CN115266207B

CN115266207B - Salinity sample collection extraction element is pickled to dried meat slice raw materials

Info

Publication number: CN115266207B
Application number: CN202211191555.XA
Authority: CN
Inventors: 张文跃; 吴镔; 王玲霞; 宦萍
Original assignee: Jiangsu Taste Food Ltd By Share Ltd Tobago
Current assignee: Jiangsu Taste Food Ltd By Share Ltd Tobago
Priority date: 2022-09-28
Filing date: 2022-09-28
Publication date: 2023-01-10
Anticipated expiration: 2042-09-28
Also published as: CN115266207A

Abstract

The invention discloses an extraction device for collecting a salinity sample for curing a raw meat material, which comprises an extraction base, wherein a rotating seat is rotatably arranged on the extraction base, a sleeve is fixedly connected to the rotating seat, a lifting rod is slidably arranged in the sleeve, an extraction claw is rotatably connected to the lifting rod, a driving structure with sequential and dual driving functions is arranged in the sleeve, an external gear is fixedly connected to an installation shaft of the rotating seat, a sliding support is movably arranged in a top groove, a driving rack is fixedly connected to the sliding support and meshed with the external gear, a limiting clamping block is slidably arranged in the extraction base, an inclined pushing groove is arranged on the limiting clamping block, and a pushing structure is arranged on the extraction base. The invention can automatically sample in multiple points during the process of pickling the raw materials of the dried meat slices and send the samples out of the pickling tank, so that the pickling tank does not need to be opened and the pickling environment is not damaged.

Description

Salinity sample collection extraction element is pickled to dried meat slice raw materials

Technical Field

The invention relates to the technical field of dried meat food detection, in particular to an extraction device for collecting a salinity sample for pickling a dried meat raw material.

Background

The dried meat slice is a dry cooked slice type meat product prepared by slicing (or mincing) lean meat, seasoning, pickling, spreading and screening, drying, baking and the like. Generally including dried meat slices and ground meat slices. Different from the processing method of the dried meat, the dried meat slice is prepared by directly drying the dried meat slice without boiling. In order to ensure the consistency and the palatability of the taste of the dried meat slices, the salinity of food materials needs to be accurately controlled, and the detection of the salting salinity of the lean meat is very important in the production process;

present dried meat is pickled salinity sample and is gathered and use extraction element has certain drawback when using, at first must open and pickle the container, causes the destruction to pickling the environment easily to the sampling tool is single, complex operation, need adopt the cutting of cutter and tweezers, press the mode of clamp to accomplish the sample extraction of pickling the dried meat, waste time and energy, again destroy the integrality of meat piece very easily, take place the problem that the meat sample dropped in the in-process of drawing easily moreover.

Disclosure of Invention

The present invention has been made to solve the above problems occurring in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a salinity sample collection extraction element is pickled to dried meat slice raw materials, includes draws the base, draw the base and install in the apical trough of pickling jar, and draw and rotate on the base and install the rotation seat, rotate fixedly connected with sleeve pipe on the seat, and slidable mounting has the lifter in the sleeve pipe, rotate on the lifter and be connected with and draw the claw, and install the drive structure that has successively dual drive function in the sleeve pipe, successively drive the lifter through the drive structure and go up and draw the claw and open and shut, reach the drive and draw the claw and go on descending, snatch, rise, a cyclic process of loosening, the epaxial fixedly connected with external gear of installation of rotation seat, and movable mounting has the sliding bracket in the apical trough, fixedly connected with drives rack and external gear meshing on the sliding bracket, and sliding bracket carries out horizontal drive through the cylinder, slidable mounting has spacing clamp splice in drawing the base, carries out the fixed spacing of rotation seat through spacing clamp splice, and is provided with the oblique groove on the spacing clamp splice, draw to be provided with on the base and promote the structure, and promote the structure through sliding bracket drive through sliding bracket and promote the spacing clamp splice along pushing away the oblique, and promote the spacing of the rotation before the rotation seat through the sliding bracket and remove the spacing of spacing.

Preferably, the top groove is formed in the top of the pickling tank, the extraction base is positioned in the top groove through friction, the rotating base is installed in the rotating groove of the extraction base, the sleeve is vertically connected to the rotating base, and the lifting rod is installed in the pipe groove of the sleeve.

