CN219415909U - Heat supply pipeline edulcoration structure - Google Patents

Abstract

The utility model relates to a heat supply pipeline impurity removal structure, which relates to the field of heat supply pipelines and solves the problems that in the existing heat supply mode, pipelines are rusted after being used for a long time, under the action of water flow, rusted parts fall off to form impurities, the impurities are mixed in hot water and flow, the impurities can be accumulated in a radiator to cause blockage, the radiator is unheated and even damaged, and unnecessary waste and loss are caused for users. The technical characteristics include: the device comprises a bearing pipeline, wherein a first valve is arranged on the bearing pipeline; the conveying structure is arranged on the bearing pipeline; the blocking structure is arranged on the conveying structure; and the bearing structure is arranged on the bearing pipeline and is connected with the conveying structure. The impurity accumulation can not be caused, the radiator can not be blocked, the radiator is prevented from being unheated, the phenomenon of damaging the radiator can not be caused, the loss of a user is reduced, the structure is relatively simple, and the use is convenient.

Description

Heat supply pipeline edulcoration structure

Technical Field

The utility model relates to the technical field of heat supply pipelines, in particular to a heat supply pipeline impurity removal structure.

Background

The heat supply is mainly aimed at the northern city warming measures. At present, the main measures adopted in China are to collect heat, namely, the heat for production, life and heating is supplied to factories and civil buildings in a larger area by utilizing a concentrated heat source. Central heating has been a history of nearly a hundred years. The method has the advantages of saving fuel, reducing urban pollution and the like, so that the development speed is high. More than 20 countries in the world use central heating.

In the existing heat supply mode, the pipeline is rusted after being used for a long time, and under the action of water flow, the rusted part falls off to form impurities, the impurities are mixed in hot water to flow, the impurities can be accumulated in the radiator to cause blockage, the phenomenon that the radiator is unheated and even damaged occurs, and unnecessary waste and loss are caused for users, so that in order to solve the problem, the impurity removal structure of the heat supply pipeline is very necessary.

Disclosure of Invention

The utility model aims to solve the technical problems that in the existing heat supply mode in the prior art, a pipeline is rusted after being used for a long time, and under the action of water flow, the rusted part falls off to form impurities, the impurities are mixed in hot water to flow, the impurities can be accumulated in a radiator to cause blockage, the phenomenon that the radiator is not hot or even damaged occurs, and unnecessary waste and loss are caused for a user, and provides a heat supply pipeline impurity removing structure.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

a heating pipe impurity removal structure comprising:

the device comprises a bearing pipeline, wherein a first valve is arranged on the bearing pipeline;

the conveying structure is arranged on the bearing pipeline;

the blocking structure is arranged on the conveying structure;

the bearing structure is arranged on the bearing pipeline and is connected with the conveying structure;

the impurity removing structure is arranged on the bearing structure and is used for removing impurities;

the bearing structure is arranged on the bearing pipeline;

the drainage structure is arranged on the bearing structure;

and the flushing structure is arranged on the conveying structure and is used for flushing the blocking structure.

Preferably, the conveying structure includes: a delivery tube and a second valve;

the conveying pipe is arranged on the bearing pipeline, and the second valve is arranged on the conveying pipe.

Preferably, the blocking structure comprises: the first fixing frame and the blocking net;

the first fixing frame is arranged in the conveying pipe, and the blocking net is arranged on the first fixing frame.

Preferably, the housing structure includes: an annular bearing housing;

the annular bearing shell is arranged on the bearing pipeline and is connected with the conveying pipe.

Preferably, the impurity removing structure includes: a pair of second fixing frames, a pair of waterproof electric control telescopic rods, an annular supporting plate and an annular impurity removing brush;

the pair of second fixing frames are arranged in the annular bearing shell, each waterproof electric control telescopic rod is arranged on the corresponding second fixing frame, the waterproof electric control telescopic rods extend out of the annular bearing shell, the annular supporting plates are arranged on the telescopic ends of the pair of waterproof electric control telescopic rods, the annular supporting plates are matched with the bearing pipelines, and the annular impurity removing brushes are arranged on the annular supporting plates.

Preferably, the load bearing structure comprises: the device comprises a conveying pipeline, a bearing box body, three baffle plates, a drain pipe and a third valve;

the conveying pipeline is arranged on the lower surface of the bearing pipeline, the bearing box body is arranged on the conveying pipeline, the conveying pipeline is communicated with the bearing box body, the three baffle plates are arranged in the corresponding conveying pipelines, the drain pipe is arranged on the lower surface of the bearing box body, and the third valve is arranged on the drain pipe.

Preferably, the drainage structure includes: a drain pipe and a fourth valve;

the drain pipe is arranged on the bearing box body, and the fourth valve is arranged on the drain pipe.

Preferably, the flushing structure comprises: flushing the pipe and a fifth valve;

the flushing pipe is arranged on the conveying pipe, the fifth valve is arranged on the flushing pipe, and the flushing pipe is matched with the blocking net.

