CN110923119A - Centrifugal washing equipment based on bow three-section type damping dislocation of rotary drum oxygen float - Google Patents

Abstract

The invention discloses a bow-shaped three-section type damping dislocation centrifugal washing device based on rotary drum oxygen bleaching, which structurally comprises: the invention realizes the matching of the bow-shaped axial circular platform groove and the centrifugal oxygen bleaching cylinder, the linkage of three-layer damping discs of a matched corrugated chassis, an arc cushion spacer disc and a frame strip diversion disc is formed by the rotation of the bow-shaped rotating shaft rod, a three-section type damping dislocation rotation effect is formed, the centrifugal force is subjected to a damping reverse force to form the alleviation of the unilateral stress of a biological test tube and the integral uniform stress of a shock liquid, the vibration amplitude of the peripheral axial moving test tube is ensured to be large, the frame plate rotates by virtue of the traction effect of the top of the rotary drum, the balloon air disc frame is used for injecting oxygen to form a rinsing air path, the biological centrifugal washing is carried out to form the effects of high-position oxygen bleaching and force fine adjustment preparation, the working efficiency of the frame is ensured, and the annular air wall covering effect of the rotary drum oxygen bleaching is also improved.

Description

Centrifugal washing equipment based on bow three-section type damping dislocation of rotary drum oxygen float

Technical Field

The invention discloses bow-shaped three-section type damping dislocation centrifugal washing equipment based on rotary drum oxygen bleaching, and belongs to the field of biological centrifugation.

Background

Biological centrifugal washing equipment is based on in the microorganism places test tube or culture dish, vibrates the cooperation through the centrifugation and annotates the liquid and form the washing operation, ensures bioactive continuous, and to the clean operation of biological internal environment formation, improves the stability that the rotary drum vibrates centrifugation and interior change culture medium liquid, and the public shortcoming of treating optimizing of prior art has:

biological centrifugal washing is based on the effect that the microorganism is shocked itself harmlessly and is of value to biological precipitation separation, thereby guarantee that the microorganism is not disturbed by the muddy impurity of culture medium liquid and restrain the growth, but shake the in-process centrifugation rotary drum grafting biology that commonly uses and load the test tube and shake, it is big to cause the vibration range of central point around the centrifugal axis like this, and round end swing amplitude unilateral deflection, push away test tube unilateral bearing centrifugal force easily, lead to the test tube to burst and break up and spill over biological liquid in the washing process, interference equipment normal centrifugal motion, also influence the axle action in the rotary drum, because biological liquid fluid lubrication, make the pivot skid, cause the idle running dropout of rotary drum, thereby cause whole biological centrifugation vibrations broken hidden danger.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a bow-shaped three-section type damping dislocation centrifugal washing device based on rotary drum oxygen bleaching, so as to solve the problem that the biological centrifugal washing is based on the effect that the microorganism is vibrated and is harmless and beneficial to biological precipitation and separation, thereby ensuring that microorganisms are not interfered by turbid impurities of culture medium liquid to inhibit growth, but the vibration of the biological loading test tube inserted into the centrifugal rotary drum is commonly used in the vibration process, so that the vibration amplitude of the central end around the centrifugal shaft is large, the swing amplitude of the round end deflects at one side, the test tube is easy to push and push the bearing centrifugal force at one side, the test tube is cracked and overflows biological liquid in the washing process, the normal centrifugal motion of equipment is disturbed, the axial motion in the rotary drum is also influenced, the rotating shaft slips due to the lubrication of the biological fluid, so that the idle running of the rotating drum is released, and the hidden trouble of the integral biological centrifugal vibration and crushing is caused.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a centrifugal washing equipment of bow syllogic damping dislocation based on rotary drum oxygen is floated, its structure includes: the device comprises a press buckle top block, a bow-shaped shaft circular platform groove, a pull buckle strip block, a centrifugal oxygen floating barrel, a connecting pipe column block, a heat dissipation disc and a base case, wherein the bow-shaped shaft circular platform groove is nested on the top of the centrifugal oxygen floating barrel, the axes of the bow-shaped shaft circular platform groove are collinear, the press buckle top block and the bow-shaped shaft circular platform groove are buckled together, the pull buckle strip block is welded on the lower right corner of the bow-shaped shaft circular platform groove, the connecting pipe column block is tightly attached to the front side of the centrifugal oxygen floating barrel, the heat dissipation disc is provided with two parts which are respectively nested on the left side and the right side of the base case, the centrifugal oxygen floating barrel is inserted and embedded on the top of the base case and is vertical to each other, the bow-shaped shaft circular platform groove is provided with a corrugated base plate, an arc cushion separation disc, a frame bar diversion disc, a bow-shaped rotating shaft lever, a rotor motor, a reinforcing bar buckling strip, a balloon air disc and a through hole window circular platform, the corrugated base plate, the novel centrifugal oxygen floating cylinder is characterized in that the arched rotating shaft rod is inserted and embedded under the bottom of the rotor motor, the rotor motor and the balloon air disc frame are embedded into a whole, the axes of the rotor motor and the balloon air disc frame are collinear, the reinforcing rib buckling strip and the balloon air disc frame are welded together, the corrugated base plate, the arc cushion partition disc and the frame strip flow guide disc are all arranged inside the through hole window round table and are parallel to each other, and the through hole window round table is embedded on the top of the centrifugal oxygen floating cylinder and is collinear with the axes of the centrifugal oxygen.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the corrugated bottom plate consists of a corrugated column plate and a bottom plate groove, the corrugated column plate is arranged inside the bottom plate groove and is positioned on the same horizontal plane, and the corrugated column plate is movably connected with the bottom plate groove and is collinear in the axis.

