CN111425630B - Multidirectional UNICOM control flap of sewage factory drainage pipe - Google Patents

Abstract

The invention relates to a multidirectional communication control valve for drainage pipelines of a sewage plant, which comprises a valve body, an external end, connecting mechanisms and control mechanisms, wherein the external end is welded at the center of one side of the valve body, the cross section of the external end is L-shaped, the connecting mechanisms are symmetrically arranged at the other side of the valve body, the control mechanisms are arranged on the outer wall of the valve body and positioned in the middle of the two connecting mechanisms, the connecting pipeline is welded on the outer wall of one side of the valve body, the inner wall of the connecting pipeline is provided with a connecting groove, the inner wall of the connecting groove is welded with a sealing pipe, the inner ring of the sealing pipe is provided with a connecting thread groove, an inner sealing unit is arranged at the gap between the side wall of the connecting groove and the side wall of the sealing pipe, a positioning arc plate is welded in the connecting groove through a fixing plate, two inserting holes with different apertures are respectively arranged in the positioning arc plate, an extrusion cylinder and a driving cylinder are respectively inserted in the two inserting holes, the invention has the characteristics of good sealing effect and high practicability.

Description

Multidirectional UNICOM control flap of sewage factory drainage pipe

Technical Field

The invention relates to the technical field of valves, in particular to a multidirectional communication control valve for drainage pipelines of a sewage plant.

Background

Valves are accessories for pipes used to open and close the pipe, control flow direction, regulate and control parameters of the transport medium. The valve is a control part in a fluid conveying system and has the functions of stopping, adjusting, guiding, preventing counter flow, stabilizing pressure, shunting or overflowing and relieving pressure and the like. Valves used in fluid control systems range in variety and size from the simplest shut-off valves to the variety of valves used in extremely complex autonomous systems. The valve can be used for controlling the flow of various types of fluids such as air, water, steam, various corrosive media, slurry, oil products, liquid metal, radioactive media and the like. The valves are divided into cast iron valves, cast steel valves and stainless steel valves according to the materials.

The existing multidirectional communication control valve for the drainage pipeline of the sewage plant has the following problems that the sealing measures are simple in the installation process, and an external sealing mode is adopted, so that the flowing liquid cannot be directly blocked at the connecting part of the valve and the water pipe G, and the integral sealing effect of the valve is poor; b. the multidirectional UNICOM control flap of current sewage factory drainage pipe is provided with a plurality of connection ends in order to deal with the intercommunication of a plurality of pipelines often in the one end of valve, and independent case in traditional valve can only the whole of a plurality of connection ends of integrated control open and shut, can not realize the independent control of a plurality of connection ends, leads to the practicality of valve relatively poor.

Disclosure of Invention

In order to solve the problems, the invention provides a multidirectional communication control valve for drainage pipelines of a sewage plant, which can solve the problems in the background art.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the multidirectional communication control valve for the drainage pipelines of the sewage plant comprises a valve body, external end heads, connecting mechanisms and control mechanisms, wherein the external end heads are welded at the center of one side of the valve body, the cross sections of the external end heads are L-shaped, the connecting mechanisms are symmetrically arranged at the other side of the valve body, and the control mechanisms are arranged on the outer wall of the valve body and positioned in the middle of the two connecting mechanisms;

the connecting mechanism comprises a connecting pipeline, a sealing pipe and an inner sealing unit, the connecting pipeline is welded on the outer wall of one side of the valve body, a connecting groove is formed in the inner wall of the connecting pipeline, the sealing pipe is welded on the inner wall of the connecting groove, a connecting threaded groove is formed in the inner ring of the sealing pipe, and the inner sealing unit is installed in a gap between the side wall of the connecting groove and the side wall of the sealing pipe;

the inner sealing unit comprises a sealing rubber ring, a semicircular locking ring, a positioning arc plate, an extrusion cylinder, a driving cylinder, a first steel wire rope, a second steel wire rope, a C-shaped positioning wire barrel and a bearing connecting rod, wherein the positioning arc plate is welded in the connecting groove through a fixing plate 33a, two inserting holes with different apertures are respectively formed in the positioning arc plate, the extrusion cylinder and the driving cylinder are respectively inserted into the two inserting holes, the extrusion cylinder is connected with the driving cylinder through a C-shaped fixing rod, the first steel wire rope is embedded in the center of the top of the driving cylinder, the first steel wire rope is wound on the outer wall of the positioning wheel and penetrates through the fixing plate 33a to be connected with the second steel wire rope, the second steel wire rope is inserted into the C-shaped positioning wire barrel, the C-shaped positioning wire barrel is connected to one side of the fixing plate 33a through a round rod, and one side of the sealing rubber ring is adhered to the side wall of the sealing pipe, the outer wall of the sealing rubber ring is sleeved with semicircular locking rings, the two semicircular locking rings are fixedly connected through a bearing connecting rod, circular through holes are formed in the upper ends and the lower ends of the two semicircular locking rings, the two circular through holes on the same side are located in two different vertical planes, and the tail end of a second steel wire rope penetrates through the circular through holes and is embedded into the semicircular locking rings;

