CN210772401U

CN210772401U - Energy-saving water heating device

Info

Publication number: CN210772401U
Application number: CN201921902695.7U
Authority: CN
Inventors: 刘钦东
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-06
Filing date: 2019-11-06
Publication date: 2020-06-16
Anticipated expiration: 2029-11-06

Abstract

The utility model discloses an energy-saving hot-water heating device, including cooperation hot-water heating's last wall heating installation group, cover connect in the outside heating installation cover of heating installation group and install in the wind scooper of heating installation cover one side, the heating installation cover is including a set of cover frame that is the rectangular frame structure and cover the extension board that connects frame bottom both sides are connected, the wind scooper includes that a set of one end structure is curved wind-guiding frame to and the wind-guiding structure of installation in the wind-guiding frame, be connected by multiunit locking device between heating installation cover and the wind scooper, a set of air intake has been seted up on the top of cover frame, the wind-guiding storehouse has been seted up in the wind-guiding frame, wind-guiding storehouse and air intake communicate each other, and the wind-guiding frame keeps away from one side of cover frame and set up the air outlet with wind-guiding storehouse intercommunication, one side symmetry that wind-guiding frame was kept away from to the. The energy-saving water heating device is reasonable in structure, easy to install and use and high in practical value.

Description

Energy-saving water heating device

Technical Field

The utility model belongs to the technical field of the hot-water heating, concretely relates to energy-saving hot-water heating device.

Background

The water heating is one of floor radiation heating, is the most popular heating mode at present, and has the advantages compared with electric heating. The water heating is realized by uniformly heating the whole ground through a ground coil pipe and hot water which circularly flows in the pipeline and a heating medium in a floor radiation layer, and conducting from bottom to top by utilizing the self heat storage and heat upward radiation rule of the ground so as to achieve the purpose of heating.

In order to ensure the rapid warming of air in the prior art, a structure similar to a radiator is constructed in a wall-mounting water heating mode to realize the auxiliary heating of the air, and a heating medium in the radiator is homologous with the water heating so as to realize the energy saving of the water heating. The hot-water heating structure of current upper wall does not possess auxiliary structure and only relies on the radiator to increase the area of contact with the air and realizes the heat dissipation, and so air heat exchange efficiency is lower, can't realize that high efficiency's warm braw switches on, and the suitability is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-saving hot water heating device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving water heating device comprises an upper wall heating set matched with water heating, a heating cover covering the outside of the heating set and an air guide cover arranged on one side of the heating cover;

the heating hood comprises a group of covering frames in a rectangular frame structure and extending plates connected with two sides of the bottom end of the covering frames, the air guide hood comprises a group of air guide frames with one ends being arc-shaped and an air guide structure arranged in the air guide frames, and the heating hood and the air guide hood are connected through a plurality of groups of locking devices;

the cover connects the top of frame and has seted up a set of air intake, air guide frame has seted up the wind storehouse of leading, wind storehouse and air intake intercommunication each other, and air guide frame keep away from the cover and connect one side of frame and set up the air outlet with the wind storehouse intercommunication.

Preferably, the cover frame is provided with a plurality of groups of connecting lugs in a symmetrical structure on one side far away from the air guide frame, and the centers of the connecting lugs are provided with threaded connecting holes for connecting bolts.

Preferably, the locking device installed and connected between the heating hood and the air guiding hood comprises a group of movable lock frames movably installed on the side surface of the hood-connected frame and positioning lock catches fixedly installed on the side surface of the air guiding frame.

Preferably, the air guide structure installed in the air guide frame comprises a group of cylindrical fans installed in the air guide bin in a matching mode through bearings, and a group of air guide motors installed on the outer side of the air guide frame, and a motor shaft of each air guide motor is fixedly connected with a shaft of each cylindrical fan.

Preferably, a group of first dust filter nets is hinged in air inlets formed in the top end of the covering frame, and a group of second dust filter nets is hinged in air outlets formed in the side face of the air guide frame.

