CN215179024U - Integrated livestock product detection sample processing device - Google Patents

Abstract

The utility model discloses an integrative animal products detects sample processing apparatus, including frame and cutting mechanism, cutting mechanism includes stripping and slicing mechanism and by motor drive's drum formula section mechanism, and stripping and slicing mechanism and drum formula section mechanism install in the frame, and the export of stripping and slicing mechanism is located drum formula section mechanism's import directly over. The utility model discloses earlier cut into the piece with the slicer mechanism with animal products testing sample, reuse motor drive's slicer mechanism cuts into the piece with animal products testing sample's fritter, and slicing efficiency is high.

Description

Integrated livestock product detection sample processing device

Technical Field

The utility model relates to a livestock product quarantine especially relates to an integrative livestock product detects sample processing apparatus.

Background

Livestock products are products processed by livestock, including pork, beef, mutton and the like, however, with the deterioration of the environment and the influence of the feeding environment, the livestock at present is very susceptible to diseases, even epidemic diseases affecting the health of people, and therefore sampling detection of the livestock products is needed.

When the livestock products are detected, the livestock products need to be processed, for example, the livestock products are cut into small pieces of sheets to be detected conveniently, the livestock products are cut continuously by hands, and the following defects are found in the manual cutting mode in practical operation:

1. the method has slow progress, the operator only can cut one piece at a time in a manner similar to meat cutting, batch forming cannot be realized at one time, the progress is slow, manpower is consumed, the efficiency is low, and the manpower cost is high.

2. The thickness of a slice sample cannot be effectively controlled by manual cutting, the condition that the slice sample cannot be used for detection is easily caused, and meanwhile, the speed and the quality of manual slicing have great relation with the technical proficiency of actual operators.

3. The hand and the blade of an operator are easily cut by manual cutting, animal products which are not detected do not have safety, viruses and bacteria are easily carried, the condition that the incision part of the operator is infected is easily caused, and the personal safety is harmed.

The utility model with the patent number CN202020287403.X discloses a livestock product detection sample processing device, the upper end of a supporting base is connected with a fixing mechanism, livestock products needing to be cut are fixed by the fixing mechanism, a cutting mechanism is also arranged above the supporting base, the livestock products are cut by the cutting mechanism, the fixing mechanism comprises two symmetrical fixing plates, the two fixing plates are connected with a butt plate through a plurality of elastic parts I, the butt plate is fixed with the livestock products by butt, the cutting mechanism comprises a cutting main body, a cutting rod is arranged at the upper end of the cutting main body, connecting plates are symmetrically arranged at two sides of the cutting rod, the two connecting plates are connected with the cutting main body through an elastic part II, the lower end of the cutting rod is connected with a cutting motor through a connecting rod, the rotating part of the cutting motor is connected with a cutting blade, the livestock products are cut by the rotation of the cutting motor driving the cutting blade to rotate, and the two abutting plates are both provided with an anti-slip layer.

The utility model discloses a rotation through cutting motor drives cutting blade and cuts animal products, cuts apart piece by piece, and it is inefficient to cut into slices.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide an efficient integrative animal products of section detects sample processing apparatus.

In order to solve the technical problem, the utility model adopts the technical scheme that the integrated livestock product detection sample processing device comprises a frame and a cutting mechanism, wherein the cutting mechanism comprises a cutting mechanism and a drum type slicing mechanism driven by a motor, the cutting mechanism and the drum type slicing mechanism are arranged on the frame, and the outlet of the cutting mechanism is positioned right above the inlet of the drum type slicing mechanism; the top plate of the bracket comprises a transverse slot for supporting the supporting plate, the opening of the slot is positioned on the side surface of the supporting plate, the outlet of the cutting mechanism penetrates through the slot, and the supporting plate is inserted into the slot.

The integrated livestock product detection sample processing device comprises a rack, a rack and a detection device, wherein the rack comprises a base and a bracket; the support comprises a top plate and an upright post, and the bottom of the upright post is fixed on the top plate; the dicing mechanism comprises a dicing cutter, a supporting plate and a lever mechanism, and the middle part of the top plate comprises an outlet of the dicing mechanism; the supporting plate is supported by the top plate and shields the outlet; the slicing knife comprises a vertical shaft, a pressure plate and a cutter head, the cutter head comprises an annular frame and a plurality of blades, the plurality of blades are fixed in the frame, and the cutting edges of the blades face downwards; the cutter head is fixed on the bottom surface of the pressure plate, and the bottom of the vertical shaft is fixed in the center of the top surface of the pressure plate; the upper part of the upright post comprises a sleeve, the sleeve comprises an upright shaft hole, an upright shaft of the dicing cutter passes through the upright shaft hole, and the upper end of the upright shaft is driven by a lever mechanism; the sample to be diced is arranged between the cutter head and the blade.

