CN218784529U - Move and carry mechanism suitable for take carrier pot of decocting medicinal herbs - Google Patents

Abstract

The utility model relates to a transfer mechanism suitable for a drug-decocting pot with a carrier, which comprises a drug-decocting pot and a transfer device, wherein the drug-decocting pot comprises a conveying carrier and a container connected with the conveying carrier, and the container is used for holding traditional Chinese medicine decoction pieces to be decocted; the transfer device includes: the transfer device part is connected with the medicine decocting pot and is used for being connected with the conveying carrier; the lifting mechanism of the transfer device part is used for driving the lifting mechanism of the drug-decocting pot of the transfer device part to lift; and the transfer device part longitudinal translation mechanism is used for driving the transfer device part decoction pot connecting mechanism to perform longitudinal translation. The utility model discloses a first purpose aims at providing one kind and can carry out the year mechanism that carries that is applicable to of taking the carrier to fry in shallow oil pot that shifts between assembly line and decocte stove harmlessly when frying in shallow oil pot container for thin-walled structure, has solved the automatic water production in-process of traditional chinese medicine decoction and has fried in shallow oil the problem of the easy damage of pot container when shifting the pot of decocting in shallow oil between the stove of the assembly line.

Description

Transfer mechanism suitable for drug decocting pot with carrier

Technical Field

The utility model relates to a traditional chinese medicine production technical field especially relates to a move and carry mechanism suitable for take carrier pot of decocting medicinal herbs.

Background

The decoction is suitable for treatment based on syndrome differentiation in traditional Chinese medicine, and the principle of addition and subtraction according to symptoms. Besides the characteristics of simple and easy preparation, wide solvent source, no irritation and side effect, etc., the liquid preparation has the advantages of quick absorption and quick drug action. Decoction is the most widely used preparation form in clinic.

In the early development stage of traditional Chinese medicine, the decocting utensil is mostly a diet utensil. In ancient times, the pottery medicine decocting utensil is used more because the raw materials are easy to obtain and the manufacturing cost is low. Meanwhile, the pottery utensil has stable chemical property and is always the main utensil for decocting the medicinal herbs.

With the advancement of times development and urbanization, the limitation of individual home-returning decoction by various factors gradually becomes a burden, and traditional Chinese medicine decoction services are developed everywhere. Because the traditional Chinese medicine decoction is dialectical treatment, one person can take the decoction, and a large amount of production depends on manual work. The traditional decocting machine mostly adopts a cloth bag to wrap and decoct, and because of the insolubility of the wrapped and decocted materials, and extrusion and solid-liquid separation after decoction, part of insoluble particles enter the liquid medicine, thereby seriously affecting the quality of the traditional Chinese medicine decoction; the effective parts of the decoction pieces are difficult to be dissolved to influence the curative effect by adopting the cloth bag to wrap, soak and decoct. The large-scale decocting center urgently needs to introduce intelligent decocting equipment following the traditional decocting process so as to meet the increasing requirements of residents for decoction and high-quality decocting service, improve the decocting quality and management level and promote the high-quality development of the decocting industry.

The intelligent medicine decocting equipment follows the traditional medicine decocting process and urgently needs to solve the problems that: the medicine decocting pot can conveniently filter without gauze wrapping when medicine is decocted, and is designed to be composed of an inner container and an outer container, and the inner container can filter. The prior medicine decocting pot which consists of an inner container and an outer container and can be filtered is inserted into the following defects: when decocting medicinal herbs through heating outer container diapire, receive the interference of inner container diapire, patency when producing the convection boiling is poor to lead to the heating efficiency low: when decocting, the liquid between the inner and outer containers is easy to overflow. In addition, in the process of automatically making traditional Chinese medicine decoction in flowing water, the decocting pot needs to be transferred from the production line to the decocting furnace, the solid-liquid separation equipment and the like, the existing equipment and the decocting pot cannot be matched with each other to transfer, the traditional Chinese medicine decocting pot can be transferred only in a clamping manner, the decocting pot is easily damaged in the clamping transfer manner, the strength requirement on the decocting pot is high, and otherwise the decocting pot (container part) is shriveled to cause that the cover cannot cover the decocting pot.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a first purpose aims at providing one kind and can carry out the year mechanism that carries that is applicable to of taking the carrier to fry in shallow oil pot that shifts between assembly line and decocte stove harmlessly when frying in shallow oil pot container for thin-walled structure, has solved the automatic water production in-process of traditional chinese medicine decoction and has fried in shallow oil the problem of the easy damage of pot container when shifting the pot of decocting in shallow oil between the stove of the assembly line.

