CN211109105U - Milk jar of keeping in - Google Patents

Abstract

The utility model discloses a milk jar of keeping in, which comprises a tank body, the jar body is provided with feed inlet and discharge gate, the internal portion of jar is provided with rabbling mechanism, the external portion of jar is provided with the power unit of drive rabbling mechanism, the roof of the jar body has been seted up and has been got the liquid mouth, it is provided with flexible sealed lid to get the liquid mouth, the jar is internal to be provided with in the below of getting the liquid mouth and goes up and down to get the liquid bucket, go up and down to get and be provided with the drive and go up and down to get the elevating system that the liquid bucket goes up and down to go up and down between the liquid bucket and the jar body, elevating system is including setting up in the internal portion of jar live-rollers, setting. It has need not open the feed inlet when milk sample and can accomplish the advantage of sample to reduce miscellaneous fungus and get into jar internal portion, prevent that milk is rotten.

Description

Milk jar of keeping in

Technical Field

The utility model relates to a dairy products processing technology field, in particular to milk jar of keeping in.

Background

The milk cooling device is one of the dairy farm devices, is used for cooling freshly extruded milk from about 36 ℃ to 4-5 ℃ within 2-3 hours, and storing the freshly extruded milk at the temperature for processing or conveying out to inhibit bacterial reproduction and keep the freshness of the milk. However, during the storage process, the milk may deteriorate due to improper control of conditions such as temperature. Therefore, before the milk is processed, the stored milk in the buffer tank needs to be periodically checked, so that the milk in the buffer tank is ensured not to be deteriorated.

When detecting milk, need take out milk from the jar of keeping in through dedicated milk draw-out device, thereby need open the feed inlet of the jar of keeping in when taking out and stretch into the draw-out device and draw in the jar of keeping in. When the feed inlet of the temporary storage tank is opened, outside air enters the temporary storage tank. Along with the entering of air, bacteria are brought into the temporary storage tank, so that the milk is deteriorated.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a milk jar of keeping in, it has the advantage that need not open the feed inlet when milk sample and can accomplish the sample to reduce miscellaneous fungus and get into jar internal portion, prevent that milk is rotten.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a milk jar of keeping in, which comprises a tank body, the jar body is provided with feed inlet and discharge gate, the internal portion of jar is provided with rabbling mechanism, the external portion of jar is provided with the power unit of drive rabbling mechanism, the roof of the jar body has been seted up and has been got the liquid mouth, it is provided with flexible sealed lid to get the liquid mouth, the jar is internal to be provided with in the below of getting the liquid mouth and goes up and down to get the liquid bucket, go up and down to get the elevating system that the liquid bucket goes up and down to get being provided with the drive between the liquid bucket and the jar body, elevating system is including setting up in the internal portion of jar live-rollers, setting up live-rollers and going.

By adopting the technical scheme, when the milk in the milk temporary storage tank needs to be sampled and detected, the power output of the power motor to the stirring mechanism is stopped, after the stirring mechanism stops stirring, the rotating roller is driven to rotate through the driving assembly, so that the flexible rope wound on the rotating roller is reversed, and the lifting liquid taking barrel moves downwards under the action of gravity until the milk enters the milk temporary storage tank to contain a milk sample; afterwards, the rotating roller is driven to rotate reversely by the driving motor, the flexible rope is wound on the rotating roller again in the rotating process of the rotating roller, the lifting liquid taking barrel moves upwards under the action of the flexible rope until the lifting liquid taking barrel reaches a certain height, a needle cylinder injector can be used for sampling, and after a needle of the needle cylinder injector penetrates through the flexible sealing cover, milk in the lifting liquid taking barrel is extracted for sampling. Therefore, the utility model has the advantages of need not open the feed inlet when milk sample and can accomplish the sample to reduce miscellaneous fungus and get into jar internal portion, prevent that milk is rotten.

