CN113124250A - Flow divider with bolt valve for pipeline saddle - Google Patents

Abstract

The invention relates to a flow divider of a saddle bolt valve of a conveying pipeline, which comprises: the upper saddle belt, the shunt pipe fitting fixing ring and the water-tight pipe fitting. The upper saddle belt is provided with a water inlet pipe accommodating through hole, the shunt pipe fitting is provided with a fixing part and a connecting pipe part, and the water-tight pipe fitting is communicated with a tap water pipe. The outer pipe wall of the connecting pipe part is provided with engaging threads, and the inner peripheral wall of the shunt pipe fitting fixing ring is provided with corresponding engaging threads. The inner peripheral wall of the shunt pipe fitting fixing ring is screwed with the joint thread through the corresponding joint thread and is screwed with the outer pipe wall of the connecting pipe part, and the shunt pipe fitting fixing ring and the fixing part are respectively positioned at two opposite ends of the water inlet pipe accommodating through hole and respectively abut against the bottom and the top of the upper saddle belt to clamp the upper saddle belt, so that the shunt pipe fitting is fixed on the upper saddle belt.

Description

Flow divider with bolt valve for pipeline saddle

Technical Field

The invention relates to a saddle belt type water distribution bolt, in particular to a flow dividing device of a saddle belt bolt valve of a conveying pipeline.

Background

The saddle belt type water distribution plug is a water distribution plug communicated with a tap water pipe by utilizing the engagement of a saddle belt, and is usually arranged between a main pipeline and a branch pipeline of the tap water pipe. One end of the saddle-type water distribution plug is connected with a tap water pipe at the source end, and the other end of the saddle-type water distribution plug is connected with a tap water pipe at the user end so as to distribute tap water to the water pipes at the user ends.

In the existing saddle-belt type water distribution bolt structure, the water distribution bolt is provided with a connecting pipe body, the upper saddle belt is provided with an accommodating through hole, and the outer pipe wall of the connecting pipe body of the water distribution bolt and the hole wall of the accommodating through hole of the upper saddle belt are respectively processed to form threads which can be screwed with each other. The water distribution bolt can be installed and fixed on the upper saddle belt by screwing the threads of the outer pipe wall of the connecting pipe body with the threads of the hole wall of the containing through hole.

However, the screw thread of the receiving through hole of the upper saddle strap is easily oxidized and corroded to generate rust after long-term use. The rust is easily removed and may infiltrate into the water pipe, causing water in the water pipe to be contaminated. Therefore, there is a need for an improved saddle-band type hydrant.

Disclosure of Invention

Therefore, an object of the present invention is to provide a flow divider of a fifth belt valve for a pipeline, in which a water dividing plug can be stably installed in an upper fifth belt, and rust can be prevented from being generated on a hole wall of an accommodating through hole of the upper fifth belt, thereby preventing tap water in a tap water pipe from being polluted.

