CN114651810B - Preserving device for biological infusion specimen - Google Patents

Abstract

The invention discloses a preservation device for biological infusion samples, which comprises an external cylindrical internal elliptical hollow cylinder, wherein the top of the external cylindrical internal elliptical hollow cylinder is connected with a filtrate input assembly; a slope groove which is obliquely and downwards arranged relative to the axis of the outer cylindrical inward directed circular hollow cylinder body is formed at the bottom of the cylinder wall of the outer cylindrical inward directed circular hollow cylinder body, and an old liquid output assembly is installed at an outlet at the lowest position of the slope groove; an upper wall ceiling lamp groove extending along the axis direction of the outer cylindrical inward directed circular hollow cylinder body is mounted at the top of the cylinder wall of the outer cylindrical inward directed circular hollow cylinder body, and an LED lamp strip is embedded in the upper wall ceiling lamp groove; an oval-shaped hollow cylinder body with outer cylinders is internally provided with a supporting bed with double-X arc-shaped legs and U-shaped surfaces in a mode of contacting with the inner wall of the hollow cylinder body, and a specimen is placed on the supporting bed with the double-X arc-shaped legs. The invention has good sealing performance and lighting effect, saves emission and labor, is safe and convenient to use, and can preserve the immersed specimens of various organisms for a long time.

Description

Preserving device for biological infusion specimen

Technical Field

The invention belongs to the technical field of specimen display, and particularly relates to a biological infusion specimen storage device which is mainly suitable for storing various biological infusion specimens.

Background

The patent with application number 201711309758.3 discloses a preservation device for biological infusion specimens, which is applied by the applicant, and the device has the following problems after being used for 1 year: A. the curvature of the belly of the original lying cylinder is increased, fine cracks occur, and the like, so that the sealing performance of the original lying cylinder is reduced, and the potential safety hazard of cylinder explosion occurs; B. the use period of the preservation solution is shortened due to yellowing and turbidity caused by reduced sealing property; C. during liquid change, residual liquid cannot be completely pumped out, so that the quality of new liquid filled in is influenced; D. the specimen is easy to be rubbed and damaged when being taken out from the bracket for maintenance after liquid is pumped; E. when the new (old) liquid is replaced and the cloth is spread again, a great deal of labor and great labor intensity are required because the cylinder body cannot be moved; F. the spotlight on the solid wood cabinet influences the display effect and the like due to insufficient illumination of the immersed specimen in the jar.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a biological infusion specimen storage device which has the advantages of unique and simple structure, good sealing performance and lighting effect, emission reduction saving, efficiency improvement, labor saving, safe and convenient use and capability of storing infusion specimens of various organisms for a long time.

In order to achieve the purpose, the invention adopts the following technical measures:

the invention discloses a preservation device for biological infusion samples, which comprises a solid wood sample cabinet and a container assembly with flanges and arranged at two ends in the solid wood sample cabinet, wherein the container assembly with the flanges and arranged at two ends comprises a hollow cylinder body in an outer cylinder and an inner ellipse shape, and a left flange with a cover and a right flange with a cover, which are respectively positioned at two ends of the hollow cylinder body in the outer cylinder and the inner ellipse shape; the top of the outer cylindrical inner oval-shaped hollow cylinder body is connected with a filtrate input assembly which is used for filling filtrate into the outer cylindrical inner oval-shaped hollow cylinder body; the bottom of the cylinder wall of the outer cylindrical inner elliptical hollow cylinder body is provided with a slope groove which is obliquely and downwards arranged relative to the axis of the outer cylindrical inner elliptical hollow cylinder body, and an outlet at the lowest position of the slope groove is provided with an old liquid output assembly which is used for autonomously discharging the old liquid in the outer cylindrical inner elliptical hollow cylinder body to a movable external storage tank for preserving liquid without residue; an upper wall top lamp groove extending along the axis direction of the outer cylindrical inner oval hollow cylinder body is installed at the top of the cylinder wall of the outer cylindrical inner oval hollow cylinder body, and an LED lamp strip is embedded into the upper wall top lamp groove, so that light rays are transmitted into a solution in the outer cylindrical inner oval hollow cylinder body along the cylinder wall; a U-face support bed with double X-shaped arc legs is placed in the oval-shaped hollow cylinder body in the outer cylinder in a manner of contacting with the inner wall of the hollow cylinder body, and a specimen is placed on the U-face support bed with the double X-shaped arc legs.

Furthermore, the thickness of the oval-shaped hollow cylinder body in the outer cylinder gradually becomes thicker from the cylinder top to the cylinder bottom to the cylinder bellies on the left side and the right side respectively.

Furthermore, the U-surface support bed with the double X-shaped arc legs comprises an arc plate and support frames fixed on two sides of the bottom of the arc plate, each support frame is provided with two arc legs which are arranged separately, and the shape of the bottom of each arc leg is matched with the inner circumferential surface of the hollow cylinder body in the shape of an ellipse in the outer cylinder; the middle position of arc is equipped with the notch that the mid portion of being convenient for the sample passed to area of contact between increase sample and the arc.