The integrated livestock product detection sample processing device comprises a lever mechanism, a first rocker and a second rocker, wherein the lever mechanism comprises a first rocker, a second rocker and a connecting rod; the first end of the second rocker is hinged with the sleeve, and the first end of the second rocker is hinged with the second end of the connecting rod; the connecting rod comprises a handle, and the handle is positioned in the extension line direction from the second end to the first end of the connecting rod; the middle part of the first rocker is pressed on the top end of the vertical shaft.

The integrated animal product detection sample processing device comprises a connecting rod and a force application rod, wherein the connecting rod comprises an L-shaped connecting rod and a force application rod, the first end of a first rocker is hinged with the first end of the connecting rod, and the first end of a second rocker is hinged with the second end of the connecting rod; the front part of the force application rod comprises a groove, the rear part of the force application rod comprises the handle, the bending part of the L-shaped connecting rod is inserted into the groove in the front part of the force application rod, and the front end of the force application rod is hinged with the bending part of the L-shaped connecting rod; the dicing cutter comprises a pressure spring, the top of the vertical shaft comprises a flange, and the pressure spring is sleeved on the upper part of the vertical shaft and is positioned between the sleeve and the flange; the top surface of the vertical shaft is a spherical surface, and the middle part of the first rocker is pressed on the spherical surface at the top end of the vertical shaft.

In the integrated livestock product detection sample processing device, the drum type slicing mechanism comprises a drum and a rotor, and the rotor comprises a main shaft and a plurality of groups of scraping blade mechanisms uniformly distributed along the circumferential direction of the main shaft; the front end of the horizontally arranged roller is open, the bottom plate at the rear end comprises a bearing seat, and the rear part of the main shaft penetrates through the bearing seat and is supported by the bearing seat; the front end of the main shaft is a cantilever, and the rear end of the main shaft is driven by a motor; the top of the drum includes the inlet of the drum slicer mechanism.

The integrated livestock product detection sample processing device comprises a tray and a turnover mechanism, wherein the turnover mechanism comprises a turnover frame, a half worm wheel, a worm and a first hand wheel; the roller is fixed on the roll-over stand, the half worm gear is fixed on the base, and the worm gear is upward; the bottom of the roll-over stand comprises a hinged support, the hinged support is hinged with the semi-worm gear through a hinged shaft, and the hinged shaft passes through the rotation center of the semi-worm gear; a worm meshed with the semi-worm gear is arranged at the bottom of the roll-over stand, and a hand wheel is fixed on a worm shaft; the front part of the roll-over stand and the open lower part of the front end of the roller comprise inclined plates, and the tray is arranged on the base and is positioned below the bottom ends of the inclined plates.

In the integrated livestock product detection sample processing device, the roll-over stand is L-shaped and comprises the vertical plate and the transverse plate, the rear end of the transverse plate is connected with the lower end of the vertical plate, and the upper end of the transverse plate is connected with the front end of the transverse plate; the hinged support comprises two lug plates, and the upper ends of the lug plates are fixed on the transverse plate; the drum type slicing mechanism comprises a worm gear mechanism, the rear end of the bearing seat is fixed on the vertical plate, a worm wheel of the worm gear mechanism is fixed on a rear shaft of the main shaft, and a worm of the worm gear mechanism is connected with the motor.

In the integrated livestock product detection sample processing device, the rotor comprises a scraping blade thickness adjusting hand wheel, and the scraping blade mechanism comprises a blade carrier, a scraping blade, a front hinge seat, a rear hinge seat and two hinge rods; the rear hinge seat is fixed at the rear part of the main shaft, and the front hinge seat is loosely sleeved at the front part of the main shaft; the rear end of the first hinge rod is hinged with the rear end of the tool rest, and the front end of the first hinge rod is hinged with the front hinge seat; the front end of the knife rest comprises a flat long hole, and the long axis of the flat long hole is parallel to the axis of the knife rest; the rear end of the second hinge rod is hinged with the rear hinge seat, and a hinge shaft at the front end of the second hinge rod is inserted into the flat long hole; the front end of main shaft includes the external screw thread, and doctor-bar thickness adjusting hand wheel hub's hole includes the internal thread, and doctor-bar thickness adjusting hand wheel's wheel hub closes soon on the external screw thread of main shaft front end, wheel hub's rear end support the front end at articulated seat in the front.

