CN110779069A - Array distributed water heating floor - Google Patents

Abstract

The invention belongs to the field of buildings, and particularly relates to an array distributed water heating floor which comprises a base plate, wherein a panel is arranged on the upper side of the base plate, the base plate and the panel are fixedly connected through an annular elastic ring, a main pipe penetrates through the lower surface of the base plate, a plurality of parallel branch pipes are arranged on two sides of the main pipe, at least one heating mechanism is arranged on each branch pipe, each heating mechanism is uniformly distributed on the panel, each heating mechanism comprises a cylindrical water storage tank arranged on the base plate, the bottom of the water storage tank is communicated with the corresponding branch pipe through a through hole, a cylindrical pressing block is arranged in the water storage tank, the upper end of the pressing block is fixedly connected with the lower surface of the panel, a pressing rod corresponding to the through hole is arranged at the lower end of the pressing block, and a gap is. When someone steps on the panel, the panel can be rapidly heated to raise the temperature, and when nobody is in use, the heat is not easy to lose, so that the energy-saving effect can be achieved.

Description

Array distributed water heating floor

Technical Field

The invention belongs to the field of buildings, and particularly relates to an array distributed water heating floor.

Background

The floor heating is a heating mode which heats water and then enables the water to flow under the floor to heat and raise the temperature of the floor.

The existing ground heating water pipe is generally uniformly distributed in each corner of a room in a snake shape, when the ground heating water pipe is used, hot water flows along the snake-shaped pipe in a circulating manner, the heating mode is all-around and indifferently heating the whole room, however, a large amount of furniture and the like are usually arranged in the room, most of heat is absorbed by the furniture, and the activity space of people is limited, so that the energy which is really and directly applied to heating and heat preservation of a human body is very limited, therefore, in the continuous circulating flow process of the hot water, a large amount of heat energy waste can be caused, and the energy consumption is increased.

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

Disclosure of Invention

The invention aims to provide an array distributed water heating floor with low heat loss aiming at the problem of high energy consumption caused by all-directional heating of the existing water heating floor.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an array distributing type hot-water heating floor, includes the base plate, the upside of base plate is equipped with the panel, through annular elastic ring fixed connection between base plate and the panel, the lower surface of base plate runs through and is equipped with the person in charge, the both sides of being responsible for are equipped with many parallel branch pipes, each be equipped with at least one heating mechanism on the branch pipe, each heating mechanism evenly distributed on the panel, heating mechanism is including setting up on the base plate, cylindric catch basin, through-hole and branch pipe intercommunication are passed through to the bottom of catch basin, be equipped with columniform briquetting in the catch basin, the upper end of briquetting is connected with the lower fixed surface of panel, the lower extreme of briquetting is equipped with the depression bar that corresponds with the through-hole, leave the clearance between briquetting and the catch basin, depression bar and through.

The invention has the beneficial effects that: through setting up briquetting and catch basin, when someone steps on the panel, the panel can subside downwards and drive the briquetting and move down, the hot water that utilizes the pressure that the briquetting produced jets out along the gap with the hot water in the catch basin, hot water evenly sprays on the panel, can realize the rapid heating of counterplate, make it intensifie, and when nobody, because the clearance between briquetting and the catch basin is less, the heat is difficult for running off, can not be to the too much heat of floor supply, especially in the region of bed bottom or furniture bottom, can play energy-conserving effect.

In the array distributed water heating floor, the lower end face of the pressing block is a spherical surface, the bottom of the water storage tank is a concave arc surface corresponding to the spherical surface, water flow can flow upwards gently, impact of the water flow on the pressing block in the past for a long time is reduced, and the service life is prolonged.

In foretell array distributed hot-water heating floor, the upper end of briquetting radially outwards extends and forms the water conservancy diversion edge, the cross-section on water conservancy diversion edge is the arc, the starting point tangent line on water conservancy diversion edge and the lateral wall parallel and level of briquetting, terminal point tangent line and the lower surface parallel and level of panel for rivers are along the water conservancy diversion along penetrating and pasting the panel flow, make most heat energy of rivers can be used in on the panel, realize the rapid heating up to the panel.

In foretell array distribution formula hot-water heating floor, outwards extend on the circumference lateral wall of briquetting and form a plurality of bar archs parallel with the axis, each bar arch slides with the lateral wall of catch basin is sealed, adjacent two form the basin of jetting of bar between the bar arch, can make rivers jet out along the jetting groove, can play the effect that increases hydraulic pressure, in addition, because the jetting groove evenly distributed, can make the panel around the briquetting by the even heating.

