CN220255246U - Composite energy heating device capable of reducing initial investment - Google Patents

Abstract

The utility model provides a composite energy heating device capable of reducing initial investment, which comprises: the electric box comprises an air heater, an air outlet pipe, a heat supply pipe and an electric box, wherein the air outlet pipe is arranged above the right side surface of the air heater, the electric box is connected to the left side of the air heater, an inverter is arranged above the left side inside the electric box, a charge-discharge controller is arranged on the right side of the inverter, a group of storage batteries are arranged below the inside of the electric box, a rotating plate is arranged above the air heater, a solar panel is arranged on the left side above the rotating plate, and a connecting bearing is arranged in the middle of the upper side of the air heater in an embedded manner. Through setting up solar panel, battery, dc-to-ac converter and charge-discharge controller, can supply power to the air heater through solar energy to reduce initial investment cost, through setting up revolving plate, connecting rod, connecting bearing, annular spout and universal ball, be convenient for adjust the orientation position of solar panel.

Description

Composite energy heating device capable of reducing initial investment

Technical Field

The utility model belongs to the technical field of greenhouse heat supply, and particularly relates to a composite energy heat supply device capable of reducing initial investment.

Background

Greenhouse heat supply is an important means for improving the production efficiency of agricultural planting and cultivation, but the method also has the defects of more consumed electric energy and larger initial investment.

First, greenhouse heating requires the use of specific equipment to generate heat. In greenhouse heat supply, main heating devices include a hot air blower, a heater and the like. These devices often require the use of high power motors to drive them in order to ensure efficient operation. Meanwhile, when equipment such as a hot air blower, a heater and the like works, corresponding noise and vibration can be generated, and more load can be brought to the electrical system, especially equipment running for a long time.

And secondly, the greenhouse supplies heat and needs to continuously input power so as to ensure the stable and normal operation of the system. Therefore, it is necessary to establish perfect power supply lines, maintenance management, monitoring and control, etc. facilities to ensure the stability and reliability of the power supply. These devices typically require frequent functional checks and operational commissioning, and periodic contact with professional electrical system technicians for upgrades and repairs. These all cause certain expenditure costs and operational expenditure.

In summary, in greenhouse heat supply, electric power energy source becomes an important factor for judging the economical efficiency and the popularity of the greenhouse heat supply. Although the greenhouse heating mode may bring about a lot of benefits, the initial investment cost is higher, and the defects of excessive energy resource consumption and the like are obvious, so that a compound energy heating device capable of reducing the initial investment is needed to solve the problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a composite energy heating device capable of reducing initial investment, and solves the problems in the prior art.

The utility model is realized by the following technical scheme: a composite energy heating apparatus capable of reducing initial investment, comprising: the air conditioner comprises an air heater, an air outlet pipe, a heat supply pipe and an electric box, wherein the air outlet pipe is arranged above the right side surface of the air heater, the electric box is connected to the left side of the air heater, and an inverter is arranged above the left side inside the electric box;

a charge-discharge controller is arranged on the right side of the inverter, and a group of storage batteries are arranged below the inside of the electric box;

the solar energy heat pump air heater is characterized in that a rotating plate is arranged above the air heater, a solar panel is arranged on the left side of the upper side of the rotating plate, a connecting bearing is arranged in the middle of the upper side of the air heater in an embedded mode, an annular sliding groove is formed in the outer side of the connecting bearing, a connecting rod is arranged in the middle of the lower surface of the rotating plate, and a plurality of universal balls are arranged on the periphery of the lower surface of the rotating plate.

As a preferable implementation mode, the right end of the air outlet pipe is connected with a heating pipe, a box door is arranged on the front face of the electric box, and the left side of the box door is connected with the electric box through two hinges.

As a preferred implementation mode, the lower end of the connecting rod is connected with the inner ring of the connecting bearing, the upper surface of the connecting bearing is flush with the upper surface of the air heater, a plurality of universal balls are distributed in a ring shape, and the connecting rod can drive the inner ring of the connecting bearing to rotate.