In the integrated livestock product detection sample processing device, the number of the scraping mechanisms is three, the scraping mechanisms comprise elastic diaphragms, the width of each elastic diaphragm is equal to the length of the tool rest, and the rotor comprises three compression rollers and compression roller fixing rings; the rear part of the main shaft comprises a flange, and the compression roller fixing ring is sleeved at the front part of the main shaft; the front end of the compression roller is connected with the compression roller fixing ring, and the rear end of the compression roller is connected with the flange of the main shaft; the three press rollers are uniformly distributed along the circumferential direction of the rotor and staggered 60 degrees with the tool rests of the three scraping mechanisms respectively; one end of the elastic diaphragm is connected with the side surface of the knife rest, and the other end of the elastic diaphragm bypasses the inner side of the press roller and then is connected with the side surface of the near side of the knife rest of the adjacent scraping mechanism.

In the integrated animal product detection sample processing device, the front end and the rear end of the tool rest respectively comprise an end plate, and the end plates comprise hinge holes; the scraper is in a strip shape, the front end and the rear end of the scraper respectively comprise a hinged shaft, and the hinged shaft of the scraper is inserted into the hinged hole of the end plate; the blade of the scraper comprises a sawtooth multi-tooth shape with an upward cutting edge, a sawtooth multi-tooth shape with a middle cutting edge, a multi-tooth blade shape with an arched arc or a sheet linear blade shape.

The utility model discloses earlier cut into the piece with the slicer mechanism with animal products testing sample, reuse motor drive's slicer mechanism cuts into the piece with animal products testing sample's fritter, and slicing efficiency is high.

[ description of the drawings ]

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a front view of an integrated animal product testing sample processing device according to an embodiment of the present invention.

FIG. 2 is a perspective view of an apparatus for processing animal product test samples according to an embodiment of the present invention.

Fig. 3 is a front view of the dicing mechanism according to the embodiment of the present invention.

Fig. 4 is a perspective view of the dicing mechanism according to the embodiment of the present invention.

Fig. 5 is a perspective view of a frame according to an embodiment of the present invention.

Fig. 6 is a plan view of the cutter head according to embodiment 1 of the present invention.

Fig. 7 is a plan view of a cutter head according to embodiment 2 of the present invention.

Fig. 8 is a perspective view of the slicer mechanism and the turnover mechanism according to the embodiment of the present invention.

Fig. 9 is a perspective view of another view angle of the slicer mechanism and the turnover mechanism according to the embodiment of the present invention.

Fig. 10 is a perspective sectional view of a slicer mechanism according to an embodiment of the present invention.

Fig. 11 is a perspective sectional view of another view angle of the slicer mechanism according to the embodiment of the present invention.

Fig. 12 is a perspective sectional view of the turnover mechanism according to the embodiment of the present invention.

Fig. 13 is a perspective view of a rotor of a slicer mechanism according to an embodiment of the present invention.

Fig. 14 is a perspective view of the slicer mechanism according to the embodiment of the present invention after the rotor is retracted.

Fig. 15 is a perspective view of the main shaft of the slicer mechanism according to the embodiment of the present invention.

Fig. 16 is a perspective view of embodiment 1 of the scraper of the present invention.

Figure 17 is a perspective view of embodiment 2 of the scraper of the present invention.

Figure 18 is a perspective view of embodiment 3 of the scraper of the present invention.

Figure 19 is a perspective view of embodiment 4 of the scraper of the present invention.

[ detailed description of the invention ]

The structure of the integrated animal product testing sample processing device of the embodiment of the present invention is shown in fig. 1 to 19, and comprises a frame 100, a cutting mechanism and a turnover mechanism 30. The cutting mechanism includes a dicing mechanism 10 and a drum slicer mechanism 20 driven by a motor 214. The frame 100 includes a base 40 and a bracket 50, and the bracket 50 is fixed above the base 40. The dicing mechanism 10 is installed on the bracket 50, the drum-type dicing mechanism 20 is installed on the turnover mechanism 30, the turnover mechanism 30 is installed on the base 40, and the outlet of the dicing mechanism 10 is located right above the inlet of the drum-type dicing mechanism 20.