The present invention provides a flow divider of a saddle-type cock valve for a delivery line, which is installed on the upper surface of a tap water pipe to divide tap water in the tap water pipe, and which solves the problems of the prior art, the flow divider of the saddle-type cock valve for the delivery line comprising: the saddle belt comprises an upper saddle belt, a lower saddle belt and a tap water pipe coating part, wherein the tap water pipe coating part is formed between the upper saddle belt and the lower saddle belt by closing the upper saddle belt and the lower saddle belt, the upper saddle belt is provided with a water inlet pipe accommodating through hole, the water inlet pipe accommodating through hole vertically penetrates through the upper surface and the lower surface of the upper saddle belt, and the tap water pipe coating part is used for coating the tap water pipe; the shunt pipe fitting comprises a shunt pipe part, a fixing part and a connecting pipe part, wherein the connecting pipe part extends downwards from the shunt pipe part, an in-pipe passage of the shunt pipe part is communicated with an in-pipe passage of the connecting pipe part to form a shunt pipe fitting passage, the fixing part is arranged between the upper surface of the shunt pipe part and the upper surface of the connecting pipe part, the fixing part radially protrudes outwards from the outer surface of the shunt pipe part, the diameter of the fixing part is larger than that of the water inlet pipe accommodating through hole, the connecting pipe part is arranged in the water inlet pipe accommodating through hole, and the outer pipe wall of the connecting pipe part is provided with joint threads; the inner peripheral wall of the shunt pipe fitting fixing ring is provided with corresponding joint threads, the shunt pipe fitting fixing ring is screwed with the joint threads arranged on the outer pipe wall of the connecting pipe part under the condition that the connecting pipe part is arranged in the water inlet pipe accommodating through hole, and the diameter of the shunt pipe fitting fixing ring is larger than that of the water inlet pipe accommodating through hole; and a water-tight pipe fitting comprising a sleeve part, a water-tight ring, a leakage-stopping ring, a leaning part and an isolation cushion part, wherein the sleeve part is sleeved into the connecting pipe part under the condition that the water-tight ring is arranged on the outer surface of the sleeve part so that the water-tight ring is arranged between the outer surface of the sleeve part and the inner surface of the connecting pipe part, the leaning part radially extends outwards from one end of the sleeve part, the leakage-stopping ring is arranged on the outer pipe wall of the sleeve part in a ring mode, the connecting pipe part is sleeved into the connecting pipe part until the leaning part is propped against the sleeve part, when the leaning part props against the sleeve part and continues to be sleeved into the connecting pipe part, the leakage-stopping ring is arranged between the leaning part and the end part of the connecting pipe part, the isolation cushion part and the water-tight ring are arranged on two opposite sides of the leaning part, one side of the isolation cushion part leans against the leaning part, and an in-pipe passage of the leaning part, and a pipe passage of the leaning part in the sleeve part, And the pipe inner space of the isolation cushion is communicated to form a water-tight pipe passage which is communicated with the shunt pipe passage, and the other side of the isolation cushion is close to the tap water pipe so that the water-tight pipe passage is communicated with the tap water pipe, thereby leading the water of the tap water pipe to flow to the shunt pipe passage through the water-tight pipe passage.

In an embodiment of the present invention, a flow divider of a saddle-type latch valve for a pipeline is provided, wherein an outer wall of the connecting pipe portion has a positioning portion, and a hole wall of the inlet pipe receiving through hole has a corresponding positioning portion, and the positioning portions are respectively fastened to the corresponding positioning portions, so that the connecting pipe portion and the inlet pipe receiving through hole are positioned in a manner of being incapable of rotating relative to each other.

In an embodiment of the present invention, a flow divider of a saddle-type latch valve for a pipeline is provided, wherein the abutting portion surrounds an outer peripheral surface to form a groove, an inner edge of the isolation pad forms a protrusion corresponding to the groove, and the isolation pad is sleeved on an outer diameter surface of the abutting portion by engaging the protrusion with the groove.

In one embodiment of the invention, a diverter device for a saddle-type stopcock valve of a delivery line is provided, wherein the diverter tube is a diverter plug.

In one embodiment of the invention, a diverter device for a saddle-type stopcock valve for a transfer line is provided wherein the abutment is a flange.