Preferably, the end of the lifting rod is provided with a second movable groove, the second movable groove is internally provided with a mounting seat, the mounting seat is used for rotatably mounting the extraction claws, at least four extraction claws are annularly arranged and mounted, the top of each extraction claw is connected with an elastic sheet, and the elastic sheet is in a V shape.

Preferably, the driving structure comprises a driving gear and a driven gear which are installed in the rotating seat, the driving gear is driven by a driving shaft, a nut seat is arranged in the middle of the driven gear, a lifting screw rod is connected in the nut seat, and a first ejector block and a second ejector block are fixedly connected to the lifting screw rod.

Preferably, the driving gear and the driven gear are arranged in a cavity of the rotating seat, the lifting screw rod is vertically and slidably mounted in sliding grooves of the rotating seat and the sleeve, and the lifting screw rod is in threaded connection with the nut seat.

Preferably, a first movable groove is formed in the lifting rod, the first ejector block is installed in the first movable groove in a limiting mode, the second ejector block is arranged in the second movable groove in a limiting mode, and the second ejector block is connected with the top end of the extraction claw in a contact mode.

The external gear is located the outside of drawing the base, and the horizontal spacing of support that slides is installed in the overhead tank, fixedly connected with magnetic sheet on the spacing clamp splice, and draw fixed mounting in the base have a magnetic base, compress tightly spacing clamp splice on the outer wall of rotating the seat through the magnetic repulsion that magnetic base and magnetic sheet produced.

Preferably, spacing clamp splice symmetry is provided with two, and pushes away the groove setting to one side on the lateral wall of spacing clamp splice, the promotion structure is including fixed mounting draw the spring guide arm on the base, and slidable mounting has the inner support on the spring guide arm, fixedly connected with upper boom and lower beam on the inner support, and fixedly connected with receives the push rod on the upper boom, receive the push rod to be located the side of the support that slides, and the lower beam is located the side of oblique groove that pushes away.

Preferably, the last side of drawing the base of pickling tank is provided with the sampling groove, and the side of sampling groove is provided with the material receiving box, the last drive shaft of installing of rotating of pickling tank, and fixedly connected with puddler in the drive shaft, it is being provided with four at least as the central annular to draw the base to use the drive shaft.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention can automatically sample at multiple points in the process of pickling the raw materials of the dried meat slices and send the samples out of the pickling tank, so that the pickling environment is not damaged without opening the pickling tank.

2. The extraction device takes an extraction base as a basic structure, a plurality of extraction claws which can be lifted and rotated are arranged in the extraction base, the extraction claws can be inserted into meat slices when descending, then grabbing type sampling is carried out, the extraction claws move upwards along with a lifting rod along with the extraction claws, the samples are taken out, then the extraction claws are driven by a rotating seat to rotate out of a pickling tank, and finally the extraction claws are released, and the samples are put into a material receiving box to finish automatic sampling work.

3. The lifting and opening and closing actions of the extraction claw are driven by the driving structure, the extraction claw can be driven to perform complete sampling work of descending, grabbing, ascending and loosening, the cyclic sampling work can be performed, and the change of the salting salinity can be mastered at any time.

4. The rotation of the extraction claw is driven by the sliding support, a sample can be sent into the material receiving box from the position of the sampling groove, and in order to ensure that the extraction claw can be vertically inserted into the sliced meat, the rotating seat is limited by the two limiting clamping blocks, the rotating seat and the extraction claw can not rotate during sampling, and the sliding support firstly drives the pushing structure to drive the limiting clamping blocks to retract on a path for driving the rotating seat to rotate, so that the rotating seat can rotate smoothly.

Drawings

FIG. 1 is a schematic view of the construction of a curing tank according to the present invention.

FIG. 2 is a schematic view of the position of the extraction device of the present invention in a curing tank.

FIG. 3 is a schematic view of the extraction apparatus of the present invention.

Fig. 4 is a schematic cut-away view of the extraction device of the present invention.

Fig. 5 is a schematic diagram showing the disassembly of the extraction member limiting structure of the present invention.

Fig. 6 is a schematic cut-away view of an extraction member of the present invention.

Fig. 7 is a schematic exploded view of the structure of the extraction member of the present invention.

Fig. 8 is a schematic view of the driving structure of the extracting claw of the present invention.

FIG. 9 is a schematic view of the structure of the extraction claw of the present invention.

