CN109736536B - Building equipment based on energy-conserving ground of impulse type warms up - Google Patents

Abstract

A building equipment based on energy-conserving ground heating of impulse type includes: the system comprises a CPU processor, a slide rail arranged on any side wall in the length direction in a heating room, a scanning camera and an infrared distance sensor which are connected to the slide rail through a sliding part, and a floor layer, a heat insulation layer, a base layer and a heat insulation layer which are sequentially stacked and constructed on the ground from top to bottom; wherein the installation height of the slide rail is 1.2 m from the vertical height of the floor layer; the infrared distance sensor and the scanning camera are integrally installed, and the working directions of the infrared distance sensor and the scanning camera are consistent; the floor layer is provided with a 1.5 x 1.5-shaped dismounting opening; the disassembly port is provided with a fixed traction point; the base layer includes: the support frame is used for supporting the plurality of push type sheet floor heating devices; the push type energy-saving floor heating-based building equipment provided by the invention has the advantages that the manufacturing cost of the floor heating building equipment is reduced, the resources are saved, and meanwhile, the later maintenance is more convenient.

Description

Building equipment based on energy-conserving ground of impulse type warms up

This application is a divisional application, the parent patent names of which are: the utility model provides a building equipment based on energy-conserving ground of impulse type warms up, application number is: 201710074578.5, filing date: 2017-2-11.

Technical Field

The invention relates to the field of building equipment, in particular to building equipment based on a push type energy-saving floor heating.

Background

Geothermal radiation heating, ground heating for short, is a heating mode in which hot water or a heating cable with the temperature not higher than 60 ℃ is buried in a coil system under a geothermal floor to heat the whole ground and uniformly radiate and radiate heat to the indoor through the ground. Compared with the traditional heating mode, the geothermal radiation heating mode has the characteristics of comfort, energy conservation, environmental protection and the like. The technology is not only widely applied to various public buildings such as civil houses and hospitals, markets, office buildings, gymnasiums and natatoriums, but also widely applied to the heat preservation of building systems such as flower beds, factory buildings, football fields, hangars, vegetable greenhouses and the like, and even applied to the heat preservation of outdoor roads, roofs, stairs, airport runways and various industrial pipelines. Currently, over 50% of new buildings in korea, japan, europe, and the united states use geothermal radiation heating.

However, the existing floor heating equipment usually heats the whole ground through a heating system buried under the floor. This leads to three problems, one of which is that the manufacturing cost is relatively high due to the floor heating layer laid over the entire area; secondly, heating the whole floor area can cause unnecessary energy waste; for example, when people in a room are reduced, the floor area of the whole room is heated, and the electric energy is greatly and unnecessarily wasted. Thirdly, when the middle electric heating layer breaks down, the maintenance cost is high and the maintenance is troublesome.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides a building device based on a push type energy-saving floor heating, which can effectively solve the problems in the background art.

The technical scheme is as follows: the utility model provides a building equipment based on energy-conserving ground of propulsion formula warms up which characterized in that, equipment includes: the system comprises a CPU processor, a slide rail arranged on any side wall in the length direction in a heating room, a scanning camera and an infrared distance sensor which are connected to the slide rail through a sliding part, and a floor layer, a heat insulation layer, a base layer and a heat insulation layer which are sequentially stacked and constructed on the ground from top to bottom; wherein the installation height of the slide rail is 1.2 m from the vertical height of the floor layer;

the infrared distance sensor and the scanning camera are integrally installed, and the working directions of the infrared distance sensor and the scanning camera are consistent;

the floor layer is provided with a 1.5 x 1.5-shaped dismounting opening; the disassembly port is provided with a fixed traction point;