The flow dividing device of the saddle bolt valve of the conveying pipeline has the following effects: the inner peripheral wall of the shunting pipe fitting fixing ring is screwed with the outer pipe wall of the connecting pipe part, and the shunting pipe fitting fixing ring and the fixing part are respectively positioned at two opposite ends of the water inlet pipe accommodating through hole and respectively abut against the bottom and the top of the upper saddle belt to clamp the upper saddle belt, so that the shunting pipe fitting can be fixed on the upper saddle belt. Therefore, the hole wall of the water inlet pipe accommodating through hole of the upper saddle belt does not need to be processed to manufacture threads screwed with the connecting pipe part, so that the tap water in the tap water pipe can be prevented from being polluted by rust, and the cleanliness of the tap water pipe can be kept. Preferably, the positioning portion of the outer pipe wall of the connecting pipe portion is buckled with the corresponding positioning portion of the hole wall of the water inlet pipe accommodating through hole, so that the stability of the shunt pipe fitting installed on the upper saddle belt can be improved. The isolation pad can be more firmly sleeved on the outer diameter surface of the leaning part by clamping the convex part in the groove so as to avoid falling off from the leaning part. Furthermore, in the prior art, the thread of the water inlet pipe accommodating through hole of the upper saddle belt is coated with fixing glue so as to increase the stability of the water distribution bolt installed on the upper saddle belt; the thread of the connecting pipe part can be adhered with a leakage-proof adhesive tape to avoid water leakage of the tap water pipe. In the invention, the hole wall of the water inlet pipe accommodating through hole of the upper saddle belt is not required to be processed to manufacture threads for screwing, so that the use of fixing glue can be avoided, the manufacturing method of the upper saddle belt is simplified, and the manufacturing cost of the upper saddle belt is reduced. In addition, the water-tight pipe fitting is provided with the water-tight ring and the leakage-stopping ring, so that running water can be effectively prevented from leaking from the sleeve part to the inside of the connecting pipe part or from the inside of the connecting pipe part to the outside of the connecting pipe part. Therefore, the invention has better water leakage resistance, and the thread of the connecting pipe part does not need to be pasted with a leakage-stopping adhesive tape.

Drawings

FIG. 1 is an exploded perspective view showing a diverter device for a transfer line fifth wheel latch valve according to one embodiment of the present invention.

FIG. 2 is a schematic cross-sectional view of a flow diversion apparatus showing a transfer line saddle bolted valve in accordance with an embodiment of the present invention.

Fig. 3 is an exploded perspective view showing a flow divider of a fifth embodiment of a transfer line fifth-wheel latch valve according to the present invention.

Fig. 4 is a schematic sectional view showing a flow divider of a transfer line fifth-generation stopcock according to a second embodiment of the present invention.

Fig. 5 is an exploded perspective view showing a diverter device for a transfer line fifth bolted valve according to a third embodiment of the present invention.

Fig. 6 is a schematic sectional view showing a flow divider of a transfer line fifth-generation stopcock according to a third embodiment of the present invention.

Reference numerals

100 transfer line saddle bolt valve shunting device

Shunt device of saddle-type bolt valve for 100A conveying pipeline

Shunt device of saddle-type bolt valve of 100B conveying pipeline

Saddle belt

11 upper saddle belt

111 inlet pipe accommodating through hole

112 corresponding positioning part

12 lower saddle belt

13 tap water pipe coating part

2 shunting pipe fitting

21 shunt pipe part

22 fixed part

23 connecting pipe part

231 engaged screw threads

232 positioning part

3 shunt pipe fitting fixing ring

31 corresponding engaged screw thread

41 sleeve part

42-tight water ring

43 leakage-proof ring

44 abutting part

441 groove

45 insulating pad

451 convex part

D-branch pipe passage

P tap water pipe

R-shaped closed water pipe passage

S screw

Detailed Description

Embodiments of the present invention will be described below with reference to fig. 1 to 6. The description is not intended to limit the embodiments of the present invention, but is one example of the present invention.

Referring to fig. 1 to 2, a flow divider 100 of a saddle-type hydrant valve for a delivery line according to an embodiment of the present invention is installed at an opening of a tap water pipe P to divide tap water in the tap water pipe P. The flow dividing device 100 of the saddle-type bolted valve for the conveying pipeline comprises a saddle belt 1, a flow dividing pipe fitting 2, a flow dividing pipe fitting fixing ring 3 and a water-tight pipe fitting.

