CN117360971B - Refrigerating mare milk transport tank - Google Patents

Abstract

The invention relates to the technical field of containers, in particular to a refrigerated mare milk transportation tank, which comprises an inner tank body, wherein an outer tank body is sleeved outside the inner tank body, a heat insulation interlayer is fixed between the outer tank body and the inner tank body, a discharge valve pipe is fixed at the bottom end of the inner tank body and penetrates through the bottom plate of the outer tank body, a floating plate is connected inside the inner tank body in a sliding manner, an extension frame is fixed on the top surface of the floating plate, and a limit frame is sleeved at the top of the extension frame; the beneficial effects are as follows: the refrigerating mare milk transportation tank provided by the invention has the advantages that the floating plate is additionally arranged in the inner tank body, after mare milk is arranged in the inner tank body, the floating plate is pressed on the liquid surface of the mare milk, so that vibration generated when the mare milk is transported in the inner tank body is reduced, and after the food-grade heat-conducting stainless steel ice charging barrel provided with the ice bag is arranged on the floating plate, the food-grade heat-conducting stainless steel ice charging barrel is soaked in the mare milk in the inner tank body, so that the refrigerating of the mare milk is realized.

Description

Refrigerating mare milk transport tank

Technical Field

The invention relates to the technical field of containers, in particular to a refrigerated mare milk transportation tank.

Background

With the improvement of the living standard of people, the dietary structure is changed, and the mare milk product is more and more popular with consumers; mare milk belongs to albumin milk, and contains rich proteins, sugar, unsaturated fatty acid, low molecular fatty acid and vitamins; however, the mare milk needs to be refrigerated in the transportation process, otherwise, the components of the mare milk can deteriorate, and the taste and quality of the mare milk are affected.

In the prior art, the cost of a transportation tank using a refrigerator is too high, and when a small amount of mare milk needs to be transported, a large-volume transportation tank is adopted to cause resource waste, if the small-volume transportation tank is adopted, when mare milk is added into the transportation tank, a space exists between the mare milk and the tank body, and in the transportation process, vibration can occur to enable fat balls in the mare milk to be separated under the action of gravity, so that the quality of the mare milk is affected.

Therefore, a refrigerated mare milk transportation tank is needed to solve the problem that vibration is generated after the mare milk is filled into the transportation tank, and the situation that fat globules are separated under the action of gravity in the transportation process of the mare milk can be reduced.

Disclosure of Invention

The invention aims to provide a refrigerated mare milk transportation tank, which solves the vibration problem generated after the existing mare milk is filled into the transportation tank, and can reduce the separation condition of fat globules under the action of gravity in the transportation process of the mare milk.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a cold-stored mare milk transport tank, includes the inner tank body, and the outside cover of the inner tank body is equipped with the outer jar body, is fixed with the heat preservation intermediate layer between the outer jar body and the inner tank body, and the bottom mounting of the inner tank body has the discharge valve pipe, and the bottom plate of the outer jar body is run through to the discharge valve pipe, the inside sliding connection of the inner tank body has the kickboard, and the top surface of kickboard is fixed with the extension frame, and the top cover of extension frame is equipped with the spacing, and the roof bottom surface of the inner tank body is fixed to the spacing, and the roof of the inner tank body and the outer jar body is run through by the heat preservation intermediate layer, and the material filling mouth has been seted up on the surface of kickboard, and the surface symmetry grafting of material filling mouth has two sets of shrouding, and the surface activity grafting of kickboard has multiunit food grade heat conduction stainless steel ice-filled a jar, and the bottom activity grafting of food grade heat conduction stainless steel ice-filled a jar has the riser, and the riser is fixed on the bottom plate of the inner tank body, and the top of the food grade heat conduction stainless steel ice-filled a jar is overlapped ring, and the overlap ring spiro union is in the inner ring of screwed joint, and the top ring is fixed on the roof of the inner tank, and the top of the panel is taken the top of the roof of the panel, and the top of the heat preservation intermediate layer is taken.

Preferably, the limiting frame is of a circular tube structure with an inverted U-shaped cross section, the extending frame is movably inserted into the annular groove body of the limiting frame, the inner annular surface of the extending frame is provided with a guide groove, the inside of the guide groove is slidably connected with a stop block, the stop block is fixed on the annular groove of the limiting frame, the height of the guide groove is smaller than that of the extending frame, and the stop block is close to the bottom end of the limiting frame.

Preferably, two storage grooves are symmetrically formed in the surface of the material injection port, the storage grooves are square grooves, the sealing plate is square plate-shaped and movably inserted into the storage grooves, one end of the sealing plate extending out of the storage grooves is fixedly provided with a rubber sealing plate, the sealing plate extending into one end top surface of the storage grooves is fixedly provided with a traction block, the top surface of the traction block is provided with a first inclined surface, the outer wall of the limiting frame is fixedly provided with a push block, the push block is a right-angle trapezoid plate, the inclined surface of the push block faces the traction block, the surface of the traction block is provided with a first perforation, a limiting column is movably inserted into the first perforation, the limiting column is fixed between two parallel distributed side walls of the chute, the chute is formed in the top surface of the floating plate, the chute is communicated with the storage grooves, the traction block is slidably connected in the chute, one end of the spring is fixedly arranged on the surface of the traction block, the other end of the spring is fixedly arranged in the spring groove, the surface of the chute, and the spring groove is provided with an annular groove.

