CN113772754A - Force-bearing device for solid-liquid separation - Google Patents

Abstract

The invention discloses a force-bearing device for solid-liquid separation, which comprises a cylindrical box body, wherein a force-bearing mechanism is arranged in the cylindrical box body, a water inlet is arranged at the top of the cylindrical box body, the two force-bearing blocks are inclined by the aid of the impact force of water and move downwards through a rotating shaft, a second fixing block at the top of each force-bearing block is impacted by the water flow, one ends of the second fixing blocks, which are exposed outside, are stressed and extrude an elastic plate I, the first elastic plate I can improve the stress degree of the second fixing blocks and improve the stress effect of the second fixing blocks, the second fixing blocks are pulled by the second elastic plates through elasticity in the second fixing blocks, the second fixing blocks are extruded by air bags, the air bags shrink inwards when the pressure of local water flow is high, and the air bags drive the second fixing blocks to rebound when the pressure of the water flow is low, so that the effect of up-and down floating is achieved, can bear the impact force caused by water flowing greatly.

Description

Force-bearing device for solid-liquid separation

Technical Field

The invention relates to the technical field of solid-liquid separation, in particular to a stress device for solid-liquid separation.

Background

The technological process of extracting metal iron from iron-containing mineral mainly includes blast furnace process, direct reduction process, smelting reduction process and plasma process. From the metallurgical point of view, iron making is the reverse of iron rusting and gradual mineralization, and simply, pure iron is reduced from iron-containing compounds. In actual production, pure iron does not exist, and the obtained iron-carbon alloy;

because the impurities contained in the water are too much and are not suitable for being directly drunk by a human body, the water source needs to be subjected to solid-liquid separation, the impurities in the water source are separated out and purified, and the water can be suitable for being drunk by the human body.

Disclosure of Invention

The invention aims to provide a force-bearing device for solid-liquid separation, which is used for solving the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a atress device for solid-liquid separation, includes the cylinder box, the inside atress mechanism that is provided with of cylinder box, cylinder box top is provided with the water inlet, inside fixture block, reposition of redundant personnel mechanism, kicking block one, stock, fixed block one, baffle and the cylinder of including of atress mechanism, the through-hole has been seted up at the fixture block top, reposition of redundant personnel mechanism is equallyd divide and is do not set up in three through-hole upper end, kicking block one is equallyd divide and does not set up in three separating mechanism bottom, stock fixed connection is in kicking block one bottom, fixed block one all sets up under three fixed block one, the equal fixed connection of baffle is in three fixed block one bottom.

Preferably, the inside pivot, atress piece, loose axle one, fixed block two, elastic plate one, elastic plate two, fixed block and the gasbag of including of reposition of redundant personnel mechanism, the atress piece all rotates to be connected in pivot left and right sides, two the opening has all been seted up at atress piece top, the loose axle one all sets up inside the opening, fixed block cup joints at loose axle one surface, the equal fixed connection of elastic plate one is at two right side upper segments of fixed block, the one end and the atress piece top fixed connection of fixed block two are kept away from to elastic plate one, two fixed connections of elastic plate are at two left sides lower extreme of fixed block, the one end and two inside fixed connection of fixed block two are kept away from to elastic plate two, set up flutedly on two top left sides, the fixed block joint is inside the recess, the gasbag sets up in recess inner wall bottom.

Preferably, the first fixing block comprises an air pipe, a first push plate, a cylindrical rod, a first fixing plate, a first connecting block, a first supporting rod, a second supporting block, a second fixing plate and a second fixing plate, the top of the first fixing block is provided with a circular groove, the air pipe is arranged at the bottom of the circular groove, the left side and the right side of the lower end in the first fixing block are provided with square grooves, the first push plate is slidably connected in the two square grooves, the cylindrical rod is fixedly connected at one side, away from each other, of the first push plates, the first connecting block is arranged at the lower end of the left side and the right side of the first fixing block, the supporting rod is rotatably connected at the top of the first connecting block, the first supporting block is rotatably connected at one end, away from the first connecting block, of the supporting block, the first fixing plate is fixedly connected at one side, close to each other, of the first fixing plates, and the second connecting block is arranged at the top of one side, close to each other, of the first fixing plates, and the second fixing plate is rotatably connected to the bottoms of the second connecting blocks.

