CN217594403U - Cow mammary gland injectant mixer - Google Patents

Abstract

The utility model relates to a cow mammary gland injectant mixer, which comprises a tank body for mixing vegetable oil, wherein the position of the outer wall of the tank body, which is close to the top, is fixedly provided with a charging pipe, the bottom of the tank body is fixedly provided with a discharging pipe for discharging, the discharging pipe is internally provided with a discharging valve, the tank body is of a cylindrical tubular structure, the inner wall of the bottom end of the tank body is of a conical structural design, a central shaft of the tank body is provided with a mandrel, the edge of the mandrel is fixedly provided with a stirring blade, the top end of the mandrel extends out of the top edge of the tank body and is in transmission connection with a screw motor, and the tank body is internally provided with a scraping component for scraping mixed liquid on the inner wall of the tank body; the utility model discloses the inside of the jar body is airtight structure, and then can not cause the stirring in-process raw materials to take place to spill, the circumstances such as drip, and scrape the material subassembly and can scrape down the material of jar internal wall, and then make the material get into the inside of discharging pipe and unload from the discharging pipe, avoided the material adhesion can't unload at the internal wall of jar and cause the waste.

Description

Milk cow mammary gland injectant mixer

Technical Field

The utility model belongs to the technical field of mixing apparatus, concretely relates to milk cow mammary gland injectant blender.

Background

In the technological process of researching or producing the cow mammary gland injection, a plurality of vegetable oils are mixed together according to a certain proportion and an oil body mixing device is used. The existing basic method is to proportion the mixture in proportion after manual extraction, or to extract and mix the mixture through a motor, the structures of the two are generally complex, the operation and the use are troublesome, the cost is high, the product is energy-saving and environment-friendly, time and labor are saved, the operation is convenient, the concept design and the research and the development are realized, the structure of the product is highly integrated, the operation is simple, the safety is high, the practicability and the environmental protection are realized, the raw material waste in the manual proportioning is avoided, the pollution phenomena such as dripping, sprinkling and leakage are avoided, and the waste caused by the adhesion of partial mixed liquid on the inner wall of the mixer can be prevented.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide a cow breast injectant mixer with simple structure and reasonable design.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the utility model provides a milk cow mammary gland injectant blender, includes the jar body that mixes vegetable oil, and the outer wall of the jar body is close to the rigidity at top and is equipped with the filling tube, the fixed discharging pipe that is equipped with the unloading in bottom of the jar body, the inside of discharging pipe are equipped with the baiting valve, the jar body is cylinder tubular structure, and the bottom inner wall of the jar body is toper structural design, the center pin department of the jar body is equipped with the dabber, and the edge-fixing of dabber is equipped with stirring vane, the top edge that the jar body was stretched out on the top of dabber is connected with the screw motor transmission, and the inside of the jar body is equipped with scrapes the material subassembly with the mixed liquid of jar internal wall scraping down.

As the utility model discloses a further optimization scheme, scrape the material subassembly including scraping the material subassembly and scraping the material subassembly down, on scrape the material subassembly and scrape down the mixed liquid of jar internal wall cylinder part, scrape down the material subassembly and scrape down the mixed liquid of jar internal wall cone part, and on scrape the material subassembly and start earlier, on scrape the material subassembly and scrape down after the material completion and scrape the material subassembly and start, the mixed liquid of scraping down gets into the inside of discharging pipe.

As the utility model discloses a further optimization scheme, go up the scraping components and include electric slide rail, electric slider and scraping ring, electric slide rail is located the lateral wall of the jar body, and the inside slip of electric slide rail is equipped with electric slider, the inner wall of the jar body is equipped with scraping ring with the corresponding position of electric slider, and scraping ring and the inside of electric slider are equipped with the magnet of inter attraction, electric slider is located the extreme position at electric slide rail top originally.

As a further optimization scheme of the utility model, scrape the material ring and be the right angled triangle structure along the tangent plane of circumference, and right angled triangle's inclined plane is towards the dabber, when the extreme position of electric slider removal to electric slide rail bottom, scrape the material subassembly and start down.

