CN112619906B - Butterfly biological centrifuge capable of deeply cleaning stubborn dirt based on resistance generation - Google Patents

Abstract

The invention discloses a butterfly biological centrifuge generating hard scale depth cleaning based on resistance, which is structurally provided with a base, a control panel, a heat dissipation panel, a switchboard, a machine body and a pressure gauge, wherein the control panel and the base are of an integrated structure and are arranged on the front side end face of the control panel, the heat dissipation panel is arranged at the side position of the control panel, the switchboard is fixedly embedded and arranged above the base, the machine body is arranged at one side of the switchboard and matched with the machine body, the pressure gauge is connected with the machine body, the whole ring valve body is assisted to swing towards the direction under the elastic action of a bottom connection supporting spring, so that a connecting belt arc is pulled to slide in the arc direction after penetrating a middle pocket ring, the elastic shape of the connecting belt arc generates reset power, the ring valve body can generate transfer elastic motion during the elastic driving motion process of the bottom connection supporting spring, the generated motion enables the ring valve body to swing for multiple times with small amplitude elasticity, which is beneficial to generate inertia force to enable separated materials attached on the inner side end faces of side plates, under the action of inertial force, the steel wire is separated from the end surface.

Description

Butterfly biological centrifuge capable of deeply cleaning stubborn dirt based on resistance generation

Technical Field

The invention belongs to the field of biological centrifugation, and particularly relates to a butterfly biological centrifuge for deeply cleaning stubborn dirt generated based on resistance.

Background

The biological centrifuge is a device for separating and layering mixed material liquid with density difference, when the disc biological centrifuge rotates at high speed, the mixed material flows through gaps between discs under the centrifugal action due to the fact that the solid-liquid state and the volume density of the mixed material are different, solid particles are settled to form sediments, and therefore separation and layering of the solid-liquid material are achieved.

Based on the discovery of the inventor, the existing butterfly biological centrifuge based on resistance generation stubborn dirt deep cleaning has the following defects:

in the solid-liquid material separation, solid materials can be deposited in a solid-phase settling chamber under centrifugation, then a solid material outlet is opened to discharge after the ring valve moves regularly, and the slightly sticky solid materials can be extruded by throwing force to be continuously compacted on the wall of the ring valve after being settled, so that the materials attached to the wall surface of the ring valve can not be taken out at one time after the solid material outlet is opened, the centrifuge is caused to be separated continuously, the materials on the wall surface of the ring valve are further covered and attached firmly, the situation that the ring valve is not easy to be driven due to the adhesion of the materials is easy to occur, and the opening of the solid material outlet is influenced.

There is therefore a need to propose a butterfly biological centrifuge that generates deep cleaning of stubborn dirt based on resistance.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a butterfly biological centrifuge for generating stubborn dirt and deeply cleaning the stubborn dirt based on resistance so as to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a generate stubborn dirt degree of depth clear butterfly biological centrifuge based on resistance, its structure is equipped with base, control panel, heating panel, switchboard, organism, manometer, the control panel is integrated structure and installs on its front side terminal surface with the base, the side position at the control panel is established to the heating panel, the switchboard is inlayed the top of installing at the base firmly, the organism is located one side of switchboard and cooperatees, the manometer is connected with the organism.

The machine body is provided with a liquid inlet pipe, a liquid phase outlet, a connecting frame, a disc, a solid phase settling chamber and a slag discharging aqueous medium, wherein the liquid inlet pipe is embedded in the machine body and penetrates through the machine body, the liquid inlet pipe is connected to one side of the liquid phase outlet in a penetrating manner, the connecting frame is embedded in the upper end position in the machine body and connected to the outer side of the liquid inlet pipe in a surrounding manner, the disc is positioned on the outer side below the connecting frame, the slag discharging aqueous medium is installed at the bottom position of the machine body, the solid phase settling chamber is arranged at the lower end position of the machine body, and the disc is matched with the solid phase settling chamber.

As a further improvement of the invention, the solid phase settling chamber is provided with a rotary drum, a ring wall, a solid phase outlet, an air port and an opening and closing device, the rotary drum is movably arranged at the middle end position of the solid phase settling chamber, the ring wall and the solid phase settling chamber are of an integrated structure and are arranged at the side edge end positions of the ring wall, the solid phase outlet penetrates through the upper position of the ring wall, the opening and closing device is movably connected to the lower end of the rotary drum, the air port penetrates through the side end of the solid phase settling chamber, the top end of the opening and closing device is movably matched with the solid phase outlet, the ring wall is of an inverted eight-character structure, the diameter port is gradually reduced from top to bottom, and the opening and closing device is of an inverted eight-character annular structure.