Preferably, the annular bearing shell is provided with a controller, and the annular bearing shell is provided with a mains supply interface.

The utility model has the following beneficial effects:

this heat supply pipeline edulcoration structure can be better get rid of the impurity in the heat supply pipeline, and is very convenient, has reduced unnecessary trouble, can not cause impurity to pile up, can not cause the radiator to stop up yet to prevent that the radiator is unheated, can not cause damaging the radiator phenomenon, reduced user's loss, the structure is simple relatively, convenient to use.

Drawings

The utility model is described in further detail below with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of a heat supply pipeline impurity removal structure according to the present utility model;

FIG. 2 is a front view of a heating pipeline impurity removal structure of the present utility model;

FIG. 3 is a front view of a heating pipeline impurity removal structure of the present utility model;

fig. 4 is a top view of a heat supply pipe impurity removing structure according to the present utility model.

Reference numerals in the drawings denote:

the system comprises a supporting pipeline 10, a first valve 20, a conveying structure 30, a blocking structure 40, a supporting structure 50, a impurity removing structure 60, a bearing structure 70, a drainage structure 80, a flushing structure 90, a controller 100 and a mains supply interface 110;

a delivery pipe 31 and a second valve 32;

a first fixing frame 41 and a blocking net 42;

an annular bearing housing 51;

the second fixing frame 61, a waterproof electric control telescopic rod 62, an annular supporting plate 63 and an annular impurity removing brush 64;

a transfer pipe 71, a carrying case 72, a baffle 73, a drain 74, a third valve 75;

a drain pipe 81 and a fourth valve 82;

flush line 91, fifth valve 92.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, a first valve 20 on a carrier pipe 10 is used for controlling, a delivery structure 30 on the carrier pipe 10 is used for delivering, a blocking structure 40 on the delivery structure 30 is used for blocking, a carrier structure 50 on the carrier pipe 10 is used for carrying, a impurity removing structure 60 on the carrier structure 50 is used for removing impurities, a carrier structure 70 on the carrier pipe 10 is used for carrying, a drain structure 80 on the carrier structure 70 is used for draining, and a flushing structure 90 on the delivery structure 30 is used for flushing the blocking structure 40.

Preferably, the conveying structure 30 includes: a delivery pipe 31 and a second valve 32; a delivery pipe 31 is mounted on the carrier pipe 10 and a second valve 32 is mounted on the delivery pipe 31.

Is conveyed through the conveying pipe 31 and is controlled by a second valve 32 on the conveying pipe 31.

Preferably, the blocking structure 40 comprises: a first fixing frame 41 and a blocking net 42; the first fixing frame 41 is installed in the conveying pipe 31, and the blocking net 42 is installed on the first fixing frame 41.

The foreign substances are blocked by the blocking net 42 on the first fixing frame 41.

Preferably, the receiving structure 50 includes: an annular bearing housing 51; the annular bearing housing 51 is mounted on the carrier pipe 10, and the annular bearing housing 51 is connected with the delivery pipe 31.

Is carried by an annular carrier housing 51 on the carrier pipe 10.

Preferably, the impurity removing structure 60 includes: a pair of second fixing frames 61, a pair of waterproof electric control telescopic rods 62, an annular supporting plate 63 and an annular impurity removing brush 64; a pair of second fixing frames 61 are installed in the annular bearing shell 51, each waterproof electric control telescopic rod 62 is installed on the corresponding second fixing frame 61, the waterproof electric control telescopic rods 62 extend out of the annular bearing shell 51, an annular supporting plate 63 is installed on telescopic ends of the pair of waterproof electric control telescopic rods 62, the annular supporting plate 63 is matched with the bearing pipeline 10, and an annular impurity removing brush 64 is installed on the annular supporting plate 63.

The annular impurity removing brush 64 on the annular supporting plate 63 is driven by the waterproof electric control telescopic rod 62 on the second fixing frame 61 to remove impurities on the inner wall of the pipeline.

Preferably, the load bearing structure 70 comprises: a transfer duct 71, a carrying case 72, three baffles 73, a drain 74 and a third valve 75; the conveying pipeline 71 is installed on the lower surface of the bearing pipeline 10, the bearing box body 72 is installed on the conveying pipeline 71, the conveying pipeline 71 is communicated with the bearing box body 72, three baffle plates 73 are installed in the corresponding conveying pipeline 71, the drain pipe 74 is installed on the lower surface of the bearing box body 72, and the third valve 75 is installed on the drain pipe 74.

The impurity which has been carried into the carrying case 72 is blocked by the blocking plate 73 by the carrying case 72 on the carrying pipe 71, the impurity in the carrying case 72 is discharged by the drain pipe 74, and the drain pipe 74 is controlled by the third valve 75.

