CN217509698U - Circulating water intelligent control system - Google Patents

Abstract

The utility model discloses a circulating water intelligence control system, including cylinder body and purifying box, cylinder body inner wall left surface fixed connection has the detector, the purifying box is installed in the cylinder body left side, and purifying box top fixedly connected with inlet tube, inlet tube right part lower extreme fixedly connected with suction inlet, and suction inlet below fixedly connected with screen cloth, it purifies the chamber to have seted up in the purifying box, and purifies chamber left side gomphosis and be connected with the shrouding, shrouding right side surface upper portion fixedly connected with crosses the filter frame, and crosses the filter frame below and be provided with the disinfection frame, disinfection frame below is provided with the purification frame, bilateral symmetry is provided with fixed subassembly about the shrouding, the purifying box rear is provided with the subassembly that adds oxygen, the pressurizing assembly top is provided with the outlet pipe. The utility model discloses a cooperation between each part for when carrying out circulation treatment to fish bowl water, can filter the impurity of aquatic earlier and purify, send back the fish bowl again, avoid the impurity to cause the jam to the device.

Description

Circulating water intelligent control system

Technical Field

The utility model relates to a hydrologic cycle control technical field specifically is a circulating water intelligence control system.

Background

The circulating water system is a device for filtering and purifying water and then reusing the water, so that the water resource can be reused, the water resource is saved, a large circulating water system is mostly used in the industry, a small water circulating system is mostly used in the breeding industry, and people usually equip the water circulating system when using the fish tank to clean and circulate the water in the fish tank.

Most of existing water circulation systems place a purification device at a water outlet, so that impurities in water can enter a water pump to cause blockage or corrosion of the water pump.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a circulating water intelligence control system to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a circulating water intelligence control system, includes cylinder body and purifying box, cylinder body inner wall left surface fixedly connected with detector, the purifying box is installed in the cylinder body left side, and purifying box top fixedly connected with inlet tube, inlet tube right part lower extreme fixedly connected with suction inlet, and suction inlet below fixedly connected with screen cloth, seted up the purification chamber in the purifying box, and purify chamber left side gomphosis and be connected with the shrouding, shrouding right side surface upper portion fixedly connected with crosses the filter frame, and crosses the filter frame below and be provided with the disinfection frame, disinfection frame below is provided with the purification frame, bilateral symmetry is provided with fixed subassembly about the shrouding, the purifying box rear is provided with the oxygenation subassembly, and is provided with the pressurization subassembly at oxygenation subassembly rear, the pressurization subassembly top is provided with the outlet pipe.

Further, fixed subassembly includes card chamber, card hole, draw-in groove, jump ring, cardboard and fixture block, the card hole has been seted up to card intracavity side, and the draw-in groove has been seted up to card chamber left, card intracavity fixedly connected with jump ring, and the jump ring is close to the one end fixedly connected with cardboard in card hole, cardboard left side fixedly connected with fixture block.

Furthermore, the clamping plate is connected with the sealing plate in a clamping mode through a clamping groove, and the clamping plate is elastically connected with the clamping cavity through a clamping spring.

Further, the oxygenation subassembly includes underframe, passageway, air inlet, spring, sealing plug and litter, set up the passageway in the underframe, and the air inlet has been seted up to the passageway top, fixedly connected with spring in the air inlet, and spring lower extreme fixedly connected with sealing plug, the inboard laminating of spring is provided with the litter.

Furthermore, the sealing plug is connected with the air inlet in an embedded mode, and the sliding rod is connected with the bottom frame in a sliding mode through the sealing plug.

Further, the pressurizing assembly comprises a pressurizing shell, a water inlet, a check plate, a pressurizing wheel, a motor and a water outlet, the water inlet is formed in the front of the pressurizing shell, the check plate is fixedly connected to the rear of the water inlet, the pressurizing wheel is arranged in the pressurizing shell, the motor is fixedly connected to the rear of the pressurizing wheel, and the water outlet is formed in the upper portion of the pressurizing shell.

Furthermore, the pressure wheel is rotationally connected with the pressure shell through a motor, and the motor is fixedly connected with the cylinder body.