Optionally, the old liquid output assembly includes an output pipe flange connected to an outlet of the slope groove, and a first belt pipe flange connected to the output pipe flange, a fourth stop valve is installed on a pipeline of the first belt pipe flange, and a first silicone rubber circular sealing ring is arranged between the output pipe flange and the first belt pipe flange.

Further, drilling holes in the cylinder wall of the hollow cylinder body with the outer cylinder and the inner oval shape, which is opposite to the outlet of the slope groove, for tapping inner threads, tapping outer threads at the pipe orifice of the output guide pipe flange, winding raw rubber belts, and screwing the outer threads into the cylinder wall until the outer threads are tight; installing a first belt pipe flange on an output pipe flange, padding a first silicon rubber circular sealing ring in the middle, and fastening the output pipe flange and the first belt pipe flange by using stainless steel bolts; tapping a bent pipe port of the first belt pipe flange, winding a raw adhesive tape, and screwing the fourth stop valve into the bent pipe port of the first belt pipe flange until the bent pipe port is tight; and screwing a straight pipe into the other end of the fourth stop valve, directly inserting the other end of the straight pipe into the left port of the first rubber mounting quick joint and tightly inserting the straight pipe into the right port of the first rubber mounting quick joint, inserting the straight pipe part of a bent pipe into the right port of the first rubber mounting quick joint and tightly inserting the straight pipe part of the bent pipe into the movable external storage tank for the preservation liquid in a suspended manner.

Optionally, the filtrate input assembly comprises an input pipe flange connected with the top of the hollow cylinder body in the shape of an ellipse in the outer cylinder, a second pipe flange connected with the input pipe flange, and a first stop valve, a second stop valve and a third stop valve which are sequentially installed on a pipeline of the second pipe flange, wherein a preservative solution filtering filter is installed on a pipeline between the second stop valve and the third stop valve, and a second silicon rubber circular sealing ring is arranged between the input pipe flange and the second pipe flange.

Further, drilling holes in the edge wall of the right upper top end of the hollow cylinder body in an oval shape in the outer cylinder to tap inner threads, tapping outer threads at the pipe orifice of the input guide pipe flange, winding a raw adhesive tape, and screwing the raw adhesive tape into the cylinder wall until the raw adhesive tape is tight; mounting a second flange with a pipe on the input pipe flange, padding a second silicon rubber circular sealing ring in the middle, and fastening the input pipe flange and the second flange with the pipe by using stainless steel bolts; tapping a bent pipe port with a second pipe flange, winding a raw adhesive tape, and screwing a first stop valve into the bent pipe port with the second pipe flange until the first stop valve is tight; screwing a straight pipe into the other end of the first stop valve, directly inserting the other end of the straight pipe into the left port of the second rubber mounting quick joint and tightly inserting the straight pipe into the right port of the second rubber mounting quick joint, and tightly inserting the straight pipe part of a bent pipe into the right port of the second rubber mounting quick joint; screwing the second stop valve into the elbow pipe and screwing; the second stop valve and the preservation solution filtering filter are screwed together through a pipeline; the preservation liquid filtering filter and the third stop valve are screwed together through a pipeline; and the third stop valve and the preserving fluid hydraulic pump are screwed together through a pipeline, and the preserving fluid hydraulic pump is arranged in a low-level groove of the preserving fluid external storage tank.

Optionally, a bracket is further mounted on the preservation liquid external storage tank, and the second mounting rubber quick connector and the first mounting rubber quick connector are respectively clamped at the round holes at the upper part and the lower part of the bracket; the bottom of the bracket is a 90-degree corner, the tail end of the corner is installed on a wheel frame at the bottom of the preserving liquid external storage tank through a screw, and a rubber universal wheel is installed below the wheel frame.

Furthermore, the hollow cylinder body with the outer cylinder and the inner oval shape and the support bed with the double X-shaped arc-shaped legs and the U-shaped surface are both made of acrylic glass.

Optionally, the preservation solution filters the inner chamber both ends and has inlayed PVA non-woven fabrics, centre and presss from both sides fine sand grain.

By the above technical measures, in the above technical measures:

the key part 1, three D constructs the structural shape body of the excircle and the inner ellipse of the cylinder body. Under the condition of not influencing visual effect, the wall thickness is gradually increased from the top (bottom) of the jar to the belly of the jar, thereby solving the technical problems that the curvature of the original belly of the jar is increased, fine cracks are generated due to the thin wall and the failure of bearing the pressure of the preservation solution, the preservation solution gradually turns yellow due to the reduction of the sealing property and the like.

The key component 2 is that a slope ditch-shaped body with an outlet is constructed in three D from left to right on the lower wall of the cylinder body, a flange is installed on the tail end outlet by a conduit tapping method, and the flange is sequentially connected with a flange with a pipe, a stop valve and a quick joint with rubber. The measure can easily and conveniently discharge the old liquid from the cylinder to the belt wheel external storage tank for standby in an automatic, efficient and residue-free manner, and realizes waste liquid recovery, environmental protection and emission reduction.