the control mechanism comprises a first control rod, a second control rod, a sealing cavity and a conical valve core, the first control rod is connected to the center of the inside of the valve body through thread fit, the sealing cavity is arranged at the joint of the first control rod and the valve body, the second control rod is connected to the inside of the first control rod through thread fit, the conical valve core is welded to the top of the first control rod, a rotary disc is welded to the outer wall of the first control rod, and a hand wheel is installed at the bottom of the second control rod.

Furthermore, a connecting through hole is formed in the inner center of the first control rod, first connecting threads are formed in the inner wall of the connecting through hole and the lower end of the connecting through hole, a first water outlet hole and a second water outlet hole are formed in the left end and the right end of the connecting through hole respectively, and the first water outlet hole and the second water outlet hole are located in two different horizontal planes respectively.

Further, the top swing joint of second control lever has sealed movable rod Z, the top welding of sealed movable rod Z has the sealed piece of toper, the inside central point of sealed movable rod Z puts and has seted up the intake chamber, the inside of intake chamber just is located the one end of the sealed piece of toper and has seted up first inlet opening, the second inlet opening has been seted up to the one side that the intake chamber just is located first apopore, the third inlet opening has been seted up to the one side that the intake chamber just is located the second apopore, the outer wall of sealed movable rod Z just is located one side below the position welding of second inlet opening and has first closing plate, the outer wall of sealed movable rod Z just is located one side top position welding in third inlet opening and has the second closing plate, and the length of first closing plate is the twice of second closing plate length.

Furthermore, a sealing rubber pad is embedded in the inclined plane of the conical valve core, and a connecting jack is formed in the joint of the inner center position of the conical valve core and the sealing movable rod Z.

Furthermore, the side wall of the sealing movable rod Z is welded with a rectangular limiting block Y, and a rectangular limiting groove X is formed in the joint of the inside of the second control rod and the rectangular limiting block Y.

Furthermore, the outer wall of the sealed cavity is welded with an L-shaped fixed rod, the outer wall of the L-shaped fixed rod is respectively welded with a first pointer and a second pointer, the distance between the lower end face of the first pointer and the second control rod is equal to the distance between the lower end face of the second water outlet and the upper end face of the second sealing plate, and the distance between the lower end face of the second pointer and the second control rod is equal to the distance between the upper end face of the first sealing plate and the upper end face of the first water outlet.

The invention has the beneficial effects that:

1. according to the multidirectional communication control valve for the drainage pipelines of the sewage plant, when the water pipe G is manually connected with the connecting mechanism, the internal sealing unit is directly triggered to realize the internal sealing of the valve, and the flowing liquid is directly isolated from the joint of the valve and the water pipe G, so that the overall sealing performance of the valve is effectively improved.

2. The multidirectional communication control valve for the drainage pipelines of the sewage plant is provided with the plurality of connecting mechanisms, the opening and closing of the multidirectional communication control valve are controlled by the single valve core, the opening and closing of different connecting mechanisms can be independently controlled by changing the feeding depth of the second control rod, the multidirectional communication control valve is suitable for installation of water pipes G in different control environments, and the overall practicability of the valve is effectively improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a partial cross-sectional view of the coupling mechanism of the present invention;

FIG. 3 is an enlarged, fragmentary view of the structure A of FIG. 2 in accordance with the present invention;

