CN114396703A - Intelligent heat supply adjusting device convenient for regulating indoor temperature - Google Patents

Abstract

The invention discloses an intelligent heat supply adjusting device convenient for regulating and controlling indoor temperature, which comprises: the outer frame body is transversely fixed in the middle of the indoor top plate in an overhead manner; the inner ring piece is coaxially embedded and fixed in the outer frame body; the mounting disc can be coaxially arranged in the inner ring piece in a relatively rotating mode; the central shaft tube is coaxially and vertically fixed in the mounting disc, and the outer frame body is provided with a driving motor for driving the central shaft tube to rotate circumferentially; the adapter tube is communicated with the upper end of the central shaft tube, and the other end of the adapter tube is connected with an external heat flow air pump; the heat supply temperature adjusting assembly is vertically fixed on the lower end face of the mounting plate, and one end of the heat supply temperature adjusting device is communicated with the central shaft tube; the inner calandria is coaxially arranged in the adapter tube in a penetrating way; and the cold flow discharging and conveying assembly is transversely fixed on the lower end surface of the mounting disc.

Description

Intelligent heat supply adjusting device convenient for regulating indoor temperature

Technical Field

The invention belongs to the technical field of intelligent temperature adjusting equipment, and particularly relates to an intelligent heat supply adjusting device capable of conveniently adjusting and controlling indoor temperature.

Background

Along with the improvement of the living standard of human beings, the requirement of human beings on the intelligent level of household appliances is gradually improved. Air conditioning systems have been in the home for many years, and with the continuous progress of technology, air conditioners have come from a single refrigeration function at the beginning to a dual-purpose function of cooling and heating at a later time. However, in the prior art, because the air conditioning system adopts the positioning design, the indoor cold and warm distribution is uneven when the indoor space of the building is large, and the intelligent temperature adjustment is realized only by changing the working state of the heat pump machine, so that the adjustment of the heat supply adjustment precision is difficult to realize.

Therefore, those skilled in the art provide an intelligent heating adjusting device that can conveniently regulate and control the indoor temperature, so as to solve the problems mentioned in the above background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a conveniently regulate and control indoor temperature's intelligent heat supply adjusting device, it includes:

the outer frame body is transversely fixed in the middle of the indoor top plate in an overhead manner;

the inner ring piece is coaxially embedded and fixed in the outer frame body;

the mounting disc can be coaxially arranged in the inner ring piece in a relatively rotating mode;

the central shaft tube is coaxially and vertically fixed in the mounting disc, the outer frame body is provided with a driving motor, and the output end of the driving motor is connected with the central shaft tube for transmission through a gear meshing effect and is used for driving the central shaft tube to rotate circumferentially;

the adapter tube is communicated with the upper end of the central shaft tube, and the other end of the adapter tube is connected with an external heat flow air pump;

the heat supply temperature adjusting assembly is vertically fixed on the lower end face of the mounting plate, and one end of the heat supply temperature adjusting device is communicated with the central shaft tube;

the inner calandria is coaxially arranged in the adapter tube in a penetrating way; and

and the cold flow discharging and conveying assembly is transversely fixed on the lower end surface of the mounting disc and communicated with the inner discharge pipe, and is used for discharging indoor cold flow outwards to realize indoor cold and hot alternation.

Further, preferably, the heating temperature adjusting unit includes:

an outer shaft tube;

the upper heat supply pipe is transversely connected to the upper end of the outer shaft pipe and communicated with the central shaft pipe;

the sealing guide seat is coaxially embedded and fixed in the outer shaft pipe, and an inner heat transfer pipe is connected below the sealing guide seat;

the inner ring bin is transversely fixed on one side of the outer shaft tube and is positioned below the sealing guide seat;

the discharging fan blades can be arranged in the inner ring bin in a relatively rotating mode;

the guide and delivery seat is fixed on the inner heat transfer pipe, the cross section of one side of the guide and delivery seat is in an arc structure, and a through cavity is formed in the guide and delivery seat;

the outer preheating pipes are arranged in a plurality, are communicated with the upper heating pipe, and are connected with the inner heat transfer pipe at the other ends for preheating the inner heat transfer pipe;

the outer discharge cavity is connected below the outer shaft tube and used for vertically discharging hot air; and

and the flow control allocation assembly is vertically arranged between the outer shaft tube and the outer discharge cavity.

