the bottom of the main cylinder 51 at the top end of the main cylinder 51, and a horizontally arranged touch rod 55 is welded at one end of the connecting rod 54 positioned outside the main cylinder 51. The outer wall of the main cylinder 51 is communicated with a water inlet pipe 59 which is integrally formed with the main cylinder 51, and a water guide pipe 13 is communicated between one end of the water inlet pipe 59, which is positioned on the outer wall of the main cylinder 51, and the water outlet of the high-pressure water pump 11.

When the switch device 5 is in a standing state, the spring 52 is compressed, the outer wall of the sealing sleeve 532 props against the communication position of the water inlet pipe 59 and the inner cavity of the main cylinder 51, the water inlet pipe 59 cannot add water into the inner cavity of the main cylinder 51, and the switch device 5 is not conducted;

referring to fig. 4 and 5, an end cover 56 is arranged at the top end of the main tube 51, a thread is arranged on the inner side wall of the end cover 56, a thread is arranged on the outer side wall of the top end of the main tube 51, and the end cover 56 is screwed with the thread at the top end of the main tube 51; the top wall of the end cover 56 is provided with an abdicating hole coaxial with the top wall of the end cover 56, and the abdicating hole is matched with the connecting rod 54 of the connecting rod 54 so that the connecting rod 54 can move up and down in the abdicating hole.

Referring to fig. 4 and 5, a bottom cover 57 with an opening at one end is arranged at the bottom of the main cylinder 51, a layer of sealing gasket 571 is bonded in the inner cavity of the bottom cover 57, the bottom cover 57 is fixedly inserted into the bottom end of the main cylinder 51, and the side wall of the main cylinder 51 is in contact with the side wall of the sealing gasket 571; the bottom of the main cylinder 51 is provided with a plurality of water outlet holes 58 communicated with the inner cavity of the main cylinder 51, the water outlet holes 58 are arranged at equal intervals along the circumferential direction at the bottom of the main cylinder 51, the bottom surface of the bottom cover 57 is communicated with a plurality of needle tubes 572, the needle tubes 572 are vertically arranged, and one ends of needles of the needle tubes 572 face downwards. The end cap 56 has the same diameter as the bottom cap 57 and is larger than the outer diameter of the main tube 51.

Referring to fig. 3 and 4, the fixing plate 24 is disposed above the metal mesh belt 33 and below the needle tube 572, the fixing plate 24 is disposed horizontally in the injection chamber 2, two fixing rods 25 integrally formed with the fixing plate 24 are disposed on two opposite sides of the fixing plate 24, and two fixing rods 25 are disposed horizontally and parallel on each side of the fixing rods 25; the corresponding positions on the two opposite side walls of the injection bin 2 are provided with fixing holes 27 capable of being matched with the fixing rods 25 in an inserted mode, the end portion, located on the outer side of the injection bin 2, of each fixing rod 25 is in threaded connection with a limiting nut 28 in a screwed mode, and the diameter of each limiting nut 28 is larger than that of each fixing hole 27. The fixing plate 24 is provided with through holes 26, the through holes 26 are in one-to-one coaxial correspondence with the four main cylinders 51 above, and the through holes 26 are matched with the bottom cover 57, so that the bottom cover 57 can move up and down in the through holes 26.

Referring to fig. 3 and 5, when the main cylinder 51 moves downwards, the end cap 56 and the main cylinder 51 move downwards through the through hole 26, the contact rod 55 is resisted by the fixing plate 24 to limit the movement, the main cylinder 51 drives the bottom cover 57 and the needle tube 572 to move downwards until the needle tube 572 is inserted into the meat, the spring 52 is stretched, the plunger 53 is positioned at the upper end of the main cylinder 51, the plunger 53 is separated from the communication part of the water inlet pipe 59 and the side wall of the main cylinder 51, so that the water inlet pipe 59 injects the saline into the inner cavity of the main cylinder 51, the saline enters the bottom cover 57 through the water outlet, then the saline enters the needle tube 572 again to be injected into the meat, and the step of.

Referring to fig. 1 and 3, the fixing holes 27 are opened in multiple sets from bottom to top on both side walls of the injection bin 2, which enables the fixing plates 24 to be fixed at different heights; when different kinds of meat are put on the metal mesh belt 33, the height of the fixing plate 24 needs to be adjusted because the meat size and height are different, so that the needle tube 572 just starts to be inserted into the meat when the fixing plate 24 abuts against the abutting rod 55, and the needle tube 572 starts to inject water.

The heavy metal detection device comprises an infrared detection device and a display panel, the infrared detection device collects image information of meat and transmits food images to the display panel for display, and whether heavy metal is contained or not can be determined through manual checking; the manner of detecting through infrared detection full time and displaying through the display panel is prior art and is not described herein again.

