CN215074282U

CN215074282U - Heat preservation device that vegetable greenhouse used

Info

Publication number: CN215074282U
Application number: CN202022968651.3U
Authority: CN
Inventors: 武海
Original assignee: Individual
Current assignee: Kezhou Zhongmu High Tech Modern Agricultural Development Co ltd
Priority date: 2020-12-10
Filing date: 2020-12-10
Publication date: 2021-12-10
Anticipated expiration: 2030-12-10

Abstract

A heat preservation device for a vegetable greenhouse comprises a greenhouse main body, a heating box, a grid cover, a heating plate, an air blower and an air guide pipe, wherein the heating box is arranged at the bottom end of the right side of the greenhouse main body, the grid cover is arranged at the outer side of the heating box, the heating plate is arranged at the bottom end of the inner part of the heating box, the air blower is arranged at the top of the heating box, the air guide pipe is arranged at the air inlet port and the exhaust end face of the air blower, one end of the air guide pipe extends into the heating box, an air guide frame is arranged at the inner wall of the greenhouse main body, a power box is arranged at the front side of the air guide frame, and hot air at the air blower can be guided and processed through a flow dividing pipe, a rotating rod, an air guide plate, an air guide box and a dividing plate, so that hot air flow can rapidly spread into the greenhouse main body, and meanwhile, the arrangement of an electric telescopic rod, a connecting block, a sliding plate, a slotting, a tooth block and a gear are utilized, the power support can be provided for the movement of the rotating rod, so that the rotating stability of the air deflector is ensured.

Description

Heat preservation device that vegetable greenhouse used

Technical Field

The utility model relates to a vegetable greenhouse technical field, more specifically say, relate to a heat preservation device that vegetable greenhouse used.

Background

With the progress of science and technology and the development of society, vegetable greenhouses are more and more widely applied to the field of agricultural vegetable planting, because the greenhouses obstruct the air to flow up and down, the consumption of heat is reduced, the temperature in the greenhouses can be increased, the temperature in the greenhouses can be reduced by combining the use of a sunshade net in summer, and the defense effect on low-temperature cold damage in winter and high-temperature damage in summer is achieved.

Based on the above description, and a search was made for an application with the number: the utility model of CN201922236367.4 relates to a vegetable greenhouse with excellent heat preservation effect, which comprises a greenhouse body, wherein a rain baffle is fixedly installed on the right side of the outer wall of the greenhouse body; the heat preservation work of the vegetable greenhouse is completed mainly by arranging a temperature sensor, a control panel, an electromagnetic control valve, a one-way valve, a third pipeline and a plurality of groups of air diffusion holes through retrieval.

Through retrieval and analysis and long-time research and experiments carried out by the applicant in the field, the vegetable greenhouse with excellent heat preservation effect has the following problems in practical use.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model discloses aim at solving when needs carry out heat preservation during operation to vegetable greenhouse, through its device, can guide the work to the air current to inside stretching to whole big-arch shelter that makes the air current can be quick.

(II) technical scheme

The utility model provides a heat preservation device for a vegetable greenhouse, which comprises a greenhouse main body, a heating box, a grid cover, a heating plate, an air blower and an air guide pipe, wherein the heating box is arranged at the bottom end of the right side of the greenhouse main body, the grid cover is arranged at the outer side of the heating box, the heating plate is arranged at the inner bottom end of the heating box, the air blower is arranged at the top of the heating box, the air guide pipe is arranged at the air inlet end part and the air exhaust end surface part of the air blower, one end of the air guide pipe extends to the inside of the heating box, an air guide frame is arranged at the inner wall of the greenhouse main body, a power box is arranged at the front side of the air guide frame, a plurality of rotating rods are rotatably arranged at the inner wall of the air guide frame, one end of each rotating rod extends to the inner lower end part of the power box, an air deflector is arranged at the outer side of each rotating rod, an air guide box is arranged at the upper part of the air guide frame, a separation plate is arranged at the inner wall of the air guide box, a plurality of air outlets are communicated with the bottom end surface, and the air outlet corresponds to the air deflector.

