CN110779069A - An array distributed plumbing floor - Google Patents

Abstract

The invention belongs to the field of construction, and in particular relates to an array distributed plumbing floor, comprising a base plate, a panel is arranged on the upper side of the base plate, the base plate and the panel are fixedly connected by an annular elastic ring, and the lower part of the base plate is fixedly connected. A main pipe runs through the surface, a plurality of parallel branch pipes are arranged on both sides of the main pipe, each of the branch pipes is provided with at least one heating mechanism, and each of the heating mechanisms is evenly distributed on the panel, and the heating mechanism includes: A cylindrical water storage tank on the base plate, the bottom of the water storage tank is communicated with the branch pipe through a through hole, a cylindrical pressure block is arranged in the water storage tank, and the upper end of the pressure block is fixedly connected with the lower surface of the panel, The lower end of the pressing block is provided with a pressing rod corresponding to the through hole, and a gap is left between the pressing block and the water storage tank. When someone steps on the panel, the present invention can quickly heat the panel to make it warm up, and when no one is there, the heat is not easily lost, and the effect of energy saving can be achieved.

Description

An array distributed plumbing floor

technical field

The invention belongs to the field of construction, in particular to an array distributed plumbing floor.

Background technique

Floor heating refers to a heating method that heats the water and makes the water flow under the floor to heat the floor.

The existing floor heating water pipes are generally serpentine and evenly distributed in all corners of the room. When in use, the hot water circulates along the serpentine pipes. This heating method is to heat the entire room in an all-round and indiscriminate manner. However, there are usually a lot of furniture in the room, most of the heat is absorbed by the furniture, and people have limited space for activities, so the energy that really directly acts on the human body is very limited. In the process of circulating flow, a lot of heat energy will be wasted and energy consumption will be increased.

To this end, we propose an array distributed plumbing floor to solve the above problems.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide an array distributed plumbing floor with low heat loss in view of the problem of high energy consumption caused by omnidirectional heating of the existing plumbing floor.

In order to achieve the above object, the present invention adopts the following technical solutions: an array distributed plumbing floor, including a base plate, the upper side of the base plate is provided with a panel, the base plate and the panel are fixedly connected by an annular elastic ring, so A main pipe runs through the lower surface of the base plate, a plurality of parallel branch pipes are arranged on both sides of the main pipe, each of the branch pipes is provided with at least one heating mechanism, and each of the heating mechanisms is evenly distributed on the panel, and the heating mechanism The mechanism includes a cylindrical water storage tank arranged on the base plate, the bottom of the water storage tank is communicated with the branch pipe through a through hole, a cylindrical pressure block is arranged in the water storage tank, and the upper end of the pressure block is connected to the lower part of the panel. The surfaces are fixedly connected, the lower end of the pressing block is provided with a pressing rod corresponding to the through hole, a gap is left between the pressing block and the water storage tank, and the pressing rod and the through hole are slidably and sealedly connected.

The beneficial effect of the invention is that: by setting the pressure block and the water storage tank, when someone steps on the panel, the panel will sink downward and drive the pressure block to move downward, and the hot water in the water storage tank will be cooled by the pressure generated by the pressure block. The hot water is sprayed along the gap, and the hot water is evenly sprayed on the panel, which can quickly heat the panel and make it warm. Supplying too much heat to the floor, especially in the area under beds or under furniture, can save energy.

In the above-mentioned array distributed plumbing floor, the lower end surface of the pressing block is a spherical surface, and the bottom of the water storage tank is a concave arc surface corresponding to the spherical surface, which can make the water flow upwards more smoothly and reduce the long-term pressure of water flow in the past. The impact of the block, prolong the service life.

In the above-mentioned array distributed plumbing floor, the upper end of the pressure block extends radially outward to form a guide edge, the cross section of the guide edge is arc-shaped, and the starting point tangent of the guide block is the same as that of the pressure block. The side wall is flush, and the tangent line of the end point is flush with the lower surface of the panel, so that the water flows along the diversion along the injection and flows against the panel, so that most of the heat energy of the water flow can act on the panel to achieve rapid heating of the panel.

In the above-mentioned array distributed plumbing floor, a plurality of bar-shaped protrusions parallel to the axis are formed on the peripheral side wall of the pressing block, and each of the bar-shaped protrusions is sealed and slid with the side wall of the water storage tank. A strip-shaped water jetting groove is formed between the two adjacent strip-shaped protrusions, which can make the water flow along the water jetting groove, which can increase the water pressure. The panels are heated evenly.