The utility model discloses a second purpose aims at further providing one kind and can guarantee the unobstructed transplanting mechanism that is applicable to of taking the carrier pot of decocting medicinal herbs of boiling convection under carrying out filterable state through the inner container diapire, and the problem that heating efficiency is low when realizing filterable pot of decocting medicinal herbs through interior outer container when having solved current traditional chinese medicine decoction decocte.

The third purpose of the utility model aims at further providing a liquid medicine is suitable for and takes the carrier to fry in shallow oil the mechanism that moves of pot that is applicable to that overflows between the inside and outside container when can preventing to fry in shallow oil, has solved the problem that the liquid medicine spills over easily between the inside and outside container when frying in shallow oil through inside and outside container structure's the pot of decocting in shallow oil of current traditional chinese medicine decoction.

The technical problem is solved by the following technical scheme: a transfer mechanism suitable for a drug-decocting pot with a carrier comprises a drug-decocting pot and a transfer device, wherein the drug-decocting pot comprises a conveying carrier and a container connected to the conveying carrier, and the container is used for containing traditional Chinese medicine decoction pieces to be decocted; the transfer device includes: the transfer device part is connected with the medicine decocting pot and is used for being connected with the conveying carrier; the lifting mechanism of the transfer device part is used for driving the lifting mechanism of the drug-decocting pot of the transfer device part to lift; and the transfer device part longitudinal translation mechanism is used for driving the transfer device part decoction pot connecting mechanism to perform longitudinal translation. This technical scheme is through setting up the transport carrier on the pot of decocting medicinal herbs at container structure, thereby can two-dimensional motion move the device that moves and connect and carry the carrier and realize holding up the container and shift to when making the pot of decocting medicinal herbs shift between assembly line and the stove of decocting medicinal herbs, solid-liquid separation equipment etc. of decocting medicinal herbs, can not act on the container, make the container be difficult to damage the deformation and lead to follow-up lid not to go up and influence the medicine of decocting medicinal herbs.

Preferably, the transfer device unit longitudinal translation mechanism is connected to the transfer device unit elevation mechanism, and the transfer device unit longitudinal translation mechanism is capable of translating toward both sides of the transfer device unit elevation mechanism. Can make equipment overall arrangement such as stove of decocting medicinal herbs when the assembly line both sides, the utility model discloses can realize again that the pot of decocting medicinal herbs shifts between this equipment and assembly line.

Preferably, the transfer device further comprises a transfer device part transverse translation mechanism for driving the transfer device part decoction pot connecting mechanism to transversely translate. Can be transferred along more than one transverse direction (the conveying direction of the production line) when the medicine decocting pot and the like are arranged.

Preferably, the transfer device section elevation mechanism is connected to the transfer device section lateral translation mechanism. The stability of the transfer device can be improved.

Preferably, the transverse translation mechanism of the transfer device part comprises a transverse guide rail, a walking member supported on the transverse guide rail and a power mechanism driving the walking member to move on the transverse guide rail, and the walking member and the power mechanism are both connected with the lifting mechanism of the transfer device part.

Preferably, the conveying carrier comprises two suspension structures distributed on two sides of the container in the horizontal direction, the transfer device part decocting pot connecting mechanism comprises two supporting parts, and the two supporting parts correspondingly support the two suspension structures one by one to connect the decocting pot to the transfer device part decocting pot connecting mechanism. The conveying carrier and the transfer device are connected in a two-side suspension mode, so that the overturning is less prone to occurring compared with a ground support mode, and safety and reliability are good.

Preferably, when the longitudinal translation mechanism of the transfer device part drives the decocting pot to move to be staggered with the lifting mechanism of the transfer device part along the longitudinal direction, the bottom surface of the conveying carrier is downward beyond the part, aligned with the decocting pot, of the longitudinal translation mechanism of the transfer device part along the vertical direction. Without other equipment, the utility model can transfer the medicine decocting pot to the medicine decocting furnace, etc.

Preferably, the suspension structure comprises a vertical connecting plate with the lower end connected to the bracket and a suspension plate connected to the vertical connecting plate, and the part of the suspension plate, which is matched with the supporting part, is positioned on one side of the vertical connecting plate, which is far away from the container. The suspension structure can play a role in protecting the container, and the container is prevented from being damaged when the conveying carrier is connected with the transferring device.

