CN113521886A - Biological medium separation equipment - Google Patents

Abstract

The invention discloses a biological medium separation device, which structurally comprises a driver, a feeding port, a material guide plate, a support frame and a host machine, wherein the driver is connected on the host machine, the host machine is indirectly matched on the material guide plate through the support frame, the material guide plate is in sliding fit on the feeding port, the support frame comprises a connecting body, a tightening ring, a circular expansion sleeve, a drawing frame and a push rod, the connecting body is arranged on the circular expansion sleeve, the circular expansion sleeve is indirectly matched with the push rod through the tightening ring and is in transition fit on the feeding port, the push rod is in sliding fit in the drawing frame, the drawing frame is connected on the host machine, the connecting body is provided with a cutting wing and a twisting ring, the cutting wing and the twisting ring are matched with a rotating shaft, when the material guide plate slides obliquely on the arc surface of the support frame, the tightening ring in the middle of the material guide plate can extrude the cutting wing to be reversed and extend to drive the rotating shaft to take the twisting ring as a fulcrum, the rotating shaft between the liftout is matched with the twisting ring to be positioned and connected, the longitudinal contact area between the guide plate and the guide plate is increased, and the guide plate can be ensured to be lifted in a stable state.

Description

Biological medium separation equipment

Technical Field

The invention relates to the technical field of biology, in particular to a biological medium separation device.

Background

The biological medium separation comprises solid-liquid separation, which means that solid and liquid are separated, for example, various solid and liquid are required to be separated in the field of environmental protection engineering, such as sludge and sewage, sand and stone and sewage, excrement and sewage, and the like, so the application of the solid-liquid separation processing equipment in the field of environmental protection is very wide, the existing biological medium separation equipment carries out material guide separation on most of solid and liquid through a material guide plate at present, then an arc surface support frame pushes the material guide plate to obliquely open the area of a material inlet, the material is obliquely guided into a collection cavity, when the support frame obliquely lifts the back of the material guide plate, the material guide plate gradually obliquely slides and leans against the arc surface of the support frame, finally most of the material guide plate is in a suspended weightless state, and a small part of the material guide plate is transversely supported by taking the material inlet as a fulcrum and by means of the arc surface fixed point of the support frame, so that the weights of two sides of the material guide plate are unbalanced, the condition that equidirectional pine takes off appears along the pan feeding mouth easily, causes the adjustment guide angle that the stock guide can not be stable, influences the operating capability of equipment to biological medium separation.

Disclosure of Invention

In order to solve the problems, the invention provides biological medium separation equipment which structurally comprises a driver, a feeding opening, a material guide plate, a support frame and a host machine, wherein the driver is connected to the host machine, the host machine is indirectly matched with the material guide plate through the support frame, the material guide plate is in sliding fit with the feeding opening, the support frame comprises a connecting body, a tightening ring, a circular expanding sleeve, a drawing frame and a push rod, the connecting body is arranged on the circular expanding sleeve, the circular expanding sleeve is indirectly matched with the push rod through the tightening ring and is in transition fit with the feeding opening, the push rod is in sliding fit with the drawing frame, and the drawing frame is connected with the host machine.

As a further improvement of the invention, the connecting body comprises a sucker, a rotating shaft, a cutting wing, a coil pipe, a twisting ring and a middle shaft, wherein the sucker is connected on the circular unfolding sleeve and is in transition fit with the rotating shaft through the coil pipe, the cutting wing is arranged on the rotating shaft, and the cutting wing is indirectly matched with the middle shaft through the twisting ring.

As a further improvement of the invention, the coil is indirectly matched on the material guide plate through the tension ring and can only extend and retract towards one direction, so that the subsequent structure can be further guided to operate forwards.

As a further improvement of the invention, the cutting wing comprises a fixed seat, a cotton pad, a reversing support, an external grid and an internal top groove, the fixed seat is connected with the rotating shaft and is in transition fit with the internal top groove through the reversing support, and the internal top groove is connected between the cotton pad and the external grid.

As a further improvement of the invention, the external lattices are in transition fit with the coil pipe, and the stretching distance of the external lattices can just correspond to the thread surface of the coil pipe one by one, so that the stability after deformation is ensured.

As a further improvement of the invention, the reversing support comprises a bottom support, a roller, a uniform force block, a weight making pad, a rotating connection pad and a sleeve, wherein the bottom support is connected between the uniform force block and the weight making pad, the lower part of the uniform force block is connected with the sleeve through the rotating connection pad, the sleeve is connected on the fixed seat, and the weight making pad is in transition fit with the inner top groove through the roller.