Preferably, the first fixing plate comprises a second pushing plate, an arc-shaped rod and a third connecting block, the first fixing plate is internally provided with an arc-shaped groove, the second pushing plate is slidably connected inside the arc-shaped groove, the arc-shaped rod is fixedly connected to the bottom of the second pushing plate, the bottom of the arc-shaped rod penetrates through the bottom of the arc-shaped groove and extends to the outside, the third connecting block is rotatably connected to the bottom of the arc-shaped rod, the third connecting block is fixedly connected with the left side of the second fixing plate, the second fixing plate is internally provided with an air injection mechanism, the air injection mechanism comprises a second ejecting block, a third square plate, an elastic plate and a third fixing block, the second ejecting block is clamped on the left side of the second fixing block, the second fixing plate is internally provided with a square groove, the square plate is fixedly connected to the right side of the ejecting block, the square plate is slidably connected inside the square groove, and the third elastic plate is fixedly connected to the upper end and the lower end of the right side of the square plate, two one side that square plate was all kept away from to elastic plate three all with square groove inner wall right side fixed connection, the arc recess has respectively been seted up to square groove upper and lower ends, the vent has been seted up on the square groove right side, two the inside check valve that is provided with of arc recess, the one end that square groove was kept away from to three equal fixed connection of fixed block two arc recesses, three inside circular trachea that are provided with of fixed block, three left sides of fixed block all are provided with the air jet.

Preferably, two the inner wall left side that the arc recess is close to one side each other rotates and is connected with deep bead one, two the equal fixedly connected with elastic cord in one side that deep bead one is close to each other, two the one end that two deep beads one were kept away from to the elastic cord all with arc recess inner wall left side fixed connection, two the right-hand member that one side was close to each other to deep bead one all is provided with dog one, vent inner wall top rotates and is connected with deep bead two, deep bead two right side lower extreme fixed connection has elastic cord two, the one end and vent bottom fixed connection that deep bead two were kept away from to the elastic cord, deep bead two top right sides are provided with dog two.

Preferably, the first fixing plate and the second fixing plate are rotatably connected with the first fixing block through rollers.

Preferably, the lower end of the left side of the first fixed plate is provided with a second movable shaft, and the left side of the second movable shaft is rotatably connected with the cylindrical rod.

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

1. according to the invention, by arranging the flow dividing mechanism, the two stress blocks are subjected to the impact force of water and move downwards through the rotating shaft to be in an inclined state, the fixed blocks II at the tops of the two stress blocks can be subjected to the impact force of water flow, at the moment, the ends of the fixed blocks II exposed outside can be stressed and extrude the elastic plates I, the elastic plates I can improve the stress degree of the fixed blocks II and improve the stress effect of the fixed blocks II, the fixed blocks II can pull the fixed blocks II through elasticity inside, the fixed blocks can extrude the air bags, the air bags can shrink inwards when the local water flow pressure is high, the air bags can drive the fixed blocks II to rebound when the water flow pressure is low, the effect of up-and-down floating is achieved, and the impact force caused by water flowing can be greatly borne.

2. According to the invention, through the arrangement of the second fixing plate, air can push the first two push plates to extrude the second springs and simultaneously drive the second two cylindrical rods to move outwards, the first two push plates have the same size as the inner part of the square groove, so that the air can be prevented from passing, the second two cylindrical rods can push the second two fixing plates through the second two movable shafts, the first two fixing plates move outwards under the thrust of the second two fixing plates, at the moment, the third springs in the arc-shaped grooves are not supported by pressure and extend outwards and jack up the second two fixing plates, the second fixing plates can automatically extend outwards to reduce the impact force of water flow for the second time through the stress of the stress block at the top, and the bearing blocks and the supporting rods at the bottoms of the first two fixing plates can improve the stability of the first fixing plates and the second fixing plates, so that the first fixing plates and the second fixing plates cannot break when being impacted by the water flow.