Preferably, the conveying carrier comprises a bracket for bearing the container and a drug-decocting pot positioning structure arranged on the bracket, wherein the range of the container moving on the bracket along the horizontal direction is limited within a set range, the bracket is provided with a bracket part heating through hole, and the bottom wall of the drug-decocting pot is aligned with the bracket part heating through hole when the drug-decocting pot is placed on the bracket and is fixed by the drug-decocting pot positioning structure. The container and the conveying carrier can not move in the transferring process, and the container and the conveying carrier can be conveniently separated so as to meet the requirements of subsequent operations such as cleaning the container independently.

Preferably, the container comprises an outer container, an inner container and a lid; the inner container is provided with an inner container part container opening, the upper end of the outer container is provided with an outer container part container opening, the inner container can be arranged in the outer container in a penetrating mode through the outer container part container opening in a taking-out mode, the cover is used for covering the inner container part container opening, the bottom wall of the inner container is provided with a bottom wall part through hole, and the bottom wall part through hole comprises a first through hole and a second through hole; when the through hole of the bottom wall part is a circular hole, the diameter of the through hole of the bottom wall part is 0.1-4mm; when the through hole of the bottom wall part is a long hole, the width of the through hole of the bottom wall part is 0.1-4mm. An opening area of the first through hole and an opening area of the second through hole are both larger than one another. When in use, the Chinese herbal pieces and water are poured into the inner container, and then the utility model is placed on a heat source (such as an induction cooker) to be heated to realize the decoction. After the decoction is finished, the inner container and the outer container are separated, and then the solid-liquid separation of the decoction and the dregs is realized by filtering through the through holes on the bottom wall part. According to the technical scheme, the thoroughness of filtering can be guaranteed, and the heating convection boiling effect can be smoother, so that the effect of improving the heating efficiency is achieved. The second utility model purpose is realized.

Preferably, the opening shape of the first through hole is different from the opening shape of the second through hole. The boiling effect can be improved.

Preferably, the circumference of the opening of the first through hole is larger than the circumference of the opening of the second through hole. The boiling effect can be improved.

Preferably, an outer cavity is formed between the inner container and the outer container, and a plurality of defoaming through holes which are distributed along the circumferential direction of the inner container and are communicated with the inner space of the outer cavity and the inner container are arranged at the upper part of the side wall of the inner container; when decocting, the Chinese herbal pieces are positioned in the inner container, the liquid is positioned in the inner container and the outer container, and the liquid level in the inner container is lower than the defoaming through hole. In the process that foam generated in the outer cavity moves upwards along the wall of the container during decoction, when the foam reaches the defoaming through hole, the foam is broken and enters the inner container, so that the function of preventing the medicine from overflowing from the outer cavity during decoction is achieved. The outer cavity is formed, and the energy efficiency ratio during decoction can be improved. The purpose of the third utility model is realized.

Preferably, the outer peripheral surface of the inner container is provided with an annular groove extending along the circumferential direction of the inner container, and the defoaming through hole is arranged in the annular groove. The liquid medicine that can the drainage shifts up gets into the defoaming through-hole, plays the effect that improves and prevent the medicine to spill out the exocoel.

Preferably, the inner container has an annular protrusion extending along the circumferential direction of the inner container at a portion corresponding to the annular groove, and the defoaming through hole is formed in the annular protrusion. Can make the inner container can form annular groove again when being thin wall construction, can the annular bulge of shaping in the time of shaping annular groove and defoaming through-hole.

Preferably, the upper end of the outer chamber communicates with the external space of the outer container through a passageway.

Preferably, the open end of the inner container is provided with a flanging, the periphery of the flanging extends out of the container opening of the outer container part to be shielded at the upper end of the outer cavity, and the passage is formed between the flanging and the upper end face of the outer container; or

The peripheral edge of the lid projects outside the mouth of the outer container portion and is shielded at the upper end of the outer chamber, the passageway being formed between the lid and the upper end face of the outer container.

The pressure limiting function can be achieved, and the reliability of anti-overflow is guaranteed.

Preferably, the outer cavity surrounds the inner container at an angle of 180 ° or more. The energy efficiency ratio is good, and the optimal proposal is that the angle of the outer cavity surrounding the inner container is 360 degrees.

Preferably, a lower cavity is enclosed between the part of the inner container located below the inner container step and the outer container, an upper cavity is enclosed between the part of the inner container located above the inner container step and the outer container, and the lower cavity and the upper cavity form the outer cavity. The outer container bottom wall can be conveniently made into a thin-wall structure, so that the heat exchange efficiency during decoction through heating the outer container bottom wall in the decoction process is improved.