Key component 3, installing filtrate input component near the right end of the upper wall of the cylinder body, tapping screw thread on the guide pipe, installing cylinder wall with pipe flange, connecting with stop valve, rubber quick joint, preserving liquid filtering filter, preserving liquid hydraulic pump, preserving liquid external storage tank in sequence, pumping and filtering the new (old) liquid in reverse sequence, and pouring the filtered liquid into the cylinder easily and conveniently. The technical problems of waste liquid regeneration, saving utilization and the like are solved, the labor intensity is reduced, and the working efficiency is improved.

The key part 4 is a movable shape body with a double-X arc-shaped leg U-surface support bed constructed in a three-D mode, and a notch is formed in the middle of the movable shape body, so that the technical problem that the preservation solution turns yellow and turbid with acceleration due to damage caused by small supporting surface and uneven stress of the original U-shaped support on the head, the tail and the like of the original U-shaped support is reduced or relieved, the damage probability of the specimen is reduced, the yellowing and turbid speed of the preservation solution is reduced, and the display angle of the specimen can be conveniently adjusted.

The key part 5 is that the LED lamp strip is embedded in the groove of the ceiling lamp groove of the upper wall of the three-D structure, so that light is transmitted to the solution along the cylinder wall, and the specimen obtains uniform and sufficient illumination; the light is freely and uniformly transmitted into the solution through the wall of the jar, so that sufficient illumination and specimens can be obtained in the jar, and the effects of clearness, visibility and good observation are achieved.

The key part 6, the support of taking 4 rubber universal wheels of three D constructions makes things convenient for the cylinder body freely to remove the eminence, easily convenient completion from this: the old liquid output assembly and the filtrate input assembly are in quick butt joint; the old liquid is emptied into a low external storage tank from the slope ditch in the cylinder; pumping the new (old) liquid into the filter filling cylinder, and the like. In the task, the device plays an important role in reducing labor intensity and improving working efficiency.

TABLE 1 comparison table of technical parameters and effects of old and new cylinder assemblies

Therefore, the preservation device for the biological infusion specimen is safer and more reliable in use and has better display effect; the old liquid can be recycled, and the emission is reduced; and the heavy physical labor of liquid pumping and filling becomes simple and easy, and the purpose of preserving the soaked specimens of various organisms for a long time is really realized. Compared with the prior art, the invention at least has the following substantive progress and beneficial effects:

1. the three D structures are used for constructing the structural shape body of the cylinder body with an outer circle and an inner ellipse. The wall thickness is gradually increased from the top (bottom) of the jar to the belly of the jar without influencing the visual effect, the wall thickness is increased at the belly of the jar to prevent the generation of crack and turbid liquid, and the technical problems that the curvature of the original belly of the jar is increased, fine cracks are generated, potential safety hazards to field personnel are generated and the like due to the fact that the wall is thin and the pressure of the preservation liquid cannot be borne are solved, and the preservation liquid is gradually yellowed due to the fact that the sealing performance is reduced.

2. A slope groove-shaped body with an outlet is constructed on the lower wall of the cylinder body from left to right, the outlet at the lowest position of the tail end of the slope groove is tapped by a guide pipe, the flange is installed, and the slope groove is sequentially connected with an output guide pipe flange, a stop valve and a mounting rubber quick joint of an old liquid output assembly by the guide pipe. The method can easily and conveniently empty the old liquid from the tank to a movable storage liquid external storage tank without residue for filtering. Waste liquid recovery, environmental protection and emission reduction, and effective reduction of labor intensity of workers, the bottom of the cylinder wall is made into a slope groove from left to right, and the slope groove is matched with an old liquid output assembly to automatically and efficiently discharge liquid without residue;

3. a filtrate input assembly is arranged on the upper wall of the cylinder body close to the right tail end: the method for tapping the buttons on the guide pipe can ensure that the guide pipe flange and filtrate input components are as follows: the device is connected in sequence according to a flange with a pipe, a stop valve, an installation rubber quick joint, a preservation liquid filtering filter, a preservation liquid hydraulic pump and a movable preservation liquid external storage tank. Pumping and filtering the new (old) liquid in a reverse order, and easily and conveniently filling the filtered liquid into a cylinder. The old liquid is regenerated and saved; the technical problems of old liquid recycling, saving, emission reduction and the like are solved, the labor intensity is reduced, and the working efficiency is improved. The old (new) liquid is pumped to a filtering filter by a submersible pump in a storage tank outside a belt wheel to be filtered and then conveyed to a cylinder, so that the old liquid is recycled, the emission is reduced, and the heavy physical labor of liquid pumping and filling is simple and easy.

4. The three-D construction is a movable body with a double-X arc-shaped leg U-face support bed, a notch is dug in the middle of the movable body, and the X arc-shaped leg and the bed are combined to reduce the problems that the supporting surfaces of the head and the tail of the specimen on the original U-shaped support are small, the stress is uneven, the damage is increased, the preservation solution turns yellow and turbid at an accelerated speed and the like. So as to reduce the damage when taking out and sending into the sample in the jar, can also conveniently adjust the show angle of sample. A groove is dug in the middle of a bed with a built-in U-shaped surface bracket (frame) with double X-shaped arc legs, so that the technical problems that the sample is stressed unevenly at the head and the tail (abdomen in the bed) in the original bracket and the surface is easy to damage are solved;

5. the LED lamp strip is embedded in the groove of the lamp groove on the top wall, so that light is freely transmitted in the cylinder wall to illuminate the specimen and the solution, the light of the light is freely and uniformly transmitted to the specimen and the solution through the cylinder wall, sufficient illumination can be obtained in the cylinder, the soaked specimen can obtain uniform and sufficient illumination, and the specimen is clearly visible and has good observation effect.