In the above-mentioned array distributed plumbing floor, the panel is provided with a heat preservation cavity, the pressure block and the pressure rod are provided with connected capillary water absorption holes, and each of the capillary water absorption holes is communicated with the heat preservation cavity, which can be utilized The capillary water absorption hole absorbs the hot water in the branch pipe into the heat preservation cavity, realizes the heat exchange between the two, and realizes the heat preservation effect of the panel with less heat loss.

Description of drawings

1 is a schematic structural diagram of Embodiment 1 of an array distributed plumbing floor provided by the present invention;

2 is a schematic cross-sectional structure diagram of Embodiment 1 of an array distributed plumbing floor provided by the present invention;

3 is a schematic structural diagram of a heating mechanism in Embodiment 1 of an array distributed plumbing floor provided by the present invention;

FIG. 4 is a schematic structural diagram of a panel pressing state in Embodiment 1 of an array distributed plumbing floor provided by the present invention;

5 is a schematic structural diagram of a pressure block in Embodiment 2 of an array distributed plumbing floor provided by the present invention;

6 is a schematic cross-sectional structure diagram of a pressure block in Embodiment 3 of an array distributed plumbing floor provided by the present invention;

FIG. 7 is a schematic structural diagram of Embodiment 4 of an array distributed plumbing floor provided by the present invention.

In the figure, 1 base plate; 2 panel; 3 elastic ring; 4 main pipe; 5 branch pipe; 6 heating mechanism; 7 water storage tank; 8 through hole; 9 pressing block; 10 pressing rod; 13 heat preservation chamber; 14 capillary suction holes.

Detailed ways

The following examples are for illustrative purposes only and are not intended to limit the scope of the invention.

Example 1

As shown in Figure 1-4, an array distributed plumbing floor includes a substrate 1, a panel 2 is arranged on the upper side of the substrate 1, and the substrate 1 and the panel 2 are fixedly connected by an annular elastic ring 3. It should be noted that , there is a gap between the elastic ring 3 and the edge of the base plate 1 and the panel 2 (as shown in Figure 2), so that when the panel 2 is pressed down, the elastic ring 3 will expand outward, and the lower surface of the base plate 1 is provided with The height of the main pipe 4, the two ends of the main pipe 4 are flush with the notch of the water storage tank 7, so that the horizontal plane can be kept at the position of the notch of the water storage tank 7, and, it should be noted that, due to the elastic ring 3, the base plate 1 and the panel There is gas in the airtight space formed between 2, and the level can also be controlled in the water storage tank 7. A plurality of parallel branch pipes 5 are arranged on both sides of the main pipe 4, and each branch pipe 5 is provided with at least one heating mechanism 6. The mechanism 6 is evenly distributed on the panel 2. The heating mechanism 6 includes a cylindrical water storage tank 7 arranged on the base plate 1. The bottom of the water storage tank 7 is communicated with the branch pipe 5 through a through hole 8. The water storage tank 7 is provided with a cylindrical water storage tank 7. The pressing block 9, the upper end of the pressing block 9 is fixedly connected with the lower surface of the panel 2, the lower end of the pressing block 9 is provided with a pressing rod 10 corresponding to the through hole 8, and there is a gap between the pressing block 9 and the water storage tank 7, so that the water flows It can be ejected from the gap, and the pressure rod 10 and the through hole 8 are slidably and sealedly connected. It should be noted that in the initial state, there is a gap between the lower end of the pressure rod 10 and the upper end of the through hole 8, so that the hot water can enter the water storage tank 7. , when the panel 2 moves downward, the pressing rod 10 completely blocks the through hole 8 , so that the water in the water storage tank 7 can be squeezed out by the pressing block 9 .

The lower end surface of the pressure block 9 is a spherical surface, and the bottom of the water storage tank 7 is a concave arc surface corresponding to the spherical surface, which can make the water flow upwards more gently, reduce the impact of the water flow on the pressure block 9 in the long term, and prolong its service life.

The working principle of this embodiment is as follows:

When using this embodiment, the main pipes 4 are connected in series and communicated with the external circulating water boiler, so that the hot water flows back and forth between the main pipes 4. When someone steps on the panel 2, the panel 2 moves downward, so that the The pressing rod 10 completely blocks the through hole 8, so that a completely sealed space is formed between the panel 2, the base plate 1, the elastic ring 3 and the water storage tank 7, and due to the existence of the elastic ring 3, the panel 2 continues to move downward during the process Therefore, when the pressing block 9 moves down with the panel 2 and squeezes the water storage tank 7, the water in the water storage tank 7 will flow from the space between the pressing block 9 and the water storage tank 7. The gap is lasing out, and acts on the lower surface of the panel 2, so that the panel 2 heats up rapidly, the present invention can heat the floor according to the activity of the person, and can greatly reduce the energy consumption;

After the person leaves, under the action of the elastic ring 3 , the panel 2 is reset, and the water is returned to the water storage tank 7 .