As the utility model discloses a further optimization scheme, scrape the material subassembly down and include that dwang and L shape scrape the material pole, the dwang is inserted and is established in the inside of spacing ring, and the spacing ring is through connecting the inner wall of member fixed connection at the discharging pipe, the top movable sleeve that lies in the spacing ring on the dwang is equipped with movable sleeve, the annular spout that movable sleeve inner wall was seted up and the protruding mutual sliding connection at dwang edge, movable sleeve's edge fixation is equipped with L shape and scrapes the material pole, and L shape is scraped the material pole and is adapted to with the inner wall of scraping the inner wall of material ring and the cone inner wall of the jar body, the bottom of dabber seted up with dwang assorted joint groove, the bottom in joint groove is equipped with contact pick up, contact pick up and helical motor, controller electric connection, the dwang reciprocates in the inside of spacing ring by control assembly control it.

As the utility model discloses a further optimization scheme, control assembly includes that the groove is accomodate to first groove, elastic pressing block, second and the groove and wedge are accomodate, the inner wall that the groove is located the discharging pipe is accomodate to the second, and the bottom that the groove was accomodate to the second links firmly through the one end of compression spring with the wedge, and the inclined plane slope of wedge makes progress, the medial extremity of wedge still links firmly with the one end of stay cord, and the other end of stay cord penetrates and links firmly with elastic pressing block's one end from the first bottom of accomodating the groove, and the first extreme position of accomodating the inner wall that the groove is located the jar body is corresponding with the electric slide rail bottom, and elastic pressing block still links firmly with the first bottom of accomodating the groove through compression spring towards the first one end of accomodating the groove bottom, and elastic pressing block scrapes the one end of material pole for level and smooth decurrent curved surface structural design towards L shape.

As the utility model discloses a further optimization scheme, the filling tube communicates with the bottom of vertical graduated flask each other, and the fixed baffle that is equipped with of bottom inner wall of vertical graduated flask, the discharge opening has been seted up to the position that is close to the inside wall on the baffle, the lateral wall of vertical graduated flask is located the below of baffle and links firmly through the one end of extension spring with the closing plate, the threaded rod that the screw-thread connection has the drive closing plate to remove in the threaded hole of vertical graduated flask outer wall, the fixed limit slide that is equipped with in top of closing plate, the mutual sliding connection of limit slide and the spacing spout of baffle bottom.

The beneficial effects of the utility model reside in that: the utility model discloses the inside of the jar body is airtight structure, and then can not cause the stirring in-process raw materials to take place to spill, the circumstances such as drip, and scrape the material subassembly and can scrape down the material of jar internal wall, and then make the material get into the inside of discharging pipe and unload from the discharging pipe, avoided the material adhesion can't unload at the internal wall of jar and cause the waste.

Drawings

Fig. 1 is a schematic external structural view of the present invention;

fig. 2 is a schematic view of the internal structure of the vertical measuring cylinder of the present invention;

fig. 3 is a schematic structural view of an upper scraping assembly of the present invention;

FIG. 4 is a schematic structural view of a lower scraping assembly of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4;

FIG. 6 is an enlarged view of the structure at B in FIG. 4;

fig. 7 is an enlarged schematic view of the structure at C in fig. 4.

In the figure: 1. a tank body; 2. a screw motor; 3. a feed tube; 4. a discharge pipe; 5. a discharge valve; 6. an electrical slide rail; 7. an electrical slider; 8. a threaded rod; 9. a scraping ring; 10. a mandrel; 11. a stirring blade; 12. rotating the rod; 13. an L-shaped scraping rod; 14. a first receiving groove; 15. elastic pressing blocks; 16. a contact sensor; 17. a limiting ring; 18. a second receiving groove; 19. a wedge block; 20. a protrusion; 21. a clamping groove; 22. an active cannula; 23. a vertical graduated cylinder; 24. a partition plate; 25. a discharge opening; 26. a sealing plate; 27. a limiting chute; 28. a limiting slide block; 29. and a controller.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example 1

As shown in fig. 1-7, a milk cow mammary gland injectant blender, include the jar body 1 that mixes the vegetable oil, the rigidity that the outer wall of jar body 1 is close to the top is equipped with filling tube 3, the fixed discharging pipe 4 that is equipped with the unloading in bottom of jar body 1, the inside of discharging pipe 4 is equipped with baiting valve 5, jar body 1 is the cylinder tubular structure, and the bottom inner wall of jar body 1 is toper structural design, the center pin department of jar body 1 is equipped with dabber 10, and the edge-fixed stirring vane 11 that is equipped with of dabber 10, the top that jar body 1 was stretched out on the top of dabber 10 is connected with the transmission of helical motor 2, and the inside of jar body 1 is equipped with scrapes the material subassembly of scraping that mixes the liquid of scraping of jar body 1 inner wall down.

