CN110352752B - Intelligent greenhouse - Google Patents

Abstract

The invention discloses an intelligent flower house which is characterized by comprising a water tank, a house body and a support, wherein the water tank is installed on the house body, the house body is fixed on the support, the water tank is connected with a water inlet, a control valve is installed at the water inlet, a circulating water tank is arranged on the support, a filtering interlayer divides the circulating water tank into a standing pool and a water storage pool, the standing pool is connected with a settling water tank, a water pump is installed in the circulating water tank, the water pump is connected with a water outlet pipe, and one end of the water outlet pipe is connected to the water tank. The invention has the following beneficial effects: the water tank stores water and supplies water, and the circulating water tank is recovered and filtered, and then sends water to the water tank, so that the effect of water resource recycling is achieved, and the waste of water resources is reduced. At the in-process that waters, have water to water ground or wall, who can flow through the outlet, flows in circulating water tank's the pond of stewing, avoids moisture to stay in the greenhouse always, maintains the humidity in greenhouse, is favorable to the growth of flowers, avoids producing the waste to the water resource.

Description

Intelligent greenhouse

Technical Field

The invention relates to the field of indoor flower culture, in particular to an intelligent flower house.

Background

With the improvement of living standard, people use green plants to green and decorate rooms, which is a fashion. The indoor flower is selected from a plurality of flowers, has high ornamental value, is more shade-resistant and warm-loving, is not excessively sensitive to the moisture change of the culture medium, and is suitable for being placed in an indoor environment for a long time.

Most people do not know about flower cultivation, namely do not have knowledge about flower cultivation, and do not want to invest time and energy to take care of flowers, so that intelligent flower rooms used indoors become a trend. The intelligent greenhouse generally can dispose the automatic watering system, but, at the in-process of watering, have the condition that water was watered to ground or wall, if these moisture if stay in the greenhouse always, can increase the humidity in greenhouse, be unfavorable for flowers to grow, and can cause the waste to the water resource.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent greenhouse which can discharge waste water, recycle the waste water and avoid water resource waste.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an intelligence flower house, including the water tank, the room body and support, the water tank is installed on the room body, the room body is fixed on the support, the top of the room body is provided with the water inlet, the water tank is connected with the water inlet, water inlet department installs the control valve, the bottom of the room body is provided with the outlet, be provided with circulating water tank on the support, circulating water tank and outlet connection, be provided with in the circulating water tank and filter interlayer and water pump, filter interlayer and separate out pond and the tank of stewing with circulating water tank, the pond of stewing is connected with the sedimentation basin, the water pump is installed in circulating water tank, be connected with the outlet pipe on the water.

The invention is further configured to: the filtering interlayer comprises a blocking plate, a filtering membrane, a first partition plate and a second partition plate, the blocking plate is arranged between the first partition plate and the second partition plate, the blocking plate is fixed on the top surface of the inner side of the circulating water tank and is in clearance with the bottom surface of the inner side of the circulating water tank, the first partition plate and the second partition plate are fixed on the bottom surface of the inner side of the circulating water tank and are in clearance with the top surface of the inner side of the circulating water tank, and the filtering membrane is arranged between the first partition plate and the blocking plate and between the second partition plate and the blocking plate.

The invention is further configured to: the bottom of circulating water tank is provided with and holds the chamber, it is provided with the baffle to hold chamber bottom edge, it is holding the intracavity to deposit the basin setting, it is provided with the handle to deposit the basin, entry and pop out the interface, the handle sets up on the outer wall that deposits the basin, the entry is provided with the spacing groove, the spacing inslot is provided with first spring, first spring butt is on popping out the interface, the bottom slope in pond of stewing, and be provided with the drain, the drain is provided with the I piston, the I piston is provided with sealed lid and two atress boards, sealed lid sets up the top at the I piston, and with drain looks adaptation, two atress boards set up the bottom at the I piston, and the butt is popping out on the interface.

The invention is further configured to: hold the intracavity and still be provided with and pop out the chamber, pop out the intracavity and be provided with the closed block, closed block is connected with the second spring, and the one end butt of second spring is on popping out the inner wall in chamber, and closed block butt is on precipitating the basin, and when precipitating the basin and take out, the closed block seals the drain.