Further, preferably, the inner heat transfer pipe is configured into an inner and outer double-layer pipe body structure, a drainage groove gap is arranged between the inner layer pipe and the outer layer pipe, a plurality of confluence bins are arranged in the inner heat transfer pipe in an array manner, a guide piece is arranged on the inner heat transfer pipe, one end of the guide piece is communicated with one of the confluence bins, and the other end of the guide piece is connected with the outer preheating pipe;

still the laminating is provided with thermal-insulated membrane in the interior heat transfer pipe, thermal-insulated membrane all is equipped with preheating groove in each storehouse department of converging.

Further, preferably, the flow control allocation assembly includes:

an outer mounting tube;

the inner shaft seat is coaxially arranged in the outer mounting pipe;

the strut members are arranged in a circumferential array, and all the strut members can be arranged in the inner shaft seat in a relatively sliding manner;

the rotating ring seat is coaxially arranged on the inner shaft seat in a relatively rotating way, and a plurality of inclined sliding grooves corresponding to the support column pieces are formed in the rotating ring seat;

the inner limiting pieces are fixed on the strut members and are arranged in the inclined groove in a sliding limiting manner;

the elastic inner film is circumferentially sleeved on the strut member; and

and the inner flow pipe is coaxially connected to each support column in a penetrating manner, and one end of the inner flow pipe is connected with the cold flow discharging assembly.

Further, preferably, the method further comprises:

the turbulence pages are arranged on the circumference, and are arranged between the adjacent strut members at intervals.

Further, preferably, the cold flow discharging assembly includes:

circularly conveying the materials to a bin;

the center of the inner flow seat is fixed on the lower end surface of the annular conveying bin;

the rotary page piece can be arranged in the inner flow seat in a relatively rotating way;

the flow aiding part is embedded in the annular conveying bin in a relatively rotating way, and an inner fixing pipe is transversely communicated with the flow aiding part;

the transfer shaft tubes are vertically arranged, and are vertically communicated with the inner fixed tube; and

and the outer jet flow pipe is obliquely communicated with the lower end of each transfer shaft pipe.

Further, preferably, the cross section of the inner fixed tube is of a vortex tube bank structure.

Further, preferably, each of the outer jet pipes and the inner fixed pipe are arranged at a 30 ° tangential angle.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, an outer frame body is arranged on an indoor top plate, an installation disc is rotatably arranged in the outer frame body through an inner ring piece, a heat supply temperature adjusting assembly and a cold flow discharging and conveying assembly are respectively arranged on the lower end surface of the installation disc, the heat supply temperature adjusting assembly can vertically and vertically discharge hot air conveyed in a switching pipe, and the corresponding cold flow discharging and conveying assembly can discharge indoor cold flow outwards to realize indoor cold and hot alternation, so that the effect of uniformly supplying heat indoors is achieved, and the phenomenon of nonuniform cold and hot distribution is avoided; wherein, it carries out the transmission of hot-fluid air to be equipped with interior heat-transfer pipe in the heat supply temperature regulating subassembly, and one side intercommunication of interior heat-transfer pipe has outer preheating tube, outer preheating tube can be used for the body heating of interior heat-transfer pipe with the small part hot-fluid air of carrying in last heat-transfer pipe, thereby avoid interior heat-transfer pipe in the thermal current of initial stage heat conduction scattered, still be provided with accuse flow allotment subassembly simultaneously, accuse flow allotment subassembly can carry out velocity of flow adjustment and converge with the indoor cold flow in the cold flow delivery subassembly to transmission hot-fluid air, thereby realize the accurate adjustment to the heat supply temperature regulation.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of a heating and temperature regulating assembly according to the present invention;

FIG. 3 is a schematic view showing the construction of an inner heat transfer pipe according to the present invention;

FIG. 4 is a schematic structural diagram of a flow control scheduling assembly according to the present invention;

FIG. 5 is a schematic view of the cold flow discharge assembly of the present invention;

FIG. 6 is a schematic structural view of an inner fixing tube according to the present invention;

in the figure: the heat supply and temperature regulation device comprises an outer frame body 1, an 11 inner ring piece, a 2 mounting disc, a 3 center shaft tube, a 4 adapter tube, a 5 heat supply and temperature regulation component, a 51 outer shaft tube, a 52 upper heat supply tube, a 53 sealing guide seat, a 54 inner ring bin, 55 discharge fan blades, a 56 guide seat, a 57 outer preheating tube, a 58 outer discharge cavity, a 6 cold flow discharge component, a 61 ring feed bin, a 62 inner flow seat, a 63 rotating blade component, a 64 flow aid component, a 65 inner fixing tube, a 66 outer jet tube, a 7 inner discharge tube, 8 inner heat transfer tube, 81 discharge slot gaps, 82 confluence bin, 83 guide component, 84 heat insulation film, 9 flow control and distribution component, 91 outer mounting tube, 92 inner shaft seat, 93 column component, 94 rotating ring seat, 95 elastic inner film, 96 inner flow tube and 97 turbulent flow blade.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, an intelligent heating adjusting device for conveniently adjusting and controlling an indoor temperature includes:

