CN113813815B - Linkage cock gate valve - Google Patents

Abstract

The invention provides a linkage type cock gate valve, which relates to the technical field of gate valves, wherein a push rod is fixed at the left lower corner of an inner arc plate, the left end of the push rod extends into a push shaft, the left end of the push rod is embedded with a piston, the piston is in sliding connection with the inner wall of the push shaft and is movably connected with a release port, the front end of a storage part is connected with an opening and closing cover through threads, the outer wall of a transmission pipeline is transversely provided with a slide way at a position corresponding to the opening and closing cover, and the opening and closing cover extends out of the slide way from back to front and slides along the slide way; the auxiliary box is fixedly arranged at the top of the transmission pipeline and at the left end of the conveying pipe, the mixing box is arranged on the rear wall of the transmission pipeline and on the right rear wall of the auxiliary box through bolts, the transverse rotating shafts which are arranged from front to back are rotationally connected inside the auxiliary box, the triggering block can press the rubber pad for many times, so that mineral substances can be periodically released along with the rotating action of the valve rod, good linkage is realized between the opening and closing of the opening and closing piece and the release of mineral substances, and the water quality is automatically improved under the condition that manual operation is not needed.

Description

Linkage cock gate valve

Technical Field

The invention relates to the technical field of gate valves, in particular to a linkage type cock gate valve.

Background

The gate valve is a shutter, the moving direction of the shutter is vertical to the fluid direction, the gate valve can only be fully opened and fully closed, and the uncomfortable gate parameters are different.

Most of the existing cock gate valves are used only as opening and closing parts and used for controlling the opening and closing of water sources, the use function is single, when the water sources such as drinking water are conveyed, the gate valves are not beneficial to shunting a part of the water sources for other production and manufacturing, and the water sources need to be re-circulated after the water sources are conveyed, so that the complexity of the process is increased; and the mineral substances are required to be added into part of the drinking water, and the closed cock gate valve is unfavorable for releasing the mineral substances into a water source while delivering water, and is unfavorable for improving the water quality.

Disclosure of Invention

The invention aims to solve the technical problems that: the closed cock gate valve is unfavorable for releasing mineral substances in a water source while delivering water, is unfavorable for improving water quality, and aims at the problems in the prior art.

The aim and the effect of the invention are achieved by the following specific technical means: the linkage type cock gate valve comprises a transmission pipeline, a valve body and a valve rod, wherein the valve body is arranged at the top of the transmission pipeline, and the valve rod is vertically arranged in the middle of the interior of the valve body and is in rotary connection with the valve body;

The transmission pipeline is characterized in that a conveying pipe is inserted into the left side of the valve body, a linkage piece is hinged to the right wall in the conveying pipe, a reserved groove is formed in the transmission pipeline, a trigger assembly is arranged in the reserved groove, the trigger assembly comprises a storage piece, a push shaft, an inner arc plate and a push rod, the storage piece is positioned in the reserved groove and is in sliding connection with the reserved groove, the push shaft is positioned at the left lower corner of the storage piece and is fixed with the storage piece into a whole, the left end of the push shaft extends into the conveying pipe and abuts against the linkage piece, a release opening is formed in the bottom wall of the push shaft, the inner arc plate is arranged on the right side in the storage piece, the push rod is fixed at the left lower corner of the inner arc plate, the left end of the push rod extends into the push shaft, the piston is connected with the left end of the push shaft in an embedded mode, the piston is in sliding connection with the inner wall of the push shaft and is movably connected with the release opening, the front end of the storage piece is connected with a cover through threads, the outer wall of the transmission pipeline is correspondingly opened and closed at the position of the cover is transversely provided with a slideway, the opened and closed cover extends from the rear slideway and slides forwards and slides slide along the sliding direction;

The top of the transmission pipeline is fixedly provided with an auxiliary box at the left end of the transmission pipe, the rear wall of the transmission pipeline is provided with a mixing box at the right and rear walls of the auxiliary box through bolts, the inside of the auxiliary box is rotationally connected with a transverse rotating shaft which is arranged from front to back, the rear end of the transverse rotating shaft penetrates into the mixing box, the front end of the transverse rotating shaft extends out of the front wall of the auxiliary box, and the front end of the transverse rotating shaft is inserted with a cooling rod, the front end and the rear end of the outer wall of the transverse rotating shaft are respectively provided with a main blade and an auxiliary blade, the bottom of the main blade extends into the transmission pipeline, a plurality of inlets are uniformly formed in the side wall of the main blade, and a plurality of small holes are uniformly formed in the left side of the outer wall of the transverse rotating shaft, which is adjacent to the auxiliary blade.