Preferably, a lower cavity is enclosed between the part of the inner container, which is positioned below the inner container step, and the outer container, an upper cavity is enclosed between the part of the inner container, which is positioned above the inner container step, and the outer container, the lower cavity and the upper cavity form the outer cavity, and the filtering hole is positioned in the lower cavity. The heat utilization rate and the heating efficiency can be improved.

Preferably, the inner container step and the outer container step are in conical surface fit and abut together, and the upper end of the cone where the conical surface is located is larger than the lower end of the cone where the conical surface is located. The angle of the outer cavity surrounding the inner container can be conveniently ensured to be in a set range.

Preferably, the width of the outer chamber between the inner and outer container peripheral walls is 0.5-5 mm. The effective space of the decocting pot is increased on the premise of ensuring the anti-overflow, the inner space of the outer container is the total space of the decocting pot, and the inner space of the inner container is the effective space of the decocting pot.

Preferably, the inner container side wall is provided with a plurality of side wall through holes at the part below the inner container step. The effect that liquid descends and flows back to the lower cavity during boiling can be improved, and the heating efficiency is high.

Preferably, the outer container is movably connected with a movable support, the inner container is provided with a hanging part matched with the movable support, when the movable support is supported on the hanging part, the inner container is hung on the movable support, and the bottom wall of the inner container forms a gap with the bottom wall of the outer container. The height of the gap is 3-30cm. Carry out the filtering process, the inner container supports the inner container through movable support after mentioning and filters, and the structure that need not to mention the inner container acts on the inner container for a long time to it can be a plurality of to make one mention the structure the utility model discloses carry out the operation.

Preferably, the outer container is provided with an outer container portion lower support portion by which the outer container stands upright with the outer container portion container mouth facing upward when supported on a horizontal plane, the outer container is provided with an outer container portion upper support portion by which the outer container stands upright with the outer container portion container mouth facing downward when supported on a horizontal plane; the inner container is provided with an inner container lower support portion, and the inner container is erected with the container mouth of the inner container portion facing upward when the inner container is supported on a horizontal surface by the inner container lower support portion. Can conveniently carry out the cleaning in a forward and backward state when cleaning the inner container and the outer container.

Preferably, the outer container bottom lower support is provided on an outer surface of a bottom wall of the outer container, the outer container bottom upper support is provided on an upper end surface of the outer container, and the outer container mouth is provided on an upper end surface of the outer container; the lower supporting part of the bottom of the inner container is arranged on the outer surface of the bottom wall of the inner container, the upper supporting part of the bottom of the inner container is arranged on the upper end surface of the inner container, and the container opening of the inner container is arranged on the upper end surface of the inner container. The structure is compact.

The utility model has the following beneficial effects: the separation of the decoction and the decoction dregs can be realized by lifting the inner container for filtering, the decoction by gauze wrapping is avoided, and the traditional decoction process is followed, so that the drug effect is ensured; the overflow from the outer cavity can be prevented when decocting the medicine, and the heating efficiency is high; the formation of the outer cavity can play a role in heat preservation, and the heat utilization rate is high; the thoroughness during filtering can be kept, and the heat exchange efficiency during heating with an outer pot can be ensured (if the inner container bottom wall is used for heating, the problem of boiling interference can be avoided); can shift the pot of decocting medicinal herbs between equipment such as assembly line and the stove of decocting medicinal herbs, also can not produce damage and deformation when shifting in-process container for thin wall structure.

Drawings

Fig. 1 is a schematic view of a transfer device according to the present invention;

FIG. 2 is a schematic view of a drug-decocting pot;

FIG. 3 is a schematic cross-sectional view of the container;

FIG. 4 is an enlarged partial schematic view at A of FIG. 3;

fig. 5 is a partially enlarged schematic view at B of fig. 3;

FIG. 6 is a schematic top view of one embodiment of the bottom wall of the inner container;

fig. 7 is a schematic top view of another embodiment of the bottom wall of the inner container.

In the figure: outer container 1, inner container 2, lid 3, outer container part outside bead 4, upper chamber 5, movable support 6, lower chamber 7, outer container side wall 8, outer container bottom wall 9, outer container part inside bead 10, bottom wall lower layer 11, bottom wall upper layer 12, press ring 13, bottom wall connecting screw 14, threaded blind hole 15, first seal ring 16, second seal ring 17, seal chamber 18, bracket 19, inner container side wall 28, inner container bottom wall 29, inner container part inside bead 30, outside bead 31, inner container part outside bead 32, limit groove 33, limit ring 35, outer container part step 36, inner container part step 37, side wall part through hole 38, annular projection 39, annular groove 40, defoaming through hole 41, rivet 42, reinforcing collar 43, channel 44, first through hole 45, second through hole 46, first annular imperforate region 47, second annular imperforate region 48, third through hole 49, fourth through hole 50, third annular imperforate region 51, fourth annular imperforate region 52, limit stop 53, vertical connecting plate 55, suspension plate 56, large diameter outer container part section 57, small diameter section outside bead 58, outer container part frame 60, bump guard 16, third through hole 50, third annular recess 40, and rivet hole,