As a further improvement of the invention, the corrugated column plate consists of a corrugated transverse plate, a trapezoidal column block and an inclined frame plate, the trapezoidal column block and the inclined frame plate are welded into a whole, and the trapezoidal column block and the inclined frame plate are inserted and embedded in the corrugated transverse plate and are perpendicular to each other.

As a further improvement of the invention, the arc pad separation disc consists of a separation disc groove block and a bottom arc pad disc, the bottom arc pad disc and the separation disc groove block are tightly attached together and are positioned on the same horizontal plane, and the bottom arc pad disc is arranged below the bottom surface of the separation disc groove block and has collinear axes.

As a further improvement of the invention, the spacer disk groove block consists of a cross rod frame, a thick damping disk block, an ellipsoid frame groove and a bag frame laminated base plate, wherein the cross rod frame is inserted and embedded in the thick damping disk block, the ellipsoid frame groove and the thick damping disk block are in interference fit, and the bag frame laminated base plate is arranged in the ellipsoid frame groove and is positioned on the same vertical plane.

As a further improvement of the invention, the flow guide disc is composed of a flow guide disc and a top frame ring, the flow guide disc is arranged below the bottom of the top frame ring and is positioned on the same horizontal plane, the flow guide disc and the top frame ring are buckled together, and the axes of the flow guide disc and the top frame ring are collinear.

As a further improvement of the invention, the flow guide disc consists of an eccentric shaft wheel, a clamping block, a flow guide folded plate and a convex cushion block, wherein the eccentric shaft wheel is mechanically connected with the clamping block and is positioned on the same vertical surface, the convex cushion block is arranged between the two flow guide folded plates, and the flow guide folded plate is inserted and embedded on the left side of the eccentric shaft wheel.

As a further improvement of the invention, the balloon air disk frame consists of an air disk groove, balloon injectors and air wall chutes, the air wall chutes are provided with two air wall chutes which are respectively welded at the left and right lower corners of the air disk groove, the balloon injectors are provided with two air wall chutes which are respectively arranged at the left and right ends of the air disk groove, and the air disk groove and the balloon injectors are positioned on the same horizontal plane.

As a further improvement of the invention, the balloon injector consists of an I-shaped pressurizing groove, a spherical shell cap, a shooting pipe capsule chamber and a bottom ellipsoidal capsule shell, wherein the I-shaped pressurizing groove is arranged inside the spherical shell cap, the I-shaped pressurizing groove and the shooting pipe capsule chamber are mechanically connected and are positioned on the same vertical line, the shooting pipe capsule chamber is inserted and embedded inside the bottom ellipsoidal capsule shell, the axes of the shooting pipe capsule chamber and the bottom ellipsoidal capsule shell are collinear, and the spherical shell cap is nested on the top of the bottom ellipsoidal capsule shell and is communicated with the bottom ellipsoidal capsule shell.

As a further improvement of the invention, the trapezoidal column block is in a trapezoidal column barrel type structure with a wide front part and a narrow back part, so that three trapezoidal column barrels can conveniently form a triangular splicing effect, and the rubber solid material is matched to ensure the mutual interweaving of damping force, so that the pressure drop of a centrifugal rotary balance stress surface is controlled, and the uniformity of the biological centrifugal stress amplitude is ensured.