6. A bracket with 4 rubber universal wheels is arranged outside the cylinder, so that the cylinder body can be conveniently and freely moved to a high position, and the quick butt joint between the old liquid output assembly and the filtrate input assembly can be easily and conveniently completed; facilitating sewage discharge, liquid filling and exhibition position change; old liquid is emptied into a low external storage tank from the slope ditch in the cylinder; pumping the new (old) liquid into the filter filling cylinder, and the like. In the task, the device plays an important role in reducing labor intensity and improving working efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application.

FIG. 1 is a schematic view of the overall structure of the apparatus for preserving bio-infused specimens according to the present invention;

FIG. 2 is a schematic view of the old fluid output assembly of the present invention;

FIG. 3 is a schematic view of the filtrate input assembly of the present invention in an enlarged configuration;

fig. 4 is a sectional view of the hollow cylinder body of the present invention having an outer cylinder and an inner oval shape.

In the figure: 1-solid wood specimen cabinet, 2-left side flange with cover, 2-1-third silicon rubber circular sealing ring, 3-support with 4 rubber universal wheels, 4-both ends flange container assembly, 4-1-outer cylinder inner ellipse circular hollow cylinder body, 4-2-upper wall top lamp groove, 4-3-input conduit flange, 4-4-second silicon rubber circular sealing ring, 4-5-output conduit flange, 4-6-first silicon rubber circular sealing ring, 4-7-slope ditch, 5-right side flange with cover (existing equipment), 5-1-fourth silicon rubber circular sealing ring, 6-old liquid output assembly, 6-1-first belt pipe flange, 6-2-fourth stop valve, 6-3-first installation rubber quick connector, 7-filtrate input assembly, 7-1-second belt pipe flange, 7-2-first stop valve, 7-3-second installation rubber quick connector, 7-4-second installation rubber quick connector, 7-5-6-filtrate input assembly, 7-6-second belt pipe flange, 7-2-first stop valve, 7-3-second installation rubber quick connector, 7-4-second stop valve, 7-5-6-third liquid filter, 7-8-3-U-support with filtering bed, and 7-8-U-support.

Detailed Description

As shown in fig. 1 to 4, the device for preserving bio-infusion samples comprises a solid wood sample cabinet 1 (which can be customized), a left side flange 2 with a cover, a bracket 3 with 4 rubber universal wheels, a two-head flange container assembly 4, a hollow cylinder body 4-1 with an outer cylinder and an inner ellipse circular shape, an upper wall top lamp groove 4-2, an input conduit flange 4-3, a second silicon rubber circular sealing ring 4-4, an output conduit flange belt 4-5, a first silicon rubber circular sealing ring 4-6, a slope groove 4-7, a right side flange 5 with a cover, an old liquid output assembly 6, a first belt pipe flange 6-1, a fourth stop valve 6-2, a first mounting rubber quick joint 6-3, a filtrate input assembly 7, a second belt pipe flange 7-1, a first stop valve 7-2, a second mounting rubber quick joint 7-3, a second stop valve 7-4, a liquid filter 7-5, a third filtering stop valve 7-6, a hydraulic pump 7-7, a liquid preserving support 7-8, a liquid storage tank 7-7, a liquid outer support 7-8, a U-10 bed support (with a leg support) and a bed (X-8).

The outer cylinder inner oval-shaped hollow cylinder body 4-1 is connected with a left side flange 2 with a cover and a right side flange 5 with a cover through a sealing ring and a bolt, the left side flange with a cover of the solid wood specimen cabinet 1 is arranged on the left side flange 2 with a cover of the outer cylinder inner oval-shaped hollow cylinder body 4-1, a third silicon rubber circular sealing ring 2-1 is padded in the middle, the left side flange with a cover of the solid wood specimen cabinet 1 and the left side flange 2 with a cover of the outer cylinder inner oval-shaped hollow cylinder body 4-1 are fastened through a stainless steel bolt, the right side flange with a cover of the solid wood specimen cabinet 1 is arranged on the right side flange 5 with a cover of the outer cylinder inner oval-shaped hollow cylinder body 4-1, a fourth silicon rubber circular sealing ring 5-1 is padded in the middle, and the right side flange with a cover of the solid wood specimen cabinet 1 and the right side flange with a cover of the outer cylinder inner oval-shaped hollow cylinder body 4-1 are fastened through a stainless steel bolt.

And thirdly, after the support 3 with 4 rubber universal wheels is constructed and formed at one time, four rubber universal wheels are installed under the rectangular base, and then the left flange 2 with the cover and the right flange 5 with the cover are installed at two ends of the oval hollow cylinder body 4-1 in the outer cylinder and are symmetrically placed on the support 3 with 4 rubber universal wheels.