The container 62, the transfer device part decoction pot connecting mechanism 63, the vertical frame 69, the lifting frame 70, the longitudinal slide rail 72, the conveying carrier 79, the hanging structure 80, the transverse guide rail 81 and the walking piece 82.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1 to 5, a transfer mechanism suitable for a drug-decocting pot with a carrier comprises a drug-decocting pot and a transfer device, wherein the drug-decocting pot comprises a conveying carrier 79 and a container 62 connected to the conveying carrier. The container is used for holding the traditional Chinese medicine decoction pieces for decoction.

The conveying carrier comprises a bracket 19 for bearing the container and a medicine decocting pot positioning structure which is arranged on the bracket and limits the range of the container moving on the bracket along the horizontal direction within a set range. The positioning structure of the medicine decocting pot comprises a plurality of limit stops 53 arranged on the bracket, the limit stops enclose a container storage area on the bracket, and when the container is placed in the container storage area, the limit stops surround the medicine decocting pot so that the range of the container moving on the bracket along the horizontal direction is kept within a set range. The bracket is provided with a bracket part heating through hole with a large lower end and a small upper end, and the bottom wall of the container is aligned with the bracket part heating through hole when the container is placed on the bracket and is fixed by the positioning structure of the medicine decocting pot. When in use, the medicine decocting furnace (an electromagnetic oven or an electric heating oven) protrudes to penetrate into the heating through hole of the bracket part according to the table top of the bracket body of the medicine decocting furnace and supports the bracket. Still be equipped with two suspended structure 80 that distribute in the both sides of decocting medicinal herbs pot location structure horizontal direction on the bracket, suspended structure is used for putting the container on the bracket and is lifted up the mechanism (for moving the device portion of carrying the device that moves of the utility model decocting medicinal herbs pot coupling mechanism) with the bracket together with the state of erectting to lift up the bracket on lifting up the mechanism. The suspension structure comprises a vertical connection plate 55 connected at its lower end to the bracket and a suspension plate 56 connected to the vertical connection plate. The container comprises an outer container 1, an inner container 2 and a lid 3. The outer container comprises a large-diameter section 57 and a small-diameter section 58 which are arranged from top to bottom in sequence, and an outer container external step 59 positioned outside the outer container and an inner container internal step 36 positioned inside the outer container are formed between the large-diameter section and the small-diameter section. The positioning structure of the medicine decocting pot is positioned below the outer step of the medicine decocting pot. The medicine decocting pot positioning structure is provided with an anti-collision frame 60 which extends out of the large-diameter section along the horizontal direction, and the anti-collision frame is used for isolating the medicine decocting pot from the lifting mechanism when the bracket is hung on the lifting mechanism through the hanging structure. The anti-collision frame is formed by bending a limit stop block towards a medicine decocting pot storage area far away from the medicine decocting pot storage area.

The transfer device comprises a transfer device part decoction pot connecting mechanism 63 (such as a mechanical arm and a holding clamp, in the embodiment, two suspension rods) for connecting the conveying carriers, and the method for connecting the transfer device part with the conveying carriers is to support suspension plates of two suspension structures 80 at two sides of the conveying carriers 79, so that the decoction pots and the conveying carriers can move to the longitudinal outer side of the transfer device part lifting mechanism; the lifting mechanism of the transfer device part is used for driving the lifting of the connecting mechanism of the drug-decocting pot of the transfer device part, and comprises a vertical frame 69, a lifting frame 70 connected on the vertical frame in a sliding way and a lifter for driving the lifting frame to lift; the transfer device part longitudinal translation mechanism is used for driving the transfer device part decoction pot connecting mechanism to longitudinally move and comprises fixed longitudinal slide rails 72 and a longitudinal driving structure which are fixed on the lifting frame, the suspension rods are slidably connected to the two fixed longitudinal slide rails in a one-to-one correspondence mode, and the longitudinal driving structure is used for driving the suspension rods to longitudinally move on the movable longitudinal slide rails. The longitudinal driving structure can be a cylinder extension and retraction. The longitudinal translation mechanism of the transfer device part can move to the extension lifting frame along the longitudinal two sides. The transfer device further comprises a transfer device part transverse translation mechanism which is used for driving the transfer device part decoction pot connecting mechanism to transversely move, in particular to drive the vertical frame to transversely move, and the transfer device part transverse translation mechanism comprises two transverse guide rails 81, a walking piece 82 (in particular to a train wheel) supported on the transverse guide rails and a power mechanism for driving the walking piece to move on the transverse guide rails. The walking part and the power mechanism are connected with the lifting mechanism of the transfer device part (specifically connected to the lower end of the vertical frame). When the longitudinal translation mechanism of the transfer device part drives the drug-decocting pot to move to be staggered with the lifting mechanism of the transfer device part along the longitudinal direction, the bottom surface of the conveying carrier downwards exceeds the part of the longitudinal translation mechanism of the transfer device part, which is aligned with the drug-decocting pot along the vertical direction, so that the drug-decocting pot can be placed on a drug-decocting furnace and the like through the descending of the lifting mechanism of the transfer device part, and can be lifted from the drug-decocting furnace through the ascending.