As a further improvement of the invention, the opening and closing device is provided with a bottom connection supporting spring, a middle sleeve frame and a ring valve body, the bottom connection supporting spring is connected to the bottom end of the ring valve body and movably matched with the bottom end of the ring valve body, the middle sleeve frame is installed in the middle position of the lower end of the ring valve body and mutually connected in a penetrating mode, and the ring valve body is in a symmetrical structure relative to the middle sleeve frame and moves in the same direction.

As a further improvement of the invention, the ring valve body is provided with a solid ring rod, a middle holding block, a movable connecting body and side plates, the middle holding block and the solid ring rod are of an integrated structure and are arranged in the middle section of the middle holding block, one end of the movable connecting body is embedded in the middle holding block and is movably matched, the lower end of the side plate is hinged with the solid ring rod, the upper end of the side plate is elastically connected with the solid ring rod, the side plate is positioned in the middle holding block, the other end of the movable connecting body is connected with the side plate and is movably matched, the movable connecting body is provided with three positions, and the movable connecting body is uniformly distributed on the middle holding block.

As a further improvement of the invention, the movable connecting body is provided with a sealing member, a middle pocket ring, a connecting belt arc and a movable connecting spring, the middle pocket ring is movably connected at the middle position of the sealing member, the connecting belt arc penetrates through the middle part of the middle pocket ring, the movable connecting spring is connected at the middle position of the rear end of the connecting belt arc and is movably matched with the middle position of the rear end of the connecting belt arc, and two connecting belt arcs are arranged and are in a symmetrical structure relative to the middle pocket ring.

As a further improvement of the invention, the side plate is provided with a rear pulling plate, a front end plate and an accommodating cavity, the rear pulling plate and the side plate are of an integrated structure and are arranged at the rear end position of the rear pulling plate, the front end plate is connected with the inner side end of the rear pulling plate, the accommodating cavity and the front end plate are of an integrated structure and are embedded in the accommodating cavity, and the front end plate is provided with four parts which are of a semicircular structure and are communicated with each other.

As a further improvement of the invention, the accommodating cavity is provided with a moving and pushing spring and a cavity channel, the moving and pushing spring is embedded and movably arranged in the cavity channel and is in sliding fit with the cavity channel, the cavity channel is a hollow arc cavity, the two end openings of the cavity channel are wider in diameter, and the cavity channel is gradually reduced towards the middle section.

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

1. the elastic action of the bottom connection supporting spring assists the whole ring valve body to swing to move, the connecting belt arc is pulled, the middle pocket ring is worn to slide in the arc direction, the elastic deformation is changed into the connecting belt arc to generate reset power, the ring valve body can generate transfer elastic movement in the elastic driving movement process of the bottom connection supporting spring, the generated movement enables the ring valve body to swing in multiple small-amplitude elasticity, inertia force is generated favorably, and separation materials attached to the inner side end face of the side plate are separated from the end face of the side plate under the action of the inertia force.

2. Through the penetrating structure who holds the chamber, do benefit to its terminal surface and go out to produce certain air current and influence, the atmospheric pressure changes to some extent, solid material adsorbs gradually to fill into the chamber and says, pull the board and be dragged along with the back, wholly do small amplitude elasticity and shake the pendulum, the inertial force of its production makes solid material in the chamber say the displacement, move and push away the spring and receive the extrusion of material and displacement and arcuation deformation, to the displacement counteraction in the chamber says the inside material in the chamber outside, release its outside, more enable the material and flourish.

Drawings

FIG. 1 is a schematic structural diagram of a butterfly biological centrifuge for deeply cleaning stubborn dirt generated based on resistance.

Fig. 2 is a schematic view of an internal cross-sectional structure of a machine body according to the present invention.

FIG. 3 is a schematic view of the internal cross-sectional structure of a solid phase precipitation chamber according to the present invention.

Fig. 4 is a schematic view of the internal cross-sectional structure of an opening/closing device according to the present invention.

Fig. 5 is a schematic view of the internal cross-sectional structure of a ring valve body according to the present invention.