The utility model discloses during operation, add the inside of jar body 1 with vegetable oil through filling tube 3, then start screw motor 2, screw motor 2 will drive dabber 10 and rotate in the inside of jar body 1, and then drive stirring vane 11 and rotate and stir the mixing to the vegetable oil of jar body 1 inside, open baiting valve 5 on discharging pipe 4 after stirring and unload, because the inside of jar body 1 is airtight structure, and then can not cause the raw materials to spill, drip the circumstances such as in the stirring process;

after unloading, the utility model provides a scrape the material subassembly and can scrape down the material of the internal wall of jar 1, and then make the inside that the material got into discharging pipe 4 unload from discharging pipe 4, avoided the material adhesion can't unload at the internal wall of jar body 1 and cause the waste.

Scrape the material subassembly including scraping the material subassembly and scraping the material subassembly down on, scrape the mixed liquid of material subassembly with 1 inner wall cylinder parts of the jar body and scrape down, scrape the mixed liquid of material subassembly with 1 inner wall cone parts of the jar body down and scrape down, and go up and scrape the material subassembly and start earlier, scrape down after the material completion to scrape the material subassembly and start, scrape the inside that the mixed liquid that falls got into discharging pipe 4.

Go up the scraper assembly and can scrape the material to the inner wall of the cylinder part of the jar body 1, go up the scraper assembly and scrape the material of the cylinder part of the jar body 1 to the cone position when, the scraper assembly starts down this moment, and the scraper assembly not only can scrape the material of the inside cone position of the jar body 1 down, can scrape the material of adhesion down on the scraper assembly simultaneously.

The upper scraping component comprises an electric sliding rail 6, an electric sliding block 7 and a scraping ring 9, the electric sliding rail 6 is located on the outer side wall of the tank body 1, the electric sliding block 7 is arranged inside the electric sliding rail 6 in a sliding mode, the scraping ring 9 is arranged on the inner wall of the tank body 1 corresponding to the electric sliding block 7, magnets which are mutually attracted are arranged inside the scraping ring 9 and the electric sliding block 7, and the electric sliding block 7 is initially located at the limit position of the top of the electric sliding rail 6.

During operation, after unloading, the electric sliding rail 6 and the electric sliding block 7 are started at the moment, the electric sliding block 7 moves from top to bottom in the electric sliding rail 6, the scraping ring 9 is driven to move from top to bottom along the inner wall of the tank body 1, and materials on the inner wall of the cylinder part of the tank body 1 can be scraped down to the cone part of the inner wall of the tank body 1 while the scraping ring 9 moves.

The tangent plane of scraping ring 9 along circumference is right triangle-shaped structure, and right triangle-shaped's inclined plane is towards dabber 10, when electric slider 7 moved the extreme position of electric slide rail 6 bottom, the subassembly of scraping down starts.

Specifically, the bottom of scraping ring 9 is the inclined plane structural design, is convenient for more scrape the material of jar body 1 inner wall down, and the material of being convenient for simultaneously slides down along the inclined plane of scraping ring 9 bottoms.

Scrape the material subassembly down and include dwang 12 and L shape and scrape material pole 13, dwang 12 is inserted and is established the inside of spacing ring 17, and spacing ring 17 is through connecting member fixed connection at the inner wall of discharging pipe 4, the top activity cover that lies in spacing ring 17 on the dwang 12 is equipped with movable sleeve 22, and the annular spout that movable sleeve 22 inner wall was seted up and the protruding 20 mutual sliding connection at dwang 12 edge, movable sleeve 22's edge-fixed is equipped with L shape and scrapes material pole 13, and L shape scrapes the inner wall of material pole 13 and scraping ring 9 and the cone inner wall of the jar body 1 and suits, dabber 10's bottom seted up with dwang 12 assorted joint groove 21, the bottom in joint groove 21 is equipped with contact pick up ware 16, contact pick up ware 16 and helical motor 2, controller 29 electric connection, dwang 12 is controlled its inside at spacing ring 17 by control assembly and is reciprocated.