the base layer includes: the support frame is used for supporting the plurality of push type sheet floor heating devices; wherein the peripheral outer wall of the supporting frame is attached to a wall and the vertical height of the supporting frame is 0.2 m; the size of the push type sheet type floor heating is 1.3 x 1.3, the vertical height is 0.16 m, and the push type sheet type floor heating comprises a floor heating frame, an electric heating pipe arranged on the floor heating frame, a driving wheel system, a signal receiver and an automatic winding and unwinding pull wire; one end of the automatic retractable traction wire is fixedly connected to a fixed traction point, and the other end of the automatic retractable traction wire is fixedly connected to the push-type sheet floor heating;

in the device, the infrared distance sensor is used for calculating the linear distance between the infrared signal and the infrared distance sensor when detecting that the infrared signal exists, and transmitting the current position distance of the infrared distance sensor and the measured infrared signal distance to the CPU; the scanning camera is used for shooting images after the infrared distance sensor senses the infrared signals and sending the shot images to the CPU; the CPU is used for receiving the information, calculating the position of the human body according to the distance information sent by the infrared distance sensor, and identifying the number of the human body according to the image sent by the scanning camera; the CPU is further used for judging whether the number of the human bodies exceeds a preset threshold value or not according to the calculated number of the human bodies, if the number of the human bodies does not exceed the first preset threshold value, sending human body position information to a push type sheet floor heating closest to the position of the human body according to the calculated position of the human body, and generating a route to move to the position by the driving wheel system of the push type sheet floor heating according to the received human body position information; similarly, if the distance exceeds the first preset threshold, the CPU sends the position information of the human body to the two push-type sheet floor heaters closest to the position of the human body; and if the distance exceeds the second preset threshold value, the CPU sends the human body position information to the three-push type sheet floor heating closest to the position of the human body.

As a preferred mode of the invention, the push type sheet floor heating device is provided with a temperature controller which is respectively connected with the CPU processor and the electric heating pipe; the temperature controller is used for controlling the electric heating tube to be in high, medium and low running modes with different powers respectively.

In a preferred embodiment of the present invention, the CPU processor is further configured to determine a type of clothing of the human body in the image, and output a switching signal of different operation modes to the temperature controller when determining different types of clothing.

In a preferred embodiment of the present invention, the heat insulating layer is filled with a heat insulating material, and the heat insulating material is any one of a glass fiber cotton board, a polyurethane foam board, a centrifugally peeled fiber cotton, a micro-nano heat insulating board, and an aerogel felt.

As a preferred mode of the invention, the push type sheet type floor heating is freely taken out or put in through a fixed traction point arranged at the floor layer dismounting opening and an automatic retractable traction line with two ends respectively fixedly connected to the push type sheet type floor heating and the fixed traction point.

As a preferable mode of the present invention, the construction equipment further includes a human body sensor disposed at an entrance of the room, and when the human body sensor senses that a human body enters, the infrared distance sensor and the scanning camera moving switch are triggered to move on the slide rail.

The invention realizes the following beneficial effects: the push type piece type floor heating devices are arranged on the base layer, so that the problem of laying electric heating pipes on the whole floor is solved, the manufacturing cost is saved, and the power supply is saved; in addition, a disassembly opening is formed in the floor layer, and the floor is connected with the push type piece type floor heating through the automatic retractable traction line, so that later maintenance is more convenient, and the maintenance cost is greatly reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic work flow diagram of a construction device based on a push type energy-saving floor heating system provided by the invention;

FIG. 2 is a schematic view of the present invention providing a floor layer, insulation layer, foundation layer, and insulation layer installation;

FIG. 3 provides a top view of a base layer according to the present invention;

fig. 4 is an overall three-dimensional schematic diagram of the device provided by the invention.

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.

Example one

Referring to fig. 1 to 4, fig. 1 is a schematic view of a working flow of a building device based on a push-type energy-saving floor heating system according to an embodiment of the present invention; FIG. 2 is a schematic view of the installation of the floor layer, the insulation layer, the foundation layer, and the insulation layer according to the present embodiment; FIG. 3 is a top view of a base layer; fig. 4 is a three-dimensional schematic diagram of the whole device.