The outer cylinder inner oval-shaped hollow cylinder body 4-1 is constructed by three D and is formed in one step, the thickness of the outer cylinder inner oval-shaped hollow cylinder body 4-1 gradually becomes thicker from the cylinder top and the cylinder bottom to the cylinder bellies on the left side and the right side respectively, the generation of crack and turbid liquid is prevented by increasing the wall thickness at the cylinder bellies, and the technical problems that the curvature of the original cylinder bellies is increased, fine cracks and potential safety hazards to field people occur due to the fact that the original cylinder bellies cannot bear the pressure of the preservation liquid due to thin walls, the preservation liquid gradually turns yellow due to the fact that the sealing performance is reduced and the like are solved.

An upper wall top lamp groove 4-2 extending along the axis direction of the hollow cylinder body 4-1 with the shape of an ellipse in the outer cylinder is installed at the top of the cylinder wall of the hollow cylinder body 4-1 with the shape of an ellipse in the outer cylinder, the upper wall top lamp groove 4-2 is respectively connected with a left flange 2 with a cover and a right flange 5 with a cover, the upper wall top lamp groove 4-2 is a U-shaped groove-shaped body with a downward opening, and an LED light-emitting lamp strip is embedded in the U-shaped groove to transmit light into a solution in the hollow cylinder body 4-1 with the shape of an ellipse in the outer cylinder along the cylinder wall.

The bottom of the cylinder wall of the hollow cylinder body 4-1 with the elliptical shape in the outer cylinder is provided with a slope ditch 4-7 which is arranged obliquely downwards relative to the axis of the hollow cylinder body 4-1 with the elliptical shape in the outer cylinder, and an outlet at the lowest position of the slope ditch 4-7 is provided with an old liquid output assembly 6 which is used for automatically discharging the old liquid in the hollow cylinder body 4-1 with the elliptical shape in the outer cylinder to a movable preserving liquid external storing tank 7-8 without residues.

A U-shaped supporting bed 8 with double X arc-shaped legs is arranged in the hollow cylinder body 4-1 with an oval shape in the outer cylinder in a mode of contacting with the inner wall of the hollow cylinder body, and a specimen is arranged on the U-shaped supporting bed 8 with the double X arc-shaped legs. And constructing the U-shaped surface supporting bed 8 with the double X-shaped arc legs, and forming at one time. The U-shaped face support bed 8 with the double X-shaped arc legs comprises an arc-shaped plate and support frames fixed on two sides of the bottom of the arc-shaped plate, the support frames are provided with two arc-shaped legs which are separately arranged, the shape of the bottom of each arc-shaped leg is matched with the inner circumferential face of the hollow cylinder 4-1 in the outer cylinder in the shape of an ellipse, wherein a notch which is convenient for the middle part of a specimen to pass through is arranged in the middle of each arc-shaped plate, so that the contact area between the specimen and the arc-shaped plate is increased, the supporting faces of the specimen at the head and the tail of an original U-shaped support are reduced, the specimen is small and uneven in stress, the damage caused by the specimen is increased, and the preservation liquid is yellow and turbid with higher speed. Through the structural design, the U-shaped support bed with the double X arc legs can be horizontally arranged in the flange container assembly 4 with the two ends fixed, so that the damage is reduced when the specimen is taken out of and sent into the cylinder, and the display angle of the specimen can be conveniently adjusted.

The old liquid output assembly 6 comprises an output pipe flange 4-5 connected with an outlet of a slope ditch 4-7 and a first belt pipe flange 6-1 connected with the output pipe flange 4-5, a fourth stop valve 6-2 is installed on a pipeline of the first belt pipe flange 6-1, and a first silicon rubber circular sealing ring 4-6 is arranged between the output pipe flange 4-5 and the first belt pipe flange 6-1. Drilling a hole on the cylinder wall of the hollow cylinder body 4-1 with an outer cylinder and an inner oval shape, which is opposite to the outlet of the slope ditch 4-7, tapping an inner thread on the cylinder wall, winding a raw adhesive tape on the outer thread at the pipe orifice of the output guide pipe flange 4-5, and screwing the outer thread into the cylinder wall until the outer thread is tight; a first belt pipe flange 6-1 is arranged on an output pipe flange 4-5, a first silicon rubber circular sealing ring 4-6 is padded in the middle, and the output pipe flange 4-5 and the first belt pipe flange 6-1 are fastened through stainless steel bolts.

Tapping a bent pipe port of the first belt pipe flange 6-1, winding a raw adhesive tape, and screwing the fourth stop valve 6-2 into the bent pipe port of the first belt pipe flange 6-1 until the bent pipe port is tight; and screwing a straight pipe into the other end of the fourth stop valve 6-2, directly inserting the other end of the straight pipe into the left port of the first rubber mounting quick joint 6-3 and tightly inserting the straight pipe into the right port of the first rubber mounting quick joint 6-3 and tightly inserting the straight pipe part of a bent pipe, suspending the other straight pipe part of the bent pipe and inserting the other straight pipe part of the bent pipe into the movable preserving liquid external storage tank 7-8.