The invention is further configured to: still be provided with the water catch bowl in the room body, install the mounting panel on the water catch bowl, be provided with a plurality of water collecting hole on the mounting panel.

The invention is further configured to: still be provided with the flowerpot in the room, the inlayer of flowerpot is provided with the zone of heating, and the bottom of flowerpot is provided with hole and hollow rotary device that leaks, and rotary device includes connecting plate, ball and backing plate, and the connecting plate is connected on the flowerpot, and the backing plate is fixed on the mounting panel, and the ball setting is between connecting plate and backing plate, and the hole that leaks is the N word and bends.

The invention is further configured to: the water outlet is conical, and the circulating water tank is also provided with a connector matched with the water outlet.

The invention is further configured to: the water pump is also provided with a water inlet pipe, the water inlet pipe is U-shaped, and one end of the water inlet pipe is connected to the bottom of the water storage tank.

The invention is further configured to: still be provided with photosensitive sensor in the room body, temperature and humidity sensor, soil moisture sensor, the light lamp, fan and heating pipe, photosensitive sensor, temperature and humidity sensor, fan and heating pipe set up on the internal lateral wall of room, the light lamp is established on the internal top in room, be provided with treater and full liquid crystal display on the water tank, full liquid crystal display sets up on the side of water tank, treater and photosensitive sensor, temperature and humidity sensor, soil moisture sensor, the light lamp, the fan, state the control valve, full liquid crystal display and heating pipe electricity are connected, the control valve is connected with the gondola water faucet.

The invention is further configured to: the top of the room body is provided with the fixed slot that is used for placing the water tank, and the bottom of the room body is provided with the fixed station with support looks adaptation, and the bottom of water tank still is provided with first magnet, and the fixed slot is provided with the second magnet, first magnet and second magnet inter attraction.

In conclusion, the invention has the following beneficial effects: water in the water tank enters the flower room through the water inlet, the control valve controls watering, water which is leaked or flows out under other conditions flows into the standing pool through the water outlet, the standing pool is kept standing for a period of time, redundant waste water is filled, and the water enters the water storage pool after being filtered through the filtering interlayer and flows back to the water tank through the water pump. The scattered water is collected together for centralized treatment through the circulating water tank, so that the water can be conveniently recycled. The pond of stewing deposits the mixed impurity of aquatic, and the sediment impurity of lower floor gets into the sediment basin, and the water on upper strata is filtering the interlayer and is further filtering, rejects impurity as far as possible through filtering many times, makes the quality of water after the filtration reach the standard of watering water to the difficult water pipe that blocks up of water after the filtration reduces the plant maintenance, improves product quality, reinforcing competitiveness. The water tank stores water and supplies water, and the circulating water tank is recovered and filtered, and then sends water to the water tank, so that the effect of water resource recycling is achieved, and the waste of water resources is reduced. At the in-process that waters, have water to water ground or wall, who can flow through the outlet, flows in circulating water tank's the pond of stewing, avoids moisture to stay in the greenhouse always, maintains the humidity in greenhouse, is favorable to the growth of flowers, avoids producing the waste to the water resource.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent flower house;

FIG. 2 is a schematic diagram of a flowerpot structure of an intelligent greenhouse;

FIG. 3 is a schematic diagram of a filtering interlayer structure of the intelligent flower house;

FIG. 4 is a schematic structural diagram of a containing cavity of the intelligent flower house;

FIG. 5 is a schematic diagram of a pop-up interface structure of the intelligent flower house;

fig. 6 is a schematic structural view of an i-shaped piston of the intelligent flower room.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1-6, an intelligent flower house comprises a water tank 1, a house body 2 and a support 3, wherein the water tank 1 is installed on the house body 2, the house body 2 is fixed on the support 3, a water inlet 21 is formed in the top of the house body 2, the water tank 1 is connected with the water inlet 21, a control valve 24 is installed at the position of the water inlet 21, a water outlet 74 is formed in the bottom of the house body 2, a circulating water tank 32 is arranged on the support 3, the circulating water tank 32 is connected with the water outlet 74, a filtering interlayer 31 and a water pump 34 are arranged in the circulating water tank 32, the circulating water tank 32 is separated into a standing pool 321 and a water storage pool 322 by the filtering interlayer 31, the standing pool 321 is connected with a precipitation water tank 35, the water pump 34 is installed in the circulating water tank 32.

