CN113907016A - Prevent debris jam domestic animal drinking water system - Google Patents

Abstract

The invention discloses a drinking water system for preventing sundries from blocking livestock, which comprises a water supply pipe, an sundry storage barrel and a drinking water tank which are sequentially communicated, wherein the sundry storage barrel capable of discharging sundries is positioned between the drinking water tank and the water supply pipe, one end of the sundry storage barrel is opened, the bottom of the drinking water tank is provided with a water inlet for sundries to flow out, and the opening is communicated with the water inlet; the wall of the impurity storage barrel is provided with a connecting port communicated with the water supply pipe, the connecting port is close to the water inlet, and an impurity storage cavity is reserved below the connecting port in the impurity storage barrel. According to the invention, through adopting the structural design that the impurity storage barrel is arranged between the drinking trough and the water supply pipe, under the condition that the normal water supply of the drinking trough by the water supply pipe is not influenced, impurities in the drinking trough fall by self gravity and are collected by the impurity storage cavity in the impurity storage barrel, so that the water supply blockage caused by accumulation of the impurities on a water supply road section is effectively avoided, and the reliability of a drinking water system is effectively improved.

Description

Prevent debris jam domestic animal drinking water system

Technical Field

The invention relates to the technical field of livestock breeding, in particular to a livestock drinking water system capable of preventing sundries from blocking.

Background

The stock raising industry in China has been developed for a long time, the production level of the stock raising industry is continuously improved, the yield of main animal products is rapidly increased for twenty years, and the stock raising industry has become the post industry of rural economy in China and is also a bright spot for increasing the income of farmers. In 1985 and 1990, the yields of poultry eggs and meat in China leap the first place in the world respectively, and become a large animal husbandry producing country in the world.

In the process of livestock raising, animals and people also need drinking water, and a drinking pool is generally needed when drinking water is provided for livestock; current drinking ponds generally adopt the cell body structure, place in poultry fence, and the delivery pipe is in the drinking water ponds that the water pipe was introduced with water. However, the water supply pipe is very easily clogged by sand blown from the outdoor environment or impurities dropped into the drinking water tank when the animal drinks water.

In contrast, there have been many technical solutions to try to solve the above technical problems, such as: chinese patent (CN111316929A) for isolating sundries outside a drinking trough, which discloses a dustproof drinking trough for livestock breeding, comprising a water tank and a floating plate, wherein the floating plate is movably arranged in the water tank, the floating plate can float on the water surface, the floating plate is provided with the drinking trough, and the drinking trough is communicated with the lower part of the floating plate; compared with the prior art, the floating plate floats on the water surface in the water tank to prevent dust in the air from falling into the water tank. Another example is: chinese patent (CN208080244U) for timely cleaning a drinking trough, which discloses a conveniently cleaned drinking trough for livestock, comprising a trough seat, a drinking water tank is arranged at the top of the trough seat, an arc-shaped metal plate is embedded in the drinking water tank, a reservoir is arranged at one end of the arc-shaped metal plate, a water baffle is arranged at the other end of the arc-shaped metal plate, connecting rubber blocks are arranged at two sides of the water baffle, a sliding guide rail is arranged at the bottom of the connecting rubber block, a cleaning piece is arranged at one end of the drinking water tank, an arc-shaped cleaning plate is arranged in the cleaning piece, a plurality of cleaning nozzles are arranged at the top of the arc-shaped cleaning plate, a cleaning agent storage chamber is connected at the top of the cleaning nozzles, the drinking water tank can change the size according to the actual requirement, the use efficiency of the device is improved, meanwhile, the cleaning piece carries out power transmission through a cable, the device is simplified, the cost is reduced, the drinking water tank adopts the arc-shaped metal plate, meanwhile, the surface is subjected to electroplating rust-proof treatment, so that the protection performance is improved, the friction force of the arc-shaped cleaning plate in the working process is reduced, and the working efficiency is improved.