The bracket 50 includes a top plate 51, 4 pillars 52 and a column 53, and the bracket 50 is fixed to the bedplate 41 of the base 40 through the pillars 52. The bottom of the upright 53 is fixed to the top plate 51.

The dicing mechanism 10 includes a dicing blade 10A, a support plate 511 and a lever mechanism 10B, and the middle portion of the top plate 51 has a rectangular outlet 512 of the dicing mechanism 10. The support plate 511 is supported by the top plate 51 and shields the rectangular outlet 512 of the dicing mechanism 10.

The slicing knife 10A comprises a vertical shaft 11, a pressure plate 12 and a knife disc 13, wherein the knife disc 13 comprises a circular frame 131 and a plurality of blades 132, the blades 132 are fixed in the frame 131, and the cutting edges of the blades 132 face downwards.

As shown in fig. 6, the blades 132 of embodiment 1 of the cutter head 13 are arranged in a grid pattern, and as shown in fig. 7, the blades 132 of embodiment 2 of the cutter head 13 are arranged in a radial pattern, so that fan-shaped sample blocks can be cut.

The cutter disc 13 is fixed on the bottom surface of the pressure plate 12, and the bottom of the vertical shaft 11 is fixed in the center of the top surface of the pressure plate 12. The upper part of the upright column 53 is provided with a sleeve 531, a vertical shaft hole 532 is arranged in the sleeve 531, and the vertical shaft 11 of the dicing knife 10A passes through the vertical shaft hole 532. The upper end of the vertical shaft 11 is driven by a lever mechanism 10B. A test sample 01 of animal products to be diced is arranged between the cutter head 13 and the blade plate 511.

The lever mechanism 10B includes a double rocker mechanism including a first rocker 15, a second rocker 16, and an L-shaped connecting rod 17, and an urging rod 14.

The front end of the first rocker 15 is hinged with the upper end of the connecting rod 17, and the rear end is hinged with the two ear plates 533 at the top of the upright 53. The front end of the second rocker 16 is hinged with the lower end of the connecting rod 17, and the rear end is hinged with the two ear plates 534 at the front part of the sleeve 531. The front (lower) of the force application rod 14 has a groove 141, the rear (upper) has a handle 142, and the lower end of the handle 142 has a stop ring 143, which is convenient for the operator to hold and have a force application point. The bent portion of the L-shaped connecting rod 17 is inserted into the groove 141 of the front portion of the force application rod 14, and the front lower end of the force application rod 14 is hinged to the bent portion of the L-shaped connecting rod 17. The top of the vertical shaft 11 has a flange 111 and a compression spring 112 is fitted over the upper part of the vertical shaft 11 between the sleeve 531 and the flange 111. The top surface of the vertical shaft 11 is a spherical surface, and the middle part of the first rocker 15 is pressed on the spherical surface at the top end of the vertical shaft 11.

The top plate 51 of the holder 50 has a transverse slot 513 for supporting the pallet 511, the opening 514 of the slot 513 being located at the side of the pallet 511, the outlet 512 of the dicing mechanism 10 passing through the slot 513, the pallet 511 being inserted into the slot 513. The outer end of the supporting plate 511 is provided with an edge, so that when the supporting plate 511 is used, the supporting plate 511 cannot completely enter the slot 513, and inconvenience in operation cannot be caused.

The drum type slicing mechanism 20 comprises a drum 21 and a rotor 20B, wherein the rotor 20B comprises a main shaft 22, a scraping blade thickness adjusting hand wheel 221 and three groups of scraping blade mechanisms 20C which are uniformly distributed along the circumferential direction of the main shaft 22. The front end of the horizontally arranged roller 21 is open, the center of the bottom plate 211 at the rear end is provided with a sliding bearing seat 212, and the rear part of the main shaft 22 passes through the sliding bearing seat 212 and is supported by the sliding bearing seat 212. The front end of the spindle 22 is cantilevered and the rear end is driven by a motor 214 through a worm gear mechanism. The top of the drum 21 has a rectangular inlet 213 to the barrel slicer 20.