The utility model provides a circulating water intelligence control system possesses following beneficial effect:

1. the utility model discloses a setting of purifying box makes when carrying out the circulation treatment to fish bowl water, the inlet tube can be through the suction inlet with water suction purifying box in, the screen cloth can avoid the fish to get into the suction inlet, after water gets into purifying box, be carried out impurity filtering, sterilization and flavor removal by filter frame, disinfection frame and purifying frame in proper order, the fixed subassembly can be fixed filter frame, disinfection frame and purifying frame through the shrouding to seal the purification chamber, avoid water to ooze from the purification chamber;

2. the utility model discloses a setting up of oxygenation subassembly for when fish bowl water flows in the passageway, the sealing plug can be pulled down to the pressure differential, and the air gets into the passageway from the air inlet, and mixes with fish bowl water, thereby adds oxygen to it, and after rivers got into the air inlet lower extreme, the pressure differential reduced, and the spring drove the sealing plug and kick-backs, blocks up the air inlet, avoids water to flow out from the air inlet, and the litter can restrict the sealing plug, avoids the sealing plug incline to lead to can't sealing the air inlet;

3. the utility model discloses a setting of pressurization subassembly for after the detector detects the water quality variation, can the starter motor, make the motor drive the forcing wheel and rotate, thereby with fish bowl water suction pressurization shell in, the forcing wheel air is merged into the aquatic and is pressurizeed water with higher speed, follow the outlet pipe again and discharge into the fish bowl, accomplish the hydrologic cycle, and the check board can avoid appearing the condition that rivers flow backwards.

Drawings

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

fig. 2 is an enlarged schematic structural view of a point a in fig. 1 according to the present invention;

fig. 3 is a schematic sectional left side view of the present invention;

fig. 4 is an enlarged schematic structural view of the utility model at the position B in fig. 3;

fig. 5 is a schematic view of the sealing plate structure of the present invention.

In the figure: 1. a cylinder body; 2. a detector; 3. a purification box; 4. a water inlet pipe; 5. a suction port; 6. screening a screen; 7. a purification chamber; 8. closing the plate; 9. a filter frame; 10. a sterilizing frame; 11. a purification frame; 12. a fixing assembly; 1201. a card cavity; 1202. a clamping hole; 1203. a card slot; 1204. a clamp spring; 1205. clamping a plate; 1206. a clamping block; 13. an oxygenation assembly; 1301. a bottom frame; 1302. a channel; 1303. an air inlet; 1304. a spring; 1305. a sealing plug; 1306. a slide rod; 14. a pressurizing assembly; 4101. pressurizing the shell; 1402. a water inlet; 1403. a check plate; 1404. a pressure wheel; 1405. a motor; 1406. a water outlet; 15. and (5) discharging a water pipe.

Detailed Description

As shown in figures 1-5, an intelligent control system for circulating water comprises a cylinder body 1 and a purification box 3, wherein a detector 2 is fixedly connected to the left surface of the inner wall of the cylinder body 1, the purification box 3 is installed on the left side of the cylinder body 1, a water inlet pipe 4 is fixedly connected to the upper side of the purification box 3, a suction port 5 is fixedly connected to the lower end of the right portion of the water inlet pipe 4, a screen 6 is fixedly connected to the lower portion of the suction port 5, a purification cavity 7 is formed in the purification box 3, a sealing plate 8 is connected to the left side of the purification cavity 7 in an embedded mode, a filter frame 9 is fixedly connected to the upper portion of the right surface of the sealing plate 8, a disinfection frame 10 is arranged below the filter frame 9, a purification frame 11 is arranged below the disinfection frame 10, fixing assemblies 12 are symmetrically arranged on the upper side and the lower side of the sealing plate 8, an oxygenation assembly 13 is arranged behind the purification box 3, a pressurizing assembly 14 is arranged behind the oxygenation assembly 13, a water outlet pipe 15 is arranged above the pressurizing assembly 14, the fixing assembly 12 comprises a clamping cavity, A clamping hole 1202, a clamping groove 1203, a clamping spring 1204, a clamping plate 1205 and a clamping block 1206, wherein the clamping hole 1202 is formed in the inner side of the clamping cavity 1201, the clamping groove 1203 is formed in the left side of the clamping cavity 1201, the clamping spring 1204 is fixedly connected in the clamping cavity 1201, the clamping plate 1205 is fixedly connected at one end, close to the clamping hole 1202, of the clamping spring 1204, the clamping plate 1206 is fixedly connected at the left side of the clamping plate 1205, the clamping plate 1205 is connected with the sealing plate 8 in a clamping mode through the clamping groove 1203 in a clamping mode, the clamping plate 1205 is elastically connected with the clamping cavity 1201 through the clamping spring 1204, through the arrangement of the purification box 3, when the fish tank water is circularly treated, the water inlet pipe 4 can suck the water into the purification box 3 through the suction port 5, the screen 6 can prevent fish from entering the suction port 5, and after the water enters the purification box 3, the filtration frame 9, the disinfection frame 10 and the purification frame 11 to be subjected to impurity filtering, sterilization and odor removal, the fixed component 12 can fix the filtration frame 9, the disinfection frame 10 and the purification frame 11 through the sealing plate 8, and the purification cavity 7 is sealed, so that water is prevented from seeping out of the purification cavity 7.

