Ultrathin wall-mounted radiator
Technical Field
The utility model relates to a technical field of radiator especially relates to an ultra-thin hanging radiator.
Background
Radiators are known to be an important and essential component of hot water (or steam) heating systems. The hot water is cooled in the radiator (or steam is condensed in the radiator) to supply heat to the indoor, thereby achieving the purpose of heating. The metal consumption and the manufacturing cost of the radiator occupy a considerable proportion in the heating system, so that the correct selection of the radiator relates to the economic index and the operation effect of the system.
Current hanging radiator is single water pipe or two water pipe stands, through the pipe welding radiating fin that rises on the water pipe stand, perhaps aluminum product and the integrative extrusion of pipe, and the diameter of general water pipe stand is more than 8 centimeters, including radiating fin's thickness for whole thickness broad, occupation space leads to the practicality lower.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
Not enough to prior art, the utility model provides an ultra-thin hanging radiator, it can reduce the whole thickness of radiator greatly, reduces occupation space, improves the practicality.
(II) technical scheme
In order to achieve the above object, the utility model provides a following technical scheme: an ultrathin wall-mounted radiator comprises a radiator body; its characterized in that still includes inlet tube and outlet pipe, the inside of radiator body is provided with the cavity to the vertical connecting plate that is provided with in the cavity, the connecting plate separates the cavity into the heat dissipation chamber of front side and the convection current chamber of rear side, and the rear end of connecting plate transversely welds has multiunit heat dissipation tubulation, and the front end welding of connecting plate has multiunit radiating fin, inlet tube and outlet pipe vertically set up respectively inside the cavity to the vertical equidistance of right-hand member of inlet tube is provided with a plurality of left connectors, and the vertical equidistance of left end of outlet pipe is provided with a plurality of right connectors, and the left end of multiunit heat dissipation tubulation communicates with a plurality of left connectors respectively, and the right-hand member of multiunit heat dissipation tubulation communicates with a plurality of right connectors respectively, and the lower part output of inlet tube and outlet.
Preferably, the front end of the radiator body is provided with a heat dissipation port communicated with the heat dissipation cavity, the heat dissipation port is provided with a grating device for adjusting the heat dissipation direction, the grating device comprises a plurality of groups of grating pieces, an adjusting threaded pipe, an adjusting threaded rod and a driving rod, the plurality of groups of grating pieces are transversely arranged at the heat dissipation port at equal intervals, the left end and the right end of each group of grating pieces are rotatably connected with the left side wall and the right side wall of the heat dissipation port respectively, the rear end between every two adjacent groups of grating pieces is provided with a connecting rod, two ends of each connecting rod are hinged with the two adjacent groups of grating pieces respectively, the top end of the radiator body is provided with an installation through hole communicated with the heat dissipation cavity, a ball bearing is fixedly arranged in the installation through hole, the bottom end of the adjusting threaded pipe penetrates through the ball bearing from the top end of the radiator body to extend into the heat dissipation cavity, and the top end of the adjusting threaded rod, the bottom of adjusting threaded rod is articulated with the top of driving the pole, the bottom of driving the pole is articulated with the top a set of grid piece rear end middle part.
Preferably, the rear side wall of the convection cavity is provided with a heat insulation plate, and the top of the radiator body is provided with heat dissipation holes communicated with the convection cavity.
Preferably, the multiple groups of radiating fins are transversely arranged on the front side of the connecting plate at equal intervals.
Preferably, the sections of the multiple groups of radiating fins are all in a T-shaped structure.
Preferably, the top and the bottom of the heat dissipation tube array are welded with heat conducting fins, and one ends of the two groups of heat conducting fins, which are far away from the heat dissipation tube array, are inclined forwards and are welded and fixed with the connecting plate.
Preferably, the rear end of the radiator body is provided with a plurality of mounting plates, and the mounting plates are provided with mounting holes.