The container comprises an outer container 1, an inner container 2 and a lid 3. The upper end of the outer container is opened to form a container opening of the outer container part. The upper end of the outer container is provided with an outer container part outer flange 4. The turning angle of the outer turned edge of the outer container portion is 270 degrees, the strength and the manufacturing convenience are both considered, and the cleaning is convenient. The upper end portion of the outer container is positioned on a plane to form an upper supporting portion of the outer container, and the outer container stands upright with the container mouth of the outer container facing downward when the outer container is supported on a horizontal plane by the upper supporting portion of the outer container. The outer container is movably connected with two movable brackets 6 which are symmetrically distributed at two sides of the outer container, and specifically, the movable brackets are hinged on the outer peripheral surface of the outer container through horizontal hinges. The outer surface of the bottom wall of the outer container is designed to be a plane to form an outer container part lower support part, and when the outer container is supported on a horizontal plane through the outer container part lower support part, the outer container stands upright with the outer container part container opening facing upwards.

The outer container comprises a circular tubular outer container side wall 8 and an outer container bottom wall 9 closing the lower end of the outer container side wall. The lower end of the outer container side wall is provided with an outer container part inner flanging 10. The bottom wall of the outer pot comprises a bottom wall lower layer 11 and a bottom wall upper layer 12. The bottom wall lower layer 11 and the bottom wall upper layer are both made of heat-conducting materials. The upper layer of the bottom wall is pressed on the inner flanging of the outer container part through the pressing ring 13, and the bottom wall connecting screw 14 penetrates through the lower layer of the bottom wall, the outer flanging of the outer container part and the upper layer of the bottom wall and is connected in the threaded blind hole 15 on the pressing ring in a threaded mode, so that the bottom wall of the outer container and the outer container are fixed together. The pressing ring is connected with the inner circumferential surface of the outer container side wall in a sealing mode through a first sealing ring 16, and the pressing ring is connected with the upper layer of the bottom wall in a sealing mode through a second sealing ring 17, so that the outer container side wall and the outer container bottom wall are connected in a sealing mode. The lower layer of the bottom wall of the outer container, the flanging of the outer container part and the upper layer of the bottom wall form a sealed cavity 18, and heat-conducting gas with the introduced pressure greater than 2 atmospheric pressures is filled in the sealed cavity to increase the heat-conducting efficiency in use.

The inner container comprises a circular tube shaped inner container side wall 28 and an inner container bottom wall 29 closing the lower end of the inner container side wall. The lower end of the side wall of the inner container is provided with an inner container part inner flanging 30. The upper end of the side wall of the inner container is opened to form a container opening of the inner container part. The inner container can be inserted into the outer container through the container opening of the outer container part in a removable way. The open end of the inner container is provided with a flange 31. The outward flange forms a hanging part matched with the movable support. When the movable support is supported on the suspension part, the inner container is suspended on the movable support, and the bottom wall of the inner container and the bottom wall of the outer container form a gap with the height of 3-30cm. The outer edge of the outer flange is provided with an inner container part outer flange 32. The rolling angle of the outer edge of the inner container part is more than 335 degrees, so that the interference with the movable bracket can be avoided. The outer turned edge of the inner container part, the outer turned edge and the side wall of the inner container enclose a limiting groove 33, so that the movable support can be reliably prevented from falling off in the process of being hung on the movable support. The upper end portion of the inner container is located on a plane to form an inner container portion upper supporting portion, and when the inner container is supported on a horizontal plane by the inner container portion upper supporting portion, the inner container stands upright with a container mouth of the outer container portion facing downward. The outer surface of the bottom wall of the inner container is designed to be a plane to form an inner container part lower supporting part, and when the inner container is supported on a horizontal plane through the inner container part lower supporting part, the inner container stands upright in a mode that the container opening of the inner container part faces upwards.

