CN210238650U - Automatic controller for domestic running water flow - Google Patents

Abstract

The utility model relates to a liquid flow control equipment field, concretely relates to domestic running water flow automatic control device, including buffering hydraulic buffer head, connect in the storage cylinder of buffer head bottom and connect in the regulation section of thick bamboo of storage cylinder bottom, the buffer head top has set firmly the connector that has the internal screw thread, the connector is used for threaded connection to on the water pipe, be equipped with the storage chamber in the storage cylinder, the watered delivery port of directional regulation section of thick bamboo is seted up to the storage cylinder bottom, it has set firmly spacing section of thick bamboo in the regulation section of thick bamboo, the internal diameter of spacing section of thick bamboo is greater than the delivery port internal diameter, a plurality of through-holes have been seted up on spacing section of thick bamboo's the lateral wall, the floater has been placed in the spacing section of thick bamboo, the diameter of. The utility model discloses to the extravagant problem that splashes greatly of running water flow, the process of plugging up repeatedly and opening the delivery port through the floater is automatic to go on according to the water level, need not artificially to adjust, and it is more convenient to use.

Description

Automatic controller for domestic running water flow

Technical Field

The utility model relates to a liquid flow control equipment field, concretely relates to domestic running water flow automatic control device.

Background

Tap water is produced after being purified and disinfected to meet corresponding standards and is used for production and life of people, and the tap water is guided into residential buildings and factories through water supply pipelines.

Domestic running water can be different at the water pressure on the different floors, and it is different also to cause domestic running water pressure at different regional water supply water pressure difference, and when running water discharge was too big, the running water flowed to waiting to wash on the article, and the running water strikes and leads to water to splash everywhere on the article easily, and the flow of running water is big simultaneously, continuously opens the running water and uses the waste that causes the water resource easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a domestic running water flow automatic control device to solve the problem that discharge too big causes splashing.

Domestic running water flow automatic control device in this scheme, including buffering hydraulic buffer head, connect in the storage cylinder of buffer head bottom and connect in the regulation section of thick bamboo of storage cylinder bottom, the buffer head top has set firmly the connector that has the internal screw thread, the connector is used for threaded connection to on the water pipe, be equipped with the storage chamber in the storage cylinder, the storage cylinder bottom is seted up to the watered delivery port of directional regulation section of thick bamboo, it has spacing section of thick bamboo to set firmly in the regulation section of thick bamboo, the internal diameter of spacing section of thick bamboo is greater than the delivery port internal diameter, a plurality of through-holes have been seted up on the lateral wall of spacing section of thick bamboo, the floater has been placed in the spacing section of thick bamboo, the diameter of floater is greater than the internal diameter of delivery port, the floater diameter.

The beneficial effect of this scheme is:

tap water firstly enters the storage cylinder through the buffer of the buffer head, and then enters the adjusting cylinder through the storage cylinder to buffer the flow velocity and flow of the flowing tap water.

When tap water flows into the adjusting cylinder, the tap water can flow into the limiting cylinder from the through hole, so that the water level in the limiting cylinder is kept to be the same as the water level in the adjusting cylinder, the liquid level of the tap water in the adjusting cylinder and the limiting cylinder rises along with the increase of the tap water amount in the adjusting cylinder, the floating ball is directly smaller than the inner diameter of the limiting cylinder, the floating ball moves upwards along with the rise of the liquid level and blocks the water outlet, the amount of the tap water in the storage cylinder flowing into the adjusting cylinder is reduced, the phenomenon that the water flow of a water outlet head of the adjusting cylinder is overlarge is avoided, after the tap water in the adjusting cylinder is reduced, the water pressure received by the floating ball is reduced, the floating ball leaves the water outlet, the tap water in the water storage cylinder continuously flows into the adjusting cylinder, the.

Furthermore, be equipped with the buffer tube of water conservancy diversion running water in the buffering head, set firmly a plurality of buffer balls that hold the running water on the buffer tube, buffer ball evenly distributed is on the buffer tube.

Tap water entering the buffering head passes through the buffering effect of the buffering tube and the buffering ball, and the flow rate and the flow speed of the tap water entering the adjusting cylinder are reduced.