FIG. 4 is a partial cross-sectional view of the valve body of the present invention;

fig. 5 is a cross-sectional view of the connection assembly of the first control lever, the second control lever 42 and the conical core of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 5, the multidirectional communication control valve for the drainage pipelines of the sewage plant comprises a valve body 1, an external end 2, a connecting mechanism 3 and a control mechanism 4, wherein the external end 2 is welded at the center of one side of the valve body 1, the cross section of the external end 2 is in an L shape, the connecting mechanisms 3 are symmetrically arranged at the other side of the valve body 1, and the control mechanism 4 is arranged on the outer wall of the valve body 1 and in the middle of the two connecting mechanisms 3;

the connecting mechanism 3 comprises a connecting pipeline 31, a sealing pipe 32 and an inner sealing unit 33, the connecting pipeline 31 is welded on the outer wall of one side of the valve body 1, the inner wall of the connecting pipeline 31 is provided with a connecting groove, the inner wall of the connecting groove is welded with the sealing pipe 32, the inner ring of the sealing pipe 32 is provided with a connecting threaded groove, and the inner sealing unit 33 is arranged in a gap between the side wall of the connecting groove and the side wall of the sealing pipe 32;

the inner sealing unit 33 comprises a sealing rubber ring 331, a semicircular locking ring 332, a positioning arc plate 333, an extrusion cylinder 334, a driving cylinder 335, a first steel wire rope 336, a second steel wire rope 337, a C-shaped positioning wire barrel 338 and a bearing connecting rod 339, the positioning arc plate 333 is welded in the connecting groove through a fixing plate 33a, two inserting holes with different apertures are respectively formed in the positioning arc plate 333, the extrusion cylinder 334 and the driving cylinder 335 are respectively inserted in the two inserting holes, the extrusion cylinder 334 and the driving cylinder 335 are connected through a C-shaped fixing rod, the first steel wire rope 336 is embedded in the center of the top of the driving cylinder 335, the first steel wire rope 336 is wound on the outer wall of the positioning wheel and penetrates through the fixing plate 33a to be connected with the second steel wire rope 337, the second steel wire rope 337 penetrates through the C-shaped positioning wire barrel 338, the C-shaped positioning wire barrel 338 is connected to one side of the fixing plate 33a through a round rod, one side of the sealing rubber ring 331 is adhered to the side wall of the sealing pipe 32, the outer wall of the sealing rubber ring 331 is sleeved with the semicircular locking rings 332, two semicircular locking rings 332 are fixedly connected through the bearing connecting rod 339, circular through holes are formed in the upper end and the lower end of each of the two semicircular locking rings 332, the two circular through holes are located in two different vertical planes at the same side, the tail end of the second steel wire rope 337 penetrates through the circular through holes to be embedded into the semicircular locking rings 332, in the specific working process, the water pipe G is manually aligned with the sealing pipe 32 and is rotated by a wrench to enter the sealing pipe 32, in the process that the water pipe G enters the sealing pipe 32, the inner wall of the water pipe G slides against the outer wall of the semicircular locking rings 332 until the inner wall of the water pipe G is contacted with the extrusion cylinder 334 at the upper end of the semicircular locking rings 332, and because the upper end face of the extrusion cylinder 334 is circular arc-shaped, the extrusion cylinder 334 is vertically dropped by the extrusion force, i.e., the driving cylinder 335 is driven to vertically drop, the first steel wire rope 336 is vertically pulled by the driving cylinder 335, and the pulling direction of the first steel wire rope 336 is changed under the action of the positioning wheel, so that the first steel wire rope 336 generates a pulling force in the horizontal direction, the pulling force acts on the second steel wire rope 337, so that the middle section of the second steel wire rope 337 is under the pulling force, and under the action of the C-shaped positioning wire barrel 338, the two ends of the second steel wire rope 337 generate the pulling force for the two semicircular locking rings 332, so that the two semicircular locking rings 332 move toward each other along the support link 339, the distance between the two semicircular locking rings 332 is reduced, the two semicircular locking rings 332 press the sealing rubber ring 331, the sealing rubber ring 331 is tightly attached to the joint of the water pipe G and the sealing pipe 32, so that internal sealing is realized, and the connection tightness of the water pipe G is effectively improved;

the control mechanism 4 comprises a first control rod 41, a second control rod 42, a sealing cavity 43 and a conical valve core 44, the first control rod 41 is connected to the center position in the valve body 1 in a threaded fit mode, the sealing cavity 43 is arranged at the joint of the first control rod 41 and the valve body 1, the second control rod 42 is connected to the inside of the first control rod 41 in a threaded fit mode, the conical valve core 44 is welded to the top of the first control rod 41, a rotating disc is welded to the outer wall of the first control rod 41, and a hand wheel is mounted at the bottom of the second control rod 42, under normal state, the conical valve core 44 and the internal orifice K of the external end head 2 are in a separated state, both the two connecting mechanisms 3 are in a communicated state, when the first control rod 41 is manually driven to rotate by the turntable, the whole valve is in a closed state when the conical valve core 44 is extruded at the inner hole K of the external connection end 2.