(III) advantageous effects
Compared with the prior art, the utility model provides an ultra-thin hanging radiator possesses following beneficial effect:
this ultra-thin hanging radiator passes through the inlet tube through hot water and gets into in the multiunit heat dissipation tubulation, carries out the return water through the outlet pipe after the heat transfer, and the heat transmission of heat dissipation tubulation is for connecting plate and multiunit radiating fin, disperses the heat through the thermovent through radiating fin, changes the form of original major diameter heat dissipation stand, through present minor diameter heat dissipation tubulation and connecting plate, radiating fin's form, reduces the whole thickness of radiator greatly, reduces occupation space, improves the practicality.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
fig. 2 is a schematic top view of the present invention;
fig. 3 is a schematic diagram of the right-side view structure of the present invention;
fig. 4 is a schematic view of a part of an enlarged structure at a in fig. 3 according to the present invention;
fig. 5 is a rear view structure diagram of the present invention;
in the drawings, the reference numbers: 1. a heat sink body; 2. a water inlet pipe; 3. a water outlet pipe; 4. a connecting plate; 5. a heat dissipation cavity; 6. a convection chamber; 7. a heat dissipation tube array; 8. a heat dissipating fin; 9. a grating sheet; 10. adjusting the threaded pipe; 11. adjusting the threaded rod; 12. driving the rod; 13. a connecting rod; 14. a ball bearing; 15. a thermal insulation board; 16. heat dissipation holes; 17. a heat conductive sheet; 18. and (7) installing holes.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-5, the ultra-thin wall-mounted heat sink of the present invention includes a heat sink body 1; the rear end of the radiator body 1 is provided with a plurality of mounting holes 18, the radiator body 1 can be mounted on a wall surface, the radiator also comprises a water inlet pipe 2 and a water outlet pipe 3, a cavity is arranged in the radiator body 1, a connecting plate 4 is vertically arranged in the cavity, the cavity is divided into a heat dissipation cavity 5 at the front side and a convection cavity 6 at the rear side by the connecting plate 4, a heat insulation plate 15 is arranged on the rear side wall of the convection cavity 6, heat dissipation holes 16 communicated with the convection cavity 6 are arranged at the top of the radiator body 1, the heat is prevented from being dissipated backwards by the heat insulation plate 15, the heat in the convection cavity 6 is dissipated through the heat dissipation holes 16 at two sides, the heating efficiency is improved, a plurality of groups of heat dissipation tubes 7 are transversely welded at the rear end of the connecting plate 4, heat conduction fins 17 are welded at the top and the bottom of the heat dissipation tubes 7, one ends, far away from the heat dissipation, the heat conducting fins 17 can improve the fixing effect on the heat dissipation tubes 7 on one hand and the heat transfer efficiency between the heat dissipation tubes 7 and the connecting plate 4 on the other hand, a plurality of groups of heat dissipation fins 8 are welded at the front end of the connecting plate 4, the plurality of groups of heat dissipation fins 8 are transversely arranged at the front side of the connecting plate 4 at equal intervals, the sections of the plurality of groups of heat dissipation fins 8 are all of T-shaped structures, the effective heat dissipation area is increased through the heat dissipation fins 8 of the T-shaped structures, so that the heat dissipation effect is improved, the water inlet pipe 2 and the water outlet pipe 3 are respectively and longitudinally arranged in the cavity, the right end of the water inlet pipe 2 is longitudinally and equidistantly provided with a plurality of left connectors, the left end of the water outlet pipe 3 is longitudinally and equidistantly provided with a plurality of right connectors, the left ends of the plurality of groups of heat dissipation tubes 7 are respectively communicated with, the lower output ends of the water inlet pipe 2 and the water outlet pipe 3 extend out of the cavity to the outside of the radiator body 1, the front end of the radiator body 1 is provided with a heat dissipation opening communicated with the heat dissipation cavity 5, a grid device for adjusting the heat dissipation direction is arranged at the heat dissipation opening, the grid device comprises a plurality of groups of grid sheets 9, adjusting threaded pipes 10, adjusting threaded rods 11 and driving rods 12, the plurality of groups of grid sheets 9 are transversely arranged at the heat dissipation opening at equal intervals, the left end and the right end of each group of grid sheets 9 are respectively rotatably connected with the left side wall and the right side wall of the heat dissipation opening, the rear end between every two adjacent groups of grid sheets 9 is provided with a connecting rod 13, the two ends of each connecting rod 13 are respectively hinged with the two adjacent groups of grid sheets 9, the top end of the radiator body 1 is provided with an installation through hole communicated with the heat dissipation cavity 5, and a, the bottom end of the adjusting threaded pipe 10 penetrates through a ball bearing 14 from the top end of the radiator body 1 and extends into the radiating cavity 5, the top end of the adjusting threaded rod 11 is inserted into the bottom end of the adjusting threaded pipe 10 in a threaded manner, the bottom end of the adjusting threaded rod 11 is hinged with the top end of a driving rod 12, and the bottom end of the driving rod 12 is hinged with the middle part of the rear end of the uppermost group of grid pieces 9; through rotating adjusting threaded pipe 10, through adjusting threaded pipe 10 and adjusting threaded rod 11's cooperation, make adjusting threaded rod 11's bottom reciprocate, adjusting threaded rod 11 overturns through driving a set of grid piece 9 in the top of pole 12 drive simultaneously, makes the same angle of the synchronous upset of multiunit grid piece 9 through multiunit connecting rod 13 to adjust radiating direction and thermovent's size, improve and use the reliability.
When in use, hot water can enter a plurality of groups of radiating tubes 7 through a water inlet pipe 2, water return is carried out through a water outlet pipe 3 after heat exchange, the heat of the radiating tubes 7 is transferred to a connecting plate 4 and a plurality of groups of radiating fins 8, the heat is radiated through a radiating hole through the radiating fins 8, the form of the original large-diameter radiating stand column is changed, the overall thickness of the radiator is greatly reduced through the form of the existing small-diameter radiating tubes 7, the connecting plate 4 and the radiating fins 8, the occupied space is reduced, the practicability is improved, the bottom end of an adjusting threaded rod 11 is moved up and down through the matching of the adjusting threaded tube 10 and the adjusting threaded rod 11 by rotating the adjusting threaded tube 10, so that the adjusting threaded rod 11 can drive the uppermost group of grid sheets 9 to turn over through a driving rod 12, the plurality of groups of grid sheets 9 are synchronously turned over for the same angle through a plurality of groups of connecting rods 13, the use reliability is improved, the effective heat dissipation area is increased through the T-shaped structure heat dissipation fins 8, the heat dissipation effect is improved, the heat is prevented from being dissipated backwards through the heat insulation board 15, the heat in the convection cavity 6 is dissipated through the heat dissipation holes 16 on the two sides, and the heating efficiency is improved.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.