Preferably, the relief structure 80 includes: a drain pipe 81 and a fourth valve 82; the drain pipe 81 is mounted to the carrying case 72, and the fourth valve 82 is mounted to the drain pipe 81.

The water flow in the carrying case 72 is discharged through the drain pipe 81, and is controlled by a fourth valve 82 provided in the drain pipe 81.

Preferably, the flushing structure 90 includes: flush line 91 and fifth valve 92; the flushing pipe 91 is installed on the conveying pipe 31, the fifth valve 92 is installed on the flushing pipe 91, and the flushing pipe 91 is matched with the blocking net 42.

The blocking net 42 on the first fixing frame 41 is flushed through the flushing pipe 91, and the flushing pipe 91 is controlled through a fifth valve 92 on the flushing pipe 91.

Preferably, the controller 100 is disposed on the annular bearing housing 51, and the mains interface 110 is disposed on the annular bearing housing 51.

The control is performed by the controller 100 on the annular bearing housing 51, and the power supply is performed by the mains interface 110 on the annular bearing housing 51.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (9)

1. The utility model provides a heating pipeline edulcoration structure which characterized in that includes:

a bearing pipeline (10), wherein a first valve (20) is arranged on the bearing pipeline (10);

a conveying structure (30), the conveying structure (30) being mounted on the carrier pipe (10);

a blocking structure (40), the blocking structure (40) being mounted on the conveying structure (30);

the bearing structure (50) is arranged on the bearing pipeline (10), and the bearing structure (50) is connected with the conveying structure (30);

the impurity removing structure (60), the impurity removing structure (60) is arranged on the bearing structure (50), and the impurity removing structure (60) is used for removing impurities;

-a carrying structure (70), the carrying structure (70) being mounted on a carrying duct (10);

a drainage structure (80), the drainage structure (80) being mounted on the load bearing structure (70);

and the flushing structure (90) is arranged on the conveying structure (30), and the flushing structure (90) is used for flushing the blocking structure (40).

2. A heating conduit impurity removal structure according to claim 1, wherein said conveying structure (30) comprises: a delivery pipe (31) and a second valve (32);

the conveying pipe (31) is arranged on the bearing pipeline (10), and the second valve (32) is arranged on the conveying pipe (31).

3. A heating conduit impurity removal structure according to claim 2, wherein said blocking structure (40) comprises: a first fixing frame (41) and a blocking net (42);

the first fixing frame (41) is arranged in the conveying pipe (31), and the blocking net (42) is arranged on the first fixing frame (41).

4. A heating conduit impurity removal structure according to claim 3, wherein said housing structure (50) comprises: an annular bearing housing (51);

the annular bearing shell (51) is arranged on the bearing pipeline (10), and the annular bearing shell (51) is connected with the conveying pipe (31).

5. A heating conduit impurity removal structure according to claim 4, wherein said impurity removal structure (60) comprises: a pair of second fixing frames (61), a pair of waterproof electric control telescopic rods (62), an annular supporting plate (63) and an annular impurity removing brush (64);

the pair of second fixing frames (61) are installed in the annular bearing shell (51), each waterproof electric control telescopic rod (62) is installed on the corresponding second fixing frame (61), the waterproof electric control telescopic rods (62) extend out of the annular bearing shell (51), the annular supporting plates (63) are installed on the telescopic ends of the pair of waterproof electric control telescopic rods (62), the annular supporting plates (63) are matched with the bearing pipelines (10), and the annular impurity removing brushes (64) are installed on the annular supporting plates (63).

6. A heating conduit impurity removal structure according to claim 1, wherein said carrying structure (70) comprises: a transfer pipe (71), a carrying case (72), three baffle plates (73), a drain pipe (74), and a third valve (75);

the conveying pipeline (71) is arranged on the lower surface of the bearing pipeline (10), the bearing box body (72) is arranged on the conveying pipeline (71), the conveying pipeline (71) is communicated with the bearing box body (72), the three baffle plates (73) are arranged in the corresponding conveying pipeline (71), the drain pipe (74) is arranged on the lower surface of the bearing box body (72), and the third valve (75) is arranged on the drain pipe (74).

7. A heating conduit impurity removal structure according to claim 6, wherein said drain structure (80) comprises: a drain pipe (81) and a fourth valve (82);

the drain pipe (81) is arranged on the bearing box body (72), and the fourth valve (82) is arranged on the drain pipe (81).

8. A heating conduit impurity removal structure according to claim 3, wherein said flushing structure (90) comprises: a flushing pipe (91) and a fifth valve (92);

the flushing pipe (91) is arranged on the conveying pipe (31), the fifth valve (92) is arranged on the flushing pipe (91), and the flushing pipe (91) is matched with the blocking net (42).

9. A heating pipeline impurity removal structure according to claim 4, wherein the annular bearing shell (51) is provided with a controller (100), and the annular bearing shell (51) is provided with a mains supply interface (110).