FIG. 10 is a schematic view of a single-jaw configuration of the present invention.

In the figure: the device comprises an extraction base 1, a pickling tank 2, a top groove 3, a rotating seat 4, a sleeve 5, a lifting rod 6, a driving gear 7, a driven gear 8, a lifting screw rod 9, a first top block 10, a first movable groove 11, a second top block 12, a mounting seat 13, an extraction claw 14, an elastic sheet 15, a second movable groove 16, an external gear 17, a sliding support 18, a cylinder 19, a driving rack 20, a limiting clamping block 21, a magnetic plate 22, a magnetic seat 23, an inclined pushing groove 24, a spring guide rod 25, an internal support 26, an upper rod 27, a driven rod 28, a lower rod 29, a sampling groove 30, a material receiving box 31, a driving shaft 32 and a stirring rod 33.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: the utility model provides a salinity sample collection extraction element is pickled to dried meat raw materials, including drawing base 1, it installs in the apical trough 3 of pickling jar 2 to draw base 1, and draw and rotate on the base 1 and install and rotate seat 4, fixedly connected with sleeve pipe 5 on the seat 4 rotates, and slidable mounting has lifter 6 in the sleeve pipe 5, it is connected with and draws claw 14 to rotate on the lifter 6, and install the drive structure who has successively dual drive function in the sleeve pipe 5, successively drive lifter 6 through the drive structure and draw claw 14 and open and shut, reach the drive and draw claw 14 and descend, snatch, rise, a cyclic process of loosening, epaxial fixedly connected with external gear 17 of installation of seat 4 rotates, and movable mounting has sliding support 18 in apical trough 3, fixedly connected with drive rack 20 and external gear 17 meshing on sliding support 18, and sliding support 18 carries out horizontal drive through cylinder 19, draw and slidable mounting has spacing clamp splice 21 in the base 1, carry out the fixed spacing of seat 4 through spacing clamp splice 21, and be provided with oblique push away the groove 24 on the spacing clamp splice 21, it is provided with the promotion structure to promote the base through the fixed support 18 to the sliding support, it removes the spacing clamp splice before the seat to rotate the seat through the rotation of sliding support 18, the rotation of the spacing clamp splice 21, the rotation of the spacing clamp splice, the rotation of the support, the support is removed the spacing clamp splice 21.

The invention can automatically sample at multiple points in the process of pickling the raw materials of the dried meat slices and send the samples out of the pickling tank 2, so that the pickling environment is not damaged without opening the pickling tank 2.

Top groove 3 sets up at the top of pickling tank 2, and draws base 1 and fix a position in top groove 3 through frictional force, rotates seat 4 and installs in the rotation groove of drawing base 1, and sleeve pipe 5 connects perpendicularly on rotating seat 4, and lifter 6 installs in the pipe chase of sleeve pipe 5.

The extraction device takes the extraction base 1 as a basic structure, wherein the extraction base is arranged on a rotating seat 4, a sleeve 5 of the rotating seat 4 is movably arranged on a lifting rod 6, the end part of the lifting rod 6 is provided with a plurality of extraction claws 14, sampling is carried out through the extraction claws 14, and the sample on the extraction claws 14 is transferred through the rotation of the rotating seat 4, so that the automatic sampling work is completed.

The tip of lifter 6 is provided with second movable groove 16, and is provided with mount pad 13 in the second movable groove 16, draws the rotation installation of claw 14 through mount pad 13, and draws claw 14 annular arrangement and install at least four, draws the top of claw 14 to be connected with shell fragment 15, and shell fragment 15 is the V type.

Draw claw 14 and rotate through mount pad 13 and install in lifter 6, consequently draw claw 14 itself can rotate to change and snatch and the state of relaxing, and draw claw 14 and can reciprocate along with lifter 6, then insert during the decline in the meat piece, the sample of formula of grabbing again, move up along with lifter 6 again along with drawing claw 14, take out the sample, drive through rotating seat 4 afterwards and draw claw 14 and rotate out pickling tank 2, at last release and draw claw 14, put into the sample and accomplish automatic sampling work in material receiving box 31.

The driving structure comprises a driving gear 7 and a driven gear 8 which are installed in a rotating seat 4, the driving gear 7 is driven through a driving shaft, a nut seat is arranged in the middle of the driven gear 8, a lifting screw rod 9 is connected in the nut seat, and a first ejector block 10 and a second ejector block 12 are fixedly connected to the lifting screw rod 9.