Fig. 6 is a schematic view of an internal cross-sectional structure of an articulating body according to the invention.

Fig. 7 is a schematic view of the internal cross-section of a side panel of the present invention.

Fig. 8 is a schematic view of the internal cross-section of a receiving chamber according to the present invention.

In the figure: base-1, control panel-2, heat dissipation plate-3, switchboard-4, machine body-5, pressure gauge-6, liquid inlet pipe-51, liquid phase outlet-52, connection frame-53, disk-54, solid phase precipitation chamber-55, slag discharging aqueous medium-56, rotary drum-551, ring wall-552, solid phase outlet-553, air port-554, opening and closing device-555, bottom connection supporting spring-a 1, middle sleeve frame-a 2, ring valve body-a 3, solid ring rod-a 31, middle connection block-a 32, movable connection body-a 33, side plate-a 34, sealing connection piece-b 1, middle pocket ring-b 2, connection band arc-b 3, movable connection spring-b 4, rear pull plate-c 1, front end plate-c 2, containing cavity-c 3, movable push spring-c 31 and cavity channel-c 32.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a butterfly biological centrifuge capable of deeply cleaning stubborn dirt generated based on resistance, which is structurally provided with a base 1, a control plate 2, a heat dissipation plate 3, a switchboard 4, a machine body 5 and a pressure gauge 6, wherein the control plate 2 and the base 1 are of an integrated structure and are arranged on the front end face of the control plate, the heat dissipation plate 3 is arranged at the side position of the control plate 2, the switchboard 4 is fixedly arranged above the base 1 in an embedded mode, the machine body 5 is positioned on one side of the switchboard 4 and matched with the switchboard, and the pressure gauge 6 is connected with the machine body 5.

The machine body 5 is provided with a liquid inlet pipe 51, a liquid phase outlet 52, a connecting frame 53, a disc 54, a solid phase settling chamber 55 and a slag discharging water medium 56, wherein the liquid inlet pipe 51 is embedded in and penetrates through the machine body 5, the liquid inlet pipe 51 is connected to one side of the liquid phase outlet 52 in a penetrating manner, the connecting frame 53 is embedded in and installed at the upper end position in the machine body 5, the connecting frame 53 is connected to the outer side of the liquid inlet pipe 51 in a surrounding manner, the disc 54 is positioned at the lower outer side of the connecting frame 53, the slag discharging water medium 56 is installed at the bottom position of the machine body 5, the solid phase settling chamber 55 is arranged at the lower end position of the machine body 5, and the disc 54 is matched with the solid phase settling chamber 55.

The solid phase precipitation chamber 55 is provided with a rotary drum 551, an annular wall 552, a solid phase outlet 553, a gas port 554 and an opening and closing device 555, the rotary drum 551 is movably installed at the middle end position of the solid phase precipitation chamber 55, the annular wall 552 and the solid phase precipitation chamber 55 are integrated and are arranged at the side end position, the solid phase outlet 553 penetrates through the upper position of the annular wall 552, the opening and closing device 555 is movably connected to the lower end of the rotary drum 551, the gas port 554 penetrates through the side end of the solid phase precipitation chamber 55, the top end of the opening and closing device 555 is movably matched with the solid phase outlet 553, the annular wall 552 is of an inverted eight-character structure, the diameter port is gradually reduced from top to bottom, the opening and closing device 555 is of an inverted eight-character annular structure, and the opening and closing device 555 performs lifting displacement to perform opening and closing control on the solid phase outlet 553.

The opening and closing device 555 is provided with a bottom connection supporting spring a1, a middle sleeve frame a2 and a ring valve body a3, the bottom connection supporting spring a1 is connected to the bottom end of the ring valve body a3 and is in movable fit, the middle sleeve frame a2 is installed in the middle of the lower end of the ring valve body a3 and is in mutual penetrating connection, the ring valve body a3 is in a symmetrical structure relative to the middle sleeve frame a2 and moves in the same direction, the ring valve body a3 moves under the driving of the elasticity of the bottom connection supporting spring a1, and the elastic movement of the ring valve body a3 is beneficial to the generation of inertia force.