The implementation principle of the marinated meat product processing equipment with the heavy metal detection function is as follows: when the meat injection device is used, meat is placed on the metal mesh belt 33 at one end of the feeding hole 21, the driving motor 34 is started, the meat is driven by the metal mesh belt 33 to move to the position right below the injection pressing plate 23, the starting motor is stopped, and the air cylinder is started; the piston rod of the cylinder drives the injection pressing plate 23 and the switch device 5 to move vertically downwards, the needle tube 572, the bottom cover 57 and the main cylinder 51 move downwards through the through hole 26 on the fixing plate 24, the touch rod 55 is resisted by the fixing plate 24 and cannot move, the main cylinder 51 continues to move downwards under the pushing of the piston rod of the cylinder, and at the moment, the spring 52 is stretched, so that the plunger 53 is disengaged from a communication part where the water inlet pipe 59 and the main side wall are resisted; the water inlet tube 59 injects the brine in the brine tank 12 into the inner cavity of the main tube 51 by the water pump, and the brine enters the bottom cover 57 through the water outlet at the bottom of the main tube 51 and then is injected into the meat along the needle tube 572, at this time, the brine injection step is completed.

After injection is completed, the air cylinder is started again, the piston rod of the air cylinder contracts, the piston rod of the air cylinder drives the injection pressing plate 23 and the main cylinder 51 to move upwards through the through hole 26, the main cylinder 51 upwards drives the contact rod 55 to be separated from the contact of the fixing plate 24, the spring 52 contracts to a natural state, then the plunger 53 enables the spring 52 to be compressed under the action of gravity, the plunger 53 restores to contact with the position where the water inlet pipe 59 is communicated with the inner cavity of the main cylinder 51, the water inlet pipe 59 does not add water into the inner cavity of the main cylinder 51, at the moment, the needle tube 572 is separated from the meat, and the; at this time, the driving motor 34 is started, the metal mesh belt 33 continues to drive the meat injected with the saline to move towards the discharge port 22, and then the meat is transported out of the injection bin 2 from the discharge port 22 to be collected. The switch means 5 returns to the rest condition ready for the start of the next injection.

The embodiment of the application also discloses a use method of the marinated meat product processing equipment with the heavy metal detection function. The use method of the marinated meat product processing equipment with the heavy metal detection function comprises the following steps:

meat is placed on the conveying device 3 from the feed port 21 and conveyed to the discharge port 22;

when the meat moves into the region to be added, the conveying device 3 is stopped;

control switch means 5 and needle 572 to move together downward;

the starting time point is the time point when the needle tube 572 is inserted into the meat and the abutting rod 55 of the opening and closing means 5 abuts on the upper surface of the holding plate 24;

after the initial time point, the needle tube 572 continues to move downward, and the switching device 5 controls the water inlet tube 59 to feed water and then inject the water into the meat through the needle tube 572, so as to start the injection operation;

after the injection is finished, the power device 4 is controlled to drive the switch device 5 and the needle tube 572 to move upwards, the switch device 5 is separated from the fixing plate 24, water cannot be discharged from the water inlet pipe 59, the needle tube 572 is separated from the meat at the same time, and the injection operation is finished;

the conveyor 3 is activated to continue the transfer of the injected meat towards the discharge opening 22.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A marinated meat product processing device with a heavy metal detection function comprises a base platform (1) and an injection bin (2), wherein the injection bin (2) is hollow, a feeding hole (21) and a discharging hole (22) are formed in the injection bin (2), and a conveying device (3) communicated with the feeding hole (21) and the discharging hole (22) is arranged in the injection bin (2); an injection pressing plate (23) is arranged in the injection bin (2), a needle tube (572) with a downward needle head is vertically arranged on the injection pressing plate (23), the injection pressing plate (23) is fixedly connected with a power device (4) arranged on the top wall of the injection bin (2), and the power device (4) can drive the injection pressing plate (23) to be close to or far away from the conveying device (3); the method is characterized in that: the injection pressing plate (23) is also provided with a switch device (5), the water outlet end of the switch device (5) is communicated with the needle tube (572), the water inlet end of the switch device (5) is communicated with a high-pressure water pump (11) arranged on the top wall of the injection bin (2), and the high-pressure water pump (11) is communicated with a brine tank (12) arranged on the top wall of the injection bin (2); the two opposite side walls in the injection bin (2) are also provided with fixing plates (24), and when the switch device (5) is abutted against the fixing plates (24), the switch device (5) enables the needle tube (572) to be communicated with the water outlet end of the high-pressure water pump (11); still include heavy metal detection device.

