1. A new kind of horizontal heating installation, decompose the old-fashioned radiator originally, isolate the hot water pipeline in the radiator, make it decompose into two parts of cooling tube and heat dissipating double-fuselage; horizontally placing the heat dissipation device on the ground without hanging or placing the heat dissipation device on a wall; the heat dissipation device consists of a concave support frame, a convex support frame, a support frame reinforcing pressing bar, a horizontal adjusting device, a heat dissipation pipe bracket and a heat dissipation cover plate; the heat radiator is rectangular and formed by splicing the mortise-tenon joints of the concave support frame and the convex support frame, the horizontal adjusting devices are arranged on the concave support frame and the convex support frame and are outwards expanded by the concave expansion groove and the convex expansion groove, the heat radiating pipes are communicated through the heat radiating pipe guide grooves on the concave support frame and the convex support frame, and the form of respectively installing the heat radiating pipes and the heat radiator is formed.

2. The novel horizontal heating device as claimed in claim 1, wherein: this heating device divide into cooling tube and heat abstractor two parts, and this heat abstractor is the rectangle structure, and the level is placed, and it can be formed by the mortise-tenon joint head concatenation of concave type support frame and protruding type support frame, and the mortise-tenon structure has improved heat abstractor's concatenation precision and intensity, has strengthened its use reliability and stability.

3. A novel horizontal heating device as claimed in claims 1 and 2, which is characterized in that: the horizontal adjusting devices are arranged on the concave support frame and the convex support frame of the heat dissipation device, and after the heat dissipation device is placed on the ground, the horizontal adjusting devices are used for carrying out vertical horizontal adjustment on the heat dissipation device, so that the installation flatness of the heat dissipation device is guaranteed.

4. A novel horizontal heating device as claimed in claims 1, 2 and 3, which is characterized in that: the concave support frame and the convex support frame of the heat radiating device are both provided with radiating tube guiding grooves, and radiating tubes are communicated with each other through the radiating tube guiding grooves and are laid on a radiating tube bracket.

5. The novel horizontal heating device as claimed in claims 1, 2, 3 and 4, which is characterized in that: the concave support frame and the convex support frame of the heat dissipation device are not only used for splicing the framework of the heat dissipation device, but also extend outwards to expand the heat dissipation device by utilizing the concave expansion groove of the concave support frame and the convex expansion groove of the convex support frame, and the outward expansion firmness of the heat dissipation device is enhanced by the expansion grooves, and the laying area of the horizontal heating device can also be controlled by the expansion grooves.

6. A novel horizontal heating device as claimed in claims 1, 2, 3, 4 and 5, which is characterized in that: the heat dissipation device is horizontal, the laid heat dissipation cover plate is also horizontal, the heat dissipation pipe is firstly installed, then the heat dissipation cover plate is laid, and the heat of the heat dissipation pipe is upwards dissipated through the heat dissipation holes and the heat dissipation grooves in the heat dissipation cover plate or is conducted to other media laid on the heat dissipation cover plate through heat conduction of the heat dissipation cover plate.

Background

At present, people know household heating systems, and besides air conditioners and other electric heaters, the household heating systems are in a plurality of common modes of heating by radiators and heating by floor heating pipelines; the heating of the heating plate is mainly to lay a heat supply pipeline, install the heating plate and hang the heating plate on the wall for heat radiation; the floor heating is that a heating pipeline and an electric heating net are laid on the ground, then concrete is covered for leveling, and electric heating and water heating are used in a mixed mode and are sometimes used independently. The air conditioner and the electric heater are used for heating, so that the defects of large electric energy consumption, indoor space occupation and uneven heat dissipation exist; the greatest disadvantage of the heating radiator is that the heating radiator occupies indoor space; the biggest defects of floor heating are low heating speed, complex construction and long construction period. The novel horizontal heating device can overcome the defects of the heating system and achieve the purposes of quick installation, space saving, quick temperature rise, uniform heat dissipation, energy saving and environmental protection.