Through the scheme, water in the water tank 1 enters the flower house through the water inlet 21, the control valve 24 controls watering, leaking or water flowing out under other conditions flows into the standing pool 321 through the water outlet 74, the water is kept standing for a period of time, redundant waste water is filled, and the waste water enters the water storage pool 322 after being filtered through the filtering interlayer 31 and flows back to the water tank 1 through the water pump 34. The scattered water is collected together by the circulating water tank 32 for centralized treatment, which facilitates the circulating treatment of the water. The pond 321 that stews deposits the mixed impurity of aquatic, and the sediment impurity of lower floor gets into precipitation basin 35, and the water on upper strata is filtering the interlayer further and is filtering, rejects impurity as far as possible through filtering many times, makes the quality of water after the filtration reach the standard of watering water to the difficult water pipe that blocks up of water after the filtration reduces the plant maintenance, improves product quality, reinforcing competitiveness. The water tank 1 stores water and supplies water, and the circulating water tank 32 sends water to the water tank 1 after being recovered and filtered, so that the effect of recycling water resources is achieved, and the waste of water resources is reduced. In the in-process of watering, have water to ground or wall, who can flow out through outlet 74, flow in the pond 321 that stews of circulating water tank 32, avoid moisture to stay in the room body 2 always, maintain the humidity of the room body 2, be favorable to the growth of flowers, avoid producing the waste to the water resource.

As a modified specific embodiment, the filtering separator 31 includes a blocking plate 311, a filtering membrane 312, a first partition plate 313 and a second partition plate 314, the blocking plate 311 is disposed between the first partition plate 313 and the second partition plate 314, the blocking plate 311 is fixed on the top surface of the inner side of the circulating water tank 32 and is spaced from the bottom surface of the inner side of the circulating water tank 32, the first partition plate 313 and the second partition plate 314 are fixed on the bottom surface of the inner side of the circulating water tank 32 and is spaced from the top surface of the inner side of the circulating water tank 32, and the filtering membrane 312 is disposed between the first partition plate 313 and the blocking plate 311 and between the second partition plate 314 and the blocking plate 311.

Through the scheme, the first partition plate 313 divides the circulating water tank 32 into the standing tank 321, the standing tank 321 accumulates certain water amount, the full water overflows, the precipitated impurities are left in the standing tank 321, the overflowing water is guided to the filtering membrane 312 through the partition plate 311 and is filtered by the filtering membrane 312, the second partition plate 314 enters the water storage tank 322 divided by the circulating water tank 32 through the second partition plate 314, the partition plate 311, the first partition plate 313 and the second partition plate 314 form a U-shaped channel, the length of the filtering channel is prolonged, and the filtering quality and effect are improved.

As an improved specific embodiment, the bottom of the circulating water tank 32 is provided with an accommodating cavity 33, the edge of the bottom of the accommodating cavity 33 is provided with a baffle 334, the precipitation water tank 35 is arranged in the accommodating cavity 33, the precipitation water tank 35 is provided with a handle 351, an inlet and a pop-up interface 352, the handle 351 is arranged on the outer wall of the precipitation water tank 35, the inlet is provided with a limiting groove 353, a first spring 354 is arranged in the limiting groove 353, the first spring 354 abuts against the pop-up interface 352, the bottom of the standing pool 321 is inclined, and is provided with a drain outlet 324, the drain outlet 324 is provided with an i-shaped piston 325, the i-shaped piston 325 is provided with a sealing cover 327 and two stress plates 326, the sealing cover 327 is arranged at the top of the i-shaped piston 325 and is matched with the drain outlet 324, and the two stress plates 326 are arranged at the bottom of the i.