As a further improvement of the invention, the bag holder laminated base plate is of a plate structure which is narrow at the left and the right, is wide in hollow and has six rubber cushions arranged all the time, so that the cushion isolation effect of stress and reaction force during up-and-down bearing is facilitated, the highest damping force of an isolation layer during rotation is also ensured, and the middle section of the dislocation holder can rotate by inertia most quickly.

As a further improvement of the invention, the clamping block is of a corrugated rod clamping block structure with a narrow right end and a wide left end and a wide and thick circular arc, so that the guide plate can be conveniently pressed and attached to the cambered surface of the imitation pliers up and down, and the internal pressure of the guide plate fluctuation forms a narrow-opening air duct output effect through the clamping block.

As a further improvement of the invention, the I-shaped pressurizing groove is of a composite bag groove structure with an ellipsoid bag at the upper part and an ellipsoid bag at the lower part and a pressurizing ball bag at the middle part, so that when the upper part and the lower part are horizontally pressed and fastened and pressurized at the middle part, the airflow output efficiency is higher, the output quantity covers the rotary wind power to be larger, the oxygen is filled to form a wind blocking wall to wrap the biological centrifugal operation, and the biological oxygen bleaching effect is formed.

Advantageous effects

The invention relates to bow-shaped three-section damping dislocation centrifugal washing equipment based on rotary drum oxygen floater, which is characterized in that a worker pulls a pull buckle strip block to lift a through hole window round table of a press buckle top block and a bow-shaped shaft round table groove to expose an inner cannula groove of a centrifugal oxygen floater cylinder, puts a biological test tube into a slot, then energizes an air pump pipeline butt joint tube column block through a base case and dissipates heat through a heat dissipation disc to form a cover through hole window round table, energizes the bottom to start a bow-shaped rotating shaft rod rotation effect for a rotor motor to drive a corrugated column plate of a corrugated chassis to be inserted into a bottom disc groove to rotate, a linkage corrugated transverse diaphragm is crossed and vertical to a trapezoidal column block and an inclined frame plate to form a downward counterweight and transverse airflow turbulence settlement effect, and simultaneously a spacer disc groove block of a linkage arc spacer disc is combined with the bottom arc spacer disc to deflect to form a transverse damping extension counterweight spreading effect that a cross bar thick frame supports an ellipsoid frame groove and a bag frame laminated base plate, the flow guide disc for guaranteeing the frame strip flow guide disc is buckled through top frame ring pressing, a transverse stratosphere air pressure drives the clamping block and the flow guide folded plate through an eccentric wheel to form a stratosphere feedback air path effect of spread angle recoil at the periphery of the convex cushion block, the reinforcing rib buckling strip drives the balloon air disc frame to rotate more conveniently and efficiently, the bow-shaped three-section type damping dislocation operation performance of the rotary drum oxygen floater is improved, the safety and stability of centrifugal washing equipment are guaranteed, the differential linkage damping is transversely and longitudinally interwoven to match gravity, differential centrifugal motion of three disc bodies is formed, and the effect of liquid level clarification in a biological test tube is regulated and controlled.

The invention has the following advantages after operation:

an application bow word axle round platform groove and a centrifugal oxygen float a section of thick bamboo and cooperate, through putting into the slot that a centrifugal oxygen floats in the section of thick bamboo with biological test tube, then float a rotor motor start-up on section of thick bamboo top through centrifugal oxygen and drive bow word pivot pole gyration and form cooperation ripple chassis, arc pad spacer disc, frame strip guiding disc three-layer damping dish linkage, form syllogic damping dislocation cycle effect, let centrifugal force receive the damping counter force to form to the release of biological test tube unilateral atress oppression and the whole of concussion liquid equally divide the atress, the range of peripheral axle dynamic test tube vibration of guarantee is big, and through the pulling effect at rotary drum top, it forms the gas circuit rinsing to inject oxygen through sacculus air pallet when letting the frame plate rotate, form the effect that high-order oxygen floats and the fine setting of atress was made for biological centrifugal washing, the high efficiency of guarantee frame work, also improve the annular wind wall covering effect that.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic structural diagram of a bow-shaped three-section type damping dislocation centrifugal washing device based on drum oxygen bleaching.

FIG. 2 is a detailed sectional structure diagram of the circular truncated cone groove of the bow-shaped shaft of the present invention.