The doctor mechanism 20C comprises an elongate blade holder 23, a doctor blade 24, a front hinge seat 25, a rear hinge seat 26, an elastic diaphragm 27 and two hinge rods 28 and 29. The rear hinge base 26 is fixed to the rear of the main shaft 22, and the front hinge base 25 is loosely fitted to the front of the main shaft 22. The rear end of the first hinge rod 28 is hinged with the rear end of the tool holder 23, and the front end of the first hinge rod 28 is hinged with the front hinge seat 25. The front end of the tool holder 23 has a flat elongated hole 233, and the long axis of the flat elongated hole 233 is parallel to the axis of the tool holder 23. The rear end of the second hinge lever 29 is hinged to the rear hinge base 26, and the hinge shaft 291 at the front end of the second hinge lever 29 is inserted into the oblong hole 233.

The central parts of the front hinging seat 25 and the rear hinging seat 26 are circular rings, three groups of ear plates are uniformly distributed around the circular rings, each group of ear plates is two, each ear plate is semicircular in shape, and the two ear plates in each group are arranged in parallel. A through hole is arranged at the center of the ear plate and is used as a hinge hole; the front hinge seat 25 and the rear hinge seat 26 are hinged to two hinge rods 28 and 29, respectively, by ear plates.

The front end of the main shaft 22 is provided with a section of external thread 222, the inner hole of the hub of the scraping blade thickness adjusting hand wheel 221 is provided with internal thread, the hub of the scraping blade thickness adjusting hand wheel 221 is screwed on the external thread 222 at the front end of the main shaft 22, and the rear end of the hub of the scraping blade thickness adjusting hand wheel 221 is abutted against the front end of the front hinge seat 25.

The elastic diaphragm 27 has a width equal to the length of the blade holder 23, and the rotor 20B includes three press rollers 223 and a press roller fixing ring 224. The rear of the spindle 22 has a flange 225 and the roller retainer ring 224 fits over the front of the spindle 22. The front end of the pressure roller 223 is connected to the pressure roller fixing ring 224, and the rear end is connected to the flange 225 of the main shaft 22. The three press rollers 223 are uniformly distributed along the circumferential direction of the rotor 20B, and are respectively staggered by 60 ° from the tool rests 23 of the three doctor blade mechanisms 20C along the circumferential direction of the rotor 20B. One end of the elastic diaphragm 27 is connected to the side surface of the blade holder 23, and the other end of the elastic diaphragm 27 is connected to the side surface of the blade holder 23 on the near side of the adjacent blade mechanism after passing around the inside of the pressing roller 223.

The front and rear ends of the tool holder 23 each include an end plate 231, and the end plate 231 has a hinge hole 232. The scraper 24 has a long bar shape, and both front and rear ends of the scraper 24 respectively include hinge shafts 241, and the hinge shafts 241 of the scraper 24 are inserted into the hinge holes 232 of the end plate 231.

Fig. 16 shows a saw-tooth multi-tooth blade 24 having its edge 242 facing upward, fig. 17 shows a saw-tooth multi-tooth blade 24 having its edge 242 facing in the middle direction, fig. 19 shows a multi-tooth blade 24 having an arcuate arc arched up, and fig. 18 shows a blade-shaped linear edge 242 type blade 24.

The turnover mechanism 30 comprises a turnover frame 31, a half-worm gear 32, a worm 33 and a hand wheel 34.

The roll-over stand 31 is L-shaped and comprises a vertical plate 311, a horizontal plate 312 and an inclined plate 314, wherein the rear end of the horizontal plate 312 is connected with the lower end of the vertical plate 311, and the upper end (rear end) of the inclined plate 314 is connected with the front end of the horizontal plate 312.

The roller 21 is fixed on the vertical plate 311 through the rear end of the bearing seat 212, the front end of the roller 21 is open and located right above the inclined plate 314, and the tray 42 is arranged on the base 40 and located below the bottom end (front end) of the inclined plate 314.

The half worm gear 32 is fixed on the base 40 with the worm gear teeth of the half worm gear 32 facing upward. The bottom of the roll-over stand 31 is provided with a hinge bracket 314, and the hinge bracket 314 comprises two ear plates, and the upper ends of the two ear plates are fixed on the transverse plate 312. The hinge bracket 314 is hinged to the half worm gear 32 by a hinge shaft 321, which passes through the center of rotation of the half worm gear 32. A worm meshed with a half-worm gear 32 is arranged at the bottom of the roll-over stand 31, and a hand wheel 34 is fixed on the shaft of the worm 33.