In the array distributed water heating floor, the panel is internally provided with a heat preservation cavity, the pressing block and the pressing rod are provided with communicated capillary water suction holes, and each capillary water suction hole is communicated with the heat preservation cavity, so that hot water in the branch pipe can be absorbed into the heat preservation cavity by utilizing the capillary water suction holes, the heat exchange between the branch pipe and the heat preservation cavity is realized, and the heat preservation effect of the panel is realized by smaller heat loss.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment 1 of an array distributed water heating floor provided by the invention;

FIG. 2 is a schematic cross-sectional structure view of an embodiment 1 of an array distributed water heating floor provided by the invention;

FIG. 3 is a schematic structural diagram of a heating mechanism in embodiment 1 of the array distributed water heating floor provided by the invention;

fig. 4 is a schematic structural diagram of a panel in a pressed state in embodiment 1 of the array distributed water heating floor provided by the invention;

FIG. 5 is a schematic structural diagram of a pressing block in embodiment 2 of the array distributed water heating floor provided by the invention;

FIG. 6 is a schematic cross-sectional structure view of a pressing block in embodiment 3 of the array distributed water heating floor provided by the invention;

fig. 7 is a schematic structural diagram of an embodiment 4 of the array distributed water heating floor provided by the invention.

In the figure, 1 a substrate; 2, a panel; 3, an elastic ring; 4, a main pipe; 5 branch pipes; 6, a heating mechanism; 7 a water storage tank; 8 through holes; 9, briquetting; 10, pressing a rod; 11, a flow guiding edge; 12 strip-shaped bulges; 13 heat preservation cavity; 14 capillary water absorption holes.

Detailed Description

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

Example 1

As shown in fig. 1-4, an array distributed water heating floor comprises a base plate 1, a panel 2 is arranged on the upper side of the base plate 1, the base plate 1 and the panel 2 are fixedly connected through an annular elastic ring 3, it should be noted that a gap (as shown in fig. 2) is left between the elastic ring 3 and the edges of the base plate 1 and the panel 2, so that the elastic ring 3 can expand outwards when the panel 2 is extruded downwards, a main pipe 4 is arranged on the lower surface of the base plate 1 in a penetrating manner, the height of two ends of the main pipe 4 is flush with the notch of a water storage tank 7, so that a horizontal plane can be kept at the notch of the water storage tank 7, and it should be noted that because gas exists in a closed space formed among the elastic ring 3, the base plate 1 and the panel 2, the horizontal plane can be controlled in the water storage tank 7, a plurality of parallel branch pipes 5 are arranged on two sides of the main pipe 4, at, each heating mechanism 6 evenly distributed on panel 2, heating mechanism 6 is including setting up on base plate 1, cylindric catch basin 7, through-hole 8 and branch pipe 5 intercommunication are passed through to the bottom of catch basin 7, be equipped with columniform briquetting 9 in the catch basin 7, the upper end of briquetting 9 and panel 2's lower fixed surface are connected, the lower extreme of briquetting 9 is equipped with the depression bar 10 that corresponds with through-hole 8, leave the clearance between briquetting 9 and the catch basin 7, make rivers can follow clearance department and jet out, depression bar 10 and through-hole 8 sliding seal connect, it is required to explain, under the initial condition, the clearance is left with the upper end of through-hole 8 to the lower extreme of depression bar 10, make in hot water can get into catch basin 7, when panel 2 moves down, depression bar 10 blocks up through-hole 8 completely, make the water in the catch basin 7 can be extruded by briquetting 9.

The lower end face of the pressing block 9 is a spherical surface, the bottom of the water storage tank 7 is a concave arc surface corresponding to the spherical surface, water flow can flow upwards gently, impact of the water flow on the pressing block 9 for a long time is reduced, and the service life of the pressing block is prolonged.