Further, the diameter of the buffer tube is equal to one quarter of the diameter of the buffer ball.

The speed that the running water passes through the buffer tube and gets into buffering ball is less, lets the buffering ball play the cushioning effect of running water, reduces the water pressure of buffer tube.

Further, the buffer tube and the buffer ball are both hard.

When the water outlet is blocked by the floating ball, the water storage capacity cannot be increased due to the fact that the hard buffer tube and the buffer ball are expanded by water pressure, and the water storage capacity of the buffer head is kept constant.

Further, the storage cylinder comprises a funnel-shaped first cylinder body and a funnel-shaped second cylinder body, the wide end of the first cylinder body is fixedly connected with the wide end of the second cylinder body, and the narrow end of the second cylinder body is located on one side of the adjusting cylinder.

The top and the bottom of the storage cylinder are both inclined, so that the amount of tap water in the storage cylinder is reduced, and the retention time of the tap water in the storage cylinder is prevented from being too long.

Furthermore, a soft rubber ring is fixedly arranged on the inner wall of the water outlet.

When the floater rises along with the rising of running water liquid level, the floater is pushed down the rubber circle by water pressure, and the rubber circle can deform, lets the floater more laminate and blocks up the delivery port on the rubber circle.

Furthermore, the through holes are symmetrically and uniformly distributed on the limiting cylinder by using the central axis of the limiting cylinder.

After the tap water enters the adjusting cylinder, the tap water can uniformly enter the limiting cylinder from the through holes, so that the liquid level positions of the limiting cylinder and the adjusting cylinder are kept consistent.

Furthermore, the through hole is located the position of spacing section of thick bamboo inner wall and is smooth.

Keep the smoothness of through-hole department in the spacing section of thick bamboo, avoid the floater to be blocked by the through-hole and can not float from top to bottom.

Furthermore, a plurality of overflow holes are formed in the bottom plate of the adjusting cylinder.

The plurality of overflow holes on the adjusting cylinder disperse internal water pressure and reduce the water outlet pressure of the adjusting cylinder.

Further, the sum of the diameters of the overflow holes is smaller than the diameter of the water outlet.

The water yield of the adjusting cylinder is reduced, so that the water flowing out of the adjusting cylinder is softer.

Drawings

FIG. 1 is a longitudinal sectional view of an embodiment of the automatic control device for flow of household tap water;

fig. 2 is a longitudinal sectional view of another embodiment of the automatic control device for flow of household tap water.

Detailed Description

The following is a more detailed description of the present invention by way of specific embodiments.

Reference numerals in the drawings of the specification include: buffer head 1, storage cylinder 2, adjusting cylinder 3, spacing cylinder 4, floater 5, buffering ball 6, buffer tube 7, first barrel 8, second barrel 9, through-hole 10, spillway hole 11, connector 12.

The embodiment is basically as shown in the attached figure 1: including buffering hydraulic buffering head 1, storage cylinder 2 and regulation section of thick bamboo 3, buffering head 1 bottom is connected at storage cylinder 2 tops through first screwed pipe gas tightness, and buffering head 1 and storage cylinder 2 are located the both ends of first screwed pipe respectively, and storage cylinder 2 bottom is connected at regulation section of thick bamboo 3 tops through second screwed pipe gas tightness, and storage cylinder 2 and regulation section of thick bamboo 3 are located the both ends of second screwed pipe respectively.

The welding of 1 top of buffering head has female threaded connector 12, connector 12 is used for threaded connection to on the water pipe, 1 threaded connection of buffering head has the buffer tube 7 of water conservancy diversion running water, the end weld of intaking of buffer tube 7 is in connector 12, threaded connection has a plurality of buffer balls 6 that hold the running water on buffer tube 7, the figure of buffer ball 6 can set to threely, buffer ball 6 evenly distributed is on buffer tube 7, buffer tube 7 and buffer ball 6 are the stereoplasm, the diameter of buffer tube 7 equals the fourth of buffer ball 6 diameters, weld in leading-in storage cylinder 2 of a water end of buffer tube 7.