The utility model discloses further set up to: the driving assembly comprises a mounting seat arranged outside the tank body and a driving motor arranged on the mounting seat, and an output shaft of the driving motor and the rotating roller rotate coaxially.

Through adopting above-mentioned technical scheme, driving motor can drive the corotation and the reversal of live-rollers to can drive and go up and down to get the liquid bucket and rise and descend, and then accomplish the sample work of milk.

The utility model discloses further set up to: the jar body is provided with the liquid-taking pipe that extends to jar internal portion in liquid-taking mouth department, and the via hole that supplies the live-rollers to pass is seted up to the liquid-taking pipe, and flexible rope connects on being located the live-rollers in the liquid-taking pipe.

Through adopting above-mentioned technical scheme, the liquid bucket is got in the lift and at the in-process that rises or descends, and flexible rope can take place to rock, and flexible rope connects on being located the live-rollers of getting in the liquid pipe, and the liquid pipe of getting can carry on spacingly to flexible rope, reduces the degree of rocking of flexible rope.

The utility model discloses further set up to: the upper portion of going up and down to get the inside wall of liquid bucket is provided with rotates the shadoof, the both ends of rotating the shadoof rotate with the inside wall that goes up and down to get the liquid bucket respectively and are connected, and two switching recesses have been seted up to the inside wall that goes up and down to get the liquid bucket, and two switching recesses set up relatively, and the connecting wire of two switching recesses intersects with the axis that goes up and down to get the liquid bucket, and the middle part of rotating the shadoof is buckled and is had the arch of buckling, and the other end.

Through adopting above-mentioned technical scheme, the arch of buckling is located the lift and gets on the focus line of liquid bucket, and the tie point of getting the liquid bucket with the lift promptly also is located the lift and gets on the focus line of liquid bucket, goes up and down to get the liquid bucket and can avoid crooked condition to take place at the lift in-process.

The utility model discloses further set up to: the liquid taking pipe is provided with a damping component at the pipe orifice of the lower end of the liquid taking pipe.

Through adopting above-mentioned technical scheme, damping component's setting has the absorbing effect to going up and down to get the liquid bucket, can prevent to get the liquid bucket and get the liquid pipe collision and lead to going up and down to get the unrestrained condition of milk in the liquid bucket and take place owing to going up and down.

The utility model discloses further set up to: the shock absorption assembly comprises a shock absorption ring and a plurality of telescopic rods, the lower ends of the telescopic rods are fixedly connected with the shock absorption ring, the lower end of the liquid taking pipe is provided with a telescopic groove, the upper end of the telescopic rod is sleeved in the telescopic groove, the liquid taking pipe is provided with a deformation annular groove at the groove wall of the telescopic groove, the outer peripheral surface of the telescopic rod is provided with a deformation convex ring positioned in the deformation annular groove, the deformation convex ring is positioned at one side away from the shock absorption ring and is provided with a plurality of compression elastic pieces positioned in the deformation annular groove, and the compression elastic pieces correspond to the telescopic rods one by one; the compression elastic piece is under its natural state, shock attenuation ring and liquid intaking pipe interval set up.

Through adopting above-mentioned technical scheme, after the lower extreme that liquid barrel rose to the liquid of getting in the lift, liquid barrel and shock attenuation ring are got in the lift and collide, and shock attenuation ring extrusion compression elastic component, compression elastic component take place compression deformation, and the shock attenuation ring moves upwards to accomplish the shock-absorbing effect to the liquid barrel is got in the lift when liquid barrel and shock attenuation ring bump, and then can avoid getting the liquid barrel and the shock attenuation ring bumps and lead to the circumstances that the interior milk of liquid barrel was spilt that goes up and down to take place owing to go up and down.

The utility model discloses further set up to: the upper surface of shock attenuation ring is provided with the inner ring, the interior rampart that cup joints in the liquid intaking pipe.