Preferably, the surface of the material injection port is fixedly provided with a material injection hopper, the material injection hopper is positioned above the storage groove, and when the inclined surface of the traction block is contacted with the inclined surface of the pushing block, the top surface of the material injection hopper is flush with the top surface of the inner tank body.

Preferably, the surface symmetry of annotating the material mouth is fixed with two pull rings, and the surface bolt of pull ring has the haulage rope, and the one end winding of haulage rope is covered at the rolling, and the rolling cover is "worker" font pipe, and the rolling cover is established on spacing epaxial, and spacing axle is "T" font round bar, and the height of spacing axle is greater than the height of rolling cover, and the top surface of the inner tank body is fixed with the link, and the link is "" font platelike structure, and the top surface spiro union of link has the centre gripping screw rod, and the bottom surface of centre gripping screw rod is fixed with the briquetting, and the bottom surface of briquetting is fixed with the sheet rubber, and the haulage rope centre gripping is between the bottom surface of briquetting and the top surface of the inner tank body.

Preferably, the side wall of the floating plate is provided with a first embedded groove which is an annular groove, the first embedded groove is provided with two grooves which are vertically arranged, a first sealing ring is fixed in the first embedded groove and is in an annular plate-shaped structure, the first sealing ring protrudes out of the first embedded groove, one side of the first sealing ring, which is close to the inner wall of the inner tank body, is integrally formed with a plurality of rubber scraping rings, two mounting openings are symmetrically formed in the surface of the floating plate, and gas-liquid separation exhaust valves and one-way air inlet valves are respectively fixed in the two mounting openings.

Preferably, the surface of the floating plate is provided with a through hole, the food-grade heat-conducting stainless steel ice-charging barrel is movably inserted into the through hole, the food-grade heat-conducting stainless steel ice-charging barrel is an inverted concave circular pipe, the surface of the food-grade heat-conducting stainless steel ice-charging barrel is provided with an ice storage groove, the ice storage groove is an inverted concave annular groove, the bottom surface of the food-grade heat-conducting stainless steel ice-charging barrel is provided with an embedded groove II, the embedded groove II is an annular groove, the surface of the embedded groove II is fixedly provided with a sealing ring II, the sealing ring II is of an annular plate structure, the sealing ring II is clamped between the embedded groove II and the vertical pipe to generate elastic deformation, the bottom end of the vertical pipe is fixedly provided with an air valve, and the air valve penetrates through the inner tank body, the outer tank body and the bottom plate of the heat-insulating interlayer.

Preferably, the outer ring surface of overlap joint ring is equipped with the external screw thread, and the inner ring surface of spiro union ring is equipped with the internal screw thread, and internal screw thread and external screw thread cooperation are connected, and the closing cap is "protruding" font plectane of inversion, has seted up the draw-in groove on the lateral wall of closing cap, and the draw-in groove is the ring channel, and the inside grafting of draw-in groove has the rubber circle one, and the rubber circle one is fixed at the surface of food-grade heat conduction stainless steel ice-packing section of thick bamboo, and the catching groove has been seted up to the bottom surface of closing cap, and the inside of catching groove is fixed with the cotton cover that keeps warm, fills the inside at the inside of food-grade heat conduction stainless steel ice-packing section of thick bamboo after the outstanding catching groove of cotton cover that keeps warm.

Preferably, the top surface of lap joint is fixed with the handle, and the handle is the "U" font platy structure of inversion, and two parallel distribution's of handle curb plates are about lap joint's inner ring mouth symmetric distribution, and the bore of taking the mouth is greater than lap joint's external diameter, and the apron is "protruding" font platy structure, and the fixed surface of apron has the rubber circle two, and the clamping of rubber circle two is between apron and taking the mouth, and the surface of apron has seted up through-hole two, and through-hole two is long circle mouth, and the both ends of through-hole two all are equipped with the finger groove, and the finger groove is the round hole.

Preferably, the top surface of the inner tank body is fixed with a plurality of connecting columns, the top surfaces of the connecting columns are all fixed on the bottom surface of the lifting ring, and the bottom surface of the inner tank body is fixed with a plurality of supporting legs.