However, both the sundries are well isolated outside the drinking trough and the drinking trough is cleaned in time, the structural design of the two is too complicated, namely, in the Chinese patent (CN111316929A), a huge water pool needs to be arranged in cooperation with a floating plate for blocking the sundries; in chinese patent (CN208080244U), a complex cleaning structure is required; this large, complex structural design is not suitable for a wide animal farm.

Therefore, it is necessary to improve the structural design in the prior art, and provide a scheme design which has a simple structure and can effectively prevent the water supply pipeline of the drinking trough.

Disclosure of Invention

The invention aims to solve the technical problems and provides a drinking water system for preventing sundries from blocking for livestock, which is characterized in that the pipeline design is improved, so that the water supply blocking caused by the accumulation of the sundries on a water supply road section is effectively avoided on the premise of ensuring the normal water supply of a drinking trough, and the reliability of the drinking water system is effectively improved.

In order to achieve the purpose, the invention provides the following scheme: the drinking water system for the livestock is provided, and comprises a water supply pipe, an impurity storage barrel and a drinking water tank which are sequentially communicated, wherein the impurity storage barrel capable of discharging impurities is positioned between the drinking water tank and the water supply pipe, one end of the impurity storage barrel is opened, the bottom of the drinking water tank is provided with a water inlet for impurities to flow out, and the opening is communicated with the water inlet; the wall of the impurity storage barrel is provided with a connecting port communicated with the water supply pipe, the connecting port is close to the water inlet, and an impurity storage cavity is reserved below the connecting port in the impurity storage barrel.

Preferably, the number of the connection ports is at least one, and when the connection ports are multiple, the connection ports are located at the same height, and the water supply pipes are respectively communicated with the corresponding connection ports.

Preferably, the bottom of the impurity storage cylinder is provided with an openable impurity discharging opening.

Preferably, the impurity storage cylinder is divided into an outer cylinder and an inner cylinder which can be pulled out from the outer cylinder, the connecting port is arranged on the outer cylinder, and the impurity storage cavity is positioned in the inner cylinder; the outer edge of the inner cylinder is not higher than the water inlet, and the inner cylinder is communicated with the connecting port.

Preferably, the inner cylinder is of a sealed cylinder structure, and a through hole corresponding to the connecting port is formed in the cylinder wall of the inner cylinder.

Preferably, the inner cylinder is of a net-shaped cylinder structure, and the size of the net-shaped cylinder is smaller than that of the sundries.

Preferably, the inner cylinder is provided with a fixing device for fixing on the outer cylinder.

Preferably, the fixing device comprises a snap ring arranged along the outer ring at the level of the top end of the inner cylinder.

Preferably, the drinking trough adopts a bowl-shaped structure.

Preferably, the depth of the impurity storage cavity is not less than 5 cm.

Compared with the prior art, the invention has the following technical effects:

(1) according to the invention, through adopting the structural design that the impurity storage barrel is arranged between the drinking trough and the water supply pipe, under the condition that the normal water supply of the drinking trough by the water supply pipe is not influenced, impurities in the drinking trough fall by self gravity and are collected by the impurity storage cavity in the impurity storage barrel, so that the water supply blockage caused by accumulation of the impurities on a water supply road section is effectively avoided, and the reliability of a drinking water system is effectively improved.

(2) The invention adopts the structural design that the bottom of the impurity storage cylinder is provided with the drain outlet, so that the impurity discharging and cleaning can be more conveniently carried out on the interior of the impurity storage cylinder, and the impurity storage cylinder is reasonable in layout and simple in structure.

(3) The invention can be suitable for the actual situation that a water supply pipeline is buried underground by adopting the impurity storage barrel with the inner barrel and the outer barrel, because the water supply pipeline is buried underground, the impurity storage barrel also needs to be buried underground, and the impurity can not be discharged from the barrel bottom no matter how the impurity storage barrel is buried underground, at the moment, the inner barrel for storing the impurities is drawn out from the outer barrel for removing the impurities, so that the invention has more positive alignment and is more convenient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a schematic structural view of a drinking water system with dual connection ports according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a single connection port drinking water system according to an embodiment of the present invention;

FIG. 3 is a schematic view of the structure of the drinking trough of the present invention;

FIG. 4 is a schematic structural view of a drinking water system using a sealed cylinder according to a second embodiment of the present invention;

FIG. 5 is a schematic view of a drinking water system using a mesh cylinder according to a second embodiment of the present invention.