When the material scraping device works, when the control assembly controls the rotating rod 12 to move upwards and be mutually inserted into the clamping groove 21 at the bottom of the mandrel 10, the contact sensor 16 senses signals and transmits the signals to the controller 29, the controller 29 controls the spiral motor 2 to rotate, so that the mandrel 10 and the rotating rod 12 are driven to rotate, the rotating rod 12 drives the L-shaped material scraping rod 13 to rotate in the rotating process, the L-shaped material scraping rod 13 can scrape materials at the conical part of the tank body 1, meanwhile, materials at the bottom of the material scraping ring 9 can be scraped, and the materials can flow downwards along the surface of the L-shaped material scraping rod 13 to the inside of the material discharging pipe 4 to be discharged;

note that the top end of the rotating lever 12 is a square lever.

The control assembly comprises a first accommodating groove 14, an elastic pressing block 15, a second accommodating groove 18 and a wedge block 19, the second accommodating groove 18 is located on the inner wall of the discharge pipe 4, the bottom of the second accommodating groove 18 is fixedly connected with one end of the wedge block 19 through a compression spring, the inclined plane of the wedge block 19 inclines upwards, the inner side end of the wedge block 19 is fixedly connected with one end of a pull rope, the other end of the pull rope penetrates from the bottom of the first accommodating groove 14 and is fixedly connected with one end of the elastic pressing block 15, the first accommodating groove 14 is located on the inner wall of the tank body 1 and corresponds to the limit position of the bottom end of the electric slide rail 6, the elastic pressing block 15 is fixedly connected with the bottom of the first accommodating groove 14 through the compression spring towards one end of the first accommodating groove 14, and the elastic pressing block 15 is designed into a smooth downward curved surface structure towards the L-shaped material scraping rod 13.

In actual operation, when the electric slider 7 moves down to the extreme position of the bottom end of the electric sliding rail 6, at this moment, the scraping ring 9 will move down to the position corresponding to the first accommodating groove 14 and extrude the elastic pressing block 15 into the inside of the first accommodating groove 14, at this moment, one end of the pulling rope fixedly connected with the elastic pressing block 15 will be loosened, the other end of the pulling rope will release the wedge-shaped block 19, the wedge-shaped block 19 will stretch out the outer port of the second accommodating groove 18 under the action of the compression spring fixedly connected therewith and drive the bottom end of the rotating rod 12 to move up, so that the bottom end of the rotating rod 12 is inserted into the clamping groove 21 at the bottom end of the mandrel 10, at this moment, the screw motor 2 will start to drive the rotating rod 12 to rotate, and scrape the inner wall of the cone part of the tank body 1 through the L-shaped scraping rod 13 at the edge of the rotating rod 12.

The bottom of filling tube 3 and vertical graduated flask 23 communicates each other, and the fixed baffle 24 that is equipped with of bottom inner wall of vertical graduated flask 23 is gone up to the baffle 24 and has been seted up discharge opening 25 near the position of inside wall, the lateral wall of vertical graduated flask 23 is located the below of baffle 24 and links firmly through extension spring and the one end of closing plate 26, the threaded rod 8 that drives closing plate 26 and remove has the spiro union in the threaded hole of vertical graduated flask 23 outer wall, the fixed stop block 28 that is equipped with in top of closing plate 26, stop block 28 and the mutual sliding connection of the stop chute 27 bottom the baffle 24.

Specifically, when feeding, the discharge hole 25 can be sealed through the sealing plate 26, that is, the threaded rod 8 is screwed into the feeding pipe 3 and pushes the sealing plate 26 to seal the discharge hole 25, and then the raw material is directly added into the vertical graduated cylinder 23, because the vertical graduated cylinder 23 is provided with scale marks, the quantitative feeding can be directly performed, when the amount of the reagent is large, the discharge hole 25 can be directly opened through the sealing plate 26, and at the moment, the raw material enters the tank body 1 through the feeding pipe 3;

the utility model discloses when adding the raw materials, need not additionally use measurement tools such as graduated flask, and then the washing of household utensils after the follow-up mixture of being convenient for finishes, avoided the raw materials to measure the phenomenon of adding the inside raw materials loss that causes of filling tube 3 again in measuring the container simultaneously.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (7)

1. The utility model provides a milk cow mammary gland injectant blender, its characterized in that includes and carries out the jar body (1) that mixes with vegetable oil, the outer wall of the jar body (1) is close to the fixed position at top and is equipped with filling tube (3), the fixed discharging pipe (4) of unloading that are equipped with in bottom of the jar body (1), the inside of discharging pipe (4) is equipped with baiting valve (5), the jar body (1) is the cylinder tubular structure, and the bottom inner wall of the jar body (1) designs for toper structure, the center pin department of the jar body (1) is equipped with dabber (10), and the edge mounting of dabber (10) is equipped with stirring vane (11), the top edge that stretches out the jar body (1) on the top of dabber (10) is connected with screw motor (2) transmission, and the inside of the jar body (1) is equipped with scrapes the material subassembly with the mixed liquid of the jar body (1) inner wall and scrapes down.