Through the scheme, the I-shaped piston 325 can plug the sewage discharge port 324 after the precipitation water tank 35 is taken out. Reduce the sewage outflow, keep sanitary clean, convenient to use. When sewage is discharged, the precipitation water tank 35 is placed in the accommodating cavity 33, the I-shaped piston 325 is jacked up by the two stress plates 326 at the pop-up interface 352, and a gap is formed between the two stress plates 326 and the pop-up interface 352, so that impurities precipitated in the standing tank 321 can pass through and flow into the precipitation water tank 35. The stress plate 326 facilitates the clearance and improves the circulation effect, and the plate shape is easy to be stressed. After receiving the precipitated impurities, the precipitation water tank 35 may be lifted up by holding the handle to be taken out, and the impurities are taken out and disposed. After the precipitation water tank 35 is taken out, the sealing cover 327 seals the sewage discharge port 324, so that sewage cannot flow out, and the indoor environment is prevented from being polluted. The precipitated impurities are mostly organic substances, and can be used as fertilizer after treatment for cultivating flowers as a supplement for organic cultivation.

As a modified specific embodiment, the accommodating cavity 33 is further provided with an ejecting cavity 332, the ejecting cavity 332 is internally provided with a sealing block 331, the sealing block 331 is connected with a second spring 333, one end of the second spring 333 is abutted against the inner wall of the ejecting cavity 332, the sealing block 331 is abutted against the precipitation water tank 35, and when the precipitation water tank 35 is taken out, the sealing block 331 seals the sewage discharge port 324.

Through above-mentioned scheme, deposit basin 35 and put into and hold the chamber 33 in, will seal in block 331 impresses and pop out the chamber 332, after depositing basin 35 and take out, second spring 333 pops out block 331 and seals drain 324, reduces the sewage seepage, avoids the waste of water resource, improves the water resource utilization ratio of intelligent greenhouse.

As a specific embodiment of the improvement, a water collecting tank 251 is further disposed in the room body 2, a mounting plate 71 is mounted on the water collecting tank 251, and a plurality of water collecting holes 711 are disposed on the mounting plate 71.

With the above arrangement, the water is collected by the water collection tank 251, discharged through the water discharge port 74, and introduced into the circulation water tank 32. The mounting plate 71 is placed on the water collection groove 251 to facilitate placement of the flowerpot 55 and also to facilitate entry of the dripping water into the water collection groove 251 through the water collection holes 711. The water collecting hole 711 is provided to facilitate the inflow of water into the water collecting groove 251 and prevent the water pipe from being clogged with too large impurities. The surplus water of discharge is favorable to keeping the environment in the room body 2, avoids the steam evaporation to lead to humidity to rise, and unnecessary steam condenses on the inner wall of the room body 2, influences the ornamental effect to influence the growth of flowers.

As a modified specific embodiment, a flowerpot 55 is further arranged in the house body 2, a heating layer 551 is arranged in the inner layer of the flowerpot 55, a water leakage hole 552 and a hollow rotating device 56 are arranged at the bottom of the flowerpot 55, the rotating device 56 comprises a connecting plate 561, a ball 562 and a backing plate 563, the connecting plate 561 is connected to the flowerpot 55, the backing plate 563 is fixed on the mounting plate 71, the ball 562 is arranged between the connecting plate 561 and the backing plate 563, and the water leakage hole 552 is bent in an N shape.

Through above-mentioned scheme, set up the hole 552 that leaks and avoid soil moisture too high to lead to the mashed root of flowers or cause other diseases, it is too fast too much to have to bend to avoid moisture flowing water in the flowerpot, and hole 552 that leaks is avoided plugging up in the cavity of rotary device 56, and the flowerpot is rotatable to be favorable to managing flowers, provides more comfortable service environment. The heating layer 551 is internally arranged, so that the temperature is directly and effectively increased, the waste is reduced, the flowers are protected, the influence of low temperature on the flowers is reduced, and the flowers can be planted in four seasons.

In a modified embodiment, the drain port 74 is tapered, and the circulation water tank 32 is further provided with a connection port 323 adapted to the drain port 74.

With the above configuration, the drain port 74 is inserted into the connection port 331. The conical design is not easy to leak water. The direct connection that communicates with each other reduces the water pipe, avoids leaking because of reasons such as the water pipe is ageing, and the water route pipeline can be strengthened in the direct connection and sealed.