Fig. 3 is a schematic cross-sectional structural view of the working states of the corrugated bottom plate, the arc pad partition plate, the frame strip flow guide plate and the balloon air disc frame.

Fig. 4 is a schematic perspective internal view structure diagram of the corrugated column plate in the working state of the invention.

FIG. 5 is a schematic top view of the spacer disk slot block of the present invention.

FIG. 6 is a schematic view of the air-guiding disk according to the present invention.

Fig. 7 is a perspective structural view of the balloon injector in an operating state according to the present invention.

Description of reference numerals: a press buckle top block-1, a bow-shaped shaft circular truncated cone groove-2, a pull buckle strip block-3, a centrifugal oxygen float cylinder-4, a connecting pipe column block-5, a heat dissipation disc-6, a base case-7, a corrugated base disc-2A, an arc pad partition disc-2B, a frame strip guide disc-2C, a bow-shaped rotating shaft rod-2D, a rotor motor-2E, a reinforcing rib buckle strip-2F, a balloon air disc frame-2G, a through hole window circular truncated cone-2H, a corrugated column plate-2A 1, a base disc groove-2A 2, a corrugated transverse plate-2A 11, a trapezoidal column block-2A 12, an inclined frame plate-2A 13, a partition pad disc groove block-2B 1, a bottom arc pad disc-2B 2, a cross rod frame-2B 11, a thick damping disc block-2B 12, an ellipsoid frame groove-2B 13, a bag frame overlapping base plate-2B 14, The balloon injection device comprises a guide disc-2C 1, a top frame ring-2C 2, an eccentric wheel-2C 11, a clamping block-2C 12, a guide folded plate-2C 13, a convex pad-2C 14, an air disc groove-2G 1, a balloon injector-2G 2, an air wall chute-2G 3, an I-shaped pressurizing groove-2G 21, a spherical shell cap-2G 22, a shooting capsule chamber-2G 23 and a bottom ellipsoidal capsule shell-2G 24.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1-7, the present invention provides a bow-shaped three-stage damping dislocation centrifugal washing device based on drum oxygen bleaching, which comprises: the device comprises a press buckle top block 1, a bow-shaped shaft circular platform groove 2, a pull buckle strip block 3, a centrifugal oxygen floating barrel 4, a connecting pipe column block 5, a heat radiation disc 6 and a base case 7, wherein the bow-shaped shaft circular platform groove 2 is nested on the top of the centrifugal oxygen floating barrel 4, the axes of the bow-shaped shaft circular platform groove and the centrifugal oxygen floating barrel are collinear, the press buckle top block 1 is buckled with the bow-shaped shaft circular platform groove 2 together, the pull buckle strip block 3 is welded on the lower right corner of the bow-shaped shaft circular platform groove 2, the connecting pipe column block 5 is tightly attached to the front side of the centrifugal oxygen floating barrel 4, the heat radiation disc 6 is provided with two parts and is respectively nested on the left side and the right side of the base case 7, the centrifugal oxygen floating barrel 4 is inserted and embedded on the top of the base case 7 and is vertical to each other, the bow-shaped shaft circular platform groove 2 is provided with a corrugated base plate 2A, an arc pad spacer disc 2B, a frame strip diversion disc 2C, a bow-shaped rotating shaft, the corrugated base plate 2A is mechanically connected with an arc pad partition plate 2B through an arc-shaped rotating shaft rod 2D, the arc pad partition plate 2B is mechanically connected with a frame strip guide plate 2C through an arc-shaped rotating shaft rod 2D, the arc-shaped rotating shaft rod 2D is inserted and embedded under the bottom of a rotor motor 2E, the rotor motor 2E and a balloon air plate frame 2G are embedded into a whole, the axes of the rotor motor and the balloon air plate frame are collinear, a reinforcing rib buckling strip 2F and the balloon air plate frame 2G are welded together, the corrugated base plate 2A, the arc pad partition plate 2B and the frame strip guide plate 2C are all arranged inside a through hole window round table 2H and are parallel to each other, and the through hole window round table 2H is embedded on the top of a centrifugal oxygen float cylinder 4, and the axes of the.