Preferably: the upper end of the air guide pipe is provided with a shunt pipe, a plurality of connecting pipes are arranged from the inner wall of the shunt pipe to the outer end face in a run-through mode, and one end of each connecting pipe extends into the air guide box.

Preferably: the inside of headstock is bilayer structure, and the jam plate is installed to its inner wall middle-end department, and the inside lower extreme department that slides at the headstock is provided with the slide, and upper end department then fixed mounting has electric telescopic handle to the connecting block is installed to this electric telescopic handle's the body of rod, and the lower extreme of connecting block extends to the lower part of headstock again, and links to each other with the top terminal surface of slide is fixed.

Preferably: the inner wall length of headstock is greater than the length of slide to link up at the top of headstock partition panel to bottom terminal surface department and seted up the spread groove, and the one end of connecting block then slides and sets up inside this spread groove.

Preferably: the front end face and the rear end face of the sliding plate are provided with a groove in a penetrating mode, a tooth block is arranged at the upper end of the inner wall of the groove, a gear is arranged at the outer side of the rotating rod and located in the groove area, and finally the gear and the tooth block are arranged in a mutually meshed mode.

Preferably: the top and the bottom end face of the air deflector are arranged in a V-shaped structure, and an air guide groove is arranged in the middle of the outer side face of the air deflector and is arranged in an arc-shaped structure.

Has the advantages that:

1. the heat preservation device for the vegetable greenhouse is provided with the flow dividing pipe, the rotating rod, the air guide plate, the air guide box and the partition plate, and can guide and treat hot air at the blower, so that hot air flow can rapidly spread to the interior of the greenhouse main body.

2. The heat preservation device for the vegetable greenhouse is provided with the electric telescopic rod, the connecting block, the sliding plate, the groove, the tooth block and the gear, can provide power support for the movement of the rotating rod, and is convenient for guaranteeing the rotation stability of the air deflector.

Description of the drawings:

fig. 1 is a schematic front sectional view of a heat preservation device for a vegetable greenhouse of the present invention.

Fig. 2 is a schematic sectional view of the local depression surface of the wind-guiding box of the present invention.

Fig. 3 is an enlarged view of a portion a of fig. 1 of a heat retaining device for a vegetable greenhouse.

Fig. 4 is a schematic front sectional view of a heat retaining device for a vegetable greenhouse shown in fig. 2 at B.

Fig. 5 is a schematic side view of the air deflector of the present invention.

In FIGS. 1-5: 1-a greenhouse main body; 101-a heating box; 102-a mesh enclosure; 103-heating plate; 104-a blower; 105-a wind guide pipe; 106-shunt tube; 2-a wind guide frame; 201-rotating rod; 2011-gear; 202-a wind deflector; 2021-wind guide trough; 203-a power box; 204-an electric telescopic rod; 205-connecting block; 206-a slide plate; 2061-grooving; 2062-a tooth block; 3-a wind guiding box; 301-a partition plate; 302-air outlet.

Detailed Description

As shown in figures 1 to 5: the utility model provides a technical scheme, a heat preservation device for vegetable greenhouse, which comprises a greenhouse main body 1, a heating box 101, a grid cover 102, a heating plate 103, an air blower 104 and an air guide pipe 105, wherein the heating box 101 is arranged at the bottom end of the right side of the greenhouse main body 1, the grid cover 102 is arranged at the outer side of the heating box 101, the heating plate 103 is arranged at the bottom end of the inner part of the heating box 101, the air blower 104 is arranged at the top part of the heating box 101, the air guide pipe 105 is arranged at the air inlet end part and the exhaust end part of the air blower 104, one end of the air guide pipe 105 extends into the heating box 101, an air guide frame 2 is arranged at the inner wall of the greenhouse main body 1, a power box 203 is arranged at the front side of the air guide frame 2, a plurality of rotating rods 201 are rotatably arranged at the inner wall of the air guide frame 2, one end of the rotating rod 201 extends to the lower end of the inner part of the power box 203, an air guide plate 202 is arranged at the outer side of the rotating rod 201, the air guide box 3 is installed on the upper portion of the air guide frame 2, the partition plate 301 is installed on the inner wall of the air guide box 3, a plurality of air outlets 302 are formed from the bottom end to the bottom end face of the interior of the air guide box 3 in a penetrating mode, and the air outlets 302 correspond to the air guide plate 202.