Specifically, this embodiment provides a building equipment based on energy-conserving ground of impulse type warms up, includes: the heating system comprises a CPU (central processing unit) processor 1, a slide rail 2 arranged on any side wall in the length direction in a heating room, a scanning camera 4 and an infrared distance sensor 5 which are connected to the slide rail 2 through a sliding part 3, and a floor layer 6, a heat insulation layer 7, a base layer 8 and a heat insulation layer 9 which are sequentially stacked and constructed on the ground from top to bottom; wherein the installation height of the slide rail 2 is 1.2 meters away from the vertical height of the floor layer 6; the infrared distance sensor 5 and the scanning camera 4 are integrally installed, and the working directions of the infrared distance sensor and the scanning camera are consistent;

the floor layer 6 is provided with a 1.5 x 1.5-shaped detaching opening 610; the disassembly port 610 is provided with a fixed traction point;

the base layer 8 includes: the supporting frame is provided with 3 push-type sheet floor heating units; wherein the peripheral outer wall of the supporting frame is attached to a wall and the vertical height of the supporting frame is 0.2 m; the size of the push type sheet type floor heating is 1.3 x 1.3, the vertical height is 0.16 m, and the push type sheet type floor heating comprises a floor heating frame, an electric heating pipe 822 arranged on the floor heating frame, a driving wheel system 823, a signal receiver 824 and an automatic winding and unwinding pull wire; one end of the automatic retractable traction wire is fixedly connected to a fixed traction point, and the other end of the automatic retractable traction wire is fixedly connected to the push-type sheet floor heating;

the invention is further described below with reference to the daily normal working mode of the building equipment based on the push-type energy-saving floor heating provided by the embodiment.

Firstly, the infrared distance sensor 5 and the scanning camera 4 mounted on the slide rail 2 regularly move on the slide rail 2 through the slider 3 and are always in a working state. When a person is in a certain position in the room, the infrared distance sensor 5 detects the distance from the person to the infrared distance sensor 5; further, the scanning camera 4 starts taking an image in the same direction.

It is worth to be noted that the slide rail 2 is installed on any side wall in the length direction in the heating room, and is 1.2 meters away from the floor layer 6. Such an arrangement is primarily concerned with the problem of the scanning camera 4 capturing some images of the child's anatomy. In addition, the scanning camera 4 and the infrared distance sensor 5 are integrated, are installed on a slide rail through the sliding part 3, have the same working direction and are all in the horizontal direction, and can constantly display the distance from the scanning camera to a certain preset reference when moving on the slide rail 2. As in the present embodiment, the slide rail 2 is installed on the left wall of the heating room, and the preset reference of the moving distance of the scanning camera 4 and the infrared distance sensor 5 on the slide rail 2 is the front wall surface.

For example, in the present embodiment, when the infrared distance sensor 5 senses that there is an infrared signal, it first records the position of itself on the slide rail 2, that is, the distance from the front wall surface, then calculates the distance from the infrared signal to itself, and sends the position information of itself on the slide rail 2 and the sensed distance of the infrared signal to the CPU processor 1.

Further, when the infrared distance sensor 5 detects an infrared signal, the scanning camera 4 captures an image and sends the captured image to the CPU processor 1.

Further, after receiving the information sent by the infrared distance sensor 5 and the scanning camera 4, the CPU processor 1 first determines which preset interval it is in according to the number of human bodies in the image recognition image captured by the scanning camera 4. For example, in the present embodiment, the first preset threshold is defined as 3 persons, and the second preset threshold is defined as 5 persons. If the number of the human bodies in the shot image is identified not to exceed a first preset threshold value, the CPU processor 1 sends the human body position information to a push type sheet type floor heating closest to the human body position according to the human body position information sent by the infrared distance sensor 5; if the number of the human bodies in the shot image is identified to exceed a first preset threshold value, the CPU (central processing unit) processor 1 sends the human body position information to two push-type sheet floor heating devices closest to the human body position according to the human body position information sent by the infrared distance sensor 5; if the number of the human bodies in the shot image is identified to exceed a second preset threshold value, the CPU processor 1 sends the human body position information to the three push-type sheet floor heaters closest to the human body position according to the human body position information sent by the infrared distance sensor 5;