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

the refrigerating mare milk transportation tank provided by the invention has the advantages that the floating plate is additionally arranged in the inner tank body, after mare milk is arranged in the inner tank body, the floating plate is pressed on the liquid surface of the mare milk, so that vibration generated when the mare milk is transported in the inner tank body is reduced, and after the food-grade heat-conducting stainless steel ice-charging barrel provided with the ice bag is arranged on the floating plate, the food-grade heat-conducting stainless steel ice-charging barrel is soaked in the mare milk in the inner tank body, so that the refrigerating of the mare milk is realized; further solves the vibration problem generated after the prior mare milk is filled into the transport tank, and can reduce the separation condition of fat balls under the action of gravity in the transportation process of the mare milk.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the present invention in semi-section;

FIG. 3 is an enlarged schematic view of the structure shown in FIG. 2A;

FIG. 4 is an enlarged schematic view of the structure shown at B in FIG. 2;

FIG. 5 is an enlarged schematic view of the structure at C in FIG. 2;

FIG. 6 is an enlarged schematic view of the structure shown at D in FIG. 2;

FIG. 7 is an enlarged schematic view of the structure of FIG. 2 at E;

FIG. 8 is an enlarged schematic view of the structure shown at F in FIG. 4;

FIG. 9 is an enlarged schematic view of the structure at G in FIG. 5;

FIG. 10 is a schematic view of the connection structure of the floating plate and the ice-charging barrel of the present invention;

FIG. 11 is a schematic view of a cover plate structure according to the present invention;

FIG. 12 is a schematic view showing a half-section of a connection structure of a floating plate and an ice-charging barrel according to the present invention;

FIG. 13 is an enlarged schematic view of the structure at H in FIG. 12;

FIG. 14 is a schematic view of a cover plate structure in semi-section according to the present invention;

FIG. 15 is a schematic view of the connection structure of the floating plate and the filling hopper of the present invention;

FIG. 16 is a schematic view of the connection of the seal plate and the traction block of the present invention;

FIG. 17 is a schematic view of the connection structure of the connecting frame and the clamping screw of the present invention.

In the figure: the inner tank 1, the outer tank 2, the heat insulation interlayer 3, the discharge valve pipe 4, the floating plate 5, the extension frame 6, the limit frame 7, the guide groove 8, the stop block 9, the reserved opening 10, the material injection opening 11, the storage groove 12, the sealing plate 13, the rubber sealing piece 14, the traction block 15, the push block 16, the perforation one 17, the limit column 18, the spring 19, the spring groove 20, the material injection hopper 21, the pull ring 22, the traction rope 23, the winding cover 24, the limit shaft 25, the connecting frame 26, the clamping screw 27, the pressing block 28, the embedded groove one 29, the sealing ring one 30, the mounting opening 31, the gas-liquid separation exhaust valve 32, the one-way air inlet valve 33, the through opening 34, the food-grade heat conducting stainless steel ice cylinder 35, the vertical pipe 36, the air valve 37, the embedded groove two 38, the sealing ring two 39, the lap joint ring 40, the screw joint ring 41, the sealing cover 42, the heat insulation cotton cover 43, the clamping groove 44, the rubber ring one 45, the handle 46, the holding opening 47, the cover 48, the rubber ring two 49, the supporting leg two 50, the connecting column 51, the holding rings 52, 53 and the sliding groove 54.

Detailed Description

In order to make the objects, technical solutions, and advantages of the present invention more apparent, the embodiments of the present invention will be further described in detail with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are some, but not all, embodiments of the present invention, are intended to be illustrative only and not limiting of the embodiments of the present invention, and that all other embodiments obtained by persons of ordinary skill in the art without making any inventive effort are within the scope of the present invention.

Example 1

Referring to fig. 1 to 2, the present invention provides a technical solution: the refrigerated mare milk transportation tank comprises an inner tank body 1, an outer tank body 2 is sleeved outside the inner tank body 1, a heat insulation interlayer 3 is fixed between the outer tank body 2 and the inner tank body 1, a discharge valve pipe 4 is fixed at the bottom end of the inner tank body 1, the discharge valve pipe 4 penetrates through the bottom plate of the outer tank body 2, a floating plate 5 is connected inside the inner tank body 1 in a sliding manner, an extension frame 6 is fixed on the top surface of the floating plate 5, a limit frame 7 is sleeved at the top of the extension frame 6, the limit frame 7 is fixed on the bottom surface of the top plate of the inner tank body 1, the top plates of the inner tank body 1 and the outer tank body 2 are penetrated by the heat insulation interlayer 3, a material injection port 11 is formed in the surface of the floating plate 5, two groups of 13 are symmetrically spliced on the surface of the material injection port 11, a plurality of groups of food-grade heat-conducting stainless steel ice-loading barrels 35 are movably spliced on the surface of the floating plate 5, ice bags are filled in the inner parts of the food-grade heat-conducting-stainless steel ice-loading barrels 35, stand pipes 36 are movably spliced on the bottom ends of the food-grade heat-conducting-stainless steel ice-loading barrels 35, the vertical pipe 36 is fixed on the bottom plate of the inner tank body 1, the top end of the food-grade heat-conducting stainless steel ice-charging barrel 35 is sleeved with a lap joint ring 40, the lap joint ring 40 is in a ring opening of the lap joint ring 41 in a screwed manner, the lap joint ring 41 is fixed on the top surface of the floating plate 5, the top of the food-grade heat-conducting stainless steel ice-charging barrel 35 is inserted with a sealing cover 42, the top plates of the inner tank body 1, the outer tank body 2 and the heat-insulating interlayer 3 are penetrated by a taking opening 47, the top of the taking opening 47 is inserted with a cover plate 48, the top surface of the inner tank body 1 is fixed with a plurality of connecting columns 51, the top surfaces of the connecting columns 51 are fixed on the bottom surface of the lifting ring 52, the bottom surface of the inner tank body 1 is fixed with a plurality of supporting legs 53, after the floating plate 5 is additionally arranged in the inner tank body 1, the floating plate 5 is pressed on the surface of the mare milk, vibration generated when the mare milk is transported in the inner tank body 1 is reduced, after the food-grade heat-conducting stainless steel ice cylinder 35 with the ice bag is arranged on the floating plate 5, the food-grade heat-conducting stainless steel ice cylinder 35 is soaked in mare milk in the inner tank body 1, so that the mare milk is refrigerated; further solves the vibration problem generated after the prior mare milk is filled into the transport tank, and can reduce the separation condition of fat balls under the action of gravity in the transportation process of the mare milk.