Wherein, 1-the impurity storage cylinder, 11-the opening, 12-the connection port, 13-the sewage discharge port, 14-the outer cylinder, 15-the inner cylinder, 16-the through hole, 17-the snap ring; 2-a drinking trough and 21-a water inlet; 3-water supply pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention aims to provide a drinking water system for preventing sundries from blocking domestic animals, which effectively avoids water supply blockage caused by the accumulation of sundries on a water supply road section and effectively improves the reliability of the drinking water system on the premise of ensuring the normal water supply of a drinking trough by improving the pipeline design of the drinking water system.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

The first embodiment is as follows:

as shown in fig. 1 to 3, the embodiment provides a drinking water system for preventing sundries from blocking for domestic animals, which includes a sundries storage cylinder 1, a drinking trough 2 and a water supply pipe 3, wherein the sundries storage cylinder 1 is located between the drinking trough 2 and the water supply pipe 3; the top end of the impurity storage barrel 1 is provided with an opening 11, the bottom of the drinking trough 2 is provided with a water inlet 21 for impurities to flow out, the opening 11 is communicated with the water inlet 21, so that the impurities in the drinking trough 2 can enter the impurity storage barrel 1 through the water inlet 21 through the opening 11; a connecting port 12 is arranged at the position, close to the water inlet 21, of the cylinder wall of the impurity storage cylinder 1, the connecting port 12 is used for being communicated with the water supply pipe 3, so that water in the water supply pipe 3 enters the impurity storage cylinder 1 through the connecting port 12 and then enters the drinking trough 2 through the water inlet 21; an impurity storage cavity for storing impurities is arranged in the impurity storage barrel 1 below the connecting port 12.

In the actual working process, when the water needs to be supplied to the drinking water tank 2, the water in the water supply pipe 3 enters the impurity storage cylinder 1 through the connecting port 12, and after the impurity storage cylinder 1 is filled, the water enters the drinking water tank 2 through the opening 11 and the water inlet 21 until the drinking water tank 2 is full of water and the water supply is stopped; when the drinking trough 2 experiences wind sand or sundries fall into the trough, the sundries or sand grains are deposited at the bottom of the drinking trough 2, enter the sundries storage barrel 1 through the water inlet 21 at the bottom of the drinking trough 2 through the opening 11 of the sundries storage barrel 1 until being deposited in the sundries storage cavity of the sundries storage barrel 1, so that the sundries or sand grains are prevented from being accumulated on a water supply path, and the water supply is prevented from being blocked.

Further, the number of the connecting ports 12 is at least one; as shown in fig. 1, when there are two connection ports 12, the two connection ports 12 are located at a same height on the trash can 1, and the two connection ports 12 are respectively connected to the water supply pipes 3, at this time, one of the two connection ports 12 serves as a water inlet and the other serves as a water outlet, and water in the water supply pipe 3 can flow into the trash can 1 and the drinking trough 2 through the water inlet and simultaneously flow into the next water supply pipe 3 from the water outlet, so that water can be supplied to the next drinking water trough 2. When one connecting port 12 is provided as shown in fig. 2, the connecting port 12 serves only as a water inlet through which water in the water supply pipe 3 flows into the trash can 1 and the drinking trough 2.