As a preferred embodiment, the connecting bearing is a deep groove ball bearing, the universal ball is a stainless steel universal ball, and the type of the hot air blower is a DH50 electric hot air blower.

As a preferred embodiment, the charge-discharge controller is connected with the solar panel through a wire, the charge-discharge controller is connected with the storage battery through a wire, and the inverter is respectively connected with the charge-discharge controller and the air heater through wires.

As a preferred implementation mode, the lower right side of the solar panel is connected with the upper surface of the rotating plate through a connecting plate, the overlooking surface of the rotating plate is of a circular structure, the lower ends of a plurality of universal balls are in contact with the lower inner side of the annular sliding groove, and the solar panel is of an SFP130-36 solar panel.

After the technical scheme is adopted, the utility model has the beneficial effects that: through setting up solar panel, battery, dc-to-ac converter and charge-discharge controller, can supply power to the air heater through solar energy to reduce initial investment cost, through setting up revolving plate, connecting rod, connecting bearing, annular spout and universal ball, be convenient for adjust the orientation position of solar panel.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of a composite energy heating device capable of reducing initial investment.

FIG. 2 is a schematic diagram of a fan in a combined energy heating apparatus according to the present utility model in a top view.

Fig. 3 is a schematic diagram showing a bottom view of a transfer plate in the composite energy heating device capable of reducing initial investment.

Fig. 4 is a schematic diagram showing an electric box in front section in the composite energy heating device capable of reducing initial investment.

In the figure, 100-air heater, 200-air outlet pipe, 300-heat supply pipe, 400-electric box, 500-box door, 600-rotating plate, 700-solar panel, 800-connecting plate, 900-annular chute, 110-connecting bearing, 120-universal ball, 130-connecting rod, 140-inverter, 150-charge-discharge controller and 160-storage battery.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 4, the present utility model provides a technical solution: a composite energy heating apparatus capable of reducing initial investment, comprising: the air heater 100, the air outlet pipe 200, the heating pipe 300 and the electric box 400, wherein the air outlet pipe 200 is arranged above the right side surface of the air heater 100, the electric box 400 is connected to the left side of the air heater 100, and the inverter 140 is arranged above the left side inside the electric box 400;

a charge-discharge controller 150 is installed on the right side of the inverter 140, and a group of storage batteries 160 are installed below the inner part of the electric box 400;

a rotating plate 600 is arranged above the air heater 100, a solar panel 700 is arranged on the left side above the rotating plate 600, a connecting bearing 110 is embedded in the middle of the upper edge of the air heater 100, an annular chute 900 is arranged outside the connecting bearing 110, a connecting rod 130 is arranged in the middle of the lower surface of the rotating plate 600, and a plurality of universal balls 120 are arranged around the lower surface of the rotating plate 600.

The right end of the air outlet pipe 200 is connected with a heating pipe 300, a box door 500 is arranged on the front surface of the electric box 400, and the left side of the box door 500 is connected with the electric box 400 through two hinges.

The connecting rod 130 lower extreme is connected with the connection bearing 110 inner circle, and connection bearing 110 upper surface flushes with air heater 100 upper surface, and a plurality of universal balls 120 are annular and distribute, and connecting rod 130 can drive connection bearing 110 inner circle rotation.

The connecting bearing 110 is a deep groove ball bearing, the universal ball 120 is a stainless steel universal ball, and the type of the air heater 100 is a DH50 electric air heater.

The solar panel 700 is connected to the charge/discharge controller 150 through a wire, the charge/discharge controller 150 is connected to the battery 160 through a wire, and the inverter 140 is connected to the charge/discharge controller 150 and the hot air blower 100 through wires, respectively.

The lower right side of the solar panel 700 is connected with the upper surface of the rotating plate 600 through the connecting plate 800, the overlooking surface of the rotating plate 600 is of a circular structure, the lower ends of the universal balls 120 are all in contact with the lower inner side of the annular chute 900, the solar panel 700 is of an SFP130-36 solar panel, and the universal balls 120 can slide in the annular chute 900.