The lifting and opening and closing actions of the extraction claw 14 are driven by a driving structure, the extraction claw 14 can be driven to complete sampling work of descending, grabbing, ascending and loosening, and cyclic sampling work can be carried out, and the change of the salting salinity can be mastered constantly.

The driving gear 7 and the driven gear 8 are arranged in a cavity of the rotating seat 4, the lifting screw rod 9 is vertically and slidably mounted in sliding grooves of the rotating seat 4 and the sleeve 5 in a limiting mode, and the lifting screw rod 9 is in threaded connection with the nut seat.

Under normal conditions, the extraction claw 14 is controlled in a loose state through the elastic force of the elastic sheet 15 and is conveniently inserted into a meat slice, for example, a complete sampling process is taken, the driven gear 8 is driven to rotate through the driving gear 7, the lifting screw rod 9 is controlled to move downwards through the rotation of the nut seat, the first ejector block 10 on the lifting screw rod 9 is pressed at the bottom of the first movable groove 11, the lifting rod 6 is pushed downwards, the lifting rod 6 drives the extraction claw 14 to be inserted into the meat slice, then the lifting screw rod 9 is driven to move upwards through the reverse rotation of the driving gear 7, the second ejector block 12 at the end part of the lifting screw rod 9 is firstly pressed at the top end of the extraction claw 14, the extraction claw 14 rotates, a sample is cut off from the meat slice through the action of the plurality of extraction claws 14, then the lifting screw rod 9 continuously moves upwards, the first ejector block 10 moves to be in contact with the top surface of the first movable groove 11, pressure is generated to drive the lifting rod 6 to move upwards, and then the extraction claw 14 moves upwards, and the sample is extracted.

A first movable groove 11 is formed in the lifting rod 6, the first ejector block 10 is installed in the first movable groove 11 in a limiting mode, the second ejector block 12 is arranged in the second movable groove 16 in a limiting mode, and the second ejector block 12 is connected with the top end of the extraction claw 14 in a contact mode.

After sampling is completed, the extraction claw 14 is allowed to relax the sample and reset by reversing the rotation of the drive gear 7 again.

External gear 17 is located the outside of drawing base 1, and the horizontal spacing of support 18 that slides is installed in overhead tank 3, fixedly connected with magnetic sheet 22 on the spacing clamp splice 21, and draws in fixed mounting in the base 1 and have magnetic base 23, compresses tightly spacing clamp splice 21 on the outer wall of seat 4 rotates through the magnetic repulsion that magnetic base 23 and magnetic sheet 22 produced.

The extracting claw 14 rotates by driving the sliding support 18 to move through the cylinder 19, the driving rack 20 on the sliding support 18 drives the external gear 17, and further drives the rotating seat 4 to communicate with the extracting claw 14 to rotate, so that the sample is sent into the material receiving box 31 from the position of the sampling groove 30.

The two limiting clamping blocks 21 are symmetrically arranged, the inclined push grooves 24 are formed in the side walls of the limiting clamping blocks 21, the pushing structure comprises spring guide rods 25 fixedly mounted on the extraction base 1, inner supports 26 are slidably mounted on the spring guide rods 25, upper rods 27 and lower rods 29 are fixedly connected to the inner supports 26, push rods 28 are fixedly connected to the upper rods 27, the push rods 28 are located on the side faces of the sliding supports 18, and the lower rods 29 are located on the side faces of the inclined push grooves 24.

In order to ensure that the extraction claw 14 can be vertically inserted into the sliced meat, it is necessary to ensure that the rotating seat 4 and the extraction claw 14 do not rotate during sampling, so that the magnetic seat 23 generates repulsion force on the magnetic plate 22 to drive the two limiting clamping blocks 21 to limit the rotating seat 4, the sliding support 18 drives the pushing structure to drive the limiting clamping blocks 21 to retract on a path for driving the rotating seat 4 to rotate, so that the rotating seat 4 can rotate smoothly, specifically, when the sliding support 18 extrudes the pushed rod 28, the inner support 28 can be driven to move along the spring guide rod 25 to overcome the elasticity of the spring, the lower rod 29 pushes the limiting clamping blocks 21 along the inclined pushing groove 24, so that the limiting clamping blocks 21 are separated from the rotating seat 4.