As a further improvement of the invention, the twisting ring comprises a sub-shooting fan, a forward piece, a spacing table, a measuring clamp and an outer supporting layer, wherein the sub-shooting fan is connected on the central shaft and is in running fit with the forward piece, the forward piece is connected with the spacing table and is in transition fit with the rotating shaft through the measuring clamp, and the spacing table is connected in the outer supporting layer.

As a further improvement of the invention, the measuring clamp comprises a hard bottom basin, an outer limit buckle, a check resisting stamp, a frame and a gathering body, wherein the hard bottom basin is connected in the forward piece through the frame, the check resisting stamp is connected between the hard bottom basin and the outer limit buckle, and the gathering body is connected on the outer limit buckle.

Advantageous effects

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

1. according to the invention, the connecting body is provided with the cutting wings and the twisting rings, the cutting wings and the twisting rings are matched with the rotating shaft, when the material guide plate obliquely slides and leans against the circular arc surface of the support frame, the tightening rings in the middle of the material guide plate can extrude the cutting wings to be reversely extended to drive the rotating shaft to push out the rotating shaft between the two parts by taking the twisting rings as fulcrums, and the rotating shaft is matched with the twisting rings to be positioned and supported, so that the longitudinal contact area with the material guide plate is increased, and the material guide plate can be ensured to be lifted in a stable state.

2. The roller is guided by the deviation of the switching pad and can roll towards the loose space in the inner top groove, so that the limit angle of the middle shaft at the other side lifted by the rotating shaft can be basically reached, and the shaking amplitude generated in the rotating process of the rotating shaft along the appointed direction can be reduced.

3. The middle support layer is deformed and screwed on the middle shaft, prying points of the middle forward piece are fully and uniformly distributed to the back of the material guide plate, and the material guide plate is prevented from deviating in different directions due to direct stress of the forward piece.

Drawings

FIG. 1 is a schematic view of a biomedia separation apparatus according to the present invention.

FIG. 2 is a schematic cross-sectional view of the holder of the present invention.

FIG. 3 is a schematic side view of the connection body of the present invention.

FIG. 4 is a schematic cross-sectional view of the wing of the present invention.

Fig. 5 is a schematic plan view of the reversing brace of the present invention.

Fig. 6 is a schematic plan view of the twist ring of the present invention.

FIG. 7 is a cross-sectional view of the measuring clamp of the present invention.

In the figure: a driver-1, a material inlet-2, a material guide plate-3, a support frame-4, a main machine-5, a connecting body-41, a tension ring-42, a circular expansion sleeve-43, a drawing frame-44, a push rod-45, a suction cup-411, a rotating shaft-412, a wing-413, a coil-414, a twist ring-415, a middle shaft-416, a fixed seat-3 a1, a cotton pad-3 a2, a reversing support-3 a3, an external grid-3 a4, an internal top groove-3 a5, a bottom support-a 31, a roller-a 32, a uniform force block-a 33, a weight pad-a 34, a switching pad-a 35, a combination sleeve-a 36, a sub-clapper-5 b1, a forward sheet-5 b2, a spacing table-5 b3, a measuring clamp-5 b4, an external support layer-5 b5, a hard bottom basin-b 41, Outer limit button-b 42, stop-grid stamp-b 43, frame-b 44 and gathering body-b 45.

Detailed Description

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-3, the present invention provides a bio-media separation device, which structurally comprises a driver 1, a feeding port 2, a material guide plate 3, a support frame 4, and a main machine 5, wherein the driver 1 is welded to the main machine 5, the main machine 5 is indirectly fitted to the material guide plate 3 through the support frame 4, the material guide plate 3 is slidably fitted to the feeding port 2, the support frame 4 comprises a connection body 41, a tightening ring 42, a circular extension sleeve 43, a drawing frame 44, and a push rod 45, the connection body 41 is mounted on the circular extension sleeve 43, the circular extension sleeve 43 is indirectly fitted to the push rod 45 through the tightening ring 42 and is transitionally fitted to the feeding port 2, the push rod 45 is slidably fitted in the drawing frame 44, the drawing frame 44 is welded to the main machine 5, the connection body 41 comprises a suction cup 411, a rotating shaft 412, a cutting wing 413, a spiral tube 414, a twist ring 415, and center shaft 416, the suction cup 411 is welded to one end of the circular extension sleeve 43, the coil 414 is in transition fit with the rotating shaft 412, the rotating shaft 412 is provided with a cutting wing 413, the rotating shaft is indirectly matched with the middle shaft 416 through a twisting ring 415, the surface of the coil 414 is in a thread shape and has certain ductility, one side of the coil is indirectly matched with the material guide plate 3 through a tightening ring 42 and can only stretch out and draw back towards one direction, so that subsequent structure operation is further guided forwards, the cutting wing 413 and the twisting ring 415 are arranged on the connecting body 41, the cutting wing 413 and the twisting ring 415 are matched with the rotating shaft 412, when the material guide plate 3 obliquely slides and leans against the arc surface of the support frame 4, the tightening ring 42 in the middle of the material guide plate extrudes the cutting wing 413 to change direction and stretch out to drive the rotating shaft 412 to take the twisting ring 415 as a fulcrum, the rotating shaft 412 between ejection is pushed out to be matched with the twisting ring 415 for positioning and bearing, so that the longitudinal contact area with the material guide plate 3 is increased, and the material guide plate 3 can be ensured to be lifted to maintain a stable state.