As shown in fig. 1 and 2, in the diverting device 100 of the saddle-type hydrant valve for a delivery line according to the embodiment of the present invention, the saddle-type hose 1 includes an upper saddle-type hose 11, a lower saddle-type hose 12, and a tap water pipe covering 13. The pipe coating portion 13 is formed between the upper saddle belt 11 and the lower saddle belt 12 by abutting the upper saddle belt 11 and the lower saddle belt 12. The upper saddle belt 11 has a water inlet pipe receiving through hole 111, and the water inlet pipe receiving through hole 111 vertically penetrates the upper surface and the lower surface of the upper saddle belt 11. The water pipe covering part 13 covers the water pipe P. Specifically, the upper saddle belt 11 and the lower saddle belt 12 are fastened by screws S at both sides of the water pipe P to firmly position the water pipe P at the water pipe wrapping portion 13.

As shown in fig. 1 and 2, the diverting device 100 of the saddle-type stopcock for a pipeline according to the embodiment of the present invention includes a diverting pipe part 21, a fixing part 22 and a connecting pipe part 23. The connecting pipe portion 23 extends downward from the lower end of the branch pipe portion 21, and the pipe passage of the branch pipe portion 21 and the pipe passage of the connecting pipe portion 23 are communicated with each other to constitute a branch pipe passage D. The fixing portion 22 is protruded radially outward from the outer surface of the branch pipe portion 21 and is disposed above the connection pipe portion 23, and the diameter of the fixing portion 22 is larger than that of the inlet pipe receiving through hole 111. In the embodiment, the diversion pipe member 2 is a diversion plug, the diversion pipe portion 21 is a plug body of the diversion plug, the fixing portion 22 is annular, the connecting pipe portion 23 is inserted into the inlet pipe receiving through hole 111, and the outer wall of the connecting pipe portion 23 is provided with engaging threads 231.

As shown in fig. 1 and 2, in the diverter 100 of the saddle-type latch valve for a delivery line according to the embodiment of the present invention, the diameter of the diverter fixing ring 3 is larger than that of the inlet receiving through hole 111, and the inner peripheral wall of the diverter fixing ring 3 is provided with corresponding engaging threads 31. Specifically, in a state where the connecting tube portion 23 is inserted into the inlet tube receiving through hole 111, the shunt tube fixing ring 3 and the shunt tube portion 21 are respectively located at two opposite ends of the inlet tube receiving through hole 111, and the inner peripheral wall of the shunt tube fixing ring 3 is screwed to the engagement thread 231 through the corresponding engagement thread 31 to be screwed to the outer tube wall of the connecting tube portion 23. Because the respective diameters of the fixing portion 22 of the shunt tube 2 and the shunt tube fixing ring 3 are larger than the diameter of the inlet pipe accommodating through hole 111, the fixing portion 22 and the shunt tube fixing ring 3 can respectively abut against the bottom and the top of the upper saddle belt 11 to clamp the upper saddle belt 11, so that the shunt tube 2 is fixed on the upper saddle belt 11.

As shown in fig. 1 and 2, the diverting device 100 of the saddle-type latching valve for the delivery line according to the embodiment of the present invention comprises a sleeve portion 41, a water-tight ring 42, a leakage-stopping ring 43, an abutting portion 44 and an isolation pad 45. The sleeve part 41 is sleeved into the connecting pipe part 23 under the condition that the water-tight ring 42 is arranged on the outer surface of the sleeve part 41, so that the water-tight ring 42 is arranged between the outer surface of the sleeve part 41 and the inner surface of the connecting pipe part 23. In the present embodiment, the water-tight ring 42 is a water-tight gasket for preventing the tap water from leaking inside the connecting pipe portion 23.

As shown in fig. 1 and 2, in the flow divider 100 of the saddle-type stopcock for a delivery line according to the embodiment of the present invention, the leakage-stopping ring 43 is annularly sleeved on the outer wall of the sleeve portion 41, and the leakage-stopping ring 43 is used for preventing tap water from leaking from the inside of the connecting tube portion 23 to the outside of the connecting tube portion 23. The abutment portion 44 extends radially outwardly from one end of the sleeve portion 41. The sleeve portion 41 is sleeved on the connecting tube portion 23 until the abutting portion 44 abuts against the connecting tube portion 23, and the leakage stopping ring 43 is located between the abutting portion 44 and the end portion of the connecting tube portion 23 when the abutting portion 44 abuts against the sleeve portion 41 and the sleeve portion 23 is continuously sleeved on the connecting tube portion 23. In this embodiment, the leak-stopping ring 43 is a leak-stopping washer, and the abutting portion 44 is a flange.