The side of drawing base 1 on the curing tank 2 is provided with sampling groove 30, and the side of sampling groove 30 is provided with material receiving box 31, rotates on the curing tank 2 and installs drive shaft 32, and fixedly connected with puddler 33 on the drive shaft 32, draws base 1 and is being provided with four at least taking drive shaft 32 as the central annular.

When the invention is used: firstly, the extraction device takes an extraction base 1 as a basic structure, wherein the extraction base is arranged on a rotating seat 4, a sleeve 5 of the rotating seat 4 is movably arranged on a lifting rod 6, the end part of the lifting rod 6 is provided with a plurality of extraction claws 14, sampling is carried out through the extraction claws 14, and the sample on the extraction claws 14 is transferred through the rotation of the rotating seat 4, so that automatic sampling work is completed, the extraction claws 14 are rotatably arranged in the lifting rod 6 through a mounting seat 13, therefore, the extraction claws 14 can rotate to change the grabbing and releasing states, the extraction claws 14 can move up and down along with the lifting rod 6, are inserted into meat slices when descending, then carry out grabbing type sampling, take out the sample along with the upward movement of the extraction claws 14 along with the lifting rod 6, then drive the extraction claws 14 to rotate out of a curing tank 2 through the rotating seat 4, and finally release the extraction claws 14, the sample is put into the material receiving box 31 to complete the automatic sampling work, the lifting and opening and closing actions of the extraction claw 14 are driven by a driving structure, the extraction claw 14 can be driven to complete the sampling work of descending, grabbing, ascending and loosening, the cyclic sampling work can be carried out, the change of the curing salinity can be mastered at any time, under the normal condition, the extraction claw 14 is controlled in the loosened state through the elastic action of the elastic sheet 15 to be conveniently inserted into the sliced meat, taking a complete sampling process as an example, the driven gear 8 is driven to rotate by the driving gear 7, the lifting screw rod 9 is controlled to move downwards by the rotation of the nut seat, the first top block 10 on the lifting screw rod 9 is pressed at the bottom of the first movable groove 11, the lifting rod 6 is pushed downwards to enable the lifting rod 6 to drive the extraction claw 14 to be inserted into the sliced meat, and then the driving gear 7 is rotated reversely to drive the lifting screw rod 9 to move upwards, the second ejector block 12 at the end part of the lifting screw rod 9 is firstly pressed at the top end of the extraction claw 14, so that the extraction claw 14 rotates, a sample is cut off from a sliced meat under the action of a plurality of extraction claws 14, then the lifting screw rod 9 continuously moves upwards, the first ejector block 10 moves to be in contact with the top surface of the first movable groove 11, pressure is generated to drive the lifting rod 6 to move upwards, so that the extraction claw 14 moves upwards to extract the sample, after the sampling is finished, the extraction claw 14 can relax the sample and reset through the reverse rotation of the driving gear 7 again, the rotation of the extraction claw 14 drives the sliding support 18 to move through the air cylinder 19, the driving rack 20 on the sliding support 18 drives the external gear 17, and further drives the rotating seat 4 to be communicated with the extraction claw 14 to rotate, the sample is sent into the material receiving box 31 from the position of the sampling groove 30, in order to ensure that the extraction claw 14 can be vertically inserted into the sliced meat, it must be ensured that the rotating seat 4 and the extraction claw 14 cannot rotate during sampling, therefore, repulsion force is generated on the magnetic plate 22 through the magnetic seat 23, two limiting clamping blocks 21 are driven to limit the rotating seat 4, the sliding support 18 drives the rotating seat 4 to rotate on a path in which the sliding support moves, the pushing structure can be firstly driven to drive the limiting clamping blocks 21 to retract, so that the rotating seat 4 can smoothly rotate, concretely, when the sliding support 18 extrudes the pushed rod 28, the inner support 28 can be driven to move along the spring guide rod 25 to overcome the elasticity of the spring, the lower rod 29 is used for pushing the limiting clamping blocks 21 along the inclined pushing groove 24, and the limiting clamping blocks 21 are separated from the rotating seat 4.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a salinity sample collection uses extraction element is pickled to dried meat raw materials, includes and draws base (1), its characterized in that: the pickling device is characterized in that the extraction base (1) is installed in a top groove (3) of the pickling tank (2), the extraction base (1) is rotatably installed with a rotating seat (4), a sleeve (5) is fixedly connected to the rotating seat (4), a lifting rod (6) is slidably installed in the sleeve (5), a lifting claw (14) is rotatably connected to the lifting rod (6), a driving structure with a double driving function is installed in the sleeve (5), the lifting rod (6) is sequentially driven to lift and open and close the lifting claw (14) through the driving structure, a cyclic process that the lifting claw (14) is driven to descend, grab, ascend and loosen is achieved, an external gear (17) is fixedly connected to the installation shaft of the rotating seat (4), a sliding support (18) is movably installed in the top groove (3), a driving rack (20) is fixedly connected to the sliding support (18) and is meshed with the external gear (17), the sliding support (18) is horizontally driven through a cylinder (19), a limiting clamp block (21) is slidably installed in the extraction base (1), a limiting clamp block (21) is fixedly connected to the rotating seat (4), and an inclined pushing structure is arranged on the sliding support (18), the pushing structure pushes the limiting clamping block (21) along the inclined pushing groove (24), the end part of the lifting rod (6) is provided with a second movable groove (16) before the sliding support (18) drives the rotating seat (4) to rotate to release the limiting fixation of the limiting clamping block (21) on the rotating seat (4), the second movable groove (16) is internally provided with a mounting seat (13), the rotating installation of the extracting claws (14) is carried out through the mounting seat (13), at least four extracting claws (14) are annularly arranged and installed, the top of the extracting claws (14) is connected with an elastic sheet (15), the elastic sheet (15) is V-shaped, the driving structure comprises a driving gear (7) and a driven gear (8) which are installed in the rotating seat (4), the driving gear (7) is driven through a driving shaft, the middle of the driven gear (8) is provided with a nut seat, the nut seat is connected with the lifting lead screw (9), the lifting lead screw (9) is fixedly connected with a first jacking block (10) and a second jacking block (12), the driving gear (7) and the driven gear (8) are arranged in a cavity of the rotating seat (4), the lifting lead screw (9) and a lifting lead screw (9) is arranged in a sliding groove (9), and the first ejector block (10) is installed in the first movable groove (11) in a limiting way, the second ejector block (12) is arranged in the second movable groove (16) in a limiting way, and the second ejector block (12) is connected with the top end of the extraction claw (14) in a contact way.