Further preferred embodiments are as follows: the valve body is internally provided with a cavity, the bottom of the cavity is communicated with the inside of the transmission pipeline, the valve rod penetrates through the middle of the cavity and is rotationally connected with the valve rod through threads, the outer wall of the valve rod is fixedly provided with a pressurizing plate positioned in the cavity, the outer wall of the pressurizing plate is tightly attached to the inner wall of the cavity, two sides of the bottom end of the outer wall of the valve rod are fixedly provided with limiting blocks, the limiting blocks are positioned in the valve body, the limiting blocks move upwards along with the valve rod to prop against the right lower corner of the cavity, the bottom end of the valve rod is fixedly provided with an opening and closing piece, the bottom end of the opening and closing piece extends into the inside of the transmission pipeline, the side edge of the opening and closing piece is provided with a water conveying channel penetrating through the other side of the opening and closing piece, and the opening and closing of the inside of the transmission pipeline is controlled by the opening and closing piece.

Further preferred embodiments are as follows: the rubber pad has been inlayed to storage piece right-hand member, and the rubber pad is the protruding form of arc, interior arc board is unanimous with rubber pad shape, and opens and close piece outer wall top one side and be fixed with the trigger piece, the rubber pad is same horizontal plane with the trigger piece and arranges, and trigger piece outer end and rubber pad contact.

Further preferred embodiments are as follows: limiting blocks are fixed on the upper side and the lower side of the outer wall of the storage piece, the limiting blocks are connected with the inner wall of the reserved groove in a sliding mode, and the storage piece moves leftwards under the contact state of the trigger block and the rubber pad.

Further preferred embodiments are as follows: a traction spring is fixed between the left wall of the storage part and the left wall in the reserved groove, a telescopic spring is fixed between the left wall of the inner arc plate and the left wall of the storage part, and the push rod moves left along with the left movement of the inner arc plate.

Further preferred embodiments are as follows: the inside of the pushing shaft is hollow and communicated with the inside of the storage part, the outer diameter of the piston is larger than that of the pushing rod, the opening and the closing of the release opening are controlled through the piston, and the release opening is communicated with the inside of the conveying pipe.

Further preferred embodiments are as follows: the top wall in the transmission pipeline and be located the reservation groove below and articulate there is the breakwater, and the breakwater bottom from a left side to right evenly scarf joint has the guide plate that a plurality of equidistances were arranged, the guide plate all is triangle-shaped, and the joint position between breakwater and transmission pipeline of linkage piece bottom joint, the breakwater is located the piece left side of opening and close.

Further preferred embodiments are as follows: the conveying pipe end is connected to the mixing box, and the number of the main blades and the auxiliary blades is a plurality of blades and is distributed in a surrounding mode.

Further preferred embodiments are as follows: the mixing box back wall bottom has the bottom through threaded connection, and mixing box roof has the top cap through threaded connection, the top cap bottom rotates and is connected with vertical pivot, and vertical pivot outer wall bottom is around evenly the scarf joint has a plurality of stirring leaves, the stirring leaf is located vice blade rear top and is connected with its transmission, and the equal joint of stirring leaf side both walls has the embedded net.

The invention has the beneficial effects that:

1. The position of the bottom of the cavity communicated with the transmission pipeline is positioned in the water flow input direction, along with continuous water flow input to the left side of the transmission pipeline, water flows can overflow into the cavity, the water pressure can push the pressurizing plate upwards, the valve rod can rotate, so that the opening and closing piece is rotated, two ends of the water transmission pipeline can face the left side and the right side of the transmission pipeline respectively when the water transmission pipeline reaches a certain angle, a water source can pass through the water transmission pipeline and is transmitted to the right end of the transmission pipeline, when the water flow is reduced, the water flow slowly exits the cavity, if the water flow pressure is a middle value, the opening space of the water transmission pipeline is smaller, the water flow is controlled, when the water flow pressure is reduced to be smaller, the opening and closing piece closes the transmission pipeline, the opening and closing of the water transmission pipeline is directly determined according to the water flow pressure, the opening and closing effect of the water transmission pipeline is controlled, and the convenience of the water transmission operation of the gate valve is effectively improved;