The top of the hollow cylinder 4-1 with the shape of an ellipse in the outer cylinder is connected with a filtrate input assembly 7 for filling filtrate into the hollow cylinder 4-1 with the shape of an ellipse in the outer cylinder, wherein the filtrate input assembly 7 comprises an input pipe flange 4-3 connected with the top of the hollow cylinder 4-1 with the shape of an ellipse in the outer cylinder, a second pipe flange 7-1 connected with the input pipe flange 4-3, and a first stop valve 7-2, a second stop valve 7-4 and a third stop valve 7-6 which are sequentially arranged on a pipeline of the second pipe flange 7-1, a filter preservation liquid filter 7-5 is arranged on a pipeline between the second stop valve 7-4 and the third stop valve 7-6, and a second silicon rubber circular sealing ring 4-4 is arranged between the input pipe flange 4-3 and the second pipe flange 7-1.

Drilling and tapping internal threads on the edge wall of the right upper top end of the oval hollow cylinder body 4-1 in the outer cylinder, tapping external threads on the pipe orifice of the input guide pipe flange 4-3, winding a raw rubber belt, and screwing the raw rubber belt into the cylinder wall until the raw rubber belt is tight; a second flange 7-1 with a pipe is arranged on an input pipe flange 4-3, a second silicon rubber circular sealing ring 4-4 is padded in the middle, and the input pipe flange 4-3 and the second flange 7-1 with the pipe are fastened by stainless steel bolts; tapping a bent pipe port of the second pipe-equipped flange 7-1, winding a raw adhesive tape, and screwing the first stop valve 7-2 into the bent pipe port of the second pipe-equipped flange 7-1 until the bent pipe port is tight; screwing a straight pipe into the other end of the first stop valve 7-2, directly inserting the other end of the straight pipe into the left port of the second rubber mounting quick joint 7-3 and tightly inserting the straight pipe into the right port of the second rubber mounting quick joint 7-3 and tightly inserting the straight pipe part of a bent pipe; screwing the second stop valve 7-4 into the elbow and screwing; the second stop valve 7-4 and the preservation solution filtering filter 7-5 are screwed together through a pipeline; the preservation liquid filtering filter 7-5 and the third stop valve 7-6 are screwed together through a pipeline; the third stop valve 7-6 and the preservation liquid hydraulic pump 7-7 are screwed together through a pipeline; the preservation liquid hydraulic pump 7-7 is arranged in a low-level groove of the preservation liquid external storage tank 7-8. The preservation liquid external storage tank 7-8 is also provided with a bracket 7-9, and the second mounting rubber quick connector 7-3 and the first mounting rubber quick connector 6-3 are respectively clamped at the round holes at the upper part and the lower part of the bracket 7-9. The bottom of the bracket 7-9 is a 90-degree corner, the tail end of the corner is installed on a wheel frame 7-10 at the bottom of the preserving liquid external storage tank 7-8 by screws, and a rubber universal wheel is installed below the wheel frame 7-10.

The hollow cylinder body 4-1 with the outer cylinder and the inner oval shape and the U-surface support bed 8 with the double X-arc legs are made of acrylic glass. And the third silicon rubber circular sealing ring 2-1, the fourth silicon rubber circular sealing ring 5-1, the second silicon rubber circular sealing ring 4-4 and the first silicon rubber circular sealing ring 4-6 are formed by pressing silicon rubber.

The device comprises an input conduit flange 4-3, a second pipe-carrying flange 7-1, a first stop valve 7-2, a second installation rubber quick joint 7-3, a second stop valve 7-4, a third stop valve 7-6 and a pipe connected with the third stop valve, wherein the specification is 1 inch, and the material is ppr plastic. 4-5 parts of an output pipe flange, 6-1 parts of a first belt pipe flange, 6-2 parts of a fourth stop valve, 6-3 parts of a first installation rubber quick connector and a pipe with an elbow, wherein the specification is 2 inches, and the material is ppr plastic.

The preservation solution filtering filter 7-5 is a self-made cleanable filter made of materials; the inner threads are tapped at two ends of a ppr material with 4-inch outer cylindrical shell, the outer threads are tapped at the edges of the ppr material by circular covers at two ends of a pipe cover, the inner threads are tapped at a central circular hole of the pipe cover for 1 inch, the pipe cover is screwed with the ppr pipe which is tapped with the outer threads and wound with a raw adhesive tape, PVA non-woven fabrics are embedded at two ends of the inner cavity of the filter, and a clean fine adhesive tape is clamped between the two ends of the inner cavity of the filterAnd (4) sand grains. The liquid-preserving hydraulic pump 7-7 is a household 220V stainless steel submersible pump with 370W1 inch. The external shape of the external storage tank 7-8 of the preservation liquid is like a big barrel

Stacked kegs (

A drainable lower tank) made of acrylic glass. The bracket 7-9 under the preservation liquid external storage tank 7-8 is made of acrylic glass, and the wheel frame 7-10 at the bottom of the preservation liquid external storage tank 7-8 is an iron frame.