As shown in fig. 1 and 2, in the flow divider 100 of the saddle-type latching valve for a delivery line according to the embodiment of the present invention, the isolation pad 45 and the water-tight ring 42 are disposed on opposite sides of the abutment portion 44, and one side of the isolation pad 45 abuts against the abutment portion 44. The pipe passage of the sleeve portion 41, the pipe passage of the engaging portion 44, and the pipe space of the insulating gasket 45 communicate with each other to form a water-tight pipe passage R communicating with the tap water pipe P in a state where the other side of the insulating gasket 45 abuts against the tap water pipe P, so that the tap water of the tap water pipe P flows to the tap water pipe passage D through the water-tight pipe passage R.

Referring to fig. 3 and 4, a flow divider 100A of a transfer line fifth-generation bolt valve according to a second embodiment of the present invention is different from the first embodiment in that: the outer wall of the connecting tube 23 has a positioning portion 232, the wall of the inlet tube receiving through hole 111 has a corresponding positioning portion 112, the positioning portion 232 and the corresponding positioning portion 112 are respectively fastened, so that the connecting tube 23 and the inlet tube receiving through hole 111 are positioned in a manner of being incapable of rotating relatively. In this embodiment, the positioning portion 232 is a protruding point, the corresponding positioning portion 112 is a recessed portion, and the positioning portion 232 and the corresponding positioning portion 112 are respectively provided with one and respectively fastened to each other. Therefore, the positioning portion 232 is engaged with the corresponding positioning portion 112, so that the shunt tube 2 cannot rotate on the upper saddle 11, thereby increasing the stability of the shunt tube 2 mounted on the upper saddle 11. Of course, the present invention is not limited thereto, and the number of the positioning portions 232 and the corresponding positioning portions 112 may be more than one.

Referring to fig. 5 and 6, a flow divider 100B of a fifth embodiment of a transfer line fifth latch valve according to the present invention is different from the first embodiment in that: the engaging portion 44 is formed with a groove 441 around the outer peripheral surface thereof, and a protrusion 451 is formed on the inner edge of the insulating pad 45 corresponding to the position of the groove 441. The isolation pad 45 is sleeved on the outer diameter surface of the abutting portion 44 by the engagement of the convex portion 451 and the groove 441, so that the isolation pad 45 can be more stably sleeved on the outer diameter surface of the abutting portion 44 to avoid falling off from the abutting portion 44.

With the above structure, the flow distribution devices 100, 100A and 100B of the saddle-type latch valve for a delivery line of the present invention are screwed with the corresponding engaging thread 31 on the inner peripheral wall of the flow distribution pipe fixing ring 3 and the engaging thread 231 on the outer peripheral wall of the connecting pipe 23, and the flow distribution pipe fixing ring 3 and the fixing part 22 are respectively located at the two opposite ends of the inlet pipe receiving through hole 111 and respectively abut against the bottom and the top of the upper saddle 11 to clamp the upper saddle 11, so that the flow distribution pipe 2 is fixed on the upper saddle 11. Therefore, compared with the prior art, the present invention does not need to process the hole wall of the inlet pipe receiving through hole 111 of the upper saddle strap 11 to make a thread for screwing, and can prevent rust from being generated to contaminate the tap water in the tap water pipe P, so as to maintain the cleanliness in the tap water pipe P. Besides, the invention eliminates the fixing glue and the leakage-proof adhesive tape used in the prior art, and also has the following advantages: includes simplifying the manufacturing method of the upper saddle belt 11, reducing the manufacturing cost of the upper saddle belt 11, and prolonging the service life of the upper saddle belt 11.

While the foregoing description and description are of the preferred embodiment of the present invention, other modifications of the invention shall be apparent to those skilled in the art from the foregoing description and claims, and it is intended that such modifications shall fall within the spirit and scope of the invention.