Disclosure of Invention

In order to overcome the defects of other heating modes such as the prior heating radiator, floor heating and the like, the invention provides a novel horizontal heating device which consists of a radiating pipe and a radiating device; the heat dissipation device is not hung or placed on a wall, is horizontally placed on the ground and does not have a water storage bin and water inlet and outlet connectors; the heat radiator consists of concave and convex support frames, support frame reinforcing pressing strips, a horizontal adjusting device, a heat radiating pipe bracket and a heat radiating cover plate. The concave and convex support frames are provided with a radiating tube guiding groove, a horizontal adjusting device bolt adjusting hole, a mortise-tenon joint, a concave and convex expansion groove, a radiating cover plate fixing hole, a support frame expansion connecting hole and a support frame reinforcing pressing strip mounting groove. The radiating pipe communicates with each other through the radiating pipe guiding groove on concave, protruding type support frame, and the radiating pipe is laid from beginning to end and is accomplished the back, and the support frame is adorned and is strengthened the layering, lays the heat dissipation apron, and the heat of radiating pipe distributes to the air evenly through the louvre and the radiating groove on the heat dissipation apron in, forms a whole horizontal heating device's heating system. The horizontal heating device is rapid in temperature rise, simple in construction and free of occupying indoor space, and overcomes the defects that an old type heating radiator occupies indoor space and an old type floor heating device is slow in temperature rise.

The technical scheme adopted by the invention is as follows; the original old radiator is decomposed, and the water path in the radiator is separated to form a radiating pipe and a radiating device; the radiating pipe and the radiating device are respectively installed, so that the heating device can be horizontally placed on the ground to form a horizontal heating device. The heat radiator consists of concave and convex support frames, reinforced support frame pressing strips, a horizontal regulator, a heat radiating pipe bracket and a heat radiating cover plate. And the concave and convex support frames are provided with a radiating tube guiding groove, a horizontal adjusting device bolt adjusting hole, a mortise and tenon joint, a concave and convex expansion groove, a radiating cover plate fixing hole, a support frame expansion connecting hole and a support frame reinforcing pressing strip mounting groove. The heat dissipation device adopts an assembled rectangular structure and can also adopt a non-assembled rectangular structure, the non-assembled rectangular structure increases the manufacturing cost of the heat dissipation device, and the assembled rectangular structure has simple manufacturing process and low cost; the assembled rectangular structure is spliced in a frame mortise-tenon joint head form of the concave and convex supports, and the mortise-tenon joint can improve the splicing precision and strength of the concave and convex support frames; the concave support frame is provided with a concave expansion groove, the convex support frame is provided with a convex expansion groove, and the concave expansion grooves and the convex expansion grooves of the concave support frame and the convex support frame are used for outward expansion of the heat dissipation device; the support frame reinforcing pressing bar is used for further enhancing the stability and reliability of the heat dissipation device; the horizontal adjusting device consists of an opening adjusting bolt, a locking nut and a footing adjusting special-shaped nut; the heat dissipation cover plate is used for adjusting the level of the heat dissipation device and bearing the weight of other objects conducted on the heat dissipation cover plate; the radiating pipe bracket is composed of a square bottom bracket and a door-shaped fixing clip; the radiating cover plate is provided with radiating holes and radiating grooves; during installation of the horizontal heating device, the rectangular framework of the heat dissipation device is assembled, the heat dissipation pipe is installed, and the heat dissipation cover plate is installed at last; the heat of the radiating pipe is uniformly radiated to the air through the radiating holes and the radiating grooves on the radiating cover plate to form a heating system of the integral horizontal heating device.

One of the main technical characteristics provided by the invention is that a hot water pipeline in an old radiator is separated, so that the radiator is decomposed into a radiating pipe and a radiating device; the heat radiator is not hung on the wall, and the heat radiator is horizontally placed on the ground to form a horizontal heating device. The horizontal heating device simplifies the structure of the original heating radiator, reduces the difficulty in manufacturing, mounting and construction, has the effect of uniform ground heating radiation, and overcomes the defect of indoor space occupied by the old heating radiator.

The second characteristic is that the rectangular framework of the heat sink is formed by connecting and assembling the mortise-tenon joints of the concave support frame and the convex support frame, the mortise-tenon structure improves the splicing precision and strength of the heat sink, and improves the use safety and stability of the horizontal heating device.