When the storage container device for bio-impregnated specimens of the present invention is used:

firstly, the container assembly 4 with flanges at two ends is placed on a bracket 3 with 4 rubber universal wheels, the container assembly is moved to a special high platform for filling and discharging liquid after the flanges are arranged, and then the external storage tank 7-8 for the preservation liquid provided with the wheel frame 7-10 is also moved to the corresponding position of the special high platform. And the external storage tank 7-8 of the preservation solution is moved to the bracket 7-9. The second installation rubber quick coupling 7-3 in the filtrate input assembly 7 and the first installation rubber quick coupling 6-3 in the old liquid output assembly 6 are respectively aligned with the straight pipe on the first stop valve 7-2 in the filtrate input assembly 7 and the straight pipe on the fourth stop valve 6-2 in the output assembly 6, and the two straight pipes are directly inserted into the second installation rubber quick coupling 7-3 and the first installation rubber quick coupling 6-3 and are tightly inserted.

When the old liquid is discharged: and opening a fourth stop valve 6-2, directly discharging the old liquid into a preservation liquid external storage tank 7-8 through a flow guide device such as a slope ditch-shaped body at the bottom of the cylinder wall of the outer cylinder inner oval-shaped hollow cylinder body 4-1, a first belt pipe flange 6-1, a first mounting rubber quick joint 6-3 and the like in a connection sequence without residue, and directly discharging all the old liquid into the preservation liquid external storage tank for storage and standby.

When liquid is filled: the third stop valve 7-6, the second stop valve 7-4 and the first stop valve 7-2 are sequentially opened, and then the preservation liquid hydraulic pump 7-7 is started, so that new (old) liquid in the preservation liquid external storage tank 7-8 enters the outer cylinder inner oval-shaped hollow cylinder body 4-1 through the preservation liquid filtering filter 7-5, the second pipe flange 7-1 and the input pipe flange 4-3. And when the liquid is full, the first stop valve 7-2, the second stop valve 7-4, the third stop valve 7-6 and the liquid storage hydraulic pump 7-7 are closed in sequence.

The present invention is not limited to the above-described embodiments, and various changes and modifications such as changes in the size and shape of the article to be protected may be made without departing from the spirit and scope of the invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a save set of biological infusion sample, includes wood specimen cabinet (1), installs both ends in wood specimen cabinet (1) take flange container subassembly (4), its characterized in that:

the two-head flanged container assembly (4) comprises an outer cylindrical inner oval-shaped hollow cylinder body (4-1), and a left side covered flange (2) and a right side covered flange (5) which are respectively positioned at two ends of the outer cylindrical inner oval-shaped hollow cylinder body (4-1);

the top of the outer cylindrical inner oval-shaped hollow cylinder body (4-1) is connected with a filtrate input assembly (7) for filling filtrate into the outer cylindrical inner oval-shaped hollow cylinder body (4-1);

a slope groove (4-7) which is obliquely and downwards arranged relative to the axis of the hollow cylinder body (4-1) in the outer cylinder inner oval shape is formed at the bottom of the cylinder wall of the hollow cylinder body (4-1) in the outer cylinder inner oval shape, and an old liquid output assembly (6) is installed at an outlet at the lowest position of the slope groove (4-7) and is used for autonomously discharging old liquid in the hollow cylinder body (4-1) in the outer cylinder inner oval shape to a movable preserving liquid external storage tank (7-8) without residues;

an upper wall ceiling lamp groove (4-2) extending along the axis direction of the hollow cylinder body (4-1) with the outer cylinder inner oval shape is installed at the top of the cylinder wall of the hollow cylinder body (4-1) with the outer cylinder inner oval shape, and an LED lamp strip is embedded into the upper wall ceiling lamp groove (4-2) to enable light to be transmitted into a solution in the hollow cylinder body (4-1) with the outer cylinder inner oval shape along the cylinder wall;

a U-shaped supporting bed (8) with double X arc-shaped legs is placed in the outer cylindrical inner oval-shaped hollow cylinder body (4-1) in a manner of contacting with the inner wall of the cylinder body, and a specimen is placed on the U-shaped supporting bed (8) with the double X arc-shaped legs;

the thickness of the oval hollow cylinder body (4-1) in the outer cylinder gradually becomes thicker from the cylinder top to the cylinder bottom to the cylinder bellies on the left side and the right side respectively;

the U-face support bed (8) with the double X-shaped arc legs comprises an arc plate and support frames fixed on two sides of the bottom of the arc plate, each support frame is provided with two arc legs which are arranged separately, and the shape of the bottom of each arc leg is matched with the inner circumferential surface of the hollow cylinder body (4-1) in an outer cylinder and an elliptical shape;

the middle position of arc is equipped with the notch that the mid portion of being convenient for the sample passed to area of contact between increase sample and the arc.

2. The apparatus for preserving a bio-infused specimen as claimed in claim 1, wherein: old liquid output assembly (6) include with output pipe flange (4-5) of exit linkage of slope ditch (4-7), with first area pipe flange (6-1) that output pipe flange (4-5) are connected, install fourth stop valve (6-2) on the pipeline of first area pipe flange (6-1), be equipped with first silicon rubber circular seal (4-6) between output pipe flange (4-5) and first area pipe flange (6-1).