Through adopting above-mentioned technical scheme, the relative displacement in-process takes place for shock-absorbing ring and liquid intaking pipe, and the inner ring slides along the internal perisporium of liquid intaking pipe, plays the guide effect to the shock-absorbing ring.

The utility model discloses further set up to: the upper surface of damping ring is provided with the outer loop, the outer loop cup joints in the periphery wall of liquid intaking pipe.

Through adopting above-mentioned technical scheme, the relative displacement in-process takes place for shock-absorbing ring and liquid intaking pipe, and the outer loop slides along the periphery wall of liquid intaking pipe, plays the guide effect to the shock-absorbing ring.

The utility model discloses further set up to: the compression spring comprises a compression spring.

Through adopting above-mentioned technical scheme, compression spring has good shock-absorbing capacity.

The utility model discloses further set up to: the compression spring is sleeved on the telescopic rod.

Through adopting above-mentioned technical scheme, the telescopic link plays spacing effect to compression spring, makes compression spring along the extending direction's of telescopic link setting all the time, prevents the emergence displacement of compression spring in the deformation annular.

To sum up, the utility model discloses following beneficial effect has:

firstly, when the milk in the milk temporary storage tank needs to be sampled and detected, stopping power output of a power motor to a stirring mechanism, after the stirring mechanism stops stirring, driving a rotating roller to rotate through a driving assembly, enabling a flexible rope wound on the rotating roller to be reversed, and enabling a lifting liquid taking barrel to move downwards under the action of gravity until the milk enters the milk in the milk temporary storage tank to contain a milk sample; afterwards, the rotating roller is driven to rotate reversely by the driving motor, the flexible rope is wound on the rotating roller again in the rotating process of the rotating roller, the lifting liquid taking barrel moves upwards under the action of the flexible rope until the lifting liquid taking barrel reaches a certain height, a needle cylinder injector can be used for sampling, and after a needle of the needle cylinder injector penetrates through the flexible sealing cover, milk in the lifting liquid taking barrel is extracted for sampling. Therefore, the utility model has the advantages of need not open the feed inlet when milk sample and can accomplish the sample to reduce miscellaneous fungus and get into jar internal portion, prevent that milk is rotten.

Second, damper has the absorbing effect to going up and down to get the liquid bucket, can prevent to get the liquid bucket and get the liquid pipe collision and lead to going up and down to get the unrestrained condition of milk in the liquid bucket and take place owing to going up and down.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a sectional view taken along line A-A of FIG. 2;

FIG. 4 is an enlarged view of portion B of FIG. 3;

fig. 5 is an enlarged view of a portion C in fig. 4.

In the figure, 1, a tank body; 11. a support leg; 12. a feed pipe; 13. a discharge pipe; 14. a liquid taking port; 15. covering the marking line; 2. a stirring mechanism; 21. a stirring shaft; 22. stirring blades; 3. a power motor; 4. a flexible sealing cover; 41. avoiding the marking line; 5. lifting the liquid taking barrel; 51. rotating the lifting rod; 511. bending the bulge; 52. a transfer groove; 6. a lifting mechanism; 61. a rotating roller; 62. a flexible cord; 63. a drive assembly; 631. a mounting seat; 632. a drive motor; 7. a liquid taking pipe; 2. A telescopic groove; 73. a deformation ring groove; 8. a shock absorbing assembly; 81. a shock-absorbing ring; 811. an inner ring; 812. an outer ring; 82. a telescopic rod; 821. a deformation convex ring; 83. compressing the spring.

Detailed Description

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

Referring to fig. 1, for the utility model discloses a milk jar of keeping in, including a jar body 1, the lower extreme of jar body 1 is provided with the frame, and the frame includes three stabilizer blade 11, and three stabilizer blade 11 is along jar body 1's periphery wall evenly distributed, and the upper end of three stabilizer blade 11 all with jar body 1 welding. The upper end of the tank body 1 is provided with a feeding hole, the feeding hole of the tank body 1 is provided with a feeding pipe 12, and the feeding pipe 12 is provided with a feeding valve (the feeding valve is not shown in the figure). The lower end of the tank body 1 is provided with a discharge hole, a discharge pipe 13 is arranged at the discharge hole of the tank body 1, and the discharge pipe 13 is provided with a discharge valve (the discharge valve is not shown in the figure).