3. According to the invention, through arranging the air injection mechanism, when water flow strikes the second ejection block at the top of the second fixed plate, the second ejection block drives the square plate to move inwards under the action of force, the square plate can extrude internal air when moving inwards, the first air baffle plate is extruded to move outwards under the action of force, the first elastic rope is pulled, when air is discharged from the two arc-shaped grooves and enters the arc-shaped grooves, the first air baffle plate can retract the first air baffle plate to the original position due to the absence of air pressure, the air cannot be immediately discharged and can be blocked in the arc-shaped grooves due to the relation of the one-way valve, when the square plate rebounds through the third elastic plate, the second air baffle plate is pulled through the negative pressure state in the square groove, so that the external air enters the square groove, and when the air in the square groove is supplemented and the negative pressure state disappears, the second elastic rope can pull the second air baffle plate back to the original position, when square board again because during the pressure downstream of rivers impact, can extrude the inside air of arc recess, make it spout in passing through the check valve and following the shower nozzle at three tops of fixed block, hit rivers and hit the effect that reaches to break away rivers, reduced the impact force of rivers to a certain extent by a wide margin.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the cylinder case of the present invention;

FIG. 3 is a schematic diagram of the internal structure of the force-receiving mechanism of the present invention;

FIG. 4 is a schematic view of the internal structure of the shunt mechanism of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 3;

FIG. 6 is an enlarged view of a portion of C of FIG. 5 according to the present invention;

FIG. 7 is a schematic view, partially in section, of a gas injection mechanism of the present invention;

FIG. 8 is an enlarged partial view of D of FIG. 7 in accordance with the present invention;

FIG. 9 is an enlarged partial view of E in FIG. 7 according to the present invention

In the figure: the device comprises a cylindrical box body 1, a stress mechanism 11, a clamping block 111, a flow dividing mechanism 112, a rotating shaft s1, a stress block s2, a movable shaft I s3, a fixed block II s4, an elastic plate I s5, an elastic plate II s6, a fixed clamping block S7, an air bag S8, a top block I113, a long rod 114, a fixed block I115, an air pipe I a1, a push plate I a2, a cylindrical rod A3, a movable shaft II a4, a fixed plate I a5, a push plate II a51, an arc rod A52, a connecting block III a53, a connecting block I a6, a supporting rod A7, a bearing block A8, a connecting block II a9, a fixed plate 10, an air injection mechanism Z1, a top block II z2, a square plate Z3, an elastic plate III z4, a fixed block III z5, a partition plate 116 and a water inlet 12.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a atress device for solid-liquid separation, including cylinder box 1, the inside atress mechanism 11 that is provided with of cylinder box 1, 1 top of cylinder box is provided with water inlet 12, atress mechanism 11 is inside to include fixture block 111, reposition of redundant personnel mechanism 112, kicking block 113, stock 114, fixed block 115, baffle 116 and cylinder 117, the through-hole has been seted up at fixture block 111 top, reposition of redundant personnel mechanism 112 is equallyd divide and is do not set up in three through-hole upper end, kicking block 113 is equallyd divide and does not set up in three separating mechanism 112 bottom, stock 114 fixed connection is in kicking block 113 bottom, fixed block 115 all sets up under three fixed block 115, the equal fixed connection of baffle 116 is in three fixed block 115 bottoms.