A connecting through hole is formed in the inner center of the first control rod 41, a first connecting thread is formed in the inner wall of the connecting through hole and located at the lower end of the first control rod 41, a first water outlet 411 and a second water outlet 412 are formed in the left end and the right end of the connecting through hole respectively, and the first water outlet 411 and the second water outlet 412 are located in two different horizontal planes respectively.

The top of the second control rod 42 is movably connected with a sealing movable rod Z, the top of the sealing movable rod Z is welded with a conical sealing block 421, the center of the inside of the sealing movable rod Z is provided with a water inlet groove 423, one end of the water inlet groove 423, which is positioned at one end of the conical sealing block 421, is provided with a second water inlet 424, which is positioned at one side of the first water outlet 411, is provided with a water inlet groove 423, one side of the water outlet groove 423, which is positioned at one side of the second water outlet 412, is provided with a third water inlet 425, the outer wall of the sealing movable rod Z, which is positioned at the lower part of one side of the second water inlet 424, is welded with a first sealing plate 426, the outer wall of the sealing movable rod Z, which is positioned at the upper part of one side of the third water inlet 425, is welded with a second sealing plate 427, and the length of the first sealing plate 426 is twice as long as that of the second sealing plate 427, when the whole valve is in a closed state, when the sealing movable rod Z rises to a certain height, the second sealing plate 427 is moved to one side of the second water outlet 412, so that the second water outlet 412 is closed, the first water inlet 422 is opened, that is, water flows into the water inlet groove 423 along the first water inlet 422, water in the water inlet groove 423 flows into the valve body 1 along the second water inlet 424 and the first water outlet 411, that is, the connecting mechanism 3 on one side of the first water outlet 411 is communicated, the connecting mechanism 3 on one side of the second water outlet 412 is closed, when the hand wheel is continuously used to drive the second control rod 42 to rotate, the sealing movable rod Z continues to rise, the second sealing plate 427 is separated from one side of the second water outlet 412, so that the second water outlet 412 is opened, the first sealing plate 426 is moved to one side of the first water outlet 411, the first water outlet 411 is closed, that is, the water in the water inlet groove 423 flows into the valve body 1 along the third water inlet 425 and the second water outlet 412, that is, the connecting mechanism 3 located at one side of the first water outlet 411 is closed, and the connecting mechanism 3 located at one side of the second water outlet 412 circulates, so that the opening and closing of the single connecting mechanism 3 are controlled.

A sealing rubber pad 441 is embedded in the inclined plane of the conical valve core 44, a connecting jack is arranged at the joint of the inner central position of the conical valve core 44 and the sealing movable rod Z, and the sealing performance of the joint of the conical valve core 44 and the inner hole K of the external end head 2 is improved through the sealing rubber pad 441.

The welding of sealed movable rod Z's lateral wall has rectangle stopper Y, and rectangle spacing groove X has been seted up with rectangle stopper Y's junction to the inside of second control lever 42, when the manual work rotates second control lever 42, through the injecing of rectangle stopper Y to sealed movable rod Z circumferential position for sealed movable rod Z does not take place to rotate altogether with second control lever 42.

The outer wall of the sealed cavity 43 is welded with an L-shaped fixed rod, the outer wall of the L-shaped fixed rod is welded with a first pointer and a second pointer respectively, the distance between the lower end face of the first pointer and the second control rod 42 is equal to the distance between the lower end face of the second water outlet hole 412 and the upper end face of the second sealing plate 427, the distance between the lower end face of the second pointer and the lower end face of the second control rod 42 is equal to the distance between the upper end face of the first sealing plate 426 and the upper end face of the first water outlet hole 411, when the second control rod 42 is rotated, if the lower end face of the second control rod 42 is displaced to one side of the first pointer, it can be judged that the connecting mechanism 3 located on one side of the first water outlet hole 411 circulates, and if the lower end face of the second control rod 42 is displaced to one side of the second pointer, it can be judged that the connecting mechanism 3 located on one side of the second water outlet hole 412 circulates.