The storage cylinder 2 deposits the running water that comes from buffer head 1, storage cylinder 2 is including leaking hopper-shaped first barrel 8 and second barrel 9, the wide end of first barrel 8 and the wide end welded connection of second barrel 9, the narrow end intercommunication buffer tube 7 of first barrel 8, the narrow end and the 7 threaded connection of buffer tube of first barrel 8, the watered delivery port of directional regulation section of thick bamboo 3 is seted up to storage cylinder 2 bottom, it has soft rubber circle to bond on the delivery port inner wall, the narrow end orientation of second barrel 9 is adjusted 3 one side and is in the leading-in regulation section of thick bamboo 3 with the running water.

A limiting cylinder 4 is welded in the adjusting cylinder 3, the top end of the limiting cylinder 4 is welded on the top wall of the adjusting cylinder 3, the bottom end of the limiting cylinder 4 is welded on the bottom wall of the adjusting cylinder 3, the inner diameter of the limiting cylinder 4 is larger than the inner diameter of the water outlet, the inner diameter is the diameter, a plurality of through holes 10 are arranged on the side wall of the limiting cylinder 4, the through holes 10 are symmetrically and uniformly distributed on the limiting cylinder 4 along the central axis of the limiting cylinder 4, the through holes 10 are positioned at the inner wall of the limiting cylinder 4 and are smooth, a floating ball 5 capable of floating on the water surface and blocking the water outlet is arranged in the limiting cylinder 4, the surface of the floating ball 5 is tangent to the inner wall of the limiting cylinder 4, a water tap is arranged between the connecting head 12 and a water supply pipe for opening and closing to stop water outflow, the installation of the water tap is the prior art, no further description is given herein, for example, the sum of the areas of the overflow holes 11 is six square centimeters, and the area of the water outlet is four square centimeters.

When specifically using, go on this device through connector 12 threaded connection to the water pipe, during the running water goes out, the running water gets into earlier in the buffer head 1, the diameter of buffer tube 7 is less than the diameter of buffering ball 6, buffering ball 6 can store partial running water, let buffering ball 6 play the cushioning effect of running water, reduce buffer tube 7's water pressure, the running water passes through the cushioning effect of buffer tube 7 and buffering ball 6 in proper order, reduce the running water flow and the velocity of flow that get into in the storage cylinder 2.

When tap water flows into the storage cylinder 2 from the secondary punching head 1, the storage cylinder 2 buffers the flow of the tap water for the second time, and meanwhile, the wide ends of the two funnel-shaped first cylinder body 8 and the second cylinder body 9 are welded together.

When tap water flows into the adjusting cylinder 3 from the storage cylinder 2, the tap water flows into the limiting cylinder 4 from the through hole 10, so that the water level in the limiting cylinder 4 is kept to be the same as the water level in the adjusting cylinder 3, the liquid level of the tap water in the adjusting cylinder 3 and the limiting cylinder 4 rises along with the increase of the tap water in the adjusting cylinder 3, the floating ball 5 moves upwards along with the rise of the liquid level, the floating ball 5 is driven by the liquid level to rise to the water outlet along the limiting cylinder 4 due to the fact that the surface of the floating ball 5 contacts with the surface of the limiting cylinder 4, the floating ball 5 blocks the water outlet, the amount of the tap water in the storage cylinder 2 flowing into the adjusting cylinder 3 is reduced, the adjusting cylinder 3 increases the water outlet area of the tap water due to the fact that the water pressure in the closed container is equal, the flow velocity and the flow rate of the tap water flowing out of the adjusting cylinder are reduced, the, tap water in the water storage cylinder continuously flows into the adjusting cylinder 3, the process that the floating ball 5 repeatedly blocks and opens the water outlet is automatically carried out according to the water level, manual adjustment is not needed, and the use is more convenient.

In this embodiment, the running water enters into storage cylinder 2 through the buffering of buffering head 1 earlier, and the running water enters into an adjusting cylinder 3 after storage cylinder 2, carries out tertiary buffering to the velocity of flow and the flow of the running water that flows out, and the running water has reduced the velocity of flow and the flow of flowing out the running water from an adjusting cylinder 3 through buffering head 1, storage cylinder 2 and the effect of adjusting a cylinder 3 in proper order.