The cover can be separately supported on the inner container to seal the container opening of the inner container part, and the traditional Chinese medicine decoction pieces are only positioned in the inner container during decoction. The periphery of the flanging extends out of the container opening of the outer container part to shield the container opening of the outer container part. A channel 44 is formed between the flange and the upper end face of the outer container. The lid is provided with a downwardly projecting retaining ring 35 extending circumferentially along the inner container, the retaining ring being located within the inner container for retaining the lid against movement. An outer container step 36 is arranged on the inner peripheral surface of the outer container, and an inner container step 37 is arranged on the outer peripheral surface of the inner container; the inner container is supported within the outer container by the inner container step resting on the outer container step when the inner container is placed inside the outer container, with the lower chamber 7 and the upper chamber 5 being formed between the inner container and the outer container. The inner and upper chambers form an outer chamber which communicates with the outer space of the outer container via a passageway 44 so that the gas pressure is vented in a downward manner to prevent over-pressurization. The outer cavity surrounds the inner container by 360 degrees, and the width of the upper cavity (namely the size along the radial direction of the medicine decocting pot) is 0.5-5 mm. The side wall of the part of the inner container side wall forming the lower cavity is provided with a side wall part through hole 38. The inner container portion stepped seal and outer container portion stepped taper cooperate to prevent radial movement of the inner container within the outer container such that the lower and upper chambers are unable to surround the inner container. The upper part of the inner peripheral surface of the inner container is provided with an annular bulge 39 extending along the circumferential direction of the inner container, and the part of the outer peripheral surface of the inner container corresponding to the annular bulge is provided with an annular groove 40 extending along the circumferential direction of the inner container. A defoaming through hole 41 penetrating through the inner container is arranged in the annular groove. The defoaming through hole is positioned in the upper cavity. The upper portion of the inner peripheral surface of the inner container is provided with a reinforcing convex ring 43 extending along the circumferential direction of the inner container. The inner container bottom wall is riveted to the inner container portion inside flange by rivets 42. The opening area of the defoaming through holes is 3-50 square millimeters, the sum of the opening areas of all the defoaming through holes is 1.5 per thousand to 1 per cent of the area of the outer peripheral surface of the inner container, and the size proportional relation can ensure that when the power of the decocting furnace is below 4 kilowatts for decocting, the inner container has enough internal pressure for decocting and can effectively prevent the liquid medicine from overflowing from the channel. The inner container in this embodiment has an outer diameter of 100 to 400 mm and a height of 100 to 400 mm.

The present embodiment provides a channel between the external flange of the inner container and the upper end of the outer container, but it is also possible to provide a channel between the lid and the upper end surface of the outer container, such that the peripheral edge of the lid protrudes outside the mouth of the outer container to shield the upper end of the outer container.

Referring to fig. 6, the bottom wall of the inner container is provided with a bottom wall portion through hole. The bottom wall portion through-holes include a first through-hole 45 and a second through-hole 46. The second through hole is arranged at the central part of the bottom wall of the inner container. The first through hole is a round hole. When the through hole of the bottom wall part is a round hole, the diameter of the second through hole of the bottom wall is 0.1-4mm. The first through hole is a long hole, in particular a kidney-shaped hole. The first through holes surround the peripheries of all the second through holes. The first through hole has many circles, and the first through hole in the same circle of first through hole is distributed along the circumference of inner container. The first through hole extends in a radial direction of the inner container. The inner container bottom wall is also provided with a first annular hole-free area 47 extending along the circumferential direction of the inner container in the area of the first through hole. The part of the bottom wall of the inner container between the first through hole and the second through hole is provided with a second annular hole-free area 48 extending along the circumferential direction of the inner container, and the width of the first through hole is 0.1-4mm. The opening area of the second through hole is smaller than that of the first through hole. The perimeter of the opening of the first via is greater than the perimeter of the opening of the second via.