The ring valve body a3 is provided with a solid ring rod a31, a middle joint block a32, a movable joint body a33 and a side plate a34, the middle joint block a32 and the solid ring rod a31 are of an integrated structure and are arranged in the middle section of the middle joint body a33, one end of the movable joint body a33 is embedded inside the middle joint block a32 and is movably matched, the lower end of the side plate a34 is hinged with the solid ring rod a31, the upper end of the side plate a34 is elastically connected with the solid ring rod a31, the side plate a34 is positioned inside the middle joint block a32, the other end of the movable joint body a33 is connected with the side plate a34 and is movably matched, the movable joint body a33 is provided with three positions and is uniformly distributed on the middle joint block a32, and the side plate a34 is driven by the movable joint body a33 and has a swinging power.

The movable connection body a33 is provided with a sealing piece b1, a middle pocket ring b2, a connecting belt arc b3 and a movable connection spring b4, the middle pocket ring b2 is movably connected at the middle end position of the sealing piece b1, the connecting belt arc b3 penetrates through the middle part of the middle pocket ring b2, the movable connection spring b4 is connected at the middle position of the rear end of the connecting belt arc b3 and movably matched with the rear end of the connecting belt arc b3, the connecting belt arc b3 is provided with two connecting belt arcs, the connecting belt arcs are symmetrical with respect to the middle pocket ring b2, and the movable connection spring b4 assists extrusion force applied to the displacement of the connecting belt arc b3 and provides displacement power for the connecting belt arcs.

The specific use mode and function of the embodiment are as follows: personnel start the switchboard 4, adjust the control panel 2, introduce the solid-liquid mixed material into the apparatus from the liquid inlet pipe 51, make the solid-liquid mixture under the function of the disc 54, with the continuous rotation of the rotating drum 551, separate in layers under the function of centrifugal force, the solid material separated is piled up in the ring wall 552, assisted by the elastic action of the bottom connecting support spring a1 the whole ring valve body a3 swings to the movement, the elastic pull solid ring rod a31, make the link belt arc b3 pulled, cross the middle pocket ring b2 to do the arc direction slip, its front end is fixedly connected with the back end of the side plate a34, and pull the side plate a34 to move, the elastic shape of a4 is changed into the link belt arc b3 to produce the reset power, thus make the ring valve body a3 in the elastic driving movement process of the bottom connecting support spring a1, it will produce the own transfer elastic movement, the produced movement makes the ring valve body a3 have many times of small amplitude elastic swing, the inertia is favorable to produce the swing force, the separated materials attached to the inner side end face of the side plate a34 are separated from the end face of the side plate a34 under the action of inertia force, and the materials are prevented from being tightly attached.

Example 2:

as shown in fig. 7 to 8:

wherein, side panel a34 is equipped with and pulls board c1, front end board c2, holds chamber c3 after, pull board c1 and side panel a34 and just establish at its rear end position for the integral structure, front end board c2 is connected and is pulled the medial extremity of board c1 after, it is just embedded inside as the integral structure with front end board c2 to hold chamber c3, front end board c2 is equipped with everywhere, is semi-circular structure, and inside communicates thoroughly, it temporarily holds the chamber to hold chamber c3 provides for the material to produce air current change and inertial force when following front end board c2 activity, be convenient for its inside material to jump out front end board c2 outside end face.

The accommodating cavity c3 is provided with a moving and pushing spring c31 and a cavity channel c32, the moving and pushing spring c31 is embedded in the cavity channel c32 and is in sliding fit, the cavity channel c32 is a hollow arc cavity, two end openings of the cavity channel c32 are wide in diameter and gradually reduced towards the middle section, and the moving and pushing spring c31 can move conveniently to push materials outwards.

The specific use mode and function of the embodiment are as follows: the materials are attached to the end face of the outer side of the front end plate c2, the through structure of the accommodating cavity c3 is beneficial to the generation of certain air flow influence on the end face of the accommodating cavity c3, the air pressure is changed, the solid materials are gradually adsorbed and filled in the cavity channel c32, the c34 is pulled along with the rear pulling plate c1, the whole c34 is elastically swung in a small-amplitude manner, the solid materials are displaced in the cavity channel c32 due to the inertia force generated by the swing of the swing structure, the moving push spring c31 is extruded by the materials to be displaced and deformed in an arc shape, the displacement towards the outer side of the cavity channel c32 is reacted with the materials in the cavity channel c32, the materials are pushed out towards the outer side, the materials can be more active, and the attachment is avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (3)