Referring to fig. 3, the corrugated bottom plate 2A is composed of a corrugated pillar plate 2A1 and a bottom plate groove 2A2, the corrugated pillar plate 2A1 is installed inside the bottom plate groove 2A2 and is on the same horizontal plane, the corrugated pillar plate 2A1 is movably connected with the bottom plate groove 2A2 and has collinear axis, the arc pad 2B is composed of a pad groove block 2B1 and a bottom arc pad 2B2, the bottom arc pad 2B2 is closely attached to a pad groove block 2B1 and is on the same horizontal plane, the bottom arc pad 2B2 is installed under the bottom surface of the pad groove block 2B1 and has collinear axis, the diversion plate 2C is composed of a diversion disc 2C1 and a top frame ring 2C2, the diversion disc 2C1 is installed under the bottom of the top frame ring 2C2 and is on the same horizontal plane, the diversion disc 2C1 is fastened with the top frame 2C2 and forms a sedimentation disc sedimentation effect through the bottom arc pad B1C 2, and the air pressure potential difference is stabilized by the diversion transverse stratosphere, and the staggered air flow effect is improved.

Referring to fig. 4, the corrugated column plate 2a1 is composed of a corrugated transverse plate 2a11, a trapezoidal column block 2a12 and an inclined frame plate 2a13, the trapezoidal column block 2a12 and the inclined frame plate 2a13 are welded into a whole, the trapezoidal column block 2a12 and the inclined frame plate 2a13 are inserted and embedded in the corrugated transverse plate 2a11 and are perpendicular to each other, the trapezoidal column block 2a12 is a trapezoidal column tube structure with a wide front and a narrow rear, so that three trapezoidal column tubes can form a triangular insertion effect conveniently, and the balance stress surface of centrifugal rotation is controlled by pressure drop to ensure the uniformity of the biological centrifugal stress amplitude, and the corrugated transverse plate 2a11 is inserted and embedded vertically through triangular points of the trapezoidal column block 2a12 to stabilize the stratosphere and drive the stratosphere to form a fluctuating effect at the bottom end of the stratosphere at the same time of stabilizing the stratosphere, so that the vortex is matched with turbulence to wind into the hollow vortex to ensure the wrapping effect of oxygen bleaching.

Referring to fig. 5, the spacer disk groove block 2B1 is composed of a cross bar frame 2B11, a thick damping disk block 2B12, an ellipsoidal frame groove 2B13, and a bag frame laminated plate 2B14, the cross bar frame 2B11 is inserted and embedded in the thick damping disk block 2B12, the ellipsoidal frame groove 2B13 and the thick damping disk block 2B12 adopt interference fit, the bag holder backing plate 2B14 is arranged inside the ellipsoidal frame groove 2B13 and is on the same vertical plane, the bag frame laminated base plate 2B14 is a plate structure with narrow left and right, wide hollow and six rubber pads arranged all the time, is convenient for the cushion isolation effect of stress and reacting force when bearing pressure up and down, also ensures the strongest damping force of the isolation layer when rotating, ensures the fastest inertial rotation of the middle section of the dislocation frame, the bottom top frame bag frame laminated base plate 2B14 of the cross rod frame 2B11 forms a top convex arc surface, and the stability of air flow damping and the counterweight offset of bottom dislocation difference are guaranteed.

Referring to fig. 6, the diversion disk 2C1 is composed of an eccentric shaft wheel 2C11, a clamping block 2C12, a diversion folded plate 2C13, and a convex pad 2C14, the eccentric shaft wheel 2C11 is mechanically connected with the clamping block 2C12 and is located on the same vertical plane, the convex pad 2C14 is installed between the two diversion folded plates 2C13, the diversion folded plate 2C13 is inserted and embedded on the left side of the eccentric shaft wheel 2C11, the clamping block 2C12 is a corrugated rod clamping block structure with a narrow right end and a wide left end and a thick arc, so that the diversion disk can conveniently press and attach the diversion plate in an upper and lower manner to simulate a forceps arc surface, so that the internal pressure of the diversion forms a narrow-mouth air duct output effect through the clamping block, and a single included angle recoil effect of a concave triangular groove is formed on the upper and lower sides of the diversion folded angle folded plate 2C13 through the clamping block 2C12, thereby improving the strengthening efficiency of the folded angle air pressure.