the outer frame body 1 is transversely fixed in the middle of an indoor top plate in an overhead manner;

the inner ring piece 11 is coaxially embedded and fixed in the outer frame body 1;

the mounting disc 2 is coaxially arranged in the inner ring piece 11 in a relatively rotatable manner;

the central shaft tube 3 is coaxially and vertically fixed in the mounting disc 2, the outer frame body 1 is provided with a driving motor 31, and the output end of the driving motor 31 is connected with the central shaft tube 3 for transmission through a gear meshing effect and is used for driving the central shaft tube 3 to rotate circumferentially;

the adapter tube 4 is communicated with the upper end of the central shaft tube 3, and the other end of the adapter tube 4 is connected with an external heat air pump (not shown in the figure);

the heat supply and temperature regulation assembly 5 is vertically fixed on the lower end face of the mounting disc 2, and one end of the heat supply and temperature regulation device 5 is communicated with the central shaft tube 3;

the inner discharge pipe 7 is coaxially arranged in the adapter pipe 4 in a penetrating way; and

cold flow delivery assembly 6, transversely fix the lower terminal surface of mounting disc 2, cold flow delivery assembly 6 with interior calandria 7 is linked together for discharge indoor cold flow in order to realize indoor cold and hot alternation externally, wherein carry out the circumference rotation through driving motor drive mounting disc, the heat supply subassembly that adjusts the temperature this moment can carry out hot flow delivery and cold flow discharge with cold flow delivery assembly in step, thereby guarantee that indoor heat supply adjusts even effect, it is low for the position that the heat extraction end of heat supply subassembly should be in cold flow delivery assembly's space, so that the hot flow air can be to last delivery with indoor cold flow in the suspension rises.

In this embodiment, the heating temperature adjustment assembly 5 includes:

an outer shaft tube 51;

an upper heat supply pipe 52 transversely connected to the upper end of the outer shaft pipe 51, the upper heat supply pipe 52 being communicated with the central shaft pipe 3;

the sealing guide seat 53 is coaxially embedded and fixed in the outer shaft tube 51, and an inner heat transfer tube 8 is connected below the sealing guide seat 53;

an inner ring bin 54 transversely fixed at one side of the outer shaft tube 51 and positioned below the sealing guide seat 53;

the discharging fan blades 55 are arranged in the inner ring bin 54 in a relatively rotating manner;

the guide and feed base 56 is fixed on the inner heat transfer pipe 8, the cross section of one side of the guide and feed base 56 is in an arc structure, and a through cavity is arranged in the guide and feed base 56;

a plurality of outer preheating pipes 57 arranged in a row, each of the outer preheating pipes 57 being communicated with the upper heating pipe 52, and the other end of each of the outer preheating pipes 57 being connected to the inner heat transfer pipe 8 for preheating the inner heat transfer pipe 8;

the outer discharge cavity 58 is connected below the outer shaft tube 51 and used for vertically discharging hot air; and

the flow control allocation component 9 is vertically arranged between the outer shaft tube 51 and the outer discharge cavity 58, particularly at the initial stage of heat supply, the outer preheating tube can convey the hot air in the upper heat supply tube to the inner heat transfer tube preferentially at this moment, so that the inner heat transfer tube can be higher than the ambient temperature (slightly lower than the heat supply temperature), then the inner heat transfer tube vertically and vertically discharges the hot air, and the temperature is accurately adjusted through the flow control allocation component, so that the finally discharged hot air can reach the specified temperature standard.

In a preferred embodiment, the inner heat transfer pipe 8 is configured as an inner and outer double-layer pipe body structure, a drainage groove gap 81 is arranged between the inner layer pipe and the outer layer pipe, a plurality of confluence bins 82 are arranged in the inner heat transfer pipe 8 in an array, a guiding member 83 is arranged on the inner heat transfer pipe, one end of the guiding member 83 is communicated with one confluence bin 82, and the other end of the guiding member 83 is connected with the outer preheating pipe 57;

and a heat insulation film 84 is also attached to the inner heat transfer pipe 8, and preheating grooves are formed in the positions, located at the confluence bins 82, of the heat insulation films 84, so that efficient preheating treatment on the inner heat transfer pipe is realized.