1. The utility model provides a generate stubborn dirt degree of depth clear butterfly biological centrifuge based on resistance, its structure is equipped with base (1), control panel (2), heating panel (3), switchboard (4), organism (5), manometer (6), control panel (2) and base (1) structure as an organic whole and install on its front end face, the side position at control panel (2) is established in heating panel (3), switchboard (4) build in the top of installing at base (1), organism (5) are located one side of switchboard (4) and cooperate, manometer (6) are connected its characterized in that with organism (5):

the machine body (5) is provided with a liquid inlet pipe (51), a liquid phase outlet (52), a connecting frame (53), a disc (54), a solid phase settling chamber (55) and a slag discharging aqueous medium (56), wherein the liquid inlet pipe (51) is embedded into and penetrates through the machine body (5), the liquid inlet pipe (51) is connected to one side of the liquid phase outlet (52) in a penetrating manner, the connecting frame (53) is embedded into and arranged at the upper end position inside the machine body (5), the connecting frame (53) is connected to the outer side of the liquid inlet pipe (51) in a surrounding manner, the disc (54) is positioned at the outer side below the connecting frame (53), the slag discharging aqueous medium (56) is arranged at the bottom position of the machine body (5), the solid phase settling chamber (55) is arranged at the lower end position of the machine body (5), and the disc (54) is matched with the solid phase settling chamber (55);

the solid phase precipitation chamber (55) is provided with a rotary drum (551), an annular wall (552), a solid phase outlet (553), a gas port (554) and an opening and closing device (555), the rotary drum (551) is movably arranged at the middle end position of the solid phase precipitation chamber (55), the annular wall (552) and the solid phase precipitation chamber (55) are of an integrated structure and are arranged at the side edge end position of the annular wall, the solid phase outlet (553) penetrates through the upper position of the annular wall (552), the opening and closing device (555) is movably connected to the lower end of the rotary drum (551), the gas port (554) penetrates through the side edge of the solid phase precipitation chamber (55), and the top end of the opening and closing device (555) is movably matched with the solid phase outlet (553);

the opening and closing device (555) is provided with a bottom connection supporting spring (a 1), a middle sleeve frame (a 2) and a ring valve body (a 3), the bottom connection supporting spring (a 1) is connected to the bottom end of the ring valve body (a 3) and movably matched with the bottom end of the ring valve body, and the middle sleeve frame (a 2) is installed in the middle of the lower end of the ring valve body (a 3) and mutually connected in a penetrating manner;

the ring valve body (a 3) is provided with a solid ring rod (a 31), a middle holding block (a 32), a movable connecting body (a 33) and a side plate (a 34), wherein the middle holding block (a 32) and the solid ring rod (a 31) are of an integrated structure and are arranged in the middle section of the middle holding block (a 33), one end of the movable connecting body (a 33) is embedded in the middle holding block (a 32) and is movably matched, the lower end of the side plate (a 34) is hinged with the solid ring rod (a 31), the upper end of the side plate (a 34) is elastically connected with the solid ring rod (a 31), the side plate (a 34) is located on the inner side of the middle holding block (a 32), and the other end of the movable connecting body (a 33) is connected with the side plate (a 34) and is movably matched;

the movable connection body (a 33) is provided with a sealing connection piece (b 1), a middle pocket ring (b 2), a connection belt arc (b 3) and a movable connection spring (b 4), the middle pocket ring (b 2) is movably connected to the middle end position of the sealing connection piece (b 1), the connection belt arc (b 3) penetrates through the middle part of the middle pocket ring (b 2), and the movable connection spring (b 4) is connected to the middle position of the rear end of the connection belt arc (b 3) and is movably matched with the middle position.

2. The butterfly biological centrifuge for deep cleaning of stubborn dirt generated based on resistance according to claim 1, wherein: side board (a 34) are equipped with and pull board (c 1), front end board (c 2), hold chamber (c 3) after, pull board (c 1) and side board (a 34) for the integrated configuration and establish at its rear end position, the medial extremity of pulling board (c 1) is connected at the back to front end board (c 2), it just imbeds inside to hold chamber (c 3) and front end board (c 2) for the integrated configuration.

3. The butterfly biological centrifuge for deep cleaning of stubborn dirt generated based on resistance according to claim 2, characterized in that: the containing cavity (c 3) is provided with a moving and pushing spring (c 31) and a cavity channel (c 32), and the moving and pushing spring (c 31) is embedded in and movably matched with the cavity channel (c 32) in a sliding mode.

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