As shown in fig. 2 and 4, the oxygenation assembly 13 includes a bottom frame 1301, a passage 1302, an air inlet 1303, a spring 1304, a sealing plug 1305 and a sliding rod 1306, the passage 1302 is opened in the bottom frame 1301, the air inlet 1303 is opened above the passage 1302, the spring 1304 is fixedly connected in the air inlet 1303, the sealing plug 1305 is fixedly connected to the lower end of the spring 1304, the sliding rod 1306 is attached to the inner side of the spring 1304, the sealing plug 1305 is connected with the air inlet 1303 in a fitting manner, and the sliding rod 1306 is slidably connected with the bottom frame 1301 through the sealing plug 1305, so that when aquarium water flows in the passage 1302 through the arrangement of the oxygenation assembly 13, the sealing plug 1305 can be pulled down by pressure difference, air enters the passage 1302 from the air inlet 1303 and is mixed with aquarium water, so as to oxygenate the aquarium water, and when water flows into the lower end of the air inlet 1303, the pressure difference is reduced, the spring 1304 drives the sealing plug 1305 to rebound, so as to block the air inlet 1303, and prevent water from flowing out of the air inlet 1303, the rod 1306 restrains the sealing 1305 to prevent the sealing 1305 from deflecting and failing to seal the inlet 1303.

As shown in fig. 2 and 4, the pressurizing assembly 14 includes a pressurizing housing 4101, a water inlet 1402, a check plate 1403, a pressurizing wheel 1404, a motor 1405 and a water outlet 1406, the water inlet 1402 is opened in front of the pressurizing housing 4101, a check plate 1403 is fixedly connected to the rear of the water inlet 1402, a pressurizing wheel 1404 is arranged in the pressurizing shell 4101, a motor 1405 is fixedly connected with the rear part of the pressurizing wheel 1404, a water outlet 1406 is arranged above the pressurizing shell 4101, the pressurizing wheel 1404 is rotationally connected with the pressurizing shell 4101 through the motor 1405, and the motor 1405 is fixedly connected with the cylinder body 1, so that when the detector 2 detects that the water quality is poor through the arrangement of the pressurizing assembly 14, the motor 1405 can be activated, such that the motor 1405 drives the pressure wheel 1404 to rotate, thereby pumping the water in the fish tank into the pressurizing housing 4101, the pressurizing wheel 1404 accelerates the air to be melted into the water and pressurizes the water, and then the water is discharged into the fish tank from the water outlet pipe 15, thereby completing the water circulation, and the check plate 1403 can avoid the situation of water flow backflow.