Preferably, the first dust filter screen and the second dust filter screen are of filter screen structures with the same mesh number.

The utility model discloses a technological effect and advantage: the energy-saving water heating device is characterized in that a heating cover is covered outside the upper wall water heating, an air guide cover is matched outside the heating cover, and after the heating cover is positioned by a connecting lug matching bolt penetrating through a threaded connecting hole, the air guide cover is conveniently connected with the heating cover in a matching way through a locking device, so that the installation is convenient; the heating hood and the air guide hood are respectively provided with an air inlet and an air outlet, so that the air guide hood is communicated with an air guide bin of the air guide frame, and the circulation of air is ensured; the cooperation of wind-guiding motor and cylindricality fan can accelerate the air flow efficiency, realizes the heat transfer fast for air intensification efficiency.

Drawings

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

FIG. 2 is a schematic structural view of the radiator cover of the present invention;

fig. 3 is a schematic view of the wind scooper of the present invention.

In the figure: the air guide structure comprises a heating cover 1, an air guide cover 2, an air guide motor 3, a 301 cylindrical fan, a 4-cover-connected frame, a 401 extending plate, a 5 first dust filtering net, an 501 air inlet, a 6 connecting lug, a 601 threaded connecting hole, a 7 air guide frame, a 701 air guide bin, an 8 second dust filtering net, an 801 air outlet, a 9 locking device, a 901 movable locking frame and a 902 positioning lock catch.

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.

The utility model provides an energy-saving water heating device as shown in figures 1-3, which comprises an upper wall heating group matched with water heating, a heating cover 1 covering the outside of the heating group and an air guide cover 2 arranged on one side of the heating cover 1, wherein the heating cover 1 is covered on the outside of the upper wall heating, the air guide cover 2 is matched outside the heating cover 1, after the heating cover 1 is positioned by a connecting lug 6 matching bolt through a threaded connecting hole 601, the air guide cover 2 is conveniently matched and connected with the heating cover 1 through a locking device 9, the installation is convenient, and during the specific implementation, the heating cover 1 and the air guide cover 2 can also be matched with the traditional radiator structure to realize the indoor circulation ventilation and temperature rise;

the heating hood 1 comprises a group of covering frames 4 in a rectangular frame structure and extension plates 401 connected with two sides of the bottom ends of the covering frames 4, the air guide hood 2 comprises a group of air guide frames 7 with one ends being arc-shaped and an air guide structure arranged in the air guide frames 7, the heating hood 1 and the air guide hood 2 are connected through a plurality of groups of locking devices 9, the air guide structure arranged in the air guide frames 7 comprises a group of cylindrical fans 301 arranged in an air guide bin 701 in a matched mode through bearings and a group of air guide motors 3 arranged on the outer sides of the air guide frames 7, a motor shaft of each air guide motor 3 is fixedly connected with a shaft of each cylindrical fan 301, and the matching of the air guide motors 3 and the cylindrical fans 301 can accelerate the air flow efficiency, realize heat exchange quickly and accelerate the air heating efficiency;

the top end of the covering frame 4 is provided with a group of air inlets 501, an air guide bin 701 is arranged in the air guide frame 7, the air guide bin 701 is communicated with the air inlets 501, an air outlet 801 communicated with the air guide bin 701 is arranged on one side, far away from the covering frame 4, of the air guide frame 7, the air inlet 501 and the air outlet 801 are respectively arranged on the heating air cover 1 and the air guide cover 2, communication with the air guide bin 701 of the air guide frame 7 is achieved, and circulation of air is guaranteed.

Specifically, a plurality of groups of connecting lugs 6 are symmetrically constructed on one side of the covering frame 4, which is far away from the air guide frame 7, and a threaded connecting hole 601 for bolt connection is formed in the center of each connecting lug 6.