Referring to fig. 2 and 3, a stirring mechanism 2 is provided inside the tank 1. The stirring mechanism 2 comprises a stirring shaft 21 positioned on the central axis in the tank body 1 and a plurality of stirring blades 22 welded on the stirring shaft 21, wherein the plurality of stirring blades 22 are equidistantly distributed in the height direction of the stirring shaft 21. The both ends of (mixing) shaft 21 are connected with the roof of jar body 1 and the diapire of jar body 1 rotation respectively. The upper end of the stirring shaft 21 extends out of the top wall of the tank body 1, the top wall of the tank body 1 is provided with a rotary hole for the stirring shaft 21 to pass through, and the stirring shaft 21 is rotatably connected with the rotary hole.

A power mechanism for driving the stirring mechanism 2 is arranged outside the tank body 1. The power mechanism comprises a power motor 3 arranged on the top wall of the tank body 1, and an output shaft of the power motor 3 is connected with the same upper end of the stirring shaft 21 through a coupler.

The roof of jar body 1 has seted up and has got liquid mouth 14, gets liquid mouth 14 and covers and be equipped with flexible sealed lid 4, jar body 1 welds the liquid pipe 7 that gets to jar internal portion of body 1 extension in getting liquid mouth 14 department. The lifting liquid taking barrel 5 is arranged below the liquid taking pipe 7 in the tank body 1, the lower end pipe opening of the liquid taking pipe 7 is the same as the upper end barrel opening of the lifting liquid taking barrel 5 in size and shape, and the liquid taking pipe 7 and the lifting liquid taking barrel 5 are arranged up and down relatively.

Referring to fig. 3 and 4, a lifting mechanism 6 for driving the lifting liquid taking barrel 5 to lift is arranged between the lifting liquid taking barrel 5 and the tank body 1.

The lifting mechanism 6 comprises a rotating roller 61 arranged inside the tank body 1, a flexible rope 62 arranged between the rotating roller 61 and the lifting liquid taking barrel 5 and a driving assembly 63 arranged outside the tank body 1 and driving the rotating roller 61 to rotate.

The rotating roller 61 is horizontally arranged, one end of the rotating roller 61 penetrates through the side wall of the tank body 1, a first rotating hole is formed in the side wall of the tank body 1, and the rotating roller 61 is rotatably connected with the first rotating hole; the roof inboard of the jar body 1 is provided with the mounting panel, and the upper end of mounting panel welds in the roof inboard of the jar body 1, and the second rotation hole has been seted up to the lower extreme of mounting panel, and the second rotation hole is worn to locate by the other end of live-rollers 61, and live-rollers 61 and mounting panel rotate to be connected. The liquid taking pipe 7 penetrates through the middle part of the rotating roller 61, and a through hole for the rotating roller 61 to penetrate through is formed in the liquid taking pipe 7.

One end of the flexible rope 62 is connected to the rotating roller 61 through a rope winder, the rope winder is installed on the rotating roller 61 in the liquid taking pipe 7, and the rope winder is located on the central axis of the liquid taking pipe 7. The other end of flexible rope 62 connects on going up and down to get liquid bucket 5, the upper portion of going up and down to get the inside wall of liquid bucket 5 is provided with rotates shadoof 51, the both ends of rotating shadoof 51 are got the inside wall rotation connection of liquid bucket 5 with going up and down respectively, go up and down to get the inside wall of liquid bucket 5 and seted up two switching recesses 52, two switching recesses 52 set up relatively, and the connecting wire of two switching recesses 52 intersects with the axis that goes up and down to get liquid bucket 5, the middle part of rotating shadoof 51 is buckled and is had the arch 511 of buckling, the other end of flexible rope 62 twines in the arch 511 of.