As a first embodiment of the present utility model: in order to solve the problem of higher initial investment cost for greenhouse heat supply, before the use, the right end of the heat supply pipe 300 is arranged at the greenhouse heat inlet position, when the greenhouse heat supply pipe is used, the solar panel 700 can transmit electric energy to the storage battery 160 for storage through the charge-discharge controller 150 by absorbing solar energy, when the greenhouse heat supply pipe is used, the hot air blower 100 can be started, the electric power of the storage battery 160 can be converted into electric energy through the inverter 140 to supply power to the hot air blower 100, and after the hot air blower 100 is started, hot air can be blown out to the heat supply pipe 300 through the air outlet pipe 200, so that the hot air can be blown out to the greenhouse interior for heat supply through the heat supply pipe 300, and through the steps, the final effect is that the hot air blower 100 can be powered through solar energy, so that the initial investment cost is reduced.

As a second embodiment of the present utility model: when the solar panel 700 is used, the solar panel 700 can drive the rotating plate 600 to rotate, then the rotating plate 600 can drive the inner ring of the connecting bearing 110 to rotate through the connecting rod 130, and the rotating plate 600 rotates and simultaneously drives the universal balls 120 to flexibly rotate in the annular chute 900, so that the facing position of the solar panel 700 can be conveniently adjusted when the solar panel 700 is used, and the solar panel 700 can absorb sunlight better.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (6)

1. A composite energy heating apparatus capable of reducing initial investment, comprising: air heater (100), play tuber pipe (200), heating tube (300) and electronic box (400), air heater (100) right flank top is installed out tuber pipe (200), air heater (100) left side is connected with electronic box (400), its characterized in that: an inverter (140) is arranged above the left side inside the electric box (400);

a charge-discharge controller (150) is arranged on the right side of the inverter (140), and a group of storage batteries (160) are arranged below the inside of the electric box (400);

the solar energy heat pump air heater is characterized in that a rotating plate (600) is arranged above the air heater (100), a solar panel (700) is arranged on the left side above the rotating plate (600), a connecting bearing (110) is arranged in the middle of the upper edge of the air heater (100), an annular sliding groove (900) is formed in the outer side of the connecting bearing (110), a connecting rod (130) is arranged in the middle of the lower surface of the rotating plate (600), and a plurality of universal balls (120) are arranged on the periphery of the lower surface of the rotating plate (600).

2. A composite energy heating apparatus capable of reducing initial investment as set forth in claim 1, wherein: the right end of the air outlet pipe (200) is connected with a heating pipe (300), a box door (500) is arranged on the front surface of the electric box (400), and the left side of the box door (500) is connected with the electric box (400) through two hinges.

3. A composite energy heating apparatus capable of reducing initial investment as set forth in claim 1, wherein: the lower end of the connecting rod (130) is connected with the inner ring of the connecting bearing (110), the upper surface of the connecting bearing (110) is flush with the upper surface of the air heater (100), and a plurality of universal balls (120) are distributed in a ring shape.

4. A composite energy heating apparatus capable of reducing initial investment as defined in claim 3, wherein: the connecting bearing (110) is a deep groove ball bearing, the universal ball (120) is a stainless steel universal ball, and the type of the hot air blower (100) is DH50 electric hot air blower.

5. A composite energy heating apparatus capable of reducing initial investment as set forth in claim 1, wherein: the solar panel (700) is connected with the charge-discharge controller (150) through a wire, the charge-discharge controller (150) is connected with the storage battery (160) through a wire, and the inverter (140) is respectively connected with the charge-discharge controller (150) and the air heater (100) through wires.

6. A composite energy heating apparatus capable of reducing initial investment as set forth in claim 1, wherein: the solar panel (700) is characterized in that the right lower side is connected with the upper surface of the rotating plate (600) through a connecting plate (800), the overlooking surface of the rotating plate (600) is of a circular structure, the lower ends of a plurality of universal balls (120) are contacted with the lower side in the annular chute (900), and the solar panel (700) is of an SFP130-36 solar panel.