2. In the process of opening the gate by rotating the opening and closing piece, the triggering piece can be pressed to the rubber pad for many times, so that mineral substances can be periodically released along with the rotating action of the valve rod, when the water flow is larger, the release amount of the additives is larger, the impact force generated when the water flow flows can enable the mineral substances to be uniformly diffused in the water, the water quality is improved, when the water flow is smaller, the inside of the transmission pipeline is sealed by the opening and closing piece, the triggering piece is positioned in the opposite direction of the rubber pad, the two parts are not contacted with each other, the release of the mineral substances is stopped, the condition that the content of the mineral substances in the water is uneven is avoided, the opening and closing of the opening and closing piece and the release of the mineral substances realize good linkage, and the water quality is automatically improved under the condition that manual operation is not needed;

3. The linkage piece rotates away from the water baffle, the water baffle is vertical, the rubber pad faces the water source input direction, when the water source is input into the transmission pipeline, a part of the water source can impact the water baffle, and water is guided to the conveying pipe through the triangular guide plates, so that a part of water flow enters the conveying pipe, and along with the increase of the water quantity in the conveying pipe, the water flow can enter the mixing box from the conveying pipe, the automatic water diversion effect is achieved, and a part of water source is stored by the mixing box;

4. The method comprises the steps that a solid matter filter bag to be mixed is placed in a containing groove on the side face of a stirring blade, the solid matter to be mixed is blocked by an embedded net, the solid matter to be mixed stays in the containing groove, the solid matter to be mixed is impacted by water flow in a mixing box, a current longitudinal rotating shaft is vertically arranged in the mixing box, when an auxiliary blade is driven to rotate by the longitudinal rotating shaft, the auxiliary blade is connected and drives the stirring blade, the stirring blade rotates in the mixing box, the solid matter to be mixed continuously rotates in the water flow, the mixing and stirring effects can be improved, the solid matter stirring work can be realized, the solid matter stirring work can be completed under the condition that electric energy is not consumed, labor is saved, and the practicability is improved;

5. The cooling rod is used for cooling water flow, the cooled water flow is released into the mixing box from the plurality of small holes, cold water is supplied to the mixing box, and the small holes are close to the auxiliary blades, so that the cold water can be uniformly diffused into the mixing box when the auxiliary blades rotate, the water temperature is reduced, and the occurrence of quality change of solid substances to be mixed due to high temperature is avoided.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the inside of a transmission pipeline structure according to the present invention;

FIG. 3 is a schematic view of the opening and closing member of the present invention;

FIG. 4 is a schematic view of the partial enlarged structure at A of the present invention;

FIG. 5 is a schematic diagram showing the structural connection of the trigger block and the rubber pad according to the present invention

FIG. 6 is a schematic diagram of the interior of the pre-groove structure of the present invention;

FIG. 7 is a schematic view of the interior of the mixing tank structure of the present invention;

FIG. 8 is a schematic view of the inside of the transverse hinge structure of the present invention;

FIG. 9 is a schematic view of a portion of an end of a transverse hinge structure according to the present invention;

FIG. 10 is a schematic view showing the separation of the stirring blade and the embedded net structure according to the present invention;

In fig. 1-10: the valve comprises a transmission pipeline 1, a valve body 101, a valve rod 102, a pressurizing plate 103, a limiting block 104, an opening and closing part 2, a water conveying channel 201, a trigger block 202, a conveying pipe 3, a linkage part 301, a reserved groove 4, a storage part 5, a rubber pad 501, a pushing shaft 502, a release opening 503, a limiting block 504, an inner arc plate 6, a push rod 601, a piston 602, a water baffle 7, a flow guide plate 701, an auxiliary box 8, a transverse rotating shaft 801, a main blade 802, an inlet 803, a small hole 804, an auxiliary blade 805, a mixing box 9, a bottom cover 901, a top cover 902, a longitudinal rotating shaft 10, a stirring blade 1001, an embedded net 1002, an opening and closing cover 11, a slide rail 12, a traction spring 13, a telescopic spring 14, a cooling rod 15 and a cavity 16.