The driving assembly 63 includes a mounting base 631 welded to the outside of the can body 1 and a driving motor 632 mounted on the upper surface of the mounting base 631, an output shaft of the driving motor 632 and the rotating roller 61 rotate coaxially, and the output shaft of the driving motor 632 and the rotating roller 61 are coupled by a coupling.

As shown in fig. 2 and 3, the upper surface of the flexible sealing cover 4 is provided with two avoidance marking lines 41 for avoiding the rotating roller 61, the two avoidance marking lines 41 are arranged in parallel, and the rotating roller 61 is located in the area range of the two avoidance marking lines 41. The outer side of the top wall of the tank body 1 is provided with a covering mark line 15 for marking the covering position of the flexible sealing cover 4, the two covering mark lines 15 are arranged in parallel with the axial direction of the rotating roller 61, and the distance between the two covering mark lines 15 is equal to the distance between the two avoiding mark lines 41. When the flexible sealing cover 4 covers the liquid taking port 14, a vertical area between the two covering mark lines 15 and a vertical area of the two avoidance mark lines 41 coincide.

As shown in fig. 2 and 4, the liquid taking tube 7 is provided with a shock absorbing assembly 8 at its lower end nozzle. The shock absorbing assembly 8 comprises a shock absorbing ring 81, three telescopic rods 82 and three compression springs 83. The three telescopic rods 82 are uniformly distributed along the circumferential direction of the shock absorption ring 81.

An inner ring 811 and an outer ring 812 are welded to the upper surface of the damper ring 81, respectively, the outer circumferential wall of the inner ring 811 is attached to the inner circumferential wall of the liquid extraction pipe 7, and the inner circumferential wall of the outer ring 812 is attached to the outer circumferential wall of the liquid extraction pipe 7.

The lower extreme of telescopic link 82 welds in the upper surface of damping ring, and flexible groove 72 has been seted up to the lower extreme of liquid intaking pipe 7, and the upper end of telescopic link 82 cup joints in flexible groove 72, liquid intaking pipe 7 has seted up deformation annular 73 in the cell wall department of flexible groove 72, and the outer peripheral face integrated into one piece of telescopic link 82 has the deformation bulge loop 821 that is located deformation annular 73.

The compression spring 83 is located on one side of the deformation convex ring 821 away from the shock absorption ring 81 and located in the deformation ring groove 73, and the compression spring 83 is sleeved on the expansion rod 82. In its natural state, the compression spring 83 has a shock ring 81 spaced from the intake tube 7.

The implementation principle of the embodiment is as follows: when the milk in the milk temporary storage tank needs to be sampled and detected, stopping the power output of the power motor 3 to the stirring mechanism 2, starting the driving motor 632 after the stirring mechanism 2 stops stirring, driving the rotating roller 61 to rotate by the driving motor 632, enabling the flexible rope 62 wound on the rotating roller 61 to be subjected to rope reversing, and lifting the liquid taking barrel 5 to move downwards under the action of gravity until the milk enters the milk temporary storage tank to be filled with a milk sample; then, the driving motor 632 is started again to rotate reversely, the rotating roller 61 is wound with the flexible rope 62 again in the rotating process, and the lifting liquid taking barrel 5 moves upwards under the action of the flexible rope 62 until the upper end of the lifting liquid taking barrel 5 abuts against the damping ring 81; and finally, sampling by using a needle cylinder injector, and after a needle of the needle cylinder injector pierces the flexible sealing cover 4, extracting the milk in the lifting liquid taking barrel 5 for sampling.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. A temporary storage tank for milk comprises a tank body (1), wherein the tank body (1) is provided with a feeding hole and a discharging hole, a stirring mechanism (2) is arranged in the tank body (1), a power mechanism for driving the stirring mechanism (2) is arranged outside the tank body (1), it is characterized in that the top wall of the tank body (1) is provided with a liquid taking port (14), the liquid taking port (14) is provided with a flexible sealing cover (4), a lifting liquid taking barrel (5) is arranged below the liquid taking port (14) in the tank body (1), a lifting mechanism (6) for driving the liquid taking barrel (5) to lift is arranged between the lifting liquid taking barrel (5) and the tank body (1), the lifting mechanism (6) comprises a rotating roller (61) arranged in the tank body (1), a flexible rope (62) arranged between the rotating roller (61) and the lifting liquid taking barrel (5) and a driving assembly (63) arranged outside the tank body (1) and driving the rotating roller (61) to rotate.