The working principle of the embodiment is as follows:

when the embodiment is used, the main pipes 4 are connected in series and communicated with an external circulating water boiler, so that hot water flows back and forth between the main pipes 4, when someone steps on the panel 2, the panel 2 moves downwards, so that the through hole 8 is completely blocked by the pressure lever 10, so that a completely closed space is formed among the panel 2, the base plate 1, the elastic ring 3 and the water storage tank 7, and due to the presence of the elastic ring 3, during the continuous downward movement of the panel 2, the variation of the size of this space is negligible, therefore, when the pressing block 9 moves downwards along with the panel 2 to press the water storage tank 7, the water in the water storage tank 7 is shot from the gap between the pressing block 9 and the water storage tank 7, the heating plate acts on the lower surface of the panel 2, so that the temperature of the panel 2 is rapidly raised, the floor can be heated according to the activity condition of people, and the energy consumption can be greatly reduced;

after the person leaves, the panel 2 is reset under the action of the elastic ring 3, and water flows back to the water storage tank 7 again.

Example 2

As shown in fig. 5, the present embodiment is different from embodiment 1 in that: the upper end of the pressing block 9 extends outwards along the radial direction to form a flow guide edge 11, the section of the flow guide edge 11 is arc-shaped, the starting point tangent line of the flow guide edge 11 is flush with the side wall of the pressing block 9, and the end point tangent line of the flow guide edge 11 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 guiding edge 11 and flow along the panel 2, so that most of the heat energy of the water flow can act on the panel 2, and the rapid temperature rise of the panel 2 is realized.

Example 3

As shown in fig. 6, the present embodiment is different from embodiment 1 in that: the circumference lateral wall of briquetting 9 outwards extends and forms a plurality of bar protruding 12 parallel with the axis, and each bar protruding 12 slides with the lateral wall seal of catch basin 7, forms the shooting of bar basin between two adjacent bar protruding 12.

In this embodiment, when the briquette 9 is pressed downward, water is ejected along the water jet groove, thereby increasing the water pressure, and the water jet groove is uniformly distributed, thereby uniformly heating the panel 2 around the briquette 9.

Example 4

As shown in fig. 7, the present embodiment is different from embodiment 1 in that: a heat preservation cavity 13 is arranged in the panel 2, communicated capillary water absorption holes 14 are arranged on the pressing block 9 and the pressing rod 10, and each capillary water absorption hole 14 is communicated with the heat preservation cavity 13.

In this embodiment, under the normal condition, the hot water in the branch pipe 5 is absorbed into the heat preservation chamber 14 by the capillary water absorption hole 14, so as to realize the heat exchange between the two, and realize the heat preservation effect of the panel 2 with less heat loss.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (5)

1. The array distributed water heating floor comprises a base plate (1) and is characterized in that a panel (2) is arranged on the upper side of the base plate (1), the base plate (1) and the panel (2) are fixedly connected through an annular elastic ring (3), a main pipe (4) penetrates through the lower surface of the base plate (1), a plurality of parallel branch pipes (5) are arranged on two sides of the main pipe (4), at least one heating mechanism (6) is arranged on each branch pipe (5), each heating mechanism (6) is uniformly distributed on the panel (2), each heating mechanism (6) comprises a cylindrical water storage tank (7) arranged on the base plate (1), the bottom of each water storage tank (7) is communicated with the corresponding branch pipe (5) through a through hole (8), a cylindrical pressing block (9) is arranged in each water storage tank (7), and the upper end of each pressing block (9) is fixedly connected with the lower surface of the panel (2), the lower extreme of briquetting (9) is equipped with depression bar (10) that correspond with through-hole (8), leave the clearance between briquetting (9) and catch basin (7), depression bar (10) and through-hole (8) sliding seal connect.

2. The arrayed distributed 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 arrayed distributed water heating floor according to claim 1, wherein the upper end of the pressing block (9) extends outwards in the radial direction to form a flow guiding edge (11), the cross section of the flow guiding edge (11) is arc-shaped, the starting point tangent of the flow guiding edge (11) is flush with the side wall of the pressing block (9), and the final point tangent is flush with the lower surface of the panel (2).

4. The arrayed distributed water heating floor according to claim 1, wherein a plurality of strip-shaped protrusions (12) parallel to the axis are formed on the peripheral side wall of the pressing block (9) in an outward extending mode, each strip-shaped protrusion (12) slides in a sealing mode with the side wall of the water storage tank (7), and a strip-shaped water injection tank is formed between every two adjacent strip-shaped protrusions (12).

5. The arrayed distributed water heating floor according to claim 1, wherein a heat preservation cavity (13) is arranged in the panel (2), the pressing block (9) and the pressing rod (10) are provided with communicated capillary water suction holes (14), and each capillary water suction hole (14) is communicated with the heat preservation cavity (13).

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