Detailed Description

Referring to fig. 1-10, a linkage cock gate valve comprises a transmission pipeline 1, a valve body 101 and a valve rod 102, wherein the valve body 101 is arranged at the top of the transmission pipeline 1, and the valve rod 102 is vertically arranged in the middle of the interior of the valve body 101 and is in rotary connection with the valve body 101;

Specifically, an external water source conveying and conveying pipeline 1 is connected to the left end of the conveying pipeline 1, and then an external water source output conveying pipeline 1 is connected to the right end of the conveying pipeline 1, so that water sources flow from left to right in the conveying pipeline 1;

The valve body 101 is internally provided with a cavity 16, the bottom of the cavity 16 is communicated with the inside of the transmission pipeline 1, the valve rod 102 penetrates through the middle of the cavity 16 and is rotationally connected with the cavity through threads, the outer wall of the valve rod 102 is fixedly provided with a pressurizing plate 103 positioned in the cavity 16, the outer wall of the pressurizing plate 103 is tightly attached to the inner wall of the cavity 16, two sides of the bottom end of the outer wall of the valve rod 102 are fixedly provided with limiting blocks 104, the limiting blocks 104 are positioned in the valve body 101, the limiting blocks 104 move upwards along with the upward movement of the valve rod 102 to abut against the right lower corner of the cavity 16, the bottom end of the valve rod 102 is fixedly provided with an opening and closing part 2, the bottom end of the opening and closing part 2 extends into the transmission pipeline 1, the side edge of the opening and closing part 2 is provided with a water conveying channel 201 penetrating through the other side of the opening and closing part 2, and the opening and closing of the inside of the transmission pipeline 1 is controlled by the opening and closing part 2;

Further, in the initial state, the water delivery channel 201 of the opening and closing member 2 faces to the front end, and the outer side of the water delivery channel 201 is blocked by the transmission pipeline 1, so that water cannot enter the water delivery channel 201, at this time, the water cannot pass through the transmission pipeline 1, the position of the bottom of the cavity 16 communicated with the transmission pipeline 1 is located in the water flow input direction, along with the continuous input of water into the left side of the transmission pipeline 1, water flows into the cavity 16, along with the increase of water flow entering the cavity 16, the water pressure in the cavity 16 is increased, the pressure plate 103 is pressed upwards by the water pressure, because the outer wall of the pressure plate 103 is tightly attached to the inner wall of the cavity 16, the water pressure can only be accumulated in the space of the cavity 16 below the pressure plate 103, the water pressure is increased, and because the valve rod 102 is rotationally connected with the wall 16 through threads, when the pressurizing plate 103 moves upwards, the valve rod 102 rotates, so that the opening and closing piece 2 rotates, two ends of the water conveying channel 201 face to the left side and the right side of the conveying pipeline 1 respectively when reaching a certain angle, a water source can pass through the water conveying channel 201 and convey to the right end of the conveying pipeline 1, so that water flow is conveyed, and after the opening and closing piece 2 moves upwards to a position of 0.5cm-1cm along with the continuous increase of the water pressure, the limiting block 104 abuts against the right lower corner of the cavity 16, at the moment, the opening and closing piece 2 is limited to move upwards continuously, the water conveying channel 201 keeps left and right facing at present, and normal conveying of the water flow can be ensured;

Still further, when the water flow is reduced, the water flow slowly exits the cavity 16, and the space pressure below the water level top surface and the pressurizing plate 103 in the cavity 16 is reduced, the pressurizing plate 103 moves downwards due to the water pressure and the dead weight, the valve rod 102 rotates, the opening and closing member 2 synchronously rotates, the more the water flow pressure is reduced, the larger the rotation angle of the opening and closing member 2 is, if the water flow pressure is a middle value, the two ends of the water delivery channel 201 face the front left corner and the rear right corner respectively, the opening space of the water delivery channel is smaller, the water flow is controlled, when the water flow pressure is reduced to be smaller, the valve rod 102 moves downwards completely, the water delivery channel 201 rotates to face the front and rear directions, so that the transmission pipeline 1 is closed, the opening angle of the water delivery channel 201 is directly determined according to the water flow pressure, the opening and closing of the transmission pipeline 1 is controlled, the automatic opening and closing effect can be realized, and the convenience of the water delivery operation of the gate valve is effectively improved;