As a modified specific embodiment, the water pump 34 is further provided with a water inlet pipe 341, the water inlet pipe 341 is U-shaped, and one end of the water inlet pipe 341 is connected to the bottom of the water storage tank 322.

Through the scheme, the U-shaped water inlet pipe 342 is convenient for water to flow into the pipe, the water collecting effect is enhanced, filtered water can be sent into the water tank 1 by the water pump 34 as far as possible, and the efficiency is improved.

As an improved specific embodiment, a photosensitive sensor 41, a temperature and humidity sensor 42, a soil humidity sensor 43, a light illuminator 53, a fan 52 and a heating pipe 54 are further arranged in the room body 2, the photosensitive sensor 41, the temperature and humidity sensor 42, the fan 52 and the heating pipe 54 are arranged on the side wall in the room body 2, the light illuminator 53 is arranged on the top in the room body 2, a processor 15 and a full liquid crystal display 13 are arranged on the water tank 1, the full liquid crystal display 13 is arranged on the side surface of the water tank 1, the processor 15 is electrically connected with the photosensitive sensor 41, the temperature and humidity sensor 42, the soil humidity sensor 43, the light illuminator 53, the fan 52, the control valve 24, the full liquid crystal display 13 and the heating pipe 54, and the control valve 24 is connected with a shower head 51.

Through the scheme, the processor 15 is used for controlling connection of the parts. An automatic light supplementing system is formed by the photosensitive sensor 41 and the illuminating lamp 53, and is adjusted and controlled by the processor 15, so that extra illumination is provided when the photosensitive sensor 41 senses insufficient illumination. The temperature and humidity sensor 42, the fan 52 and the heating pipe 54 are connected with the processor to form an automatic constant temperature and humidity system, the temperature and the humidity are kept in a proper range, and a proper culture environment is provided for cultured flowers. The environment in the greenhouse is monitored in real time, plant growth is facilitated, and prevention of plant diseases and insect pests is facilitated. The intelligent greenhouse can automatically adjust the temperature and the humidity, the temperature and the humidity which are most suitable for plants can be adjusted no matter how the environment is, the growth and the development of the plants are better promoted, manpower and material resources are saved, and the adjusting mode is efficient. The full liquid crystal display screen 13 is arranged on the water tank 1, and is high in position and convenient to operate. Set up soil moisture sensor 43 and directly gather soil data, the simplified operation, the humidity of soil in the control flowerpot 55 keeps humidity in suitable within range, provides suitable breed environment for the flowers of breed.

As a modified specific embodiment, the top of the room body 2 is provided with a fixing groove 23 for placing the water tank 1, the bottom of the room body 2 is provided with a fixing platform 25 matched with the bracket 3, the bottom of the water tank 1 is further provided with a first magnet 61, the fixing groove 23 is provided with a second magnet 62, and the first magnet 61 and the second magnet 62 attract each other.

Through above-mentioned scheme, unsmooth cooperation strengthens fixed effect. Connect through the mode of magnetism, firm in connection to convenient the change, be convenient for wash.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (9)

1. The utility model provides an intelligence greenhouse, characterized by: including water tank (1), the room body (2) and support (3), install on the room body (2) water tank (1), the room body (2) is fixed on support (3), the top of the room body (2) is provided with water inlet (21), water tank (1) is connected with water inlet (21), control valve (24) are installed to water inlet (21) department, the bottom of the room body (2) is provided with outlet (74), be provided with circulating water tank (32) on support (3), circulating water tank (32) are connected with outlet (74), be provided with in circulating water tank (32) and filter interlayer (31) and water pump (34), filter interlayer (31) and will circulate water tank (32) and separate out basin (321) and reservoir (322) that stew, the pond (321) of stewing is connected with precipitation basin (35), water pump (34) are installed in circulating water tank (32), a water outlet pipe (342) is connected to the water pump (34), and one end of the water outlet pipe (342) is connected to the water tank (1);