Further, the bottom of the impurity storage cylinder 1 is provided with an openable impurity discharging port 13, wherein the impurity discharging port 13 is designed in various forms, such as: the sundry discharging port 13 is designed in a screw cap type, an external thread is arranged at the bottom of the cylinder wall of the sundry storage cylinder 1, an internal thread is arranged on the inner wall of the screw cap corresponding to the external thread, and the screw cap is screwed to separate the sundry storage cylinder 1 from the screw cap, so that sundries are discharged from the cylinder bottom; or the impurity discharging port 13 adopts a plug type design, an inner thread is arranged on the inner wall of the bottom cylinder wall of the impurity storage cylinder 1, an outer thread is arranged on the outer wall of the plug corresponding to the inner thread, the plug is taken out from the cylinder bottom of the impurity storage cylinder 1, the opening of the impurity discharging port 13 is realized, and impurities are discharged from the cylinder bottom; or the sundries discharging port 13 adopts a plug cover design, a transverse slot is formed in the bottom barrel wall of the sundries storage barrel 1, the plug cover penetrates through the slot to seal the barrel bottom of the sundries storage barrel 1, and the plug cover is pulled out of the slot to open the sundries discharging port 13, so that sundries are discharged from the barrel bottom; through setting up open-type trash discharging opening 13, can follow the barrel head of storing up miscellaneous section of thick bamboo 1 with debris and discharge, made things convenient for the clearance to storing up miscellaneous section of thick bamboo 1.

Further, as shown in fig. 3, the drinking trough 2 adopts a bowl-shaped structure, and the trough wall of the bowl-shaped structure can smoothly guide sundries to the water inlet 21 at the bottom of the trough, so the drinking trough 2 of the present embodiment adopts a bowl-shaped structure, but it should be noted that the drinking trough 2 is not limited to a bowl-shaped structure, and as long as the structural design in the trough can guide sundries to the drinking trough 2 at the water inlet 21, for example: inverted pyramid or cone grooves.

Furthermore, the depth of the impurity storage cavity is not less than 5cm, and is usually 25 cm; this is because, although the pressure of the water supplied to the water supply pipe 3 is a natural pressure, and the water is slowly flowed into the trash can 1 and the drinking trough, the disturbance of the sand or the trash at the bottom of the trash can 1 is not caused, but the depth of the trash can is limited as a safety.

Through adopting the structural design that the impurity storage barrel 1 is arranged between the drinking trough 2 and the water supply pipe 3, the impurity storage barrel does not influence the normal water supply condition of the drinking trough 2 by the water supply pipe 3, the impurities of the drinking trough 2 fall by self gravity and are collected by the impurity storage cavity in the impurity storage barrel 1, the water supply blockage caused by accumulation of the impurities on a water supply road section is effectively avoided, and the reliability of a drinking water system is effectively improved.

Example two:

as shown in fig. 4 and 5, the embodiment provides a drinking system for preventing sundries from blocking the drinking water of livestock, compared with the first embodiment, the embodiment provides another design scheme on the structure of the sundries storage cylinder 1.

In the embodiment, the trash can 1 is divided into an outer can 14 and an inner can 15, wherein the inner can 15 is arranged in the outer can 14 and can be drawn out from the outer can 14; the connecting port 12 is arranged on the wall of the outer cylinder 14, and the impurity storage cavity is positioned in the inner cylinder 15; the outer edge of the inner cylinder 15 is not higher than the water inlet 21, and the inner cylinder 15 is communicated with the connecting port 13.

Further, the inner cylinder 15 has two structures; as shown in fig. 4, when the inner cylinder 15 is a sealed cylinder structure, the inner cylinder 15 is tightly attached to the outer cylinder, a through hole 17 corresponding to the connection port 13 is formed on the cylinder wall of the inner cylinder 15, and at this time, water in the water supply pipe 3 sequentially passes through the connection port 13 and the through hole 17 to enter the inner cylinder 15, and then the water is supplied to the drinking trough 2 through the inner cylinder 15; the sundries in the drinking trough 2 directly enter the inner barrel 15 through the water inlet 21; when removing impurities, the inner cylinder 15 is pulled out from the outer cylinder 14, the impurities stored in the inner cylinder 15 are dumped, and the impurities are inserted into the outer cylinder 14 again.