2. The dairy cow breast injectant mixer of claim 1, wherein: scrape the material subassembly including scraping the material subassembly and scraping the material subassembly down on, scrape the mixed liquid of material subassembly with jar body (1) inner wall cylinder part and scrape down, scrape the mixed liquid of material subassembly with jar body (1) inner wall cone part down and scrape down, and go up and scrape the material subassembly and start earlier, scrape the material subassembly and start down after the material completion on, scrape the inside that the mixed liquid that scrapes got into discharging pipe (4).

3. The dairy cow breast injectant mixer of claim 2, wherein: go up scraping assembly includes electric slide rail (6), electric slider (7) and scraping ring (9), electric slide rail (6) are located the lateral wall of the jar body (1), and the inside slip of electric slide rail (6) is equipped with electric slider (7), the inner wall of the jar body (1) is equipped with scraping ring (9) with the corresponding position of electric slider (7), and the inside of scraping ring (9) and electric slider (7) is equipped with the magnet of inter attraction, electric slider (7) are located the extreme position at electric slide rail (6) top originally.

4. The dairy cow breast injectant mixer of claim 3, wherein: scrape material ring (9) and be the right triangle structure along the tangent plane of circumference, and right triangle's inclined plane is towards dabber (10), when electric slider (7) removed the extreme position of electric slide rail (6) bottom, scrape the material subassembly and start down.

5. The dairy cow breast injectant mixer of claim 4, wherein: scrape the material subassembly and include dwang (12) and L shape and scrape material pole (13), dwang (12) are inserted and are established the inside of spacing ring (17), and spacing ring (17) are through connecting the inner wall of member fixed connection at discharging pipe (4), the top activity cover that lies in spacing ring (17) on dwang (12) is equipped with movable sleeve (22), and the annular spout that movable sleeve (22) inner wall was seted up and the protruding (20) mutual sliding connection at dwang (12) edge, the edge mounting of movable sleeve (22) is equipped with L shape and scrapes material pole (13), and L shape scrapes material pole (13) and suits with the inner wall of scraping material ring (9) and the cone inner wall of the jar body (1), the bottom of dabber (10) is seted up with dwang (12) assorted joint groove (21), and the bottom in joint groove (21) is equipped with contact pick-up transducer (16), contact pick-up transducer (16) and helical motor (2), controller (29) electric connection, dwang (12) are controlled its inside at spacing ring (17) by control assembly and are reciprocated.

6. The dairy cow breast injectant mixer of claim 5, wherein: control assembly includes that the first groove (14), elastic pressing block (15), second accomodate groove (18) and wedge (19) of accomodating, the second is accomodate groove (18) and is located the inner wall of discharging pipe (4), and the bottom of accomodating groove (18) through compression spring and the one end of wedge (19) links firmly, and the inclined plane slope of wedge (19) upwards, the medial extremity of wedge (19) still links firmly with the one end of stay cord, and the other end of stay cord penetrates and links firmly with the one end of elastic pressing block (15) from the first bottom of accomodating groove (14), and first groove (14) of accomodating is located the inner wall of jar body (1) and is corresponding with the extreme position of electric slide rail (6) bottom, and elastic pressing block (15) still links firmly with the first bottom of accomodating groove (14) through compression spring towards the one end of first accomodating groove (14) bottom, and elastic pressing block (15) scrape the one end of material pole (13) towards L shape and be smooth decurrent curved surface structural design.

7. The dairy cow breast injectant mixer of claim 1, wherein: the utility model discloses a sealing device, including filling tube (3), bottom intercommunication each other of vertical graduated flask (23), the fixed baffle (24) that is equipped with of bottom inner wall of vertical graduated flask (23), the discharge opening (25) have been seted up to the position that is close to the inside wall on baffle (24), the lateral wall of vertical graduated flask (23) is located the below of baffle (24) and links firmly through the one end of extension spring with closing plate (26), threaded rod (8) that the spiro union has drive closing plate (26) to remove in the threaded hole of vertical graduated flask (23) outer wall, the top of closing plate (26) is fixed and is equipped with limit slide block (28), and limit slide block (28) and the mutual sliding connection of limit chute (27) of baffle (24) bottom.

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