The interior of the flow dividing mechanism 112 comprises a rotating shaft s1, a stress block s2, a movable shaft I3, a fixed block II s4, an elastic plate I s5, an elastic plate II s6, a fixed block S7 and an air bag S8, the stress block S2 is rotatably connected to the left side and the right side of the rotating shaft S1, the tops of the two stress blocks S2 are respectively provided with an opening, the movable shaft I s3 is arranged in the opening, the fixed block II s4 is sleeved on the outer surface of the movable shaft I s3, the elastic plate I s5 is respectively fixedly connected to the upper section of the right side of the fixed block II s4, one end of the elastic plate I s5 far away from the fixed block II s4 is fixedly connected with the top of the stress block S2, the elastic plate II s2 is fixedly connected to the lower end of the left side of the fixed block II s2, one end of the elastic plate II s2 far away from the fixed block II s2 is fixedly connected with the interior of the fixed block II s2, the left side of the fixed block II s2 is provided with a groove, the left side of the fixed block II s2, the fixed block S2 is provided with a groove, the fixed block S2, the flow dividing mechanism 112 is arranged on the inner wall of the flow dividing mechanism 112, the two stress blocks s2 are impacted by water, so that the stress blocks move downwards through the rotating shaft s1 to be in an inclined state, the two fixing blocks s4 at the tops of the two stress blocks s2 can be impacted by water flow, at the moment, the ends, exposed outside, of the two fixing blocks s4 can be stressed and extrude the elastic plate s5, the stress degree of the two fixing blocks s4 can be improved through the elastic plate s5, the stress effect of the two fixing blocks s4 is improved, the two fixing blocks s4 can be pulled by the elastic plate s6 in the elastic plate, the fixing block s7 can extrude the air bag s8, the air bag s8 can contract inwards when the local water flow pressure is large, the air bag s8 can drive the two fixing blocks s4 to rebound when the water flow pressure is small, the up-down floating effect is achieved, and the impact force caused by water flowing can be greatly borne.

The fixing block I115 comprises an air pipe a1, a push plate I2, a cylindrical rod a3, a fixing plate I5, a connecting block I a6, a supporting rod A7, a bearing block A8, a connecting block II a9 and a fixing plate II a10, a circular groove is formed in the top of the fixing block I115, the air pipe a1 is arranged at the bottom of the circular groove, square grooves are formed in the left side and the right side of the inner lower end of the fixing block I115, the push plate I a2 is connected inside the two square grooves in a sliding mode, the cylindrical rod A3 is fixedly connected to the sides, far away from the two push plate I a2, the connecting block I a6 is arranged at the lower ends of the left side and the right side of the fixing block I115, the supporting rod A7 is rotatably connected to the top of the connecting block I a6, the bearing block A8 is rotatably connected to one end, far away from the supporting rod A7, the fixing plate I a5 is fixedly connected to the side, the two bearing blocks A8, the sides, the two connecting blocks II a9 are arranged at the tops of the sides, of the two fixing plates I a5, close to each other, the second fixing plates a10 are rotatably connected to the bottoms of the second connecting blocks a 9.

The fixing plate a5 comprises a push plate second a51, an arc-shaped rod a52 and a connecting block third a53, the fixing plate first a5 is internally provided with an arc-shaped groove, the push plate second a51 is slidably connected inside the arc-shaped groove, the arc-shaped rod a52 is fixedly connected at the bottom of the push plate second a51, the bottom of the arc-shaped rod a52 penetrates through the bottom of the arc-shaped groove and extends to the outside, the connecting block third a53 is rotatably connected at the bottom of the arc-shaped rod a52, the connecting block third a53 is fixedly connected with the left side of the fixing plate second a10, the fixing plate second a10 is internally provided with an air injection mechanism z1, the air injection mechanism z1 comprises a top block second z1, a square plate z1, an elastic plate third z1 and a fixing block third z1, the top block second z1 is clamped at the left side of the fixing plate second a1, the fixing plate second a1 is internally provided with a square groove, the square plate z1 is fixedly connected at the right side of the square plate z1, the square plate z1 is fixedly connected at the lower end of the square plate z1, one side of each elastic plate tri-z 4, which is far away from the square plate z31, is fixedly connected with the right side of the inner wall of the square groove, the upper end and the lower end of each square groove are respectively provided with an arc-shaped groove, the right side of each square groove is provided with a vent, one-way valves are arranged in the two arc-shaped grooves, the fixed blocks tri-z 5 are respectively fixedly connected with one ends of the two arc-shaped grooves, which are far away from the square grooves, through the arrangement of the fixed plates II a9, air can push the two push plates I2 to extrude the springs II and simultaneously drive the two cylindrical rods A3 to move outwards, the sizes of the two push plates I2 are the same as those of the insides of the square grooves, so that the air can be prevented from passing, the two cylindrical rods A3 can push the two fixed plates II a9 through the two movable shafts II a4, the two fixed plates I a5 are pushed by the two fixed plates II a9 to move outwards, at the moment, the springs III in the arc-shaped grooves have no pressure support, so as to extend outwards and jack up the two fixed plates II a9 at the same time, the second fixing plate a9 can automatically extend to the outside to reduce the impact force of water flow for the second time by the stress of the stress block s2 at the top, and the bearing block a8 and the supporting rod a7 at the bottom of the first fixing plate a5 can improve the stability of the first fixing plate a5 and the second fixing plate a9, so that the first fixing plate a5 and the second fixing plate a9 cannot break when being impacted by the water flow.