The top of the transmission pipeline 1 is inserted into and installed with the conveying pipe 3 on the left side of the valve body 101, the right wall in the conveying pipe 3 is hinged with the linkage piece 301, the inside of the transmission pipeline 1 is provided with the reserved groove 4 on the right side of the conveying pipe 3, the inside of the reserved groove 4 is provided with the trigger component, the trigger component comprises a storage piece 5, a push shaft 502, an inner arc plate 6 and a push rod 601, the storage piece 5 is positioned in the reserved groove 4 and is in sliding connection with the reserved groove 4, the push shaft 502 is positioned at the left lower corner of the storage piece 5 and is fixed with the storage piece into a whole, the left end of the push shaft 502 extends into the conveying pipe 3 and is propped against the linkage piece 301, the bottom wall of the push shaft 502 is provided with the release opening 503, the inner arc plate 6 is arranged on the right side of the inside of the storage piece 5, the push rod 601 is fixed at the left lower corner of the inner arc plate 6, the left end of the push rod 601 extends into the push shaft 502, the left end of the push rod 601 is embedded with a piston 602, the piston 602 is in sliding connection with the inner wall of the push shaft 502 and is in movable connection with the release opening 503, the front end of the storage piece 5 is in threaded connection with the opening and closing cover 11, the front end of the storage piece 11 is in sliding connection with the sliding channel 11, and the sliding channel 11 extends from the corresponding position to the left 11 through the sliding channel 12, and the sliding cover 12 is opened and closed by the sliding channel 12 is in the position and opened and closed by the sliding cover 12 is in the position and 12;

preparation:

When water is conveyed through the conveying pipeline 1, water additives such as potassium chloride can be prepared, then the opening and closing cover 11 is unscrewed, the additives are filled into the storage piece 5, and then the opening and closing cover 11 is covered, so that the preparation work of storing the additives is completed;

A traction spring 13 is fixed between the left wall of the storage piece 5 and the left wall in the reserved groove 4; in the initial state, the storage piece 5 is abutted to the right by the traction spring 13 due to the influence of the elasticity of the traction spring 13, and the opening and closing cover 11 is also positioned at the rightmost side of the slideway 12;

The right end of the storage piece 5 is embedded with a rubber pad 501, the rubber pad 501 is in an arc-shaped convex shape, the shape of the inner arc plate 6 is consistent with that of the rubber pad 501, a trigger block 202 is fixed on one side of the top end of the outer wall of the opening and closing piece 2, the rubber pad 501 and the trigger block 202 are arranged in the same horizontal plane, and the outer end of the trigger block 202 is in contact with the rubber pad 501;

the storage part 5 moves leftwards under the state that the trigger block 202 is contacted with the rubber pad 501;

A telescopic spring 14 is fixed between the left wall of the inner arc plate 6 and the inner left wall of the storage piece 5, and the push rod 601 moves leftwards along with the leftwards movement of the inner arc plate 6; the inside of the pushing shaft 502 and the inside of the storage piece 5 are hollow and communicated with each other, the outer diameter of the piston 602 is larger than that of the push rod 601, the opening and closing of the release opening 503 are controlled through the piston 602, and the release opening 503 is communicated with the inside of the conveying pipe 3; in the initial state, the inner arc plate 6 is pressed against the right by the telescopic spring 14 due to the influence of the elastic force of the telescopic spring 14, the right wall of the inner arc plate 6 is close to the left wall of the rubber pad 501, and the piston 602 is currently positioned on the right side of the release opening 503;

triggering:

When the valve rod 102 rotates, the trigger block 202 rotates simultaneously, the water conveying channel 201 rotates to the front and back directions, the trigger block 202 just abuts against the rubber pad 501, the inner arc plate 6 is indirectly abutted against the trigger block 202 and moves leftwards, the telescopic spring 14 is compressed by the inner arc plate 6, the push rod 601 moves leftwards along with the leftwards movement of the inner arc plate 6, the piston 602 moves leftwards in the push shaft 502, when the piston 602 moves to the left side of the release opening 503, the release opening 503 is opened because the outer diameter of the piston 602 is larger than the outer diameter of the push rod 601, and at the moment, additives in the storage part 5 are released from the release opening 503;

limiting blocks 504 are fixed on the upper side and the lower side of the outer wall of the storage piece 5, and the limiting blocks 504 are connected with the inner wall of the reserved groove 4 in a sliding manner;

the rubber pad 501 is pressed by the trigger block 202 and then deforms, the storage piece 5 moves leftwards, the limiting block 504 moves leftwards along the inner wall of the reserved groove 4, the stability of the storage piece 5 during movement can be maintained through the limiting block 504, the traction spring 13 is extruded by the storage piece 5, the pushing shaft 502 penetrates into the conveying pipe 3 to push the linkage piece 301 leftwards, and the release opening 503 enters the conveying pipe 3 and is communicated with the conveying pipe 3;