Example two

Referring to fig. 12, 13, 15 and 17, in order to realize movable traction on the floating plate 5 and avoid rotation generated in the lifting process of the floating plate 5, the limiting frame 7 is of a circular tube structure with an inverted U-shaped section, the extending frame 6 is movably inserted into an annular groove body of the limiting frame 7, a guide groove 8 is formed in the inner annular surface of the extending frame 6, a stop block 9 is slidably connected in the guide groove 8, the stop block 9 is fixed on the annular groove of the limiting frame 7, the height of the guide groove 8 is smaller than that of the extending frame 6, and the stop block 9 is close to the bottom end of the limiting frame 7; the surface of the material injection opening 11 is fixedly provided with a material injection hopper 21, the material injection hopper 21 is positioned above the storage groove 12, and when the inclined surface of the traction block 15 contacts the inclined surface of the pushing block 16, the top surface of the material injection hopper 21 is flush with the top surface of the inner tank body 1; two pull rings 22 are symmetrically fixed on the surface of the material injection port 11, a traction rope 23 is bolted on the surface of the pull rings 22, one end of the traction rope 23 is wound on a winding cover 24, the winding cover 24 is an I-shaped circular tube, the winding cover 24 is sleeved on a limiting shaft 25, the limiting shaft 25 is a T-shaped round rod, the height of the limiting shaft 25 is greater than that of the winding cover 24, a connecting frame 26 is fixed on the top surface of the inner tank body 1, the connecting frame 26 is of a -shaped plate-shaped structure, a clamping screw 27 is screwed on the top surface of the connecting frame 26, a pressing block 28 is fixed on the bottom surface of the clamping screw 27, a rubber sheet is fixed on the bottom surface of the pressing block 28, and the traction rope 23 is clamped between the bottom surface of the pressing block 28 and the top surface of the inner tank body 1; the side wall of the floating plate 5 is provided with an embedded groove I29, the embedded groove I29 is an annular groove, the embedded groove I29 is provided with two embedded grooves I29, the two embedded grooves I29 are distributed in an up-down arrangement mode, a sealing ring I30 is fixed in the embedded groove I29, the sealing ring I30 is of an annular plate-shaped structure, the sealing ring I30 protrudes out of the embedded groove I29, one side, close to the inner wall of the inner tank body 1, of the sealing ring I30 is integrally formed with a plurality of rubber scraping rings, two mounting openings 31 are symmetrically formed in the surface of the floating plate 5, and gas-liquid separation exhaust valves 32 and one-way air inlet valves 33 are respectively fixed in the two mounting openings 31.

When the mare milk needs to be filled into the inner tank body 1, the traction rope 23 is extracted, the traction rope 23 pulls the floating plate 5 to move upwards along the inner wall of the inner tank body 1, the first sealing ring 30 is clamped between the floating plate 5 and the inner tank body 1, the mare milk below the floating plate 5 is prevented from overflowing upwards, the extension frame 6 moves along the annular groove at the bottom of the limit frame 7 until the top surface of the extension frame 6 abuts against the annular groove top surface of the limit frame 7 in the lifting process of the floating plate 5, the injection hopper 21 is positioned at the notch of the reserved opening 10, then the clamping screw 27 is screwed downwards to push the pressing block 28 to clamp the traction rope 23 on the top surface of the inner tank body 1, the traction rope 23 cannot be pulled downwards by the floating plate 5 at the moment, if the traction rope 23 positioned above the inner tank body 1 needs to be combed, the rolling cover 24 is rotated around the limit shaft 25, and the traction rope 23 positioned above the inner tank body 1 and positioned on one side of the pressing block 28 is wound on the rolling cover 24 for storage; the mare milk is injected into the inner tank body 1 through the injection hopper 21 for storage; the guide groove 8 is formed on the inner ring surface of the extension frame 6 to meet the requirement that the stop block 9 slides, because the stop block 9 forms an anti-deflection structure for the extension frame 6 when the guide groove 8 slides, namely, the extension frame 6 can only realize vertical movement, and the extension frame 6 cannot generate autorotation phenomenon.