it should be noted that, as mentioned above, the position information sent to the CPU 1 by the infrared distance sensor 5 in this embodiment includes the position information of itself on the slide rail 2, i.e. the distance from the front wall surface, and the distance from the human body to the infrared distance sensor 5, so that the position information of the human body can be represented by the coordinates in the coordinate system with the front wall surface and the slide rail 2 as coordinate axes. The same position information of the three push type floor heating units is also expressed in the manner. The position information of the push type sheet floor heating is sent to the CPU processor 1 through the signal receiver 824.

Therefore, in the embodiment, the approach type of the push type sheet floor heating is adopted, that is, the human body position information and the push type sheet floor heating position information are expressed by the same coordinate system, and then the linear distance between the three push type sheet floor heating and the human body position is compared.

Further, after receiving the human body position information sent by the CPU processor 1, the push type floor heating system generates a route through a driving wheel system 823 arranged therein, in this embodiment. And a coordinate comparison method is adopted for generating the route. For example, the coordinate of the human body position is (5.3), and the coordinate of the push type sheet floor heating is (4, 2), wherein the first coordinate coefficient represents the direction of the slide rail, and the second coordinate coefficient represents the direction of the front wall surface. The resulting path after comparison is therefore 1 meter vertically back and then 1 meter vertically to the right. In addition, for the execution after the route generation, the stepping motor and the real-time optimization correction method are adopted in the embodiment to perform accurate navigation.

In addition, for this embodiment, it should be mentioned that the floor layer 6 is provided with a 1.5 × 1.5 removal opening 610; the disassembly port 610 is provided with a fixed traction point; the area specification of the push type sheet floor heating is 1.3 x 1.3; consequently dismantle the fixed pull point that mouthful 610 set up through floor layer 6 to and both ends difference fixed connection warms up in the impulse type piece formula and the automation of fixed pull point receive and releases the pull wire, can with the impulse type piece formula is warmed up and is freely taken out from basic layer 8, and very big convenient later maintenance reduces cost of maintenance.

Example two

Referring to fig. 1 to 4, fig. 1 is a schematic view of a working flow of a building device based on a push-type energy-saving floor heating system according to an embodiment of the present invention; FIG. 2 is a schematic view of the installation of the floor layer, the insulation layer, the foundation layer, and the insulation layer according to the present embodiment; FIG. 3 is a top view of a base layer; fig. 4 is a three-dimensional schematic diagram of the whole device.

Specifically, with reference to the content of the first embodiment, in the second embodiment of the present invention, basically the same as the content of the first embodiment is performed, except that the push type plate-type floor heating device is provided with a temperature controller 826 respectively connected to the CPU processor 1 and the electric heating pipe 822; the temperature controller 826 is used for controlling the electric heating pipe 822 to be in three different power operation modes of high power, medium power and low power respectively; the CPU 1 is further configured to determine a type of a human body in the image, and output a switching signal of different operation modes to the temperature controller 826 when determining different types of clothes.

The essence of the equipment is that compared with the first embodiment, the equipment is additionally provided with the function of selecting different gears according to different types of clothes worn by a user, so that the equipment is more intelligent and humanized, the comfort of the user is improved, and the power supply is further saved.

EXAMPLE III

Referring to fig. 1 to 4, fig. 1 is a schematic view of a working flow of a building device based on a push-type energy-saving floor heating system according to an embodiment of the present invention; FIG. 2 is a schematic view of the installation of the floor layer, the insulation layer, the foundation layer, and the insulation layer according to the present embodiment; FIG. 3 is a top view of a base layer; fig. 4 is a three-dimensional schematic diagram of the whole device.

Specifically, with reference to the contents of the first embodiment and the second embodiment, in the third embodiment of the present invention, the same as the contents of the above embodiments are basically performed, except that the construction equipment further includes a human body sensor 10 disposed at an entrance of a room, and when the human body sensor senses that a human body enters, the infrared distance sensor 5 and the scanning camera 4 move the switches to trigger, so as to move on the slide rail 2.