The working process is as follows: the worker pulls the pull buckle strip block 3 to lift the through hole window circular truncated cone 2H of the press buckle top block 1 and the bow-shaped shaft circular truncated cone groove 2 to expose the inner tube inserting groove of the centrifugal oxygen floating barrel 4, puts the biological test tube into the inserting groove, then energizes the air pump pipeline butt joint connection tube column block 5 through the base case 7 and radiates heat through the heat radiation disc 6 to form the through hole window circular truncated cone 2H covered, the bottom is energized to start the bow-shaped rotating shaft rod 2D rotation effect for the rotor motor 2E, drives the corrugated column plate 2A1 of the corrugated base plate 2A to be inserted into the base disc groove 2A2 to rotate, the linkage corrugated transverse plate 2A11 crosses the vertical trapezoidal column block 2A12 and the inclined frame plate 2A13 to form the downward counterweight and transverse airflow settlement effect, and simultaneously links the baffle disc groove block 2B1 of the arc baffle disc 2B to be combined with the bottom arc baffle disc 2B2 to form the transverse damping deflection effect of the cross rod frame 2B11 propping up the counterweight pocket 2B 12B 829 frame 2B12 to support the transverse damping surface expansion effect of the ellipsoid frame 2B 3, the flow guide disc 2C1 for ensuring the frame strip flow guide disc 2C is pressed and buckled through the top frame ring 2C2, the horizontal stratosphere air pressure is driven through the eccentric wheel 2C11 to drive the clamping and buckling block 2C12 and the flow guide folded plate 2C13 to form a stratosphere feedback air path effect of spread angle recoil at the periphery of the convex cushion block 2C14, the reinforcing rib buckling strip 2F is used for driving the balloon air disc frame 2G to rotate more conveniently and efficiently, the bow-shaped three-section damping dislocation operation performance of the rotary drum oxygen bleaching is improved, the safety and the stability of the centrifugal washing equipment are ensured, the differential linkage damping is transversely and longitudinally interwoven to match with gravity, the differential centrifugal motion of the three disc bodies is formed, and the clear liquid level effect in a biological test tube is regulated and controlled.

Example two:

referring to fig. 1-7, the present invention provides a bow-shaped three-stage damping dislocation centrifugal washing device based on drum oxygen bleaching, which is otherwise the same as embodiment 1, except that:

referring to fig. 3, the balloon air tray frame 2G is composed of an air tray groove 2G1, a balloon injector 2G2 and an air wall chute 2G3, the air wall chute 2G3 is provided with two air wall chutes which are respectively welded at the left and right lower corners of the air tray groove 2G1, the balloon injector 2G2 is provided with two air wall chutes which are respectively installed at the left and right ends of the air tray groove 2G1, the air tray groove 2G1 and the balloon injector 2G2 are located on the same horizontal plane, and the air wall chute 2G3 is obliquely supported by the balloon injector 2G2 to form a wall-winding air-discharging wall effect of a trapezoidal inclined plane.

Referring to fig. 7, the balloon injector 2G2 is composed of an i-shaped pressurizing groove 2G21, a spherical shell cap 2G22, a shooting-capsule chamber 2G23, and a bottom ellipsoidal-capsule housing 2G24, the i-shaped pressurizing groove 2G21 is installed inside the spherical shell cap 2G22, the i-shaped pressurizing groove 2G21 and the shooting-capsule chamber 2G23 are mechanically connected and located on the same vertical line, the shooting-capsule chamber 2G23 is inserted and embedded inside the bottom ellipsoidal-capsule housing 2G24 and the axes are collinear, the spherical shell cap 2G22 is nested and communicated with the top of the bottom ellipsoidal-capsule housing 2G24, the i-shaped pressurizing groove 2G21 is a composite capsule groove structure with a pressurizing balloon in the middle of upper and lower ellipsoidal-capsules, so that when the middle is pressed and buckled horizontally, the air flow output efficiency is higher, the air output volume is larger, the air wall is filled to wrap biological centrifugal operation, the biological plugging effect is formed, and the biological pushing effect of the shooting-bag 23 is formed by pushing the h-shaped pressurizing groove 2G 462G 22, then the pipeline is output in a burst mode to form a jet column airflow wall for continuous pressurization and filling operation.

When motor start linkage axostylus axostyle and biological test tube grafting centrifugation shock, reach the washing effect that the rotary drum oxygen floated after, oxygen of period supplies the effect to last even, and the trigger formula start-up operation of short time, can cause the later stage oxygen suppliment to stop suddenly, at this moment need be through the air disk groove 2G1 bag sacculus sprayer 2G2 of sacculus air disk frame 2G and the gyration of air wall chute 2G3, then let I-shaped pressure boost groove 2G21 in ball shell cap 2G22 last reciprocal elastic motion inject oxygen and inject in injection pipe bag chamber 2G23 and end ellipsoid bag shell 2G24, form the air current post of compressed oxygen then adherence output smooth brush, guarantee the stability of whole wind wall, avoid the middle and short oxygen to float and cause that biological centrifugation washing is incomplete and influence little biological growth, promote centrifugal washing equipment job stabilization nature and security.