2. A milk buffer tank according to claim 1, characterized in that the driving assembly (63) comprises a mounting base (631) arranged outside the tank body (1) and a driving motor (632) arranged on the mounting base (631), and the output shaft of the driving motor (632) and the rotating roller (61) rotate coaxially.

3. A milk temporary storage tank according to claim 1, characterized in that the tank body (1) is provided with a liquid taking pipe (7) extending towards the inside of the tank body (1) at the liquid taking port (14), the liquid taking pipe (7) is provided with a through hole for the rotating roller (61) to pass through, and the flexible rope (62) is connected to the rotating roller (61) in the liquid taking pipe (7).

4. A milk temporary storage tank according to claim 3, wherein a rotary lifting rod (51) is arranged on the upper portion of the inner side wall of the lifting liquid taking barrel (5), the two ends of the rotary lifting rod (51) are respectively and rotatably connected with the inner side wall of the lifting liquid taking barrel (5), two switching grooves (52) are formed in the inner side wall of the lifting liquid taking barrel (5), the two switching grooves (52) are oppositely arranged, the connecting line of the two switching grooves (52) is intersected with the central axis of the lifting liquid taking barrel (5), a bending protrusion (511) is bent in the middle of the rotary lifting rod (51), and the other end of the flexible rope (62) is connected with the bending protrusion (511).

5. A milk buffer tank according to claim 3, characterized in that the liquid take-off pipe (7) is provided with a shock-absorbing member (8) at its lower end orifice.

6. A milk temporary storage tank according to claim 5, wherein the damping assembly (8) comprises a damping ring (81) and a plurality of telescopic rods (82), the lower end of the telescopic rod (82) is fixedly connected with the damping ring, the lower end of the liquid taking pipe (7) is provided with a telescopic groove (72), the upper end of the telescopic rod (82) is sleeved in the telescopic groove (72), the liquid taking pipe (7) is provided with a deformation ring groove (73) at the groove wall of the telescopic groove (72), the outer peripheral surface of the telescopic rod (82) is provided with a deformation convex ring (821) positioned in the deformation ring groove (73), the deformation convex ring (821) is positioned at one side far away from the damping ring (81) and is provided with a plurality of compression elastic members positioned in the deformation ring groove (73), and the compression elastic members correspond to the telescopic rods (82) one by one;

the compression elastic piece is in a natural state, and the damping ring (81) and the liquid taking pipe (7) are arranged at intervals.

7. A milk temporary storage tank according to claim 6, characterized in that the upper surface of the shock-absorbing ring (81) is provided with an inner ring (811), and the inner ring (811) is sleeved on the inner peripheral wall of the liquid-taking pipe (7).

8. A milk temporary storage tank according to claim 6, characterized in that the upper surface of the shock-absorbing ring (81) is provided with an outer ring (812), and the outer ring (812) is sleeved on the outer peripheral wall of the liquid taking pipe (7).

9. A milk buffer tank according to claim 6, characterized in that the compression spring comprises a compression spring (83).

10. A milk buffer tank according to claim 9, wherein said compression spring (83) is sleeved on said telescopic rod (82).

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