The worm gear mechanism of the barrel-type slicing mechanism 20 is installed behind the vertical plate 311, the worm wheel 215 of the worm gear mechanism is fixed on the rear shaft of the main shaft 22, and the worm 216 of the worm gear mechanism is connected with the motor 214.

The utility model discloses above integrative animal products of embodiment detects sample processing apparatus's working process as follows:

an animal viscera sample 01 to be quarantined is placed on a supporting plate 511 in an outlet 512 of the cutting mechanism 10, a force application rod 14 is pressed downwards, the front end of a first rocker 15 slowly descends under the action of a double-rocker mechanism, at the moment, the middle part of the first rocker 15 downwards presses a vertical shaft 11 of a cutting knife 10A, the vertical shaft 11 pushes a pressing plate 12 and a cutter disc 13, and a blade of the cutter disc 13 cuts the animal viscera arranged between the cutter disc 13 and the supporting plate 511 into blocks.

101) The motor 214 is started, the motor 214 drives the rotor 20B to rotate through the worm gear mechanism, the three groups of scraper mechanisms 20C uniformly distributed along the circumferential direction of the main shaft 22 rotate along with the motor, the supporting plate 511 in the slot 513 is drawn out, and the cut animal viscera fall into the roller 21 of the drum type slicing mechanism 20 from the outlet 512 of the slicing mechanism 10. The scraper 24 of the scraper mechanism 20C cuts the meat mass coming in from the inlet of the drum 21.

After the supporting plate 511 is pulled out, the animal viscera firstly fall on the elastic diaphragm 27 of the rotor, are attached to the inner wall of the roller 21 under the action of the centrifugal force generated by the high-speed rotation of the rotor 20B, and rotate along the inner wall of the roller along with the rotor 20B, so that the animal tissues and the scraper 24 have a certain speed difference along the rotating speed of the inner wall of the roller, and the scraper 24 completes slicing operation on the animal tissues by utilizing the speed difference.

102) The thickness adjusting hand wheel 221 is rotated, the thickness adjusting hand wheel 221 moves along the axial direction of the main shaft 22 along with the threads, the front hinge seat 25 moves along the axial direction of the thickness adjusting hand wheel 221, the axial distance between the front hinge seat 25 and the rear hinge seat 26 can be changed, the distance between the knife rest 23 and the scraper 24 and the inner wall of the roller 21 is adjusted, and therefore the thickness of the cut meat slices is changed. The elastic membrane can not only shield the internal structure of the scraping mechanism 20C to prevent the internal organs of the animal from entering, but also provide the elastic force for the contraction and return of the scraping mechanism 20C.

103) When the animal viscera is sliced, the angle of the roll-over stand 31 can be adjusted to pour the meat slices out of the roller 21, at this time, the hand wheel 34 needs to be rotated to rotate the worm 33, and the worm 33 rotates on the semi-worm wheel 32 around the center of the semi-worm wheel 32. The roll-over stand 31 and the drum 21 are tilted forward and the cut meat pieces fall from the drum 21 onto the inclined plate 314 and then down the inclined plate 314 onto the tray 42.

The utility model discloses animal products integrative above embodiment detects sample processing apparatus's beneficial effect as follows:

1. this device adopts integral type frame construction, and set pressure is cut and rotary-cut, can drop into the cylinder and carry out the rotary-cut by sample tissue after the pressure is cut. The integration level is high, convenient operation, and the sample does not need manual transfer, very big improvement stability. Manpower and material resources are saved, and slicing efficiency is improved.

2. By adopting the block net-shaped blade and the fan-shaped cutter, the shape is suitable for sample detection, a large number of samples can be quickly formed by one-time press cutting, and the sample collection efficiency is greatly improved.

3. The front and back axial movement of the front hinge seat can be adjusted through the thickness adjusting hand wheel, so that the folding and the expansion of the four-bar mechanism are further adjusted, the knife rest is horizontally lifted and lowered, the distance between the scraper and the inner wall of the roller is increased or reduced, and the animal viscera to be quarantined can be cut into pieces with different thicknesses. The scraper on the knife rest can be replaced by different types so as to cut out meat slices suitable for quarantine.