The heat dissipation device is characterized in that horizontal adjusting devices are arranged on the concave support frame and the convex support frame of the heat dissipation device, and after the heat dissipation device is assembled and placed on the ground, the horizontal adjusting devices are used for carrying out vertical horizontal adjustment, so that the flatness of the heat dissipation device is ensured, a method for leveling the ground by using concrete during the installation of an old-fashioned floor heating is avoided, and the heat dissipation cover plate can be laid easily in the later period.

The fourth characteristic is that the heat dissipating device is provided with a heat dissipating pipe guiding groove on the concave supporting frame and the convex supporting frame, the heat dissipating pipes are communicated with each other through the heat dissipating pipe guiding groove from head to tail, the heat dissipating device has no water pipe joint, and the heat dissipating pipes are laid independently.

The heat radiator includes a concave support frame, a convex support frame, a concave expansion groove, a convex expansion groove, a concave expansion groove and a convex expansion groove.

The heat dissipation device is characterized in that the assembled heat dissipation device is horizontal, the laid heat dissipation cover plate is horizontal, and the heat of the heat dissipation pipe is dissipated upwards to the air or is conducted to other media laid on the heat dissipation cover plate through the heat dissipation holes and the heat dissipation grooves in the heat dissipation cover plate.

The main working principle of the invention is to separate the water path in the old radiator, so that the radiator does not contain a water storage bin and a hot water pipeline, and is decomposed into two parts of a radiating pipe and a radiating device, and meanwhile, the assembling structure and the mounting form of the radiator are changed, and the radiating device can be horizontally placed on the ground; the radiating tubes of the horizontal type heating device are communicated with each other through the radiating tube guiding grooves of the concave supporting frame and the convex supporting frame, are placed on the radiating tube bracket, are locked by the door-shaped fixing clamp, and are provided with the radiating cover plate, so that the whole horizontal type heating device is formed. The horizontal heating device has the characteristics of large heat dissipation area, no occupation of indoor space and rapid temperature rise.

The horizontal heating device has the advantages that the defect that the old radiator is hung on the wall to occupy indoor space is overcome, and the defects that the ground is leveled by concrete during old floor heating construction, the heating speed is low and the heating time is long are overcome; the radiator has the advantages of fast heat dissipation of the old radiator and uniform heat dissipation of the old floor heating. The horizontal heating device breaks through the design and installation method of the traditional heating radiator, and achieves the purposes of high installation speed, indoor space saving, rapid temperature rise, uniform heat dissipation, energy conservation and environmental protection.

Drawings

Fig. 1 is a schematic structural diagram of a novel horizontal heating device provided by the invention.

Fig. 2 is a schematic diagram of the tenon-and-mortise structure splicing of the novel horizontal heating device provided by the invention.

Fig. 3 is a schematic sectional view of the structure of the concave and convex expansion slots of the novel horizontal heating device provided by the invention.

Fig. 4 is a schematic diagram of the splicing and expansion of the concave and convex support frames of the novel horizontal heating device provided by the invention.

Fig. 5 is a schematic cross-sectional view of a horizontal adjusting device for the concave and convex supporting frames of the horizontal heating device of the present invention.

Fig. 6 is a schematic view of a heat pipe bracket structure of a novel horizontal heating device according to the present invention.

Fig. 7 is a schematic view of a heat dissipation cover plate of a novel horizontal heating device provided by the invention.