The left side of the inner wall of one side, close to each other, of each of the two arc-shaped grooves is rotatably connected with a first wind shield, one side, close to each other, of each of the two wind shields is fixedly connected with a stretch rope, one ends, far away from the two wind shields, of the two stretch ropes are fixedly connected with the left side of the inner wall of each arc-shaped groove, the right ends, close to each other, of the two wind shields are respectively provided with a first stop block, the top of the inner wall of each vent is rotatably connected with a second wind shield, the lower end of the right side of each wind shield is fixedly connected with a second stretch rope, one end, far away from the wind shields, of each stretch rope is fixedly connected with the bottom of each vent, the right sides of the tops of the two wind shields are provided with second stop blocks, through the arrangement of an air injection mechanism z1, when water flows strike on a second stop blocks a2 at the tops of two fixed plates a9, the second stop blocks a2 are stressed to drive the square plates z3 to move inwards, the square plates z3 can extrude internal air, and the air is extruded to move outwards due to the stress of the two wind shields, and pulls the first elastic rope, when the air is discharged from the two arc-shaped grooves and enters the arc-shaped grooves, the two first wind shields retract the first wind shields to the original position for a moment due to the absence of air pressure, due to the relationship of the one-way valve, air cannot be immediately discharged and can be blocked in the arc-shaped groove, when the square plate z3 rebounds through the elastic plate tri z4, the second wind shield can be pulled through the negative pressure state in the square groove, so that the external air enters the square groove, when the air in the square groove is supplemented and the negative pressure state disappears, the second elastic rope can pull the second wind screen back to the original position, when the square plate z3 moves downwards again due to the pressure of water impact, the air in the arc groove is extruded to pass through the one-way valve and is sprayed out from the spray head at the top of the fixed block three z5, the water flow is beaten to achieve the effect of dispersing the water flow, and the impact force of the water flow is greatly reduced to a certain extent.

The two first fixing plates a5 are rotatably connected with the first fixing blocks 115 through rollers.

The lower end of the left side of the first fixed plate a5 is provided with a second movable shaft a4, and the left side of the second movable shaft a4 is rotatably connected with the cylindrical rod a 3.