In this embodiment, the flow control allocating assembly 9 includes:

an outer mounting tube 91;

an inner shaft seat 92 coaxially arranged in the outer mounting pipe 91;

a plurality of strut members 93 arranged in a circumferential array, wherein each strut member 93 is arranged in the inner shaft seat 92 in a relatively sliding manner;

the rotating ring seat 94 is coaxially arranged on the inner shaft seat 925 in a relatively rotating manner, and a plurality of inclined sliding grooves corresponding to the support posts 93 are formed in the rotating ring seat 94;

the inner limiting pieces are fixed on the strut members 93 and are arranged in the inclined grooves in a sliding limiting manner;

the elastic inner film 95 is circumferentially sleeved on the strut member 93 by a strut; and

interior flow tube 96, coaxial cross-under each on the pillar spare 93, interior flow tube 96 one end with cold flow discharge assembly 6 is connected, wherein, makes the elasticity inner membrance be outer expanding frame or the state of contracting in through each pillar spare synchronous displacement effect, and the hot air can be adjusted along with the change of discharge clearance this moment, combines together corresponding indoor cold flow and hot air through interior flow tube to adjust hot air exhaust temperature, so that it reaches heat supply discharge standard.

In this embodiment, the method further includes:

the turbulence vanes 97 are circumferentially arranged, and each turbulence vane 97 is arranged between adjacent strut members 93 at intervals.

In this embodiment, the cold flow discharging assembly 6 includes:

a ring transfer bin 61;

an inner flow base 62 fixed at the center to the lower end surface of the annular delivery chamber 61;

a rotary blade 63 relatively rotatably provided in the inner flow seat 62; the rotary blade can absorb and discharge indoor cold flow under the rotation action;

the flow aid 64 is embedded in the annular conveying bin 61 in a relatively rotatable manner, and an inner fixing pipe 65 is transversely communicated with the flow aid 64;

a plurality of transfer shaft tubes are vertically arranged, and each transfer shaft tube is vertically communicated with the inner fixing tube 65; and

and the outer jet pipes 66 are obliquely communicated with the lower ends of the transfer shaft pipes, wherein the plurality of outer jet pipes can assist in gathering indoor cold flow and concentrate the indoor cold flow below the inner flow seat.

In a preferred embodiment, the cross section of the inner fixed tube 65 is a vortex tube array structure, so that a plurality of outer jet tubes which are correspondingly distributed and arranged can cooperate with each other to form a vortex convergence state for indoor cold flow.

In this embodiment, each of the outer jet pipes 66 and the inner fixing pipe 65 are arranged at a 30 ° tangential angle.

Specifically, in indoor intelligent heat supply is adjusted, it is rotatory through driving motor drive mounting disc circumference, the heat supply temperature regulating assembly can be with the hot air of intraductal transport of switching to supreme heat supply intraductally this moment, carry its part to interior heat-transfer pipe by outer preheating tube, so that preheat at the internal heat-transfer pipe initial stage, make body can be slightly less than hot air temperature in it, at this moment, accuse flow allotment subassembly can carry out the velocity of flow adjustment with the transmission hot air and converge with the indoor cold flow in the cold flow delivery subassembly, and through the vertical perpendicular delivery of outer row of chamber with hot air, and cold flow delivery subassembly can be in step arrange indoor cold flow outward, thereby realize indoor cold and hot alternation, and guarantee even heat supply.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent substitutions or changes according to the technical solution and the inventive concept of the present invention should be covered by the scope of the present invention.

Claims (8)

1. The utility model provides a conveniently regulate and control indoor temperature's intelligent heat supply adjusting device which characterized in that: it includes:

the outer frame body (1) is transversely fixed in the middle of the indoor top plate in an overhead manner;

the inner ring piece (11) is coaxially embedded and fixed in the outer frame body (1);

the mounting disc (2) is coaxially arranged in the inner ring piece (11) in a relatively rotatable manner;

the central shaft tube (3) is coaxially and vertically fixed in the mounting disc (2), a driving motor (31) is arranged on the outer frame body (1), and the output end of the driving motor (31) is connected with the central shaft tube (3) for transmission through a gear meshing effect and is used for driving the central shaft tube (3) to rotate circumferentially;

the adapter tube (4) is communicated with the upper end of the central shaft tube (3), and the other end of the adapter tube (4) is connected with an external heat flow air pump;

the heat supply temperature adjusting assembly (5) is vertically fixed on the lower end face of the mounting disc (2), and one end of the heat supply temperature adjusting device (5) is communicated with the central shaft tube (3);

the inner exhaust pipe (7) is coaxially arranged in the adapter pipe (4) in a penetrating way; and

and the cold flow discharging and conveying assembly (6) is transversely fixed on the lower end surface of the mounting disc (2), and the cold flow discharging and conveying assembly (6) is communicated with the inner discharge pipe (7) and used for discharging indoor cold flow outwards to realize cold and hot alternation in a room.