Claims (5)

1. A diverter device for a saddle-type hydrant valve for a delivery line, which is installed on the upper surface of a tap water pipe to divert tap water from the tap water pipe, said diverter device comprising:

a saddle belt including an upper saddle belt, a lower saddle belt and a tap water pipe coating portion, the tap water pipe coating portion being formed between the upper saddle belt and the lower saddle belt by being abutted against the upper saddle belt and the lower saddle belt, the upper saddle belt having a water inlet pipe receiving through hole, the water inlet pipe receiving through hole vertically penetrating through an upper surface and a lower surface of the upper saddle belt, the tap water pipe coating portion coating the tap water pipe;

the shunt pipe fitting comprises a shunt pipe part, a fixing part and a connecting pipe part, wherein the connecting pipe part extends downwards from the shunt pipe part, an in-pipe passage of the shunt pipe part is communicated with an in-pipe passage of the connecting pipe part to form a shunt pipe fitting passage, the fixing part is arranged between the upper surface of the shunt pipe part and the upper surface of the connecting pipe part, the fixing part radially protrudes outwards from the outer surface of the shunt pipe part, the diameter of the fixing part is larger than that of the water inlet pipe accommodating through hole, the connecting pipe part is arranged in the water inlet pipe accommodating through hole, and the outer pipe wall of the connecting pipe part is provided with joint threads;

the inner peripheral wall of the shunt pipe fitting fixing ring is provided with corresponding joint threads, the shunt pipe fitting fixing ring is mutually screwed with the joint threads arranged on the outer pipe wall of the connecting pipe part under the condition that the connecting pipe part is arranged in the water inlet pipe accommodating through hole, and the diameter of the shunt pipe fitting fixing ring is larger than that of the water inlet pipe accommodating through hole; and

the water-tight pipe fitting comprises a sleeve part, a water-tight ring, a leakage-stopping ring, an abutting part and an isolation cushion part, wherein the sleeve part is sleeved into the connecting pipe part under the condition that the water-tight ring is arranged on the outer surface of the sleeve part so as to ensure that the water-tight ring is arranged between the outer surface of the sleeve part and the inner surface of the connecting pipe part, the abutting part radially and outwards extends out from one end of the sleeve part, the leakage-stopping ring is arranged on the outer pipe wall of the sleeve part in a ring sleeved mode, the sleeve part is sleeved into the connecting pipe part until the abutting part abuts against the top, when the abutting part abuts against the sleeve part and is continuously sleeved into the connecting pipe part, the leakage-stopping ring is arranged between the abutting part and the end part of the connecting pipe part, and the isolation cushion part and the water-tight ring are arranged on two opposite sides of the abutting part, one side of the isolation pad is close to the close part, the pipe inner channel of the sleeve part, the pipe inner channel of the close part and the pipe inner space of the isolation pad are communicated to form a water-tight pipe channel, the water-tight pipe channel is communicated with the shunt pipe channel, and the other side of the isolation pad is close to the tap water pipe, so that the water of the tap water pipe flows to the shunt pipe channel through the water-tight pipe channel.

2. The shunt device of claim 1, wherein the outer wall of the connecting tube portion has a positioning portion, the wall of the inlet tube receiving through hole has a corresponding positioning portion, and the positioning portions are engaged with the corresponding positioning portions, respectively, so that the connecting tube portion and the inlet tube receiving through hole are positioned in a manner of being incapable of rotating relative to each other.

3. The shunt device of claim 1, wherein said abutment portion has a groove circumferentially formed on an outer peripheral surface thereof, and wherein said inner edge of said insulating pad has a protrusion formed on a position corresponding to said groove, and wherein said insulating pad is fitted on an outer diameter surface of said abutment portion by engaging said protrusion with said groove.

4. The shunt device of claim 1, wherein said shunt member is a shunt plug.

5. The shunt device of claim 1, wherein said abutment is a flange.

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