The working principle is as follows: when the force-bearing device for solid-liquid separation is used, water is injected from the water inlet 12 and enters the cylindrical box body 1, water flow is divided into three strands and enters the cylindrical box body from different through holes, the two force-bearing blocks s2 are subjected to the impact force of the water and move downwards through the rotating shaft s1 to be in an inclined state, the two fixing blocks s4 at the tops of the two force-bearing blocks s2 can be subjected to the impact force of the water flow, at the moment, the ends, exposed outside, of the two fixing blocks s4 can be subjected to stress and extrude the first elastic plate s5, the second elastic plate s6 can pull the second fixing blocks 4 in the inner part through the elastic force, the second fixing blocks s7 can extrude the air bag s8 to achieve the effect of up-down floating, the first top blocks 112 can be extruded and exert the pressure on the first elastic plate when the two force-bearing blocks s2 are subjected to downward movement through the stress, the first top blocks 112 drive the round plate to move downwards through the long rod 114 and extrude the first spring, the round plate when the round plate moves downwards, and simultaneously extrudes the air in the round plate in the round groove and enables the round plate to flow through the air pipe 1 In the groove, air can push the two push plates I2 to extrude the spring II and drive the two cylindrical rods A3 to move outwards at the same time, the two cylindrical rods A3 can push the two fixing plates II a9 through the two movable shafts II a4, the two fixing plates I5 are pushed by the two fixing plates II a9 to move outwards, the spring III in the arc-shaped groove has no pressure support to extend outwards and jack up the two fixing plates II a9 at the same time, water which is shunted by the shunting mechanism 112 flows downwards to hit the jacking blocks II a2 at the tops of the two fixing plates II a9, the jacking blocks II a2 is forced to drive the square plate Z3 to move inwards, the square plate Z3 can extrude the air inside when moving inwards, the air is forced to move outwards by the two air blocking plates I, the elastic ropes I are pulled, when the air is discharged from the two arc-shaped grooves and enters the arc-shaped grooves, the two air blocking plates I can retract the air to the original position due to the absence of the two air blocking plates I, due to the relation of the one-way valve, air cannot be discharged immediately and can be blocked in the arc-shaped groove, when the square plate z3 rebounds through the elastic plate three z4, the second wind shield can be pulled through the negative pressure state in the square groove, so that outside air enters the square groove, when the negative pressure state disappears after the air in the square groove is supplemented, the second wind shield can be pulled back to the original position through the elastic rope, when the square plate z3 moves downwards due to the pressure of water flow impact again, the air in the arc-shaped groove can be extruded, the air passes through the one-way valve and is sprayed out from the spray head at the top of the fixed block three z5, water flow is hit to achieve the effect of dispersing the water flow, the dispersed water with reduced impact force can flow out from the bottom of the fixed block 111 and flow out from the bottom of the round box body 1.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a atress device for solid-liquid separation, includes cylinder box (1), its characterized in that: cylinder box (1) inside is provided with atress mechanism (11), cylinder box (1) top is provided with water inlet (12), atress mechanism (11) is inside to include fixture block (111), reposition of redundant personnel mechanism (112), kicking block (113), stock (114), fixed block (115), baffle (116) and cylinder (117), the through-hole has been seted up at fixture block (111) top, reposition of redundant personnel mechanism (112) are equallyd divide and are do not set up in three through-hole upper end, kicking block (113) are equallyd divide and are do not set up in three separating mechanism (112) bottom, stock (114) fixed connection is in kicking block (113) bottom, fixed block (115) all sets up under three fixed block (115), the equal fixed connection of baffle (116) is in three fixed block (115) bottom.

2. The force-receiving device for solid-liquid separation according to claim 1, characterized in that: the shunting mechanism (112) comprises a rotating shaft (s1), a stress block (s2), a first movable shaft (s3), a second fixed block (s4), a first elastic plate (s5), a second elastic plate (s6), a fixed clamping block (s7) and an air bag (s8), the stress block (s2) is rotatably connected to the left side and the right side of the rotating shaft (s1), openings are formed in the tops of the two stress blocks (s2), the first movable shaft (s3) is arranged in the openings, the second fixed block (s4) is sleeved on the outer surface of the first movable shaft (s3), the first elastic plate (s5) is fixedly connected to the upper section of the right side of the second fixed block (s4), one end, far away from the second fixed block (s4), of the first elastic plate (s5) is fixedly connected with the top of the stress block (s2), the second elastic plate (s6) is fixedly connected to the lower end of the second fixed block (s4), one end, far away from the second elastic plate (s 5956) is connected with the fixed block (s 86 4), the left side of the top of the second fixing block (s4) is provided with a groove, the fixing block (s7) is clamped inside the groove, and the air bag (s8) is arranged at the bottom of the inner wall of the groove.