Example 2

As shown in FIG. 5 , the difference between this embodiment and Embodiment 1 is that the upper end of the pressing block 9 extends radially outward to form a flow guide edge 11 , the cross section of the flow guide edge 11 is arc-shaped, and the flow guide edge 11 The starting point tangent of is flush with the side wall of the pressing block 9 , and the end tangent is flush with the lower surface of the panel 2 .

In this embodiment, when the pressing block 9 is pressed downward, the water flow will be ejected along the guide along the 11 and flow against the panel 2, so that most of the heat energy of the water flow can act on the panel 2, so as to realize the Heat up quickly.

Example 3

As shown in FIG. 6 , the difference between this embodiment and Embodiment 1 is that a plurality of bar-shaped protrusions 12 parallel to the axis are formed on the peripheral side wall of the pressing block 9 to extend outward. The side wall of the water storage tank 7 is sealed and slid, and a strip-shaped water jetting groove is formed between two adjacent strip-shaped protrusions 12 .

In this embodiment, when the pressing block 9 is pressed downward, the water flow will be ejected along the water jetting groove, which can increase the water pressure. In addition, since the water jetting groove is evenly distributed, the panel 2 around the pressing block 9 can be be heated evenly.

Example 4

As shown in FIG. 7 , the difference between this embodiment and Embodiment 1 is that: the panel 2 is provided with a heat preservation cavity 13 , the pressure block 9 and the pressure rod 10 are provided with connected capillary water absorption holes 14 , and each capillary water absorption hole 14 Both are communicated with the heat preservation cavity 13 .

In this embodiment, under the normal state, under the action of the capillary water absorption holes 14, the hot water in the branch pipe 5 can be absorbed into the heat preservation cavity 14, and the heat exchange between the two can be realized, and the panel can be realized with a small heat loss. 2 thermal insulation effect.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included in the protection of the present invention. within the range.

Claims (5)

1. An array distributed plumbing floor, comprising a substrate (1), characterized in that a panel (2) is provided on the upper side of the substrate (1), and a panel (2) passes between the substrate (1) and the panel (2). The annular elastic ring (3) is fixedly connected, the lower surface of the base plate (1) is provided with a main pipe (4), and the two sides of the main pipe (4) are provided with a plurality of parallel branch pipes (5). The branch pipe (5) is provided with at least one heating mechanism (6), each of the heating mechanisms (6) is evenly distributed on the panel (2), and the heating mechanism (6) comprises a cylindrical The bottom of the water storage tank (7) is connected with the branch pipe (5) through the through hole (8), and the cylindrical pressure block (9) is arranged in the water storage tank (7), so The upper end of the pressing block (9) is fixedly connected with the lower surface of the panel (2), and the lower end of the pressing block (9) is provided with a pressing rod (10) corresponding to the through hole (8). ) and the water storage tank (7) with a gap, and the pressure rod (10) and the through hole (8) are slidably and sealedly connected. 2 . The distributed array water heating floor according to claim 1 , wherein the lower end surface of the pressing block ( 9 ) is a spherical surface, and the bottom of the water storage tank ( 7 ) is a concave arc surface corresponding to the spherical surface. 3 . The array distributed plumbing floor according to claim 1, characterized in that the upper end of the pressing block (9) extends radially outward to form a flow guide edge (11), and the flow guide edge (11) The cross section of the guide is arc-shaped, the starting point tangent of the guide flow (11) is flush with the side wall of the pressing block (9), and the end tangent is flush with the lower surface of the panel (2). The array distributed plumbing floor according to claim 1, characterized in that, a plurality of bar-shaped protrusions (12) parallel to the axis are formed on the peripheral side wall of the pressing block (9), each of which is parallel to the axis. The bar-shaped protrusions (12) are sealed and slide with the side walls of the water storage tank (7), and a bar-shaped water jetting groove is formed between two adjacent bar-shaped protrusions (12). The array distributed plumbing floor according to claim 1, characterized in that, a heat preservation cavity (13) is provided in the panel (2), and a pressure block (9) and a pressure rod (10) are provided with a heat preservation cavity (13). Connected capillary water absorption holes (14), each of which is communicated with the heat preservation cavity (13).

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