The inner top wall of the transmission pipeline 1 is hinged with a water baffle 7 below the reserved groove 4, a plurality of guide plates 701 which are distributed at equal intervals are uniformly embedded at the bottom of the water baffle 7 from left to right, the guide plates 701 are triangular, the bottom end of the linkage piece 301 is clamped at the connecting position between the water baffle 7 and the transmission pipeline 1, and the water baffle 7 is positioned at the left side of the opening and closing piece 2; the tail end of the conveying pipe 3 is connected with a mixing box 9; the linkage piece 301 clamps the water baffle 7 in an initial state, the water baffle 7 is transversely arranged, and the water baffle 7 is close to the inner top wall of the transmission pipeline 1;

And (3) water guiding:

when the pushing shaft 502 pushes the linkage 301 to the left, the linkage 301 will rotate 10 ° -20 ° clockwise, the linkage 301 rotates away from the water baffle 7, the water baffle 7 is no longer positioned, the water baffle 7 naturally sags and turns 90 °, the water baffle 7 is vertical, and the rubber pad 501 will face the water source input direction;

when the opening and closing member 2 is opened, the storage member 5 moves left to trigger the linkage member 301, the piston 602 moves left to open the release opening 503, the water baffle 7 is turned over at the right lower part of the conveying pipe 3 to guide water, when a water source is input into the conveying pipeline 1, a part of the water source can impact the water baffle 7, and the water is guided to the conveying pipe 3 through the plurality of triangular guide plates 701, so that a part of the water enters the conveying pipe 3, and as the water quantity in the conveying pipe 3 increases, the water can be connected into the mixing box 9 from the conveying pipe 3 to achieve a water diversion effect, and a part of the water source is stored by the mixing box 9;

Meanwhile, the additive is released into the conveying pipe 3 from the release opening 503, the additive can be diffused in water in the conveying pipe 3, the water quality can be effectively improved, in the process of opening the valve by rotating the opening and closing piece 2, the trigger block 202 can be pressed to the rubber pad 501 for many times, so that mineral additive substances can be periodically released along with the rotating action of the valve rod 102, when the water flow is larger, the additive release amount is larger, the impact force generated when the water flow flows can enable mineral substances to be uniformly diffused in the water, the water quality is improved, when the water flow is smaller, the opening and closing piece 2 seals the inside of the conveying pipe 1, the trigger block 202 is positioned in the opposite direction of the rubber pad 501, the two pieces are not contacted with each other, the release of mineral substances is stopped, the situation of uneven mineral substances in the water is avoided, good linkage is realized by opening and closing of the opening and closing piece 2 and the release of the mineral substances, and the water quality is automatically improved under the condition that manual operation is not needed;

the top of the transmission pipeline 1 is fixedly provided with an auxiliary box 8 at the left end of the conveying pipe 3, the rear wall of the transmission pipeline 1 is positioned on the right rear wall of the auxiliary box 8, a mixing box 9 is arranged on the right rear wall of the auxiliary box 8 through bolts, a transverse rotating shaft 801 which is arranged from front to back is rotationally connected inside the auxiliary box 8, the rear end of the transverse rotating shaft 801 penetrates into the mixing box 9, the front end of the transverse rotating shaft 801 extends out of the front wall of the auxiliary box 8, the front end of the transverse rotating shaft 801 is inserted with a cooling rod 15, the front end and the rear end of the outer wall of the transverse rotating shaft 801 are respectively provided with a main blade 802 and an auxiliary blade 805, the bottom of the main blade 802 extends into the transmission pipeline 1, a plurality of inlets 803 are uniformly formed in the side wall of the main blade 802, and a plurality of small holes 804 are uniformly formed in the position of the left side of the outer wall of the transverse rotating shaft 801, which is adjacent to the auxiliary blade 805;

mixing:

The main blade 802 is impacted by the water flow when the transmission pipeline 1 flows, the main blade 802 rotates after being impacted by the water flow, the transverse rotating shaft 801 rotates to match with the main blade 802 to rotate, meanwhile, the auxiliary blade 805 rotates, the auxiliary blade 805 is indirectly driven by the impact force of the water flow, no additional energy sources are needed to be consumed, and the effects of energy conservation and environmental protection are achieved;