Example 2

As shown in fig. 4-7, based on the embodiment 1, the invention combines the mutual cooperation of the following structural components, the cutting wing 413 includes a fixed seat 3a1, a cotton pad 3a2, a reversing support 3a3, an external grid 3a4, an internal top groove 3a5, the fixed seat 3a1 is welded on the rotating shaft 412 and is transitionally matched with the internal top groove 3a5 through the reversing support 3a3, the internal top groove 3a5 is fixedly connected between the cotton pad 3a2 and the external grid 3a4, the external grid 3a4 is transitionally matched with the other side of the rotating tube 414, the stretching distance of the external grid is just corresponding to the threaded surface of the rotating tube 414 one by one, the deformed stability is ensured, the reversing support 3a3 includes a31, a32, a force equalizing block a33, a damping pad 686a 34, a transiting pad 35, a36, the constant force equalizing block 33 a34 a is fixedly connected between the bottom pad 8672 a and the damping pad 368658 a is connected through a 368658 a connecting the lower constant jointing pad 35, the fitting sleeve a36 is welded on the fixing seat 3a1, the weight-making pad a34 is in transition fit on the inner top groove 3a5 through a roller a32, the twisting ring 415 comprises a partial-beating fan 5b1, a forward sheet 5b2, a spacing table 5b3, a position-measuring clamp 5b4 and an outer abutting layer 5b5, the partial-beating fan 5b5 is welded on the middle shaft 416 and is in rotation fit in the forward sheet 5b5, the forward sheet 5b5 is obliquely inserted and embedded on the spacing table 5b5, the inner portion is in transition fit with one end of the rotating shaft 412 through a position-measuring clamp 5b5, the spacing table 5b5 is in socket joint connection with the outer abutting layer 5b5, the position-measuring clamp 5b5 comprises a hard bottom basin b5, an outer limit button 5, an abutting-against grid 5b5, a side of the hard bottom basin b5 is fixedly connected between the outer edge basin b5 and the outer limit 5b5, and one side of the abutting and the inner limit 5b5 is hinged with the abutting and the abutting grid 5, because the roller a32 is deflected by the switching pad a35, the roller a32 can roll towards the wide and loose space in the inner top groove 3a5, can basically reach the limit angle that the rotating shaft 412 lifts the middle shaft 416 at the other side, and reduce the shaking amplitude generated in the rotating process of the rotating shaft 412 along the appointed direction, and the roller a32 is deformed and screwed on the middle shaft 416 through the outer abutting layer 5b5, so that the prying point of the middle forward piece 5b2 is fully and uniformly dispersed to the back of the display screen 3, and the display screen 3 is prevented from having deflection actions in different directions due to the direct stress of the forward piece 5b 2.

The working principle of the bio-media separation device in the above technical solution is explained as follows:

in the using process of the invention, when the support frame 4 obliquely lifts the back of the material guide plate 3 to slide out of the material inlet 2, in order to prevent most of the material guide plate 3 from being in a suspended weightless state finally, a small part of the material guide plate 3 is supported by the support frame 4 by the arc surface transversely by using the fulcrum of the material inlet 2, therefore, the connecting body 41 is arranged on the circular expanding sleeve 43, when the material guide plate 3 gradually slides in and out of the material inlet 2 in an oblique manner, the connecting body will firstly contact the thread structure on the surface of the coil pipe 414, the top sucker 411 is fixed on the circular expanding sleeve 43, the coil pipe 414 is reversely twisted and extends and extrudes towards the circular expanding sleeve 43 and the cutting wing 413, the coil pipe 414 is ensured to have enough rotating space, the rotating shaft 412 can be pulled to rotate together to push the thread structure on the surface of the coil pipe 414, the coil pipe is pressed and inserted along the surface of the external grid 3a4 one by one, the rotating shaft 412 has a fixed point supporting part and is effectively supported at the bottom of the material guide plate 3, the shaking of the material guide plate 3 is avoided, the force of the inner cotton pad 3a2 meshed on the switching pad a35 is changed when the material guide plate is pressed, the switching pad a35 is stripped from the sleeve a36, the weight-making pad a34 is pushed to two ends of the middle shaft 416 in the same direction by the rolling of the roller a32, the middle shaft 416 can be screwed by the rotating shaft 412 in the same direction, the sub-flapping fan 5b1 is driven to rotate together at the bottom of the forward sheet 5b2, the forward sheet 5b2 is further lifted to upwards abut against the material guide plate 3, the elastic deformation in the outer limit buckle b42 is condensed by means of the contact friction with the lattice poking b43 in the hard bottom basin b41, the weight-loss kinetic energy of the material guide plate 3 sliding out is absorbed, the reverse loosening of the material guide plate 3 along the material inlet 2 is prevented, finally the middle shaft 416 and the rotating shaft 412 form a longitudinal support at the back of the material guide plate 3 at a line of three points, the contact area of the support frame 4 to the material guide plate 3 is enlarged, and the stability of the angle adjustment of the material guide plate 3 is improved, and the operational capabilities of the device for data analysis.