2. The meat halide product processing device with the heavy metal detection function of claim 1, wherein: the switch device (5) comprises a main cylinder (51), a plunger (53), a spring (52), a connecting rod (54) and an abutting rod (55); the bottom end of the main cylinder (51) is closed, the top end of the main cylinder is opened, the side wall of the main cylinder (51) is communicated with an integrally formed water inlet pipe (59), and the plunger (53) is in up-and-down sliding fit with the inner cavity of the main cylinder (51); one end of the spring (52) is fixedly connected with the inner bottom wall of the main cylinder (51), and the other end of the spring (52) is fixedly connected with the lower end of the plunger (53); one end of a connecting rod (54) is positioned in the main cylinder (51) and is fixedly connected with the top end of the plunger (53), and the other end of the connecting rod (54) is bent outwards to the bottom of the main cylinder (51) and is connected with a horizontally arranged touch rod (55); when the switch device (5) is in standing, the side wall of the plunger (53) is abutted against the communication position of the water inlet pipe (59) and the side wall of the main cylinder (51), and the fixing plate (24) is provided with a through hole (26) which is coaxially corresponding to the main cylinder (51) and is matched with the main cylinder.

3. The meat halide product processing device with the heavy metal detection function as claimed in claim 2, wherein: plunger (53) include cylinder (531) and seal cover (532), and seal cover (532) are rubber material and the cover is located cylinder (531) outer wall.

4. The meat halide product processing device with the heavy metal detection function as claimed in claim 2, wherein: an end cover (56) is arranged at the top end of the main cylinder (51), threads are formed in the inner side of the end cover (56), threads are also formed in the outer wall of the top end of the main cylinder (51), and the end cover (56) is screwed with the threads at the top end of the main cylinder (51); the top of the end cover (56) is provided with a connecting hole (561) matched with the connecting rod (54).

5. The meat halide product processing device with the heavy metal detection function as claimed in claim 2, wherein: a bottom cover (57) with an opening at one end is arranged at the bottom of the main cylinder (51), and the bottom cover (57) is clamped with the bottom of the main cylinder (51); a plurality of water outlet holes (58) are formed in the bottom of the main cylinder (51), and the bottom end of the bottom cover (57) is communicated with the needle tube (572).

6. The meat halide product processing device with the heavy metal detection function of claim 5, wherein: a circle of sealing gasket (571) is fixedly arranged in the inner cavity of the bottom cover (57), and when the bottom cover (57) is clamped with the bottom end of the main cylinder (51), the side wall of the sealing gasket (571) abuts against the outer wall of the main cylinder (51).

7. The meat halide product processing device with the heavy metal detection function of claim 1, wherein: the fixing rods (25) are fixedly arranged on the side walls of two opposite sides of the fixing plate (24), the fixing holes (27) matched with the fixing rods (25) are formed in the side walls of two opposite sides of the injection bin (2), and the fixing rods (25) on the two sides of the fixing plate (24) are in inserting fit with the fixing holes (27) on the corresponding side walls of the injection bin (2); the side walls of the injection bin (2) of the fixing holes (27) are sequentially provided with a plurality of fixing holes from bottom to top.

8. The meat halide product processing device with the heavy metal detection function of claim 7, wherein: the end of the fixing column, which is positioned outside the side wall of the injection bin (2), is screwed with a limit nut (28), and the diameter of the limit nut (28) is larger than that of the fixing hole (27).

9. The meat halide product processing device with the heavy metal detection function of claim 7, wherein: the fixing rods (25) are provided at least two on each side of the fixing plate (24).

10. A use method of a marinated meat product processing device with a heavy metal detection function comprises the following steps:

meat is placed on the conveying device (3) from the feeding hole (21) to be conveyed to the discharging hole (22);

stopping the conveying device (3) when the meat moves into the region to be added;

the control switch device (5) and the needle tube (572) move downwards together;

taking the time point when the needle tube (572) is inserted into the meat and the contact rod (55) of the switch device (5) is pressed against the upper surface of the fixing plate (24) as the starting time point;

after the starting time point, the needle tube (572) continues to move downwards, the switching device (5) controls the water inlet tube (59) to feed water and then injects the water into the meat through the needle tube (572) to start the injection operation;

after the injection is finished, the power device (4) is controlled to drive the switch device (5) and the needle tube (572) to move upwards, the switch device (5) is separated from the fixing plate (24), water cannot be discharged from the water inlet tube (59), the needle tube (572) is separated from the meat, and the injection operation is finished;

the conveying device (3) is started to convey the injected meat to the discharge hole (22) continuously.

Images