The essence is that in the present embodiment, by arranging the human body sensor 10 at the entrance of the room, when no person enters the room, the infrared distance sensor 5 and the scanning camera 4 do not move, and are not in a working state; when the human body is sensed to enter, the human body starts to move and enters a working state. By the technical scheme, unnecessary power waste is further saved for the equipment.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a building equipment based on energy-conserving ground of propulsion formula warms up which characterized in that, equipment includes: the system comprises a CPU processor, a slide rail arranged on any side wall in the length direction in a heating room, a scanning camera and an infrared distance sensor which are connected to the slide rail through a sliding part, and a floor layer, a heat insulation layer, a base layer and a heat insulation layer which are sequentially stacked and constructed on the ground from top to bottom;

the infrared distance sensor and the scanning camera are integrally installed, and the working directions of the infrared distance sensor and the scanning camera are consistent;

the floor layer is provided with a disassembly opening; the disassembly port is provided with a fixed traction point;

the base layer includes: the support frame is used for supporting the plurality of push type sheet floor heating devices; wherein the peripheral outer wall of the supporting frame is attached to the wall; the push type sheet floor heating system is composed of a floor heating frame, an electric heating pipe arranged on the floor heating frame, a driving wheel system, a signal receiver and an automatic winding and unwinding pull wire; one end of the automatic retractable traction wire is fixedly connected to the fixed traction point, and the other end of the automatic retractable traction wire is fixedly connected to the push type sheet floor heating;

in the device, the infrared distance sensor is used for calculating the linear distance from the infrared signal to the infrared distance sensor when detecting the infrared signal, and transmitting the current position distance of the infrared distance sensor and the measured infrared signal distance to the CPU; the scanning camera is used for shooting images after the infrared distance sensor senses the infrared signals and sending the shot images to the CPU; the CPU is used for receiving the information, calculating the position of the human body according to the distance information sent by the infrared distance sensor, and identifying the number of the human body according to the image sent by the scanning camera; the CPU is further used for judging whether the number of the human bodies exceeds a preset threshold value or not according to the calculated number of the human bodies, if the number of the human bodies does not exceed the first preset threshold value, sending human body position information to a push type sheet floor heating closest to the position of the human body according to the calculated position of the human body, and generating a route to move to the position by the driving wheel system of the push type sheet floor heating according to the received human body position information; similarly, if the distance exceeds the first preset threshold, the CPU sends the position information of the human body to the two push-type sheet floor heaters closest to the position of the human body; and if the distance exceeds the second preset threshold value, the CPU sends the human body position information to the three-push type sheet floor heating closest to the position of the human body.

2. The building equipment based on energy-conserving ground heating of propulsion according to claim 1, characterized in that: the push type sheet type floor heating device is provided with a temperature controller which is respectively connected with the CPU processor and the electric heating pipe; the temperature controller is used for controlling the electric heating tube to be in high, medium and low running modes with different powers respectively.

3. The building equipment based on energy-conserving ground heating of propulsion according to claim 2, characterized in that: the CPU is also used for judging the clothes type of the human body in the image and outputting switching signals of different operation modes to the temperature controller when judging different clothes types.

4. The building equipment based on energy-conserving ground heating of propulsion according to claim 1, characterized in that: the propelling type piece type floor heating device is characterized in that a fixed traction point is arranged on the propelling type piece type floor heating device through a floor layer dismounting port, and automatic retractable traction lines are fixedly connected to the propelling type piece type floor heating device and the fixed traction point at two ends respectively and can be taken out or put into the propelling type piece type floor heating device freely.

5. The building equipment based on energy-conserving ground heating of propulsion according to claim 1, characterized in that: the construction equipment further comprises a human body sensor arranged at the entrance of the room, and when the human body sensor senses that a human body enters, the infrared distance sensor and the scanning camera moving switch are triggered to move on the sliding rail.

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