2. An intelligent heating regulating device convenient for regulating indoor temperature as claimed in claim 1, wherein: the heating and temperature regulating assembly (5) comprises:

an outer shaft tube (51);

the upper heat supply pipe (52) is transversely connected to the upper end of the outer shaft pipe (51), and the upper heat supply pipe (52) is communicated with the central shaft pipe (3);

the sealing guide seat (53) is coaxially embedded and fixed in the outer shaft tube (51), and an inner heat transfer tube (8) is connected below the sealing guide seat (53);

the inner ring bin (54) is transversely fixed on one side of the outer shaft tube (51) and is positioned below the sealing guide seat (53);

the discharging fan blades (55) are arranged in the inner ring bin (54) in a relatively rotating manner;

the guide and feed seat (56) is fixed on the inner heat transfer pipe (8), the cross section of one side of the guide and feed seat (56) is in an arc structure, and a through cavity is arranged in the guide and feed seat (56);

the outer preheating pipes (57) are arranged in a plurality, each outer preheating pipe (57) is communicated with the upper heating pipe (52), and the other end of each outer preheating pipe (57) is connected with the inner heat transfer pipe (8) and used for preheating the inner heat transfer pipe (8);

the outer discharge cavity (58) is connected below the outer shaft tube (51) and is used for vertically discharging hot air; and

and the flow control and allocation assembly (9) is vertically arranged between the outer shaft tube (51) and the outer discharge cavity (58).

3. An intelligent heating regulating device convenient for regulating indoor temperature as claimed in claim 2, wherein: the inner heat transfer pipe (8) is constructed into an inner-outer double-layer pipe body structure, a drainage groove gap (81) is arranged between the inner-layer pipe and the outer-layer pipe, a plurality of confluence bins (82) are arranged in the inner heat transfer pipe (8) in an array mode, a guide piece (83) is arranged on the inner heat transfer pipe, one end of the guide piece (83) is communicated with one confluence bin (82), and the other end of the guide piece (83) is connected with the outer preheating pipe (57);

and a heat insulation film (84) is also attached to the inner heat transfer pipe (8), and preheating grooves are formed in the positions, located on the confluence bins (82), of the heat insulation film (84).

4. An intelligent heating regulating device convenient for regulating indoor temperature as claimed in claim 2, wherein: the flow control and allocation assembly (9) comprises:

an outer mounting tube (91);

an inner shaft seat (92) coaxially arranged in the outer mounting pipe (91);

the supporting column pieces (93) are arranged in a circumferential array, and each supporting column piece (93) can be arranged in the inner shaft seat (92) in a relatively sliding mode;

the rotating ring seat (94) can be coaxially arranged on the inner shaft seat (925) in a relatively rotating manner, and a plurality of inclined sliding grooves corresponding to the support column pieces (93) are formed in the rotating ring seat (94);

the inner limiting pieces are fixed on the support column pieces (93), and are arranged in the inclined groove in a sliding limiting mode;

the elastic inner membrane (95) is circumferentially sleeved and supported on the support column member (93); and

and the internal flow pipe (96) is coaxially connected to each support column member (93) in a penetrating manner, and one end of the internal flow pipe (96) is connected with the cold flow discharge assembly (6).

5. An intelligent heating regulating device convenient for regulating indoor temperature as claimed in claim 4, wherein: further comprising:

the turbulence vanes (97) are circumferentially arranged, and each turbulence vane (97) is arranged between adjacent strut members (93) at intervals.

6. An intelligent heating regulating device convenient for regulating indoor temperature as claimed in claim 1, wherein: the cold flow discharge assembly (6) comprises:

a ring transfer bin (61);

an inner flow seat (62) with the center fixed on the lower end surface of the annular conveying bin (61);

a rotary blade (63) relatively rotatably provided in the inner flow seat (62);

the flow aid (64) is embedded in the annular conveying bin (61) in a relatively rotatable manner, and an inner fixing pipe (65) is transversely communicated with the flow aid (64);

the transfer shaft tubes are vertically arranged and are vertically communicated with the inner fixed tube (65); and

and the outer jet pipe (66) is obliquely communicated with the lower end of each transfer shaft pipe.

7. An intelligent heating regulating device convenient for regulating indoor temperature as claimed in claim 6, wherein: the cross section of the inner fixed tube (65) is of a vortex tube bank structure.

8. An intelligent heating regulating device convenient for regulating indoor temperature as claimed in claim 7, wherein: the outer jet pipes (66) and the inner fixed pipe (65) are arranged in a 30-degree cutting angle mode respectively.

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