The bottom end of the rear wall of the mixing box 9 is connected with a bottom cover 901 through threads, the top wall of the mixing box 9 is connected with a top cover 902 through threads, the bottom of the top cover 902 is rotationally connected with a longitudinal rotating shaft 10, the bottom end of the outer wall of the longitudinal rotating shaft 10 is uniformly embedded with a plurality of stirring blades 1001 in a surrounding manner, the stirring blades 1001 are positioned above the rear parts of the auxiliary blades 805 and are in transmission connection with the auxiliary blades, and two walls on the side surfaces of the stirring blades 1001 are respectively clamped with an embedded net 1002;

The number of the main blades 802 and the auxiliary blades 805 is a plurality of pieces and are distributed in a surrounding manner;

Stirring solid and liquid substances: when the solid-liquid substance stirring work is required to be performed, the top cover 902 is unscrewed, then the embedded net 1002 on the side surface of the stirring blade 1001 is broken off, the side surface of the stirring blade 1001 is provided with a containing groove, a solid substance filter bag to be mixed can be placed into the containing groove on the side surface of the stirring blade 1001, then the embedded net 1002 is covered, the solid substance to be mixed is blocked by the embedded net 1002, the solid substance to be mixed stays in the containing groove, the top cover 902 is screwed back to the mixing box 9, the solid substance to be mixed is impacted by the water flow in the mixing box 9, the front longitudinal rotating shaft 10 is vertically arranged in the mixing box 9, the auxiliary blade 805 is connected in the stirring blade 1001, when the auxiliary blade 805 is driven to rotate by the longitudinal rotating shaft 10, the auxiliary blade 805 is connected with and drives the stirring blade 1001, the stirring blade 1001 rotates in the mixing box 9, the solid matter to be mixed rotates continuously in the water flow, the mixing and stirring effects can be improved, the stirring of the solid matter and the liquid matter can be realized, the low temperature is generated through the cooling rod 15, the inlet faces the flow direction of the water flow, when the water flow impacts the main blade 802, the water flow can enter the main blade 802 from the inlet 803, the water flow in the main blade 802 enters the transverse rotating shaft 801, the cooling rod 15 cools the water flow, the cooled water flow is released from the plurality of small holes 804, and the small holes 804 are close to the auxiliary blade 805, so that the water temperature can be reduced, and the phenomenon that the solid matter to be mixed is deformed due to the high temperature can be avoided when the auxiliary blade 805 rotates.

Claims (9)

1. The utility model provides a coordinated type cock gate valve, includes transmission pipeline (1), valve body (101) and valve rod (102), valve body (101) are installed in transmission pipeline (1) top, and valve rod (102) are vertical setting in the middle of valve body (101) inside and rotate with valve body (101) and be connected, its characterized in that:

The utility model discloses a piston, including transmission pipeline (1), valve body (101) left side is inserted and is installed conveyer pipe (3), and conveyer pipe (3) interior right wall articulates there is link (301), inside and be located conveyer pipe (3) right side of transmission pipeline (1) has seted up reservation groove (4), and reservation groove (4) inside is equipped with trigger assembly, trigger assembly includes storage piece (5), push shaft (502), interior arc board (6) and push rod (601), and storage piece (5) are located reservation groove (4) inside and sliding connection with it, push shaft (502) are located storage piece (5) left lower corner and rather than fixed as an organic whole, and push shaft (502) left end extends to conveyer pipe (3) inside and offsets with link (301), release mouth (503) have been seted up to push shaft (502) diapire, and interior arc board (6) set up in storage piece (5) inside right side, push rod (601) are fixed in interior arc board (6) left lower corner, and push rod (601) left end extend to push shaft (502) inside, push shaft (502) left end and be connected with piston (602) through the screw thread, push shaft (502) is connected with piston (602) and is opened and closed through the screw thread (602), the outer wall of the transmission pipeline (1) is transversely provided with a slide way (12) at a position corresponding to the opening and closing cover (11), and the opening and closing cover (11) extends out of the slide way (12) from back to front and slides along the slide way (12);

The utility model discloses a conveying pipeline, including conveying pipe (1), conveying pipe (3), auxiliary box (8), main blade (802) and auxiliary blade (805), main blade (802) bottom extend to conveying pipe (1) inside, main blade (802) lateral wall evenly has offered a plurality of entry (803), and a plurality of aperture (804) have evenly been offered to the position that is close to auxiliary blade (805) in the left side of transverse rotating shaft (801) outer wall inside rotating connection has been had by transverse rotating shaft (801) rear end running through into mixing box (9) inside, auxiliary box (8) front wall is extended to transverse rotating shaft (801) front end, and transverse rotating shaft (801) front end pegging graft has cooling bar (15), both ends are equipped with main blade (802) and auxiliary blade (805) respectively around transverse rotating shaft (801) outer wall, and main blade (802) bottom extends to conveying pipe (1) inside.