The specific implementation mode of the invention is as follows: the tenon-and-mortise joints of the concave and convex support frames are butted, the tenons are aligned after being inserted into the mortise, and a rectangular structure is spliced, so that the splicing firmness and accuracy are enhanced by adopting the tenon-and-mortise connection; horizontally placing the rectangular framework of the spliced heat dissipation device on the ground, installing the horizontal adjusting device and the square bottom bracket of the heat dissipation pipe bracket, rotating an opening adjusting bolt of the horizontal adjusting device to adjust if the ground is uneven, and fixing a locking nut after adjusting the horizontal state to prevent the later concave and convex support frames from loosening; the bottom of the horizontal adjusting device is provided with a special-shaped adjusting nut, and the special-shaped adjusting nut can be used for finely adjusting the levels of a concave support frame and a convex support frame of the heat radiating device before the heat radiating cover plate is laid, so that the flatness of the whole heating heat radiating device is ensured, and the influence on the installation of other equipment in the later period is avoided; when the concave support frame and the convex support frame are spliced, the number of the spliced heat dissipation devices can be determined according to the indoor area; the heat dissipation device extends and expands outwards through the concave expansion grooves and the convex expansion grooves of the concave support frame and the convex support frame, and is fixed by bolts penetrating through the support frame expansion connecting holes on the concave support frame and the convex support frame; when laying the cooling tube, the cooling tube passes the mutual intercommunication of cooling tube guiding groove on concave type support frame and the protruding type support frame, through the square bottom bracket of cooling tube bracket, locks with door type fixing clip, prevents the cluster when the cooling tube is installed, erects the completion back, and the level is finely tuned to reuse bottom adjustment abnormal shape nut, and the adjustment is ended, and the layering is strengthened to the erection bracing frame, fixes the heat dissipation apron again at last, forms complete horizontal heating installation.

The invention is further illustrated below with reference to the figures and examples.

In fig. 1, an embodiment of the present invention is represented as: 1, a concave support frame; 2, a convex support frame; 3 supporting frame reinforcing layering; 4 horizontal adjusting device; 5, radiating pipes; 6 a radiator pipe bracket; 7, a heat dissipation cover plate; 8, a radiating pipe guiding groove; 9 adjusting holes of bolts of the horizontal adjusting device; 10 tenon; 11, mortise drilling; 12 concave expansion slots; 13 a convex expansion slot; 14 heat dissipation cover plate fixing holes; 15 supporting frame expanding connection hole; 16 opening adjusting bolts; 17 a lock nut; adjusting the special-shaped nut by 18 feet; 19 a lattice-type bottom bracket; a 20-door type fixing clip; 21 heat dissipation holes; 22 heat dissipation grooves and 23 support frame reinforcing pressing bar installation grooves.

In the embodiment shown in fig. 2, the structure of the heat dissipation device is formed by inserting 10 tenons of the 1 concave support frame and the 2 convex support frame into 11 mortises for butt joint, and the structures are spliced into a rectangular structure.

In the embodiment shown in fig. 3, the outward extension of the heat dissipation device is formed by connecting the 12 concave extension grooves and the 13 convex extension grooves of the 1 concave support frame and the 2 convex support frame, and the 13 convex extension grooves are embedded into the 12 concave extension grooves to form the heat dissipation device extending and extending outward.

In the embodiment shown in fig. 4, the framework of the heat dissipation device spliced by the concave support frame 1 and the convex support frame 2 is provided with 6 heat dissipation pipe brackets after being laid on the ground, 5 heat dissipation pipes are communicated through 8 heat dissipation pipe guide grooves, and are assembled by extending 12 concave expansion grooves and 13 convex expansion grooves in the left-right front-back direction, bolts penetrate 15 support frame expansion connecting holes for fixing, and the quantity of the heat dissipation devices can be determined according to the indoor space.

In the embodiment shown in fig. 5, the horizontal level of the horizontal heating device is horizontally adjusted by 4 horizontal adjusting devices on 1 concave support frame and 2 convex support frame, 16 opening adjusting bolts in bolt adjusting holes of 9 horizontal adjusting devices are screwed to adjust the level of 1 concave support frame and 2 convex support frame, and after being locked by 17 locking nuts, 18 feet can be used for adjusting the special-shaped nuts for fine adjustment to ensure the flatness of the special-shaped nuts.

In the embodiment shown in fig. 6, the 5 radiator pipes of the horizontal type heating apparatus are laid on the 6 radiator pipe bracket, the 6 radiator pipe bracket is composed of a 19-grid bottom bracket and a 20-door type fixing clip, and the 5 radiator pipes are fixed by the 20-door type fixing clip after being placed on the 19-grid bracket.

In the embodiment shown in fig. 7, the 7 heat dissipation cover plate is installed on the 1 concave support frame and the 2 convex support frame after the heat dissipation device is adjusted to be flat, and the heat dissipated by the 5 heat dissipation pipe is uniformly diffused in the air through the 21 heat dissipation holes and the 22 heat dissipation grooves of the 7 heat dissipation cover plate.