Example III

Referring to fig. 5 and 16, on the basis of the second embodiment, in order to realize that the material injection port 11 is opened when the floating plate 5 is extracted, and the material injection port 11 is blocked after the floating plate 5 descends, two storage grooves 12 are symmetrically formed in the surface of the material injection port 11, the storage grooves 12 are square grooves, the sealing plate 13 is square plate-shaped, the sealing plate 13 is movably inserted into the storage grooves 12, one end of the sealing plate 13 extending out of the storage grooves 12 is fixed with a rubber sealing plate 14, one end top surface of the sealing plate 13 extending into the storage grooves 12 is fixed with a traction block 15, the top surface of the traction block 15 is provided with a slope I, the outer wall of the limit frame 7 is fixed with a push block 16, the push block 16 is in a right-angle trapezoidal plate, the slope of the push block 16 faces the traction block 15, the surface of the traction block 15 is provided with a through hole I17, a limit post 18 is movably inserted into the through hole I17, the limit post 18 is fixed between two parallel side walls of the slide groove 54, the slide groove 54 is formed in the top surface of the floating plate 5, the slide groove 54 is communicated with the storage grooves 12, the traction block 15 is slidingly connected in the slide groove 54, one end of the rod body of the limit post 18 is sleeved with a spring 19, one end of the spring 19 is fixed on the surface of the other side 20 of the spring groove 20, and the other end of the spring is fixed on the surface 20 in the groove 20 is formed on the surface of the groove 20.

In the state shown in fig. 2 and 5, after the floating plate 5 is lifted, the sealing plate 13 is retracted into the storage groove 12, namely, the injection port 11 is in a schematic view of an open state, at this time, the traction block 15 is tightly abutted under the pushing block 16, and at this time, the traction block 15 stretches the spring 19 to be in a stretched state, namely, mare milk injected into the injection hopper 21 flows into the inner tank 1 through the injection port 11 to be stored, when the injection port 11 needs to be closed, the clamping screw 27 is screwed upwards, the clamping screw 27 drives the pressing block 28 to move upwards, the traction rope 23 is not clamped, the floating plate 5 descends along the inner wall of the inner tank 1 under the action of gravity of the structures of the floating plate 5 and the floating plate 5, the surface mounting of the floating plate 5 is ensured, along with the descent of the floating plate 5, the food-grade heat-conducting stainless steel ice charging barrel 35, the traction block 15 is not limited by the pushing block 16 along with the descent of the floating plate 5, namely, the spring 19 rebounds the traction block 15 to approach the spring groove 20 along with the descent of the floating plate 5, and at the same time, the traction block 15 drives the sealing plate 13 to move towards the inside the injection port 11 until the two sealing plates 13 are close to the two sealing plates 13 and the sealing plates 13 are sealed together.

Example IV

Referring to fig. 4, fig. 6 and fig. 7, on the basis of the third embodiment, in order to realize the connection of the floating plate 5 and the food-grade heat conduction stainless steel ice-packing barrel 35, the surface of the floating plate 5 is provided with a through hole 34, the food-grade heat conduction stainless steel ice-packing barrel 35 is movably inserted into the through hole 34, the food-grade heat conduction stainless steel ice-packing barrel 35 is an inverted concave circular tube, the surface of the food-grade heat conduction stainless steel ice-packing barrel 35 is provided with an ice storage groove, the ice storage groove is an inverted concave annular groove, the bottom surface of the food-grade heat conduction stainless steel ice-packing barrel 35 is provided with a second embedded groove 38, the second embedded groove 38 is an annular groove, the surface of the second embedded groove 38 is fixedly provided with a sealing ring 39, the sealing ring 39 is of an annular plate structure, the sealing ring 39 is clamped between the second embedded groove 38 and the vertical tube 36 to generate elastic deformation, the bottom end of the vertical tube 36 is fixedly provided with an air valve 37, the air valve 37 penetrates through the inner tank body 1, the outer tank body 2 and the bottom plate of the heat insulation interlayer 3, the outer ring surface of the lap ring 40 is provided with external threads, the inner ring surface of the lap joint ring 41 is provided with an inner thread, the inner thread is matched with the inner thread groove 42, the inner thread groove 44 is formed by the inner thread groove 44, the inner groove 44 is filled with the groove 43, the inner groove 43 is filled with the groove 43, the groove 43 is provided with the groove 43, the groove 43 is filled with the groove 43, the groove 43 is formed by the groove 43, and the groove 43 is filled with the groove 43, the groove 43 is the groove 43, and the groove 43 is the groove and the groove is the groove; the top surface of the lap joint ring 40 is fixedly provided with a handle 46, the handle 46 is of an inverted U-shaped platy structure, two parallel side plates of the handle 46 are symmetrically distributed about an inner ring opening of the lap joint ring 40, the caliber of a taking opening 47 is larger than the outer diameter of the lap joint ring 40, a cover plate 48 is of a convex platy structure, a rubber ring II 49 is fixedly arranged on the surface of the cover plate 48, the rubber ring II 49 is clamped between the cover plate 48 and the taking opening 47, a through opening II 50 is formed in the surface of the cover plate 48, the through opening II 50 is a long round opening, finger grooves are formed in two ends of the through opening II 50, and the finger grooves are round holes.