Referring to fig. 7, in another embodiment, the bottom wall of the inner container is further provided with a third through hole 49 and a fourth through hole 50. The third through holes are round holes surrounding the outer parts of all the first through holes, and the fourth through holes are round holes surrounding the periphery of all the third through holes. The diameter of the third through hole and the aperture of the fourth through hole are both 0.1-4mm, the aperture of the third through hole is smaller than that of the second through hole, and the aperture of the fourth through hole is larger than that of the second through hole. The fourth via hole is only one turn. The portion of the bottom wall of the inner container located between the third through hole and the fourth through hole is provided with a third annular non-perforated area 51 extending circumferentially of the inner container. The bottom wall of the inner container is also provided with a fourth annular imperforate section 52 extending circumferentially of the inner container and located peripherally of the fourth aperture. The first annular imperforate region is disposed in an area where the second through hole is located.

The utility model discloses well first through-hole, second through-hole, third through-hole and fourth through-hole are only for distinguishing different shapes and the hole of size, and the name exchanges also can, for example define the fourth as first, and first definition is the fourth.

Claims (10)

1. A transfer mechanism suitable for a drug-decocting pot with a carrier is characterized by further comprising a transfer device, wherein the drug-decocting pot comprises a conveying carrier and a container connected to the conveying carrier, and the container is used for containing traditional Chinese medicine decoction pieces to be decocted; the transfer device includes: the medicine decocting pot connecting mechanism of the transfer device part is used for connecting with the conveying carrier; the transfer device part lifting mechanism is used for driving the transfer device part medicine decocting pot connecting mechanism to lift; and the transfer device part longitudinal translation mechanism is used for driving the transfer device part decoction pot connecting mechanism to perform longitudinal translation.

2. The transfer mechanism of claim 1, wherein said transfer mechanism is connected to a transfer mechanism elevation mechanism, wherein said transfer mechanism longitudinal translation mechanism is capable of translating towards both sides of the transfer mechanism elevation mechanism.

3. The transfer mechanism for a drug-decocting pot with carrier of claim 1 or 2, wherein said transfer device further comprises a transfer device portion lateral translation mechanism for driving the transfer device portion drug-decocting pot connection mechanism to translate laterally.

4. The transfer mechanism of claim 3, wherein the transfer device elevation mechanism is coupled to the transfer device lateral translation mechanism.

5. The transfer mechanism of claim 4, wherein said lateral translation mechanism of said transfer unit comprises a lateral rail, a traveling member supported by said lateral rail, and a power mechanism for driving said traveling member to move along said lateral rail, wherein said traveling member and said power mechanism are connected to said lifting mechanism of said transfer unit.

6. The transfer mechanism of claim 1 or 2, wherein the conveying carrier comprises two hanging structures distributed on two sides of the container in the horizontal direction, and the transfer device-part-decocting pot connecting mechanism comprises two supporting parts, and the two supporting parts correspondingly support the two hanging structures in a one-to-one manner to connect the decocting pot to the transfer device-part-decocting pot connecting mechanism.

7. The transfer mechanism of claim 6, wherein the transfer device portion longitudinal translation mechanism moves the drug boiler longitudinally out of alignment with the transfer device portion longitudinal translation mechanism, such that the bottom surface of the transport carrier extends downwardly beyond the portion of the transfer device portion longitudinal translation mechanism that is vertically aligned with the drug boiler.

8. A transfer mechanism adapted to carry a boiler with a carrier, according to claim 6, wherein said suspension structure comprises a vertical connecting plate connected to the bracket at a lower end thereof, and a suspension plate connected to the vertical connecting plate, wherein a portion of the suspension plate cooperating with the supporting portion is located on a side of the vertical connecting plate away from the container.

9. The transfer mechanism for a drug-decocting pot with a carrier of claim 1 or 2, wherein the carrier comprises a bracket for carrying the container and a drug-decocting pot positioning structure disposed on the bracket for limiting the horizontal movement range of the container on the bracket within a predetermined range, the bracket is provided with a bracket portion heating through hole, and the bottom wall of the drug-decocting pot is aligned with the bracket portion heating through hole when the drug-decocting pot is placed on the bracket and fixed by the drug-decocting pot positioning structure.

10. A transfer mechanism suitable for use with a carrier boiler as claimed in claim 1 or 2, wherein the container comprises an outer container, an inner container and a lid; the inner container is provided with an inner container part container opening, the upper end of the outer container is provided with an outer container part container opening, the inner container can be arranged in the outer container in a penetrating mode through the outer container part container opening in a taking-out mode, the cover is used for covering the inner container part container opening, the bottom wall of the inner container is provided with a bottom wall part through hole, and the bottom wall part through hole comprises a first through hole and a second through hole; when the through hole of the bottom wall part is a round hole, the diameter of the through hole of the bottom wall part is 0.1-4mm; when the through hole of the bottom wall part is a long hole, the width of the through hole of the bottom wall part is 0.1-4mm.

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