In the description of the present invention, it is to be understood that the terms "central," "lateral," "length," "width," "height," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "side," and the like, as used herein, are used in an orientation or positional relationship indicated in the drawings, which is for convenience and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and is not to be construed as limiting the invention.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Claims (8)

1. A biomedia separation apparatus, comprising: its structure includes driver (1), pan feeding mouth (2), stock guide (3), support (4), host computer (5), driver (1) is connected on host computer (5), host computer (5) are through support (4) indirect cooperation on stock guide (3), stock guide (3) sliding fit is on pan feeding mouth (2), support (4) including even helping body (41), tighten ring (42), circle exhibition cover (43), pull frame (44), push rod (45), even help body (41) to install on circle exhibition cover (43), circle exhibition cover (43) is through tightening ring (42) and push rod (45) indirect cooperation, and transition fit on pan feeding mouth (2), push rod (45) sliding fit is in drawing frame (44), drawing frame (44) are connected on host computer (5).

2. A biomedia separation apparatus according to claim 1, wherein: the connecting body (41) comprises a sucker (411), a rotating shaft (412), a cutting wing (413), a coil (414), a twisting ring (415) and a middle shaft (416), the sucker (411) is connected to the circular unfolding sleeve (43) and is in transition fit with the rotating shaft (412) through the coil (414), the cutting wing (413) is installed on the rotating shaft (412), and is indirectly matched with the middle shaft (416) through the twisting ring (415).

3. A biomedia separation apparatus according to claim 2, wherein: the coil (414) is indirectly matched on the material guide plate (3) through a tension ring (42).

4. A biomedia separation apparatus according to claim 2, wherein: cut wing (413) including fixing base (3a1), cotton pad (3a2), switching-over prop (3a3), external check (3a4), interior top groove (3a5), on fixing base (3a1) connection pivot (412), and prop (3a3) and interior top groove (3a5) transition fit through the switching-over, interior top groove (3a5) are connected between cotton pad (3a2) and external check (3a 4).

5. A biomedia separation apparatus according to claim 4, wherein: the external grid (3a4) is in transition fit with the coil (414).

6. A biomedia separation apparatus according to claim 4, wherein: the reversing support (3a3) comprises a bottom support (a31), a roller (a32), a uniform force block (a33), a weight making pad (a34), a switching pad (a35) and a sleeve combining (a36), wherein the bottom support (a31) is connected between the uniform force block (a33) and the weight making pad (a34), the uniform force block (a33) is connected with the sleeve combining (a36) through the switching pad (a35), the sleeve combining (a36) is connected onto a fixed seat (3a1), and the weight making pad (a34) is in transition fit with an inner top groove (3a5) through the roller (a 32).

7. A biomedia separation apparatus according to claim 2, wherein: twist knot ring (415) including dividing clap fan (5b1), cisoid piece (5b2), interval platform (5b3), measurement position clamp (5b4), outer layer (5b5) of supporting, divide clap fan (5b1) to connect on axis (416), and normal running fit in cisoid piece (5b2), on interval platform (5b3) is connected to cisoid piece (5b2), and pass through transition fit on quantity position clamp (5b4) and pivot (412), interval platform (5b3) are connected in outer layer (5b5) of supporting.

8. A biomedia separation apparatus according to claim 7, wherein: the position measuring clip (5b4) comprises a hard bottom basin (b41), an outer limit buckle (b42), a check resisting stamp (b43), a frame (b44) and a gathering body (b45), wherein the hard bottom basin (b41) is connected in the forward piece (5b2) through the frame (b44), the check resisting stamp (b43) is connected between the hard bottom basin and the outer limit buckle (b42), and the gathering body (b45) is connected on the outer limit buckle (b 42).

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