The food-grade heat-conducting stainless steel ice-charging barrel 35 is internally filled with ice bags and then soaked in mare milk in the inner tank body 1, refrigeration of mare milk is achieved, when the ice bags are charged in the food-grade heat-conducting stainless steel ice-charging barrel 35, fingers are respectively scratched into finger grooves, a cover plate 48 is pulled away from a take-out port 47, then a handle 46 is held, the handle 46 is rotated to drive a lap-joint ring 40 to rotate upwards along a screw-joint ring 41 until the lap-joint ring 40 and the screw-joint ring 41 are separated, then the handle 46 together with the food-grade heat-conducting stainless steel ice-charging barrel 35 are pulled out from the take-out port 47, then the cover plate 42 is pulled away from the top of the food-grade heat-conducting stainless steel ice-charging barrel 35, a notch of the food-grade heat-conducting stainless steel ice-charging barrel 35 is opened at this moment, a sufficient amount of ice bags are charged in the food-grade heat-conducting stainless steel ice-charging barrel 35, then the cover plate 42 is covered on the food-grade heat-conducting stainless steel ice-charging barrel 35 after the notch of the food-grade heat-conducting stainless steel ice-charging barrel 35 is pushed into the take-out port 47, the food-grade heat-conducting stainless steel ice-charging barrel 35 is pushed into the take-up port 47, the lap-joint ring 40 is pushed down until the lap-joint ring 40 is separated by the screw-joint ring 41, the heat-joint ring 40 is pulled down, the heat-conducting stainless steel ice-charging barrel 40 passes through the screw-joint ring 40 and the screw-joint ring 35 and the air valve 5 and is pulled down from the air valve 1, and the air valve 32 is pulled down along with the air valve 1, and the air valve 32 and is discharged from the air valve 1.

Example five

The application method of the refrigerated mare milk transportation tank comprises the following steps:

step one: when the mare milk needs to be filled into the inner tank body 1, the traction rope 23 is extracted, the traction rope 23 pulls the floating plate 5 to move upwards along the inner wall of the inner tank body 1, the first sealing ring 30 is clamped between the floating plate 5 and the inner tank body 1, the mare milk below the floating plate 5 is prevented from overflowing upwards, the extension frame 6 moves along the annular groove at the bottom of the limit frame 7 until the top surface of the extension frame 6 abuts against the annular groove top surface of the limit frame 7 in the lifting process of the floating plate 5, the injection hopper 21 is positioned at the notch of the reserved opening 10, then the clamping screw 27 is screwed downwards to push the pressing block 28 to clamp the traction rope 23 on the top surface of the inner tank body 1, the traction rope 23 cannot be pulled downwards by the floating plate 5 at the moment, if the traction rope 23 positioned above the inner tank body 1 needs to be combed, the rolling cover 24 is rotated around the limit shaft 25, and the traction rope 23 positioned above the inner tank body 1 and positioned on one side of the pressing block 28 is wound on the rolling cover 24 for storage; the mare milk is injected into the inner tank body 1 through the injection hopper 21 for storage; the guide groove 8 is formed on the inner ring surface of the extension frame 6 to meet the requirement that the stop block 9 slides, because the stop block 9 forms an anti-deflection structure for the extension frame 6 when the guide groove 8 slides, namely, the extension frame 6 can only realize vertical movement, and the extension frame 6 cannot generate self-transmission phenomenon.

Step two: in the state shown in fig. 2 and 5, after the floating plate 5 is lifted, the sealing plate 13 is retracted into the storage groove 12, namely, the injection port 11 is in a schematic view in an open state, at the moment, the traction block 15 is tightly propped against the lower part of the push block 16, and at the moment, the traction block 15 stretches the spring 19 to be in a stretched state, namely, mare milk injected into the injection hopper 21 flows into the inner tank 1 through the injection port 11 to be stored, when the injection port 11 needs to be closed, the clamping screw 27 is screwed upwards, the clamping screw 27 drives the pressing block 28 to move upwards, the traction rope 23 is not clamped any more, the floating plate 5 is lowered along the inner wall of the inner tank 1 under the action of gravity of the structures of the floating plate 5 and the surface mounting of the floating plate 5, the food-grade heat-conducting stainless steel ice cylinder 35 is ensured to be mounted on the surface of the floating plate 5, along with the lowering of the floating plate 5, the traction block 15 is not limited by the push block 16, namely, along with the lowering of the floating plate 5, the spring 19 rebounds the traction block 15 to approach the spring groove 20, and at the same time, the traction block 15 drives the sealing plate 13 to move towards the inside the injection port 11 until the two sealing plates 13 are close to the two sealing plates 13 and the sealing plates 13 are sealed together;