Specifically, the locking device 9 installed between the heating hood 1 and the air guiding hood 2 and connected with the heating hood 1 includes a group of movable locking frames 901 movably installed on the side of the covering frame 4 and positioning latches 902 fixedly installed on the side of the air guiding frame 7, and the cooperation of the movable locking frames 901 and the positioning latches 902 facilitates the connection and fixation of the heating hood 1 and the air guiding hood 2 and facilitates the detachment and separation for the overhaul of the internal heating group.

Specifically, a group of first dust filter screens 5 is hinged in an air inlet 501 formed in the top end of the covering frame 4, and a group of second dust filter screens 8 is hinged in an air outlet 801 formed in the side surface of the air guide frame 7.

Specifically, the first dust filter 5 and the second dust filter 8 are filter screen structures with the same mesh number, and the first dust filter 5 and the second dust filter 8 can block dust and need to be detached and cleaned after long-term use.

Specifically, this energy-saving water heating installation, need earlier trompil on the wall body of last wall heating system side during the use, cover radiator cover 1 outside last wall heating system, and insert the trompil position behind the threaded connection hole 601 of bolt cooperation engaging lug 6, be fixed in one side of radiator cover 1 with the cooperation of wind scooper 2 through activity lock frame 901 and location hasp 902 this moment, when the hot water flows in the water heating pipe, open air guide motor 3 and can realize the rotation of cylindricality fan 301, cylindricality fan 301 inhales the air current from air intake 501, and discharge from air outlet 801 after the heating of last wall heating system, realize the quick cycle of warm air current, guarantee the high-efficient intensification of indoor air, this energy-saving water heating installation, rational in infrastructure, easily install and use, have higher practical value.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims

1. An energy-saving water heating device comprises an upper wall heating set matched with water heating, a heating cover (1) covering the outside of the heating set and an air guide cover (2) arranged on one side of the heating cover (1);

the method is characterized in that: the heating hood (1) comprises a group of hood-connected frames (4) in a rectangular frame structure and extension plates (401) connected with two sides of the bottom ends of the hood-connected frames (4), the air guide hood (2) comprises a group of air guide frames (7) with one ends being arc-shaped and air guide structures arranged in the air guide frames (7), and the heating hood (1) and the air guide hood (2) are connected through a plurality of groups of locking devices (9);

the wind guide device is characterized in that a group of air inlets (501) are formed in the top end of the covering and connecting frame (4), a wind guide bin (701) is formed in the wind guide frame (7), the wind guide bin (701) is communicated with the air inlets (501), and an air outlet (801) communicated with the wind guide bin (701) is formed in one side, away from the covering and connecting frame (4), of the wind guide frame (7).

2. An energy-saving water heating apparatus according to claim 1, characterized in that: one side of the covering frame (4) far away from the air guide frame (7) is symmetrically provided with a plurality of groups of connecting lugs (6), and the centers of the connecting lugs (6) are provided with threaded connecting holes (601) for bolt connection.

3. An energy-saving water heating apparatus according to claim 1, characterized in that: the locking device (9) installed and connected between the heating hood (1) and the air guide hood (2) comprises a group of movable lock frames (901) movably installed on the side surface of the hood-connected frame (4) and positioning lock catches (902) fixedly installed on the side surface of the air guide frame (7).

4. An energy-saving water heating apparatus according to claim 1, characterized in that: the wind guide structure of installation in wind guide frame (7) includes that a set of cylindrical fan (301) of installing in wind guide storehouse (701) through the bearing cooperation to and a set of wind guide motor (3) of installing in the wind guide frame (7) outside, the axle fixed connection of the motor shaft of wind guide motor (3) and cylindrical fan (301).

5. An energy-saving water heating apparatus according to claim 1, characterized in that: an air inlet (501) formed in the top end of the covering frame (4) is internally hinged with a group of first dust filter screens (5), and an air outlet (801) formed in the side surface of the air guide frame (7) is internally hinged with a group of second dust filter screens (8).

6. An energy-saving water heating apparatus according to claim 5, characterized in that: the first dust filtering net (5) and the second dust filtering net (8) are of filter screen structures with the same mesh number.