The working principle of the invention is as follows:

and (3) an internal sealing process: manually aligning the water pipe G with the sealing pipe 32, rotating the water pipe G by a wrench to enable the water pipe G to enter the sealing pipe 32, enabling the inner wall of the water pipe G to slide along the outer wall of the semicircular locking ring 332 until the inner wall of the water pipe G is contacted with the extrusion cylinder 334 at the upper end of the semicircular locking ring 332, enabling the extrusion cylinder 334 to vertically fall under the action of extrusion force due to the arc-shaped upper end surface of the extrusion cylinder 334, namely driving the driving cylinder 335 to vertically fall, vertically pulling the first steel wire rope 336 through the driving cylinder 335, changing the pulling direction of the first steel wire rope 336 under the action of the positioning wheel, enabling the first steel wire rope 336 to generate pulling force in the horizontal direction, enabling the pulling force to act on the second steel wire rope 337, enabling the middle section position of the second steel wire rope 337 to be under the action of pulling force, enabling two ends of the second steel wire rope 337 to generate pulling force for two semicircular locking rings 332 under the action of the C-shaped positioning wire cylinder 338, the two semicircular locking rings 332 move oppositely along the bearing connecting rod 339, the distance is reduced, the two semicircular locking rings 332 extrude the sealing rubber ring 331, so that the sealing rubber ring 331 is tightly attached to the connection position of the water pipe G and the sealing pipe 32, namely, internal sealing is realized, and the connection tightness of the water pipe G is effectively improved;

the integral opening and closing process of the valve comprises the following steps: in a normal state, the conical valve core 44 and the internal orifice K of the external end 2 are in a separated state, the two connecting mechanisms 3 are in a communicated state, when the first control rod 41 is driven to rotate manually through the turntable, and when the conical valve core 44 is extruded at the internal orifice K of the external end 2, the whole valve is in a closed state.

Single opening and closing process of the valve: when the whole valve is in a closed state, a hand wheel is used manually to drive the second control rod 42 to rotate in the first control rod 41, so as to drive the sealing movable rod Z to ascend, when the sealing movable rod Z ascends to a certain height, the second sealing plate 427 is displaced to one side of the second water outlet hole 412, so that the second water outlet hole 412 is closed, meanwhile, the first water inlet hole 422 is opened, that is, water flows into the water inlet groove 423 along the first water inlet hole 422, water in the water inlet groove 423 flows into the valve body 1 along the second water inlet hole 424 and the first water outlet hole 411, that is, the connecting mechanism 3 on one side of the first water outlet hole 411 is communicated, the connecting mechanism 3 on one side of the second water outlet hole 412 is closed, when the hand wheel is used manually to drive the second control rod 42 to rotate continuously, the sealing movable rod Z continues to ascend, the second sealing plate 427 is separated from one side of the second water outlet hole 412, so that the second water outlet hole 412 is opened, the first sealing plate 426 is displaced to one side of the first outlet hole 411, so that the first outlet hole 411 is closed, that is, the water in the water inlet groove 423 flows into the valve body 1 along the third inlet hole 425 and the second outlet hole 412, that is, the connecting mechanism 3 located at one side of the first outlet hole 411 is closed, and the connecting mechanism 3 located at one side of the second outlet hole 412 circulates, thereby controlling the opening and closing of the single connecting mechanism 3.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a multidirectional UNICOM control flap of sewage factory drainage pipe, includes valve body (1), external end (2), coupling mechanism (3) and control mechanism (4), its characterized in that: an external end (2) is welded at the center of one side of the valve body (1), the cross section of the external end (2) is L-shaped, the other side of the valve body (1) is symmetrically provided with connecting mechanisms (3), and a control mechanism (4) is arranged on the outer wall of the valve body (1) and positioned in the middle of the two connecting mechanisms (3);

the connecting mechanism (3) comprises a connecting pipeline (31), a sealing pipe (32) and an inner sealing unit (33), the connecting pipeline (31) is welded on the outer wall of one side of the valve body (1), a connecting groove is formed in the inner wall of the connecting pipeline (31), the sealing pipe (32) is welded on the inner wall of the connecting groove, a connecting threaded groove is formed in the inner ring of the sealing pipe (32), and the inner sealing unit (33) is installed in a gap between the side wall of the connecting groove and the side wall of the sealing pipe (32);