3. The apparatus for preserving a bio-infused specimen as claimed in claim 2, wherein: the hollow cylinder body (4-1) with the outer cylinder and the inner oval shape is drilled and tapped at the cylinder wall part facing the outlet of the slope ditch (4-7), and outer threads are tapped at the pipe orifice of the output guide pipe flange (4-5), and are wound with a raw adhesive tape and then are screwed into the cylinder wall until the cylinder wall is tight; installing a first belt pipe flange (6-1) on an output pipe flange (4-5), padding a first silicon rubber circular sealing ring (4-6) in the middle, and fastening the output pipe flange (4-5) and the first belt pipe flange (6-1) by using stainless steel bolts;

tapping a bent pipe port of the first belt pipe flange (6-1), winding a raw adhesive tape, and screwing the fourth stop valve (6-2) into the bent pipe port of the first belt pipe flange (6-1) until the fourth stop valve is tight; and a straight pipe is screwed into the other end of the fourth stop valve (6-2), the other end of the straight pipe is directly inserted into the left end opening of the first rubber-mounted quick connector (6-3) and is tightly inserted, the straight pipe part of a bent pipe is inserted into the right end opening of the first rubber-mounted quick connector (6-3) and is tightly inserted, and the other straight pipe part of the bent pipe is suspended and is inserted into the movable preservative solution external storage tank (7-8).

4. The apparatus for preserving a bio-infused specimen as claimed in claim 3, wherein: the filtrate input assembly (7) comprises an input pipe flange (4-3) connected with the top of the hollow cylinder body (4-1) in an oval shape in the outer cylinder, a second pipe flange (7-1) connected with the input pipe flange (4-3), and a first stop valve (7-2), a second stop valve (7-4) and a third stop valve (7-6) are sequentially installed on a pipeline of the second pipe flange (7-1), a preservation liquid filtering filter (7-5) is installed on a pipeline between the second stop valve (7-4) and the third stop valve (7-6), and a second silicon rubber circular sealing ring (4-4) is arranged between the input pipe flange (4-3) and the second pipe flange (7-1).

5. The apparatus for preserving a bio-infused specimen as claimed in claim 4, wherein: drilling holes in the edge wall of the right upper top end of the hollow cylinder body (4-1) with an oval shape in the outer cylinder to tap inner threads, tapping outer threads at the pipe orifice of the input guide pipe flange (4-3), winding a raw adhesive tape, and screwing the raw adhesive tape into the cylinder wall until the raw adhesive tape is tight; a second flange (7-1) with a pipe is arranged on the input pipe flange (4-3), a second silicon rubber circular sealing ring (4-4) is padded in the middle, and the input pipe flange (4-3) and the second flange with the pipe (7-1) are fastened by stainless steel bolts;

tapping a bent pipe port of the second pipe-equipped flange (7-1), winding a raw adhesive tape, and screwing the first stop valve (7-2) into the bent pipe port of the second pipe-equipped flange (7-1) until the bent pipe port is tight; a straight pipe is screwed into the other end of the first stop valve (7-2), the other end of the straight pipe is directly inserted into the left port of the second rubber mounting quick joint (7-3) and is tightly inserted, and the straight pipe part of a bent pipe is inserted into the right port of the second rubber mounting quick joint (7-3) and is tightly inserted; screwing a second stop valve (7-4) into the elbow and screwing; the second stop valve (7-4) and the preservation liquid filtering filter (7-5) are screwed together through a pipeline;

the preservation liquid filtering filter (7-5) and the third stop valve (7-6) are screwed together through a pipeline; the third stop valve (7-6) and the preservation liquid hydraulic pump (7-7) are screwed together through a pipeline, and the preservation liquid hydraulic pump (7-7) is arranged in a low tank of an external preservation storage tank (7-8) of preservation liquid.

6. The apparatus for preserving a bio-infused specimen as claimed in claim 5, wherein: a bracket (7-9) is further arranged on the preservation liquid external storage tank (7-8), and the second mounting rubber quick joint (7-3) and the first mounting rubber quick joint (6-3) are respectively clamped at round holes at the upper part and the lower part of the bracket (7-9);

the bottom of the bracket (7-9) is at a 90-degree corner, the tail end of the corner is mounted on a wheel frame (7-10) at the bottom of the preserving liquid external storage tank (7-8) by using screws, and a rubber universal wheel is mounted below the wheel frame (7-10).

7. The apparatus for preserving a bio-infused specimen as claimed in claim 1, wherein: the outer cylinder, the inner oval-shaped hollow cylinder body (4-1) and the U-shaped support bed (8) with the double X-shaped arc legs are made of acrylic glass.

8. The apparatus for preserving a bio-infused specimen as claimed in claim 4 or 5, wherein: PVA non-woven fabrics are embedded at two ends of the inner cavity of the preservation liquid filtering filter (7-5), and fine sand grains are clamped in the middle.

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