In another embodiment, as shown in fig. 2, the difference from the above embodiment is that the device includes a buffer head 1, the buffer head 1 is directly connected to the top of the adjusting cylinder 3 through a third threaded pipe in an airtight manner, the structure in the buffer head 1 is the same as that of the above embodiment, which is not described herein again, a water outlet for adding water to the adjusting cylinder 3 is formed at the bottom of the buffer head 1, a floating ball 5 is directly placed in the adjusting cylinder 3, a plurality of overflow holes 11 are formed in a bottom plate of the adjusting cylinder 3, and the sum of the areas of the overflow holes 11 is greater than the area of the water outlet.

The tap water flows into the buffer head 1 and enters the adjusting cylinder 3 after being buffered by the buffer ball 6 and the buffer pipe 7, along with the increase of the tap water in the adjusting cylinder 3, the liquid level of the tap water in the adjusting cylinder 3 rises, the liquid level drives the floating ball 5 to float upwards, when the floating ball 5 floats to the water outlet, the water outlet is blocked by the floating ball 5, the amount of the tap water in the buffer head 1 flowing into the adjusting cylinder 3 is reduced, after the amount of the tap water in the adjusting cylinder 3 is reduced, the floating ball 5 leaves the water outlet, the tap water in the buffer head 1 flows into the adjusting cylinder 3 again, and the adjustment of the flow rate of the tap water in the adjusting cylinder 3 is repeated.

After the liquid level in the adjusting cylinder 3 rises, tap water flows into the floating ball 5 from the water outlet in the floating process, and the floating ball 5 is always positioned under the water outlet, so that the floating ball 5 can be ensured to be aligned with the water outlet to move upwards after the limiting cylinder is removed, and the floating ball can block the water outlet to adjust the flow of the tap water when the liquid level rises.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics of the embodiments is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. Domestic running water flow automatic control device which characterized in that: including buffering hydraulic buffering head, connecting in the storage cylinder of buffering head bottom and connecting in the regulation section of thick bamboo of storage cylinder bottom, buffering top has set firmly the connector that has the internal screw thread, the connector is used for threaded connection to on the water pipe, be equipped with the storage chamber in the storage cylinder, the storage cylinder bottom is seted up to the watered delivery port of a regulation section of thick bamboo, it has set firmly spacing section of thick bamboo in the regulation section of thick bamboo, the internal diameter of a spacing section of thick bamboo is greater than the delivery port internal diameter, a plurality of through-holes have been seted up on the lateral wall of a spacing section of thick bamboo, the floater has been placed in the spacing section of thick bamboo, the diameter of floater is greater than the internal diameter of delivery port, the floater diameter is less.

2. The automatic household tap water flow control device according to claim 1, characterized in that: the buffer head is internally provided with a buffer tube for guiding tap water, the buffer tube is fixedly provided with a plurality of buffer balls for containing the tap water, and the buffer balls are uniformly distributed on the buffer tube.

3. The automatic household tap water flow control device according to claim 2, characterized in that: the diameter of the buffer tube is equal to one quarter of the diameter of the buffer ball.

4. The automatic household tap water flow control device according to claim 2, characterized in that: the buffer tube and the buffer ball are both hard.

5. The automatic household tap water flow control device according to claim 1, characterized in that: the storage cylinder comprises a funnel-shaped first cylinder body and a funnel-shaped second cylinder body, the wide end of the first cylinder body is fixedly connected with the wide end of the second cylinder body, and the narrow end of the second cylinder body is located on one side of the adjusting cylinder.

6. The automatic household tap water flow control device according to claim 1, characterized in that: and a soft rubber ring is fixedly arranged on the inner wall of the water outlet.

7. The automatic household tap water flow control device according to claim 1, characterized in that: the through holes are symmetrically and uniformly distributed on the limiting cylinder by using the central shaft of the limiting cylinder.

8. The automatic household tap water flow control device according to claim 7, characterized in that: the through hole is located the position of spacing section of thick bamboo inner wall and is smooth.

9. The automatic household tap water flow control device according to claim 1, characterized in that: a plurality of overflow holes are formed in the bottom plate of the adjusting cylinder.

10. The automatic household tap water flow control device according to claim 9, characterized in that: the sum of the diameters of the overflow holes is smaller than the diameter of the water outlet.

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