the bottom of circulation water tank (32) is provided with holds chamber (33), hold chamber (33) bottom edge and be provided with baffle (334), sediment basin (35) set up in holding chamber (33), sediment basin (35) are provided with handle (351), entry and pop-up interface (352), handle (351) set up on the outer wall of sediment basin (35), the entry is provided with spacing groove (353), be provided with first spring (354) in spacing groove (353), first spring (354) butt is on popping-up interface (352), the bottom slope of pond (321) of stewing to be provided with drain (324), drain (324) are provided with I-shaped piston (325), I-shaped piston (325) are provided with sealed lid (327) and two atress boards (326), sealed lid (327) set up the top at I-shaped piston (325), and is matched with the sewage draining outlet (324), and the two stress plates (326) are arranged at the bottom of the I-shaped piston (325) and abut against the pop-up interface (352).

2. The intelligent flower house of claim 1, wherein: filter interlayer (31) including separation board (311), filtration membrane (312), first division board (313) and second division board (314), separation board (311) set up between first division board (313) and second division board (314), separation board (311) are fixed on the top surface of circulating water tank (32) inboard to leave the clearance with the bottom surface of circulating water tank (32) inboard, first division board (313) and second division board (314) are fixed on the bottom surface of circulating water tank (32) inboard, and leave the clearance with the top surface of circulating water tank (32) inboard, filtration membrane (312) set up between first division board (313) and separation board (311) and between second division board (314) and separation board (311).

3. The intelligent flower house of claim 1, wherein: hold still to be provided with in chamber (33) and pop out chamber (332), it seals piece (331) to pop out to be provided with in chamber (332), it is connected with second spring (333) to seal piece (331), the one end butt of second spring (333) is on popping out the inner wall in chamber (332), seal piece (331) butt on precipitation basin (35), when precipitation basin (35) take out, seal piece (331) and seal drain (324).

4. The intelligent flower house of claim 1, wherein: still be provided with water catch bowl (251) in the room body (2), install mounting panel (71) on water catch bowl (251), be provided with a plurality of water collecting hole (711) on mounting panel (71).

5. The intelligent flower house of claim 4, wherein: still be provided with flowerpot (55) in the room body (2), the inlayer of flowerpot (55) is provided with zone of heating (551), the bottom of flowerpot (55) is provided with hole of leaking (552) and hollow rotary device (56), rotary device (56) are including connecting plate (561), ball (562) and backing plate (563), connecting plate (561) are connected on flowerpot (55), backing plate (563) are fixed on mounting panel (71), ball (562) set up between connecting plate (561) and backing plate (563), hole of leaking (552) are the N word and bend.

6. The intelligent flower house of claim 1, wherein: the water outlet (74) is conical, and the circulating water tank (32) is also provided with a connecting port (323) matched with the water outlet (74).

7. The intelligent flower house of claim 1, wherein: the water pump (34) is further provided with a water inlet pipe (341), the water inlet pipe (341) is U-shaped, and one end of the water inlet pipe (341) is connected to the bottom of the water storage tank (322).

8. The intelligent flower house of claim 1, wherein: the greenhouse is characterized in that a photosensitive sensor (41), a temperature and humidity sensor (42), a soil humidity sensor (43), a light illuminator (53), a fan (52) and a heating pipe (54) are further arranged in the house body (2), the photosensitive sensor (41), the temperature and humidity sensor (42), the fan (52) and the heating pipe (54) are arranged on the side wall in the house body (2), the light illuminator (53) is arranged on the top in the house body (2), a processor (15) and a full liquid crystal display (13) are arranged on the water tank (1), the full liquid crystal display (13) is arranged on the side face of the water tank (1), the processor (15) is electrically connected with the photosensitive sensor (41), the temperature and humidity sensor (42), the soil humidity sensor (43), the light illuminator (53), the fan (52), the control valve (24), the full liquid crystal display (13) and the heating pipe (54), the control valve (24) is connected with a shower head (51).

9. The intelligent flower house of claim 1, wherein: the top of the room body (2) is provided with fixed slot (23) that are used for placing water tank (1), the bottom of the room body (2) is provided with fixed station (25) with support (3) looks adaptation, the bottom of water tank (1) still is provided with first magnet (61), fixed slot (23) are provided with second magnet (62), first magnet (61) and second magnet (62) inter attraction.

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