step three: the food-grade heat-conducting stainless steel ice-charging barrel 35 is internally filled with ice bags and then soaked in mare milk in the inner tank body 1, refrigeration of mare milk is achieved, when the ice bags are charged in the food-grade heat-conducting stainless steel ice-charging barrel 35, fingers are respectively scratched into finger grooves, a cover plate 48 is pulled away from a take-out port 47, then a handle 46 is held, the handle 46 is rotated to drive a lap-joint ring 40 to rotate upwards along a screw-joint ring 41 until the lap-joint ring 40 and the screw-joint ring 41 are separated, then the handle 46 together with the food-grade heat-conducting stainless steel ice-charging barrel 35 are pulled out from the take-out port 47, then the cover plate 42 is pulled away from the top of the food-grade heat-conducting stainless steel ice-charging barrel 35, a notch of the food-grade heat-conducting stainless steel ice-charging barrel 35 is opened at this moment, a sufficient amount of ice bags are charged in the food-grade heat-conducting stainless steel ice-charging barrel 35, then the cover plate 42 is covered on the food-grade heat-conducting stainless steel ice-charging barrel 35 after the notch of the food-grade heat-conducting stainless steel ice-charging barrel 35 is pushed into the take-out port 47, the food-grade heat-conducting stainless steel ice-charging barrel 35 is pushed into the take-up port 47, the lap-joint ring 40 is pushed down until the lap-joint ring 40 is separated by the screw-joint ring 41, the heat-joint ring 40 is pulled down, the heat-conducting stainless steel ice-charging barrel 40 passes through the screw-joint ring 40 and the screw-joint ring 35 and the air valve 5 and is pulled down from the air valve 1, and the air valve 32 is pulled down along with the air valve 1, and the air valve 32 and is discharged from the air valve 1.

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

Claims (6)

1. The utility model provides a cold-stored mare milk transport tank, includes inner tank body (1), and the outside cover of inner tank body (1) is equipped with outer jar body (2), is fixed with heat preservation intermediate layer (3) between outer jar body (2) and inner tank body (1), and the bottom mounting of inner tank body (1) has discharge valve pipe (4), and discharge valve pipe (4) run through the bottom plate of outer jar body (2), its characterized in that: the inner tank body (1) is internally and slidably connected with a floating plate (5), the top surface of the floating plate (5) is fixedly provided with an extension frame (6), the top of the extension frame (6) is sleeved with a limiting frame (7), the limiting frame (7) is fixedly arranged on the bottom surface of the top plate of the inner tank body (1), the top plate of the inner tank body (1) and the top plate of the outer tank body (2) are penetrated by a heat insulation interlayer (3), a material injection port (11) is formed in the surface of the floating plate (5), two groups of sealing plates (13) are symmetrically inserted on the surface of the material injection port (11), a plurality of groups of food-grade heat-conducting stainless steel ice-filling barrels (35) are movably inserted on the surface of the floating plate (5), ice bags are filled in the inner part of the food-grade heat-conducting stainless steel ice-filling barrels (35), a vertical pipe (36) is movably inserted at the bottom end of the food-grade heat-conducting stainless steel ice-filling barrels (35), the vertical pipe (36) is fixed on the bottom plate of the inner tank body (1), the top end of the food-grade heat-conducting stainless steel ice-filling barrels (35) is sleeved with a lap joint ring (40), the lap joint ring (40) is screwed in the inner ring (41) and the top surface of the heat-conducting ring (41) is screwed on the top surface of the inner ring (3) and the top plate (2) and penetrates through the top plate (47), a cover plate (48) is inserted at the top of the taking opening (47);

the limiting frame (7) is of a circular tube structure with an inverted U-shaped cross section, the extending frame (6) is movably inserted into an annular groove body of the limiting frame (7), a guide groove (8) is formed in the inner annular surface of the extending frame (6), a stop block (9) is connected to the inner part of the guide groove (8) in a sliding mode, the stop block (9) is fixed on the annular groove of the limiting frame (7), the height of the guide groove (8) is smaller than that of the extending frame (6), and the stop block (9) is close to the bottom end of the limiting frame (7);

two storage grooves (12) are symmetrically formed in the surface of the material injection opening (11), the storage grooves (12) are square grooves, the sealing plate (13) is square plate-shaped, the sealing plate (13) is movably inserted into the storage grooves (12), one end of the sealing plate (13) extending out of the storage grooves (12) is fixedly provided with a rubber sealing sheet (14), one end top surface of the sealing plate (13) extending into the storage grooves (12) is fixedly provided with a traction block (15), the top surface of the traction block (15) is provided with a first inclined surface, the outer wall of the limiting frame (7) is fixedly provided with a push block (16), the push block (16) is in a right-angle trapezoidal plate, the inclined surface of the push block (16) faces the traction block (15), the surface of the traction block (15) is provided with a first through hole (17), a limiting column (18) is movably inserted into the first through hole (17), the limiting column (18) is fixed between two parallel side walls of the sliding groove (54), the sliding groove (54) is formed in the top surface of the floating plate (5), the sliding groove (54) is communicated with the storage grooves (12), the traction block (15) is slidingly connected in the sliding groove (54), the sliding block (16) is arranged on the sliding groove (54), the upper end of the sliding block (18) is provided with a spring (19), the other end of the spring (19) is fixed on the spring (19) and the spring (19) is fixed on the other end of the spring (19), the spring groove (20) is formed on the surface of the sliding groove (54), and the spring groove (20) is an annular groove;