4. When the turnover seat needs to be turned over, the turnover frame can be turned over only by operating the hand wheel, cut meat slices are poured on the tray, and the operation is convenient and fast.

5. The worm and gear are connected, the half worm gear is fixed, the worm rotates around the half worm gear to form the overturning of the overturning frame, the worm and gear mechanism has an instant self-locking effect, the locking fixation can be immediately ensured when the hand wheel stops rotating, and the stability can be ensured.

6. The elastic diaphragm is arranged on the scraping mechanism in the roller, so that the scraping mechanism can contract or expand along with the movement of the scraping mechanism without generating wrinkles, cut meat slices can be isolated from the scraping mechanism, and the meat slices are prevented from falling into the mechanism to influence the work of the mechanism.

The animal viscera cutting mechanism is a double-rocker mechanism, and an operator can press the first rocker to press the vertical shaft of the cutting knife by pressing to cut the animal viscera. After the press cutting is finished, the vertical shaft of the dicing cutter is restored under the action of the spring, and the effect of automatic elastic reset can be realized.

Claims (10)

1. An integrated livestock product detection sample processing device comprises a rack and a cutting mechanism, and is characterized in that the cutting mechanism comprises a dicing mechanism and a drum type slicing mechanism driven by a motor, the dicing mechanism and the drum type slicing mechanism are arranged on the rack, and an outlet of the dicing mechanism is positioned right above an inlet of the drum type slicing mechanism; the top plate of the bracket comprises a transverse slot for supporting the supporting plate, the opening of the slot is positioned on the side surface of the supporting plate, the outlet of the cutting mechanism penetrates through the slot, and the supporting plate is inserted into the slot.

2. An integrated animal product testing sample processing apparatus according to claim 1, wherein the housing comprises a base and a support, the support being secured to the base; the support comprises a top plate and an upright post, and the bottom of the upright post is fixed on the top plate; the dicing mechanism comprises a dicing cutter, a supporting plate and a lever mechanism, and the middle part of the top plate comprises an outlet of the dicing mechanism; the supporting plate is supported by the top plate and shields the outlet; the slicing knife comprises a vertical shaft, a pressure plate and a cutter head, the cutter head comprises an annular frame and a plurality of blades, the plurality of blades are fixed in the frame, and the cutting edges of the blades face downwards; the cutter head is fixed on the bottom surface of the pressure plate, and the bottom of the vertical shaft is fixed in the center of the top surface of the pressure plate; the upper part of the upright post comprises a sleeve, the sleeve comprises an upright shaft hole, an upright shaft of the dicing cutter passes through the upright shaft hole, and the upper end of the upright shaft is driven by a lever mechanism; the sample to be diced is arranged between the cutter head and the blade.

3. The integrated livestock product testing sample processing device according to claim 2, wherein said lever mechanism comprises a double-rocker mechanism, said double-rocker mechanism comprises a first rocker, a second rocker and a connecting rod, a first end of said first rocker is hinged with an upper end of said upright, a first end of said first rocker is hinged with a first end of said connecting rod; the first end of the second rocker is hinged with the sleeve, and the first end of the second rocker is hinged with the second end of the connecting rod; the connecting rod comprises a handle, and the handle is positioned in the extension line direction from the second end to the first end of the connecting rod; the middle part of the first rocker is pressed on the top end of the vertical shaft.

4. An integrated animal product testing sample processing device according to claim 3, characterized in that the linkage comprises an L-shaped connecting rod and an application rod, the first end of the first rocker is hinged with the first end of the connecting rod, the first end of the second rocker is hinged with the second end of the connecting rod; the front part of the force application rod comprises a groove, the rear part of the force application rod comprises the handle, the bending part of the L-shaped connecting rod is inserted into the groove in the front part of the force application rod, and the front end of the force application rod is hinged with the bending part of the L-shaped connecting rod; the dicing cutter comprises a pressure spring, the top of the vertical shaft comprises a flange, and the pressure spring is sleeved on the upper part of the vertical shaft and is positioned between the sleeve and the flange; the top surface of the vertical shaft is a spherical surface, and the middle part of the first rocker is pressed on the spherical surface at the top end of the vertical shaft.