2. The extraction device for collecting the preserved meat raw material salting salinity sample according to claim 1, characterized in that: top groove (3) set up at the top of pickling tank (2), and draw base (1) and pass through frictional force location in top groove (3), rotate seat (4) and install in the rotation groove of drawing base (1), and sleeve pipe (5) vertical connection on rotating seat (4), lifter (6) are installed in the tube seat of sleeve pipe (5).

3. The extraction device for collecting the preserved meat raw material salting salinity sample according to claim 1, characterized in that: external gear (17) are located the outside of drawing base (1), and the horizontal spacing of support (18) that just slides is installed in overhead tank (3), fixedly connected with magnetic sheet (22) on spacing clamp splice (21), and draw fixed mounting in base (1) have magnetic base (23), and the magnetic repulsion that produces through magnetic base (23) and magnetic sheet (22) compresses tightly spacing clamp splice (21) on the outer wall of rotating seat (4).

4. The extraction device for collecting the preserved meat raw material salting salinity sample according to claim 1, characterized in that: spacing clamp splice (21) symmetry is provided with two, and pushes away groove (24) to one side and set up on the lateral wall of spacing clamp splice (21), promote structure including fixed mounting draw spring guide pole (25) on base (1), and slidable mounting has inner support (26) on spring guide pole (25), fixedly connected with upper boom (27) and lower beam (29) are gone up in inner support (26), and fixedly connected with receives push rod (28) on upper boom (27), receive push rod (28) to be located the side of sliding support (18), and lower beam (29) are located the side of pushing away groove (24) to one side.

5. The extraction device for collecting the preserved meat raw material salting salinity sample according to claim 1, characterized in that: the side of drawing base (1) on pickling tank (2) is provided with sampling groove (30), and the side of sampling groove (30) is provided with material receiving box (31), rotating on pickling tank (2) and installing drive shaft (32), and fixedly connected with puddler (33) on drive shaft (32), it is being provided with four at least as central annular to draw base (1) to use drive shaft (32).