Wherein: the upper end department of guide duct 105 installs shunt tubes 106, and link up at the inner wall of shunt tubes 106 to outside terminal surface department and install a plurality of connecting pipes, and inside one end of this connecting pipe extended to wind-guiding box 3, through the overall arrangement setting of shunt tubes 106 and connecting pipe 106, can carry wind-force toward the regional department of division board 301 of wind-guiding box 3, make the whole area in its wind-guiding box 3 of even cover of wind-force like this, just make this wind-force can be stable and even entering to inside air outlet 302 after the input, thereby just can carry out even intensification work to the inner space of big-arch shelter main part 1.

Wherein: the inside of headstock 203 is bilayer structure, the holding plate is installed to its inner wall middle-end department, inside lower extreme department at headstock 203 slides and is provided with slide 206, and upper end department then fixed mounting has electric telescopic handle 204, and connecting block 205 is installed to the body of rod of this electric telescopic handle 204, the lower extreme of connecting block 205 extends to the lower part of headstock 203 again, and the fixed linking to each other of top terminal surface with slide 206, through electric telescopic handle 204, the overall arrangement setting of connecting block 205 and slide 206, can make electric telescopic handle 204 drive slide 206 inside the inside reciprocating motion who carries out the left and right directions of headstock 203.

Wherein: the inner wall length of headstock 203 is greater than the length of slide 206 to link up at the top of headstock 203 partition panel to bottom terminal surface department and seted up the connecting groove, and the one end of connecting block 205 then slides and sets up inside this connecting groove, through the inner wall length setting of headstock 203, can provide the sliding space for slide 206, and the setting of connecting groove is then convenient for adapt to the sliding work of its connecting block 205.

Wherein: the front end face and the rear end face of the sliding plate 206 are provided with a notch 2061 in a penetrating manner, a tooth block 2062 is arranged at the upper end of the inner wall of the notch 2061, a gear 2011 is arranged at the outer side of the rotating rod 201, the gear 2011 is positioned in the notch 2061 area, and finally the gear 2011 and the tooth block 2062 are arranged in a mutually meshed manner, so that a connecting space can be provided for the rotating rod 201 and the gear 2011 through the arrangement of the notch 2061, and the tooth block 2062 and the gear 2011 are arranged.

Wherein: the top end face and the bottom end face of the air deflector 202 are both arranged in a V-shaped structure, an air guide groove 2021 is arranged in the middle of the outer side face of the air deflector 202, the air guide groove 2021 is arranged in an arc-shaped structure, and through the arrangement of the V-shaped structure of the air deflector 202, when the air deflector 202 is in a vertical state, air flow can conveniently and quickly pass through the air deflector 202 through an inclined plane, and the arrangement of the air guide groove 2021 can limit the blowing direction of partial wind power, so that the wind power can reach a farther area, and hot air can conveniently and quickly spread to the inside of the greenhouse main body 1.

Wherein: a plurality of temperature sensor are installed to the inner wall terminal surface department of big-arch shelter main part 1, through temperature sensor's setting, can monitor the work to the inside temperature of big-arch shelter main part 1.

The working principle is as follows:

firstly, the heating plate 103, the blower 104, the temperature sensor and the electric push rod 204 are matched and connected with an external control panel, when the temperature of the interior of the greenhouse main body 1 needs to be raised, hot air at the blower 104 can be guided through the shunt tubes 106, the rotating rods 201, the air guide plates 202, the air guide box 3 and the partition plates 301, so that the hot air can rapidly and uniformly spread in the interior of the greenhouse main body 1, after the hot air at the blower 104 enters the shunt tubes 106 through the air guide tubes 105, the hot air can be input into the air guide box 3 through the connecting tubes at the shunt tubes 106, as the partition plates 301 are arranged at the inner wall of the air guide box 3, the wind power can be dispersed, and after dispersion, the wind power can be blown to the air guide plates 202 through the air outlets 302, and as the rotating rods 201 can drive the air guide plates 202 to rotate, after the wind power is contacted with the air guide plates 202, the blowing direction of the wind power can be changed, so that the wind power can be blown to the two ends of the interior of the greenhouse main body 1, so that the hot air can be uniformly and quickly spread in the interior of the greenhouse main body 1, meanwhile, the electric telescopic rod 204, the connecting block 205, the sliding plate 206, the groove 2061, the tooth block 2062 and the gear 2011 are arranged, power support can be provided for the movement of the rotating rod 201, so that the rotation stability of the air deflector 202 can be conveniently ensured, when the electric telescopic rod 204 performs telescopic movement, the sliding plate 206 can be driven to move, after the sliding plate 206 moves, the tooth block 2062 can be in rotational contact with the gear 2011, in the contact process, the rotating rod 201 can also rotate, and therefore the air deflector 202 can be stably rotated at the air guide frame 2.