2. A ganged tap gate valve as claimed in claim 1, wherein: the valve is characterized in that a cavity (16) is formed in the valve body (101), the bottom of the cavity (16) is communicated with the inside of the transmission pipeline (1), the valve rod (102) penetrates through the middle of the cavity (16) and is rotationally connected with the cavity through threads, a pressurizing plate (103) located in the cavity (16) is fixed on the outer wall of the valve rod (102), limiting blocks (104) are tightly attached to the inner wall of the cavity (16) on the outer wall of the valve rod (102), the limiting blocks (104) are located in the valve body (101), the limiting blocks (104) move upwards along with the valve rod (102) to abut against the right lower corner of the cavity (16), an opening and closing piece (2) is fixed at the bottom end of the valve rod (102), the bottom end of the opening and closing piece (2) extends into the transmission pipeline (1), a water channel (201) penetrating through the other side of the opening and closing piece (2) is formed on the side of the opening and closing piece (2) and closing the inside the transmission pipeline (1) is controlled.

3. A ganged tap gate valve as claimed in claim 2, wherein: the rubber pad (501) is embedded in the right end of the storage piece (5), the rubber pad (501) is in an arc-shaped protruding shape, the inner arc plate (6) is identical to the rubber pad (501) in shape, a trigger block (202) is fixed on one side of the top end of the outer wall of the opening and closing piece (2), the rubber pad (501) and the trigger block (202) are arranged on the same horizontal plane, and the outer end of the trigger block (202) is in contact with the rubber pad (501).

4. A ganged-cock gate valve as claimed in claim 3, in which: limiting blocks (504) are fixed on the upper side and the lower side of the outer wall of the storage piece (5), the limiting blocks (504) are connected with the inner wall of the reserved groove (4) in a sliding mode, and the storage piece (5) moves leftwards under the condition that the triggering block (202) is in contact with the rubber pad (501).

5. A ganged tap gate valve as claimed in claim 4, wherein: a traction spring (13) is fixed between the left wall of the storage part (5) and the inner left wall of the reserved groove (4), a telescopic spring (14) is fixed between the left wall of the inner arc plate (6) and the inner left wall of the storage part (5), and the push rod (601) moves left along with the left movement of the inner arc plate (6).

6. A ganged tap gate valve as claimed in claim 5, wherein: the inside of the pushing shaft (502) and the inside of the storage part (5) are hollow and communicated with each other, the outer diameter of the piston (602) is larger than that of the push rod (601), the opening and closing of the release opening (503) are controlled through the piston (602), and the release opening (503) is communicated with the inside of the conveying pipe (3).

7. A ganged tap gate valve as claimed in claim 1, wherein: the novel water-saving device is characterized in that a water baffle (7) is hinged to the inner top wall of the transmission pipeline (1) and located below the reserved groove (4), a plurality of guide plates (701) which are distributed at equal intervals are evenly embedded from left to right at the bottom of the water baffle (7), the guide plates (701) are triangular, the bottom ends of the linkage pieces (301) are clamped at the connecting positions between the water baffle (7) and the transmission pipeline (1), and the water baffle (7) is located on the left side of the opening and closing piece (2).

8. A ganged tap gate valve as claimed in claim 1, wherein: the tail end of the conveying pipe (3) is connected to the mixing box (9), and the number of the main blades (802) and the auxiliary blades (805) are several and are distributed in a surrounding mode.

9. A ganged tap gate valve as claimed in claim 1, wherein: the mixing box (9) back wall bottom has bottom (901) through threaded connection, and mixing box (9) roof has top cap (902) through threaded connection, top cap (902) bottom rotates and is connected with vertical pivot (10), and vertical pivot (10) outer wall bottom is evenly scarf joint around having a plurality of stirring leaf (1001), stirring leaf (1001) are located vice blade (805) rear top and are connected rather than the transmission, and stirring leaf (1001) side both walls all joint have embedded net (1002).