5. The integrated animal product detection sample processing device according to claim 1, wherein the drum type slicing mechanism comprises a drum and a rotor, the rotor comprises a main shaft and a plurality of groups of scraping blade mechanisms uniformly distributed along the circumferential direction of the main shaft; the front end of the horizontally arranged roller is open, the bottom plate at the rear end comprises a bearing seat, and the rear part of the main shaft penetrates through the bearing seat and is supported by the bearing seat; the front end of the main shaft is a cantilever, and the rear end of the main shaft is driven by a motor; the top of the drum includes the inlet of the drum slicer mechanism.

6. The integrated animal product testing sample processing device according to claim 5, comprising a tray and a turnover mechanism, wherein the turnover mechanism comprises a turnover frame, a half worm wheel, a worm and a first hand wheel; the roller is fixed on the roll-over stand, the half worm gear is fixed on the base, and the worm gear is upward; the bottom of the roll-over stand comprises a hinged support, the hinged support is hinged with the semi-worm gear through a hinged shaft, and the hinged shaft passes through the rotation center of the semi-worm gear; a worm meshed with the semi-worm gear is arranged at the bottom of the roll-over stand, and a hand wheel is fixed on a worm shaft; the front part of the roll-over stand and the open lower part of the front end of the roller comprise inclined plates, and the tray is arranged on the base and is positioned below the bottom ends of the inclined plates.

7. The integrated livestock product detection sample processing device according to claim 6, wherein the roll-over stand is L-shaped and comprises a vertical plate and a horizontal plate, the rear end of the horizontal plate is connected with the lower end of the vertical plate, and the upper end of the horizontal plate is connected with the front end of the horizontal plate; the hinged support comprises two lug plates, and the upper ends of the lug plates are fixed on the transverse plate; the drum type slicing mechanism comprises a worm gear mechanism, the rear end of the bearing seat is fixed on the vertical plate, a worm wheel of the worm gear mechanism is fixed on a rear shaft of the main shaft, and a worm of the worm gear mechanism is connected with the motor.

8. An integrated animal product testing sample processing device according to claim 5, characterized in that the rotor comprises a doctor blade thickness adjusting hand wheel, and the doctor blade mechanism comprises a blade carrier, a doctor blade, a front hinge seat, a rear hinge seat and two hinge rods; the rear hinge seat is fixed at the rear part of the main shaft, and the front hinge seat is loosely sleeved at the front part of the main shaft; the rear end of the first hinge rod is hinged with the rear end of the tool rest, and the front end of the first hinge rod is hinged with the front hinge seat; the front end of the knife rest comprises a flat long hole, and the long axis of the flat long hole is parallel to the axis of the knife rest; the rear end of the second hinge rod is hinged with the rear hinge seat, and a hinge shaft at the front end of the second hinge rod is inserted into the flat long hole; the front end of main shaft includes the external screw thread, and doctor-bar thickness adjusting hand wheel hub's hole includes the internal thread, and doctor-bar thickness adjusting hand wheel's wheel hub closes soon on the external screw thread of main shaft front end, wheel hub's rear end support the front end at articulated seat in the front.

9. The integrated animal product testing sample processing device according to claim 8, wherein the number of the scraper mechanisms is three, the scraper mechanisms comprise elastic diaphragms, the width of each elastic diaphragm is equal to the length of the knife rest, and the rotor comprises three press rollers and a press roller fixing ring; the rear part of the main shaft comprises a flange, and the compression roller fixing ring is sleeved at the front part of the main shaft; the front end of the compression roller is connected with the compression roller fixing ring, and the rear end of the compression roller is connected with the flange of the main shaft; the three press rollers are uniformly distributed along the circumferential direction of the rotor and staggered 60 degrees with the tool rests of the three scraping mechanisms respectively; one end of the elastic diaphragm is connected with the side surface of the knife rest, and the other end of the elastic diaphragm bypasses the inner side of the press roller and then is connected with the side surface of the near side of the knife rest of the adjacent scraping mechanism.

10. The integrated animal product testing sample processing device of claim 8, wherein the front and rear ends of the knife holder each comprise an end plate comprising a hinge hole; the scraper is in a strip shape, the front end and the rear end of the scraper respectively comprise a hinged shaft, and the hinged shaft of the scraper is inserted into the hinged hole of the end plate; the blade of the scraper comprises a sawtooth multi-tooth shape with an upward cutting edge, a sawtooth multi-tooth shape with a middle cutting edge, a multi-tooth blade shape with an arched arc or a sheet linear blade shape.

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