Claims

1. The utility model provides a heat preservation device that vegetable greenhouse used, includes big-arch shelter main part (1), heating cabinet (101), net cover (102), hot plate (103), air-blower (104), guide duct (105), right side bottom department in big-arch shelter main part (1) is installed in heating cabinet (101), outside department in heating cabinet (101) is installed in net cover (102), inside bottom department in heating cabinet (101) is installed in hot plate (103), top in heating cabinet (101) is installed in air-blower (104), air-guide duct (105) are installed in the inlet port department and the exhaust terminal surface department of air-blower (104), and inside one end of guide duct (105) extended to heating cabinet (101), its characterized in that: the greenhouse is characterized in that an air guide frame (2) is installed at the inner wall of a greenhouse main body (1), a power box (203) is installed at the front side of the air guide frame (2), a plurality of rotating rods (201) are installed at the inner wall of the air guide frame (2) in a rotating mode, one end of each rotating rod (201) extends to the inner lower end of the power box (203), an air guide plate (202) is installed at the outer side of each rotating rod (201), an air guide box (3) is installed on the upper portion of the air guide frame (2), a partition plate (301) is installed at the inner wall of the air guide box (3), a plurality of air outlets (302) are formed from the inner bottom end of the air guide box (3) to the bottom end face in a penetrating mode, and the air outlets (302) correspond to the air guide plate (202) in a mutual mode.

2. The heat preservation device for a vegetable greenhouse of claim 1, wherein: the upper end of the air guide pipe (105) is provided with a shunt pipe (106), a plurality of connecting pipes are arranged from the inner wall to the outer end face of the shunt pipe (106) in a penetrating way, and one end of each connecting pipe extends into the air guide box (3).

3. The heat preservation device for a vegetable greenhouse of claim 1, wherein: the inside of headstock (203) is bilayer structure, and the jam plate is installed to its inner wall middle-end department, slides at the inside lower extreme department of headstock (203) and is provided with slide (206), and upper end department then fixed mounting has electric telescopic handle (204) to connecting block (205) are installed to the body of rod of this electric telescopic handle (204), and the lower extreme of connecting block (205) extends to the lower part of headstock (203) again, and links to each other with the top terminal surface of slide (206) is fixed.

4. The heat preservation device for a vegetable greenhouse of claim 3, wherein: the length of the inner wall of the power box (203) is larger than that of the sliding plate (206), a connecting groove is formed in the position from the top to the bottom end face of the partition plate of the power box (203) in a penetrating mode, and one end of the connecting block (205) is arranged inside the connecting groove in a sliding mode.

5. The heat preservation device for a vegetable greenhouse of claim 3, wherein: the front end face and the rear end face of the sliding plate (206) are provided with a through groove (2061), a gear block (2062) is arranged at the upper end of the inner wall of the through groove (2061), a gear (2011) is arranged at the outer side of the rotating rod (201), the gear (2011) is located in the area of the through groove (2061), and finally the gear (2011) and the gear block (2062) are meshed with each other.

6. The heat preservation device for a vegetable greenhouse of claim 1, wherein: the top and bottom end faces of the air guide plate (202) are arranged in a V-shaped structure, an air guide groove (2021) is arranged in the middle of the outer side face of the air guide plate (202), and the air guide groove (2021) is arranged in an arc-shaped structure.