the inner sealing unit (33) comprises a sealing rubber ring (331), a semicircular locking ring (332), a positioning arc plate (333), an extrusion cylinder (334), a driving cylinder (335), a first steel wire rope (336), a second steel wire rope (337), a C-shaped positioning wire barrel (338) and a bearing connecting rod (339), the positioning arc plate (333) is welded in a connecting groove through a fixing plate (33 a), two inserting holes with different apertures are respectively formed in the positioning arc plate (333), the extrusion cylinder (334) and the driving cylinder (335) are respectively inserted in the two inserting holes, the extrusion cylinder (334) and the driving cylinder (335) are connected through a C-shaped fixing rod, a first steel wire rope (336) is embedded in the center of the top of the driving cylinder (335), the first steel wire rope (336) is wound on the outer wall of the positioning wheel and penetrates through the fixing plate (33 a) to be connected with the second steel wire rope (337), the second steel wire rope (337) is inserted into the C-shaped positioning wire barrel (338), the C-shaped positioning wire barrel (338) is connected to one side of the fixing plate (33 a) through a round rod, one side of the sealing rubber ring (331) is adhered to the side wall of the sealing pipe (32), the outer wall of the sealing rubber ring (331) is sleeved with a semicircular locking ring (332), the two semicircular locking rings (332) are fixedly connected through a bearing connecting rod (339), the upper end and the lower end of each semicircular locking ring (332) are provided with circular through holes, the two circular through holes on the same side are located in two different vertical planes, and the tail end of the second steel wire rope (337) penetrates through the circular through holes and is embedded into the semicircular locking rings (332);

control mechanism (4) include first control lever (41), second control lever (42), sealed cavity (43) and toper case (44), first control lever (41) are connected at the inside central point of valve body (1) through screw-thread fit and are put, the junction of first control lever (41) and valve body (1) is provided with sealed cavity (43), the inside of first control lever (41) is connected with second control lever (42) through screw-thread fit, the top welding of first control lever (41) has toper case (44), the outer wall welding of first control lever (41) has the carousel, the bottom installation hand wheel of second control lever (42).

2. The multidirectional communication control valve for the drainage pipelines of the sewage plant as claimed in claim 1, wherein: the inside central point of first control lever (41) puts and has seted up connect the through hole, connect the through hole's inner wall and be located the lower extreme position of first control lever (41) and seted up first connecting thread, first apopore (411) and second apopore (412) have been seted up respectively to both ends about connect the through hole, and just first apopore (411) and second apopore (412) are located two different horizontal planes respectively.

3. The multidirectional communication control valve for the drainage pipelines of the sewage plant as claimed in claim 1, wherein: the top of the second control rod (42) is movably connected with a sealing movable rod (Z), the top of the sealing movable rod (Z) is welded with a conical sealing block (421), the center of the inside of the sealing movable rod (Z) is provided with a water inlet groove (423), one end of the water inlet groove (423) which is positioned in the conical sealing block (421) is provided with a first water inlet hole (422), one side of the water inlet groove (423) which is positioned in a first water outlet hole (411) is provided with a second water inlet hole (424), one side of the water inlet groove (423) which is positioned in a second water outlet hole (412) is provided with a third water inlet hole (425), the outer wall of the sealing movable rod (Z) which is positioned below one side of the second water inlet hole (424) is welded with a first sealing plate (426), and the outer wall of the sealing movable rod (Z) which is positioned above one side of the third water inlet hole (425) is welded with a second sealing plate (427), and the length of the first sealing plate (426) is twice the length of the second sealing plate (427).

4. The multidirectional communication control valve for the drainage pipelines of the sewage plant as claimed in claim 1, wherein: a sealing rubber pad (441) is embedded in the inclined plane of the conical valve core (44), and a connecting jack is formed in the connecting position of the inner center position of the conical valve core (44) and the sealing movable rod (Z).

5. The multidirectional communication control valve for the drainage pipelines of the sewage plant as claimed in claim 3, wherein the multidirectional communication control valve comprises: the side wall welding of sealed movable rod (Z) has rectangle stopper (Y), and rectangle spacing groove (X) have been seted up with the junction of rectangle stopper (Y) to the inside of second control lever (42).

6. The multidirectional communication control valve for the drainage pipelines of the sewage plant as claimed in claim 3, wherein the multidirectional communication control valve comprises: the outer wall of the sealed cavity (43) is welded with an L-shaped fixed rod, the outer wall of the L-shaped fixed rod is respectively welded with a first pointer and a second pointer, the distance between the lower end face of the first pointer and the second control rod (42) is equal to the distance between the lower end face of the second water outlet hole (412) and the upper end face of the second sealing plate (427), and the distance between the lower end face of the second pointer and the second control rod (42) is equal to the distance between the upper end face of the first sealing plate (426) and the upper end face of the first water outlet hole (411).

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