The invention achieves the effects of applying the arc-shaped shaft circular platform groove 2 to be matched with the centrifugal oxygen bleaching cylinder 4, placing a biological test tube into a slot in the centrifugal oxygen bleaching cylinder 4, then starting a rotor motor 2E at the top end of the centrifugal oxygen bleaching cylinder 4 to drive the arc-shaped rotating shaft 2D to rotate to form three-layer damping disc linkage matching with the corrugated chassis 2A, the arc cushion partition disc 2B and the frame strip diversion disc 2C, forming three-section damping dislocation rotation effect, enabling the centrifugal force to be subjected to damping reverse force to form relieving of single-side stress compression of the biological test tube and integral uniform stress of a shock liquid, ensuring large amplitude of peripheral axial movement test tube shock, enabling frame plates to inject oxygen through the balloon air plate rack 2G to form air path rinsing during rotation through the traction effect at the top of the rotary drum, forming high-position oxygen bleaching and axle center stress fine adjustment preparation effect for biological centrifugal washing, and ensuring high efficiency of frame work, the covering effect of the annular air wall of the rotary drum oxygen float is also improved, so that the biological centrifugal washing is solved based on the effect that microorganisms are vibrated to be harmless and beneficial to biological precipitation separation, thereby ensuring that the microorganisms are not interfered by turbid impurities of culture medium liquid to inhibit growth, but a common centrifugal rotary drum is inserted with organisms to load test tubes to vibrate in the vibration process, so that the vibration amplitude of the central end around a centrifugal shaft is large, the swing amplitude of the round end deflects on one side, the test tube is easily pushed to bear the centrifugal force on one side, the test tube is cracked and overflows biological liquid in the washing process, the normal centrifugal motion of equipment is interfered, the axial motion in the rotary drum is also influenced, the rotary shaft is slipped due to the lubrication of the biological liquid, the idling trip of the rotary drum is caused, and the problem of the hidden danger of the whole biological centrifugal.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (9)

1. The utility model provides a centrifugal washing equipment of bow syllogic damping dislocation based on rotary drum oxygen is floated, its structure includes: the top piece (1) is detained in pressure, bow word axle round platform groove (2), draw and detain strip piece (3), a section of thick bamboo (4) is floated to centrifugal oxygen, takes over post piece (5), heat dissipation dish (6), base machine case (7), its characterized in that:

the bow-shaped shaft circular platform groove (2) is nested on the top of the centrifugal oxygen bleaching cylinder (4), the pressing buckle jacking block (1) and the bow-shaped shaft circular platform groove (2) are buckled together, the pull buckle strip block (3) is welded at the right lower corner of the bow-shaped shaft circular platform groove (2), the connecting pipe column block (5) is tightly attached to the front side of the centrifugal oxygen bleaching cylinder (4), the two radiating discs (6) are arranged and are respectively nested on the left side and the right side of the base case (7), and the centrifugal oxygen bleaching cylinder (4) is inserted and embedded on the top of the base case (7);

the arched shaft round platform groove (2) is provided with a corrugated chassis (2A), an arc pad partition disc (2B), a frame strip diversion disc (2C), an arched rotating shaft rod (2D), a rotor motor (2E), a reinforcing rib buckling strip (2F), a balloon air disc frame (2G) and a through hole window round platform (2H);

the corrugated base plate (2A) is mechanically connected with an arc cushion partition plate (2B) through an arched rotating shaft rod (2D), the arc cushion partition plate (2B) is mechanically connected with a frame strip guide plate (2C) through an arched rotating shaft rod (2D), the arched rotating shaft rod (2D) is inserted and embedded under the bottom of a rotor motor (2E), the rotor motor (2E) and a balloon air plate frame (2G) are embedded into a whole, reinforcing rib buckling strips (2F) are welded with the balloon air plate frame (2G), the corrugated base plate (2A), the arc cushion partition plate (2B) and the frame strip guide plate (2C) are all installed inside a through hole window round table (2H), and the through hole window round table (2H) is embedded on the top of a centrifugal oxygen bleaching cylinder (4).