the side wall of the floating plate (5) is provided with embedded grooves I (29), the embedded grooves I (29) are annular grooves, the embedded grooves I (29) are provided with two embedded grooves I (29) which are vertically arranged and distributed, a sealing ring I (30) is fixed in the embedded grooves I (29), the sealing ring I (30) is of an annular plate-shaped structure, the sealing ring I (30) protrudes out of the embedded grooves I (29), one side of the sealing ring I (30) close to the inner wall of the inner tank body (1) is integrally provided with a plurality of rubber scraping rings, the surface of the floating plate (5) is symmetrically provided with two mounting ports (31), and the insides of the two mounting ports (31) are respectively fixed with a gas-liquid separation exhaust valve (32) and a one-way air inlet valve (33);

the surface of the floating plate (5) is provided with a through hole (34), the food-grade heat-conducting stainless steel ice-loading barrel (35) is movably inserted into the through hole (34), the food-grade heat-conducting stainless steel ice-loading barrel (35) is an inverted concave circular tube, the surface of the food-grade heat-conducting stainless steel ice-loading barrel (35) is provided with an ice storage groove, the ice storage groove is an inverted concave ring groove, the bottom surface of the food-grade heat-conducting stainless steel ice-loading barrel (35) is provided with an embedded groove II (38), the embedded groove II (38) is an annular groove, the surface of the embedded groove II (38) is fixedly provided with a sealing ring II (39), the sealing ring II (39) is of an annular plate structure, the sealing ring II (39) is clamped between the embedded groove II (38) and the vertical tube (36) to generate elastic deformation, and the bottom end of the vertical tube (36) is fixedly provided with an air valve (37), and the air valve (37) penetrates through the bottom plates of the inner tank body (1), the outer tank body (2) and the heat insulation interlayer (3).

2. A refrigerated mare's milk transportation tank as claimed in claim 1 wherein: the surface fixing of annotating material mouth (11) is equipped with annotates hopper (21), annotates the top that hopper (21) are in storage tank (12), and when the inclined plane of traction block (15) one contact push block (16) inclined plane, the top surface of annotating hopper (21) and the top surface of inner tank body (1) flush.

3. A refrigerated mare's milk transportation tank as claimed in claim 1 wherein: the utility model discloses a feeding device, including annotating material mouth (11), annotate material mouth (11), the surface symmetry of material mouth (11) is fixed with two pull rings (22), the surface bolt of pull ring (22) has haulage rope (23), the one end winding of haulage rope (23) is on rolling cover (24), rolling cover (24) are "worker" font pipe, rolling cover (24) cover is established on spacing axle (25), spacing axle (25) are "T" font round bar, the height of spacing axle (25) is greater than the height of rolling cover (24), the top surface of interior jar body (1) is fixed with link (26), link (26) are "" font platy structure, the top surface spiro union of link (26) has clamping screw (27), the bottom surface of clamping screw (27) is fixed with briquetting (28), the bottom surface of briquetting (28) is fixed with the rubber sheet, haulage rope (23) centre gripping is between the bottom surface of briquetting (28) and the top surface of interior jar body (1).

4. A refrigerated mare's milk transportation tank as claimed in claim 1 wherein: the outer ring surface of lap joint ring (40) is equipped with the external screw thread, the inner ring surface of spiro union ring (41) is equipped with the internal screw thread, internal screw thread and external screw thread cooperation are connected, draw-in groove (44) have been seted up on the lateral wall of closing cap (42) being the "protruding" font plectane of inversion, draw-in groove (44) are the ring channel, the inside grafting of draw-in groove (44) has rubber circle one (45), the surface at food-grade heat conduction stainless steel ice-packing section of thick bamboo (35) is fixed to rubber circle one (45), the catching groove has been seted up to the bottom surface of closing cap (42), the inside of catching groove is fixed with heat preservation cotton cover (43), pack the inside at food-grade heat conduction stainless steel ice-packing section of thick bamboo (35) after heat preservation cotton cover (43) outstanding catching groove.

5. A refrigerated mare's milk transportation tank as claimed in claim 1 wherein: the top surface of lap joint (40) is fixed with handle (46), handle (46) are the U font platy structure of inversion, two parallel distribution's of handle (46) curb plates are about lap joint (40) inner ring mouth symmetric distribution, the bore of taking mouth (47) is greater than lap joint (40) external diameter, apron (48) are "protruding" platy structure, the surface mounting of apron (48) has rubber circle two (49), rubber circle two (49) centre gripping is between apron (48) and taking mouth (47), and opening two (50) have been seted up on the surface of apron (48), opening two (50) are long round mouth, the both ends of opening two (50) all are equipped with the finger groove, the finger groove is the round hole.

6. A refrigerated mare's milk transportation tank as claimed in claim 1 wherein: the top surface of the inner tank body (1) is fixed with a plurality of connecting columns (51), the top surfaces of the connecting columns (51) are all fixed on the bottom surface of the lifting ring (52), and the bottom surface of the inner tank body (1) is fixed with a plurality of supporting legs (53).