3. The force-receiving device for solid-liquid separation according to claim 1, characterized in that: the fixing block I (115) comprises an air pipe (a1), a push plate I (a2), a cylindrical rod (a3), a fixing plate I (a5), a connecting block I (a6), a supporting rod (a7), a bearing block (a8), a connecting block II (a9) and a fixing plate II (a10), a round groove is formed in the top of the fixing block I (115), the air pipe (a1) is arranged at the bottom of the round groove, square grooves are formed in the left side and the right side of the inner lower end of the fixing block I (115), the push plate I (a2) is connected to the inner portions of the two square grooves in a sliding mode, the cylindrical rod (a3) is fixedly connected to one side, away from each other, of the two push plate I (a2), the connecting block I (a6) is arranged at the lower ends of the left side and the right side of the fixing block I (115), the supporting rod (a7) is connected to the top of the connecting block I (a6) in a8) in a rotating mode, and one end, away from the supporting rod (a7) is far away from the connecting block I (a6), the first fixing plates (a5) are fixedly connected to one side, close to each other, of the two bearing blocks (a8), the second connecting blocks (a9) are arranged at the tops of the two first fixing plates (a5) at one side, close to each other, and the second fixing plates (a10) are rotatably connected to the bottoms of the two second connecting blocks (a 9).

4. The force-receiving device for solid-liquid separation according to claim 3, characterized in that: the first fixing plate (a5) internally comprises a second push plate (a51), an arc-shaped rod (a52) and a third connecting block (a53), an arc-shaped groove is formed in the first fixing plate (a5), the second push plate (a51) is slidably connected in the arc-shaped groove, the arc-shaped rod (a52) is fixedly connected to the bottom of the second push plate (a51), the bottom of the arc-shaped rod (a52) penetrates through the bottom of the arc-shaped groove and extends to the outside, the third connecting block (a53) is rotatably connected to the bottom of the arc-shaped rod (a52), the third connecting block (a53) is fixedly connected with the left side of the second fixing plate (a10), an air injection mechanism (z1) is arranged in the second fixing plate (a10), the second air injection mechanism (z1) internally comprises a second top block (z2), a square plate (z3), a third elastic plate (z4) and a third connecting block (z5), the second top block (z2) is clamped on the left side of the second fixing plate (a10), and a groove is formed in the second fixing plate (10), square board (z3) fixed connection is on kicking block (z2) right side, square board (z3) sliding connection is inside square groove, the equal fixed connection of three (z4) of elastic plate is lower extreme, two on square board (z3) right side one side that square board (z31) was kept away from in three (z4) of elastic plate all with square groove inner wall right side fixed connection, the arc recess has been equallyd divide equally to the lower extreme on the square groove and has been seted up respectively, the vent has been seted up on square groove right side, two the inside check valve that is provided with of arc recess, the one end that square groove was kept away from in two arc recesses to the equal fixed connection of fixed block three (z 5).

5. The force-receiving device for solid-liquid separation according to claim 4, wherein: two the inner wall left side that the arc recess is close to one side each other rotates and is connected with deep bead one, two the equal fixedly connected with stretch cord in one side that deep bead one is close to each other, two the one end that two deep beads one were kept away from to the stretch cord all with arc recess inner wall left side fixed connection, two the right-hand member that one side was close to each other to deep bead one all is provided with dog one, vent inner wall top rotates and is connected with deep bead two, two right side lower extreme fixed connection of deep bead have stretch cord two, the one end and vent bottom fixed connection that deep bead two were kept away from to the stretch cord, two top right sides of deep bead are provided with dog two.

6. The force-receiving device for solid-liquid separation according to claim 1, characterized in that: the two first fixing plates (a5) are rotatably connected with the first fixing blocks (115) through rollers.

7. The force-receiving device for solid-liquid separation according to claim 3, characterized in that: the lower end of the left side of the first fixed plate (a5) is provided with a second movable shaft (a4), and the left side of the second movable shaft (a4) is rotatably connected with the cylindrical rod (a 3).

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