2. The centrifugal washing equipment based on bow three-section damping dislocation of rotary drum oxygen float of claim 1, characterized in that: the corrugated base plate (2A) is composed of a corrugated column plate (2A 1) and a base plate groove (2A 2), the corrugated column plate (2A 1) is installed inside the base plate groove (2A 2), and the corrugated column plate (2A 1) is movably connected with the base plate groove (2A 2).

3. The centrifugal washing equipment based on bow three-stage damping dislocation of rotary drum oxygen float of claim 2, characterized in that: corrugated column board (2A 1) comprises corrugated transverse plate (2A 11), trapezoidal column piece (2A 12), sloping frame plate (2A 13), trapezoidal column piece (2A 12) and sloping frame plate (2A 13) weld an organic whole, trapezoidal column piece (2A 12) all inserts the inside of inlaying at corrugated transverse plate (2A 11) with sloping frame plate (2A 13).

4. The centrifugal washing equipment based on bow three-section damping dislocation of rotary drum oxygen float of claim 1, characterized in that: the arc pad separation disc (2B) is composed of a separation pad disc groove block (2B 1) and a bottom arc pad disc (2B 2), the bottom arc pad disc (2B 2) is tightly attached to the separation pad disc groove block (2B 1), and the bottom arc pad disc (2B 2) is arranged below the bottom surface of the separation pad disc groove block (2B 1).

5. The bow-shaped three-stage damping dislocation centrifugal washing device based on the rotary drum oxygen bleaching as claimed in claim 4, wherein: the utility model discloses a damping disc piece, including separating pad dish groove piece (2B 1), bag frame superimposed sheet (2B 14), cross-bar frame (2B 11), thick damping dish piece (2B 12), ellipsoid frame groove (2B 13), bag frame superimposed sheet (2B 14) are constituteed, cross-bar frame (2B 11) is inserted and is inlayed in the inside of thick damping dish piece (2B 12), ellipsoid frame groove (2B 13) cooperatees with thick damping dish piece (2B 12), bag frame superimposed sheet (2B 14) is installed in the inside of ellipsoid frame groove (2B 13).

6. The centrifugal washing equipment based on bow three-section damping dislocation of rotary drum oxygen float of claim 1, characterized in that: the flow guide disc (2C) is composed of a flow guide disc (2C 1) and a top frame ring (2C 2), the flow guide disc (2C 1) is installed below the bottom of the top frame ring (2C 2), and the flow guide disc (2C 1) and the top frame ring (2C 2) are buckled together.

7. The bow-shaped three-stage damping dislocation centrifugal washing equipment based on the rotary drum oxygen bleaching as claimed in claim 6, wherein: the water conservancy diversion dish (2C 1) comprises off-axis wheel (2C 11), clip piece (2C 12), water conservancy diversion folded plate (2C 13), protruding cushion (2C 14), off-axis wheel (2C 11) and clip piece (2C 12) mechanical connection, protruding cushion (2C 14) are installed between two water conservancy diversion folded plates (2C 13), water conservancy diversion folded plate (2C 13) are inserted and are inlayed in the left side of off-axis wheel (2C 11).

8. The centrifugal washing equipment based on bow three-section damping dislocation of rotary drum oxygen float of claim 1, characterized in that: the balloon air disc frame (2G) is composed of an air disc groove (2G 1), balloon injectors (2G 2) and an air wall chute (2G 3), the air wall chute (2G 3) is provided with two air wall chutes which are respectively welded at the left and right lower corners of the air disc groove (2G 1), and the balloon injectors (2G 2) are provided with two air wall chutes which are respectively arranged at the left and right ends of the air disc groove (2G 1).

9. The bow-shaped three-stage damping dislocation centrifugal washing device based on the rotary drum oxygen bleaching as claimed in claim 8, wherein: the balloon injector (2G 2) is composed of an I-shaped pressurizing groove (2G 21), a spherical shell cap (2G 22), a shooting tube capsule chamber (2G 23) and a bottom ellipsoidal capsule shell (2G 24), wherein the I-shaped pressurizing groove (2G 21) is installed inside the spherical shell cap (2G 22), the I-shaped pressurizing groove (2G 21) is mechanically connected with the shooting tube capsule chamber (2G 23), the shooting tube capsule chamber (2G 23) is inserted into the bottom ellipsoidal capsule shell (2G 24), and the spherical shell cap (2G 22) is nested on the top of the bottom ellipsoidal capsule shell (2G 24).

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