As shown in fig. 5, when the inner cylinder 15 is a mesh cylinder structure, the mesh size of the mesh cylinder is smaller than the size of the sundries; at this time, the water in the water supply pipe 3 can enter the inner cylinder 15 through the grid after passing through the connecting port 13, and then the water is supplied to the drinking trough 2; after the sundries in the drinking trough 2 enter the inner barrel 15, the sundries are collected in the inner barrel 15 because the mesh size of the mesh barrel is smaller than that of the sundries; when removing impurities, the inner cylinder 15 is pulled out from the outer cylinder 14, the impurities stored in the inner cylinder 15 are dumped, and the impurities are inserted into the outer cylinder 14 again.

Further, still be provided with the fixing device who is used for fixing on urceolus 14 on the inner tube 15, wherein, fixing device includes snap ring 17 that the top parallel and level department of inner tube 15 set up along the outer loop, connects inner tube 15 joint in the water inlet department of trough 2 bottom through snap ring 17, and then realizes fixing at urceolus 14.

Compared with the design of a net-shaped cylinder structure, the inner cylinder 15 adopting the sealing cylinder structure has stronger collection performance on impurities, and impurities with small size can be collected; compared with the design of a sealed cylinder structure, the inner cylinder 15 adopting the net-shaped cylinder structure is more convenient to clean, and residual impurities remained in the cylinder can be cleaned only by simply washing the net-shaped cylinder from the outside of the cylinder; the inner cylinder 15 may be selected as appropriate to have a sealed cylinder structure or a mesh cylinder structure.

Compared with the first embodiment, the impurity storage cylinder 1 adopting the inner and outer cylinder structures in the present embodiment can be applied to the actual situation that the water supply pipeline is buried underground, because the water supply pipeline 3 is buried underground, the impurity storage cylinder 1 also needs to be buried underground, and the impurity can not be discharged from the cylinder bottom in any way when being buried underground in the impurity storage cylinder 1.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a prevent debris jam domestic animal drinking water system which characterized in that: the trash-removing device comprises a water supply pipe, a trash storage cylinder and a drinking water tank which are sequentially communicated, wherein the trash storage cylinder capable of removing trash is positioned between the drinking water tank and the water supply pipe, one end of the trash storage cylinder is opened, a water inlet for trash to flow out is formed in the bottom of the drinking water tank, and the opening is communicated with the water inlet; and a connecting port communicated with the water supply pipe is formed in the wall of the impurity storage barrel, the connecting port is close to the water inlet, and an impurity storage cavity is reserved below the connecting port in the impurity storage barrel.

2. The debris blockage preventing livestock drinking system of claim 1, wherein: the number of the connecting ports is at least 1, when the connecting ports are multiple, the connecting ports are located at the same height, and the water supply pipes are respectively communicated with the corresponding connecting ports.

3. The debris blockage preventing livestock drinking system of claim 2, wherein: the bottom of the impurity storage cylinder is provided with an openable impurity discharging opening.

4. The debris blockage preventing livestock drinking system of claim 2, wherein: the impurity storage barrel is divided into an outer barrel and an inner barrel which can be pulled out of the outer barrel, the connecting port is formed in the outer barrel, and the impurity storage cavity is located in the inner barrel; the outer edge of the inner cylinder is not higher than the water inlet, and the inner cylinder is communicated with the connecting port.

5. The debris blockage preventing livestock drinking system according to claim 4, wherein: the inner cylinder is of a sealed cylinder structure, and a through hole corresponding to the connecting port is formed in the wall of the inner cylinder.

6. The debris blockage preventing livestock drinking system according to claim 4, wherein: the inner cylinder is of a net-shaped cylinder structure, and the size of the net-shaped cylinder is smaller than that of the sundries.

7. The livestock drinking system of claim 5 or 6, characterized in that: and the inner cylinder is provided with a fixing device for fixing on the outer cylinder.

8. The debris blockage preventing livestock drinking system of claim 7, wherein: the fixing device comprises a snap ring arranged at the top end of the inner barrel in a parallel and level mode along the outer ring.

9. The debris blockage preventing livestock drinking system of claim 1, wherein: the drinking trough adopts a bowl-shaped structure.

10. The debris blockage preventing livestock drinking system of claim 1, wherein: the depth of the impurity storage cavity is not less than 5 cm.

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