To sum up, this circulating water intelligence control system, when using, at first according to the structure shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, after the detector 2 detects the quality of water variation back detector model is DD-SDJ, start motor 1405, make motor 1405 drive the pressure wheel 1404 to rotate, thus draw fish bowl water into inlet tube 4 from suction port 5, screen cloth 6 can avoid the fish to get into suction port 5, water gets into purifying box 3 from inlet tube 4, be filtered frame 9 successively, disinfection frame 10 and purification frame 11 and carry out impurity filtering, sterilization and deodorization by filtration frame 9, disinfection frame 10 and purification frame 11, the cardboard 1205 is fixed through the card hole 1202 under the effect of jump ring 1204 to shrouding 1202, thus fix filtration frame 9, disinfection frame 10 and purification frame 11, and seal purifying chamber 7, avoid water oozing from purifying chamber 7, when needing to filter frame 9, disinfection frame 10 and purification frame 11 to change, slide in the draw the cardboard 1205 into the card hole 1202 in the draw-in card groove 1203, then, the filter frame 9, the disinfection frame 10 and the purification frame 11 are drawn out of the purification cavity 7 through the seal plate 8 for cleaning and replacement, after water enters the bottom frame 1301, the sealing plug 1305 is pulled down by pressure difference generated when water in the fish tank flows in the channel 1302, air enters the channel 1302 from the air inlet 1303 and is mixed with the water in the fish tank, so that the water is oxygenated, when the water flow enters the lower end of the air inlet 1303, the pressure difference is reduced, the spring 1304 drives the sealing plug 1305 to rebound to block the air inlet 1303, so that the water is prevented from flowing out of the air inlet 1303, the sliding rod 1306 can limit the sealing plug 1305 and prevent the air inlet 1303 from being sealed due to the deflection of the sealing plug 1305, after the water enters the pressurization shell 1401, the pressurization wheel 1404 accelerates the air to be blended into the water and pressurizes the water, and then the water is discharged into the fish tank from the water outlet pipe 15, so that water circulation is completed, and the check plate 1403 can prevent the water flow from occurring.

Claims (7)

1. The circulating water intelligent control system comprises a cylinder body (1) and a purification box (3), and is characterized in that a detector (2) is fixedly connected to the left surface of the inner wall of the cylinder body (1), the purification box (3) is installed on the left side of the cylinder body (1), a water inlet pipe (4) is fixedly connected to the upper side of the purification box (3), a suction port (5) is fixedly connected to the lower end of the right portion of the water inlet pipe (4), a screen (6) is fixedly connected to the lower portion of the suction port (5), a purification cavity (7) is formed in the purification box (3), a sealing plate (8) is connected to the left side of the purification cavity (7) in an embedded mode, a filter frame (9) is fixedly connected to the upper portion of the right surface of the sealing plate (8), a disinfection frame (10) is arranged below the filter frame (9), a purification frame (11) is arranged below the disinfection frame (10), and fixing assemblies (12) are symmetrically arranged on the upper side and the lower side of the sealing plate (8), an oxygenation assembly (13) is arranged behind the purification box (3), a pressurizing assembly (14) is arranged behind the oxygenation assembly (13), and a water outlet pipe (15) is arranged above the pressurizing assembly (14).

2. The circulating water intelligent control system of claim 1, wherein the fixing component (12) comprises a clamping cavity (1201), a clamping hole (1202), a clamping groove (1203), a clamping spring (1204), a clamping plate (1205) and a clamping block (1206), the clamping hole (1202) is formed in the inner side of the clamping cavity (1201), the clamping groove (1203) is formed in the left side of the clamping cavity (1201), the clamping spring (1204) is fixedly connected in the clamping cavity (1201), the clamping plate (1205) is fixedly connected to one end, close to the clamping hole (1202), of the clamping spring (1204), and the clamping block (1206) is fixedly connected to the left side of the clamping plate (1205).

3. The intelligent control system for the circulating water as claimed in claim 2, wherein the clamping plate (1205) is connected with the closing plate (8) in a clamping manner through a clamping groove (1203), and the clamping plate (1205) is elastically connected with the clamping cavity (1201) through a clamping spring (1204).

4. The circulating water intelligent control system of claim 1, wherein the oxygenation assembly (13) comprises a bottom frame (1301), a channel (1302), an air inlet (1303), a spring (1304), a sealing plug (1305) and a slide rod (1306), the channel (1302) is formed in the bottom frame (1301), the air inlet (1303) is formed above the channel (1302), the spring (1304) is fixedly connected in the air inlet (1303), the sealing plug (1305) is fixedly connected to the lower end of the spring (1304), and the slide rod (1306) is arranged on the inner side of the spring (1304) in a fitting manner.

5. A circulating water intelligent control system as claimed in claim 4, wherein the sealing plug (1305) is connected with the air inlet (1303) in a jogged manner, and the slide rod (1306) is connected with the bottom frame (1301) in a sliding manner through the sealing plug (1305).

6. The intelligent control system for circulating water of claim 1, wherein the pressurizing assembly (14) comprises a pressurizing shell (4101), a water inlet (1402), a check plate (1403), a pressurizing wheel (1404), a motor (1405) and a water outlet (1406), the water inlet (1402) is formed in front of the pressurizing shell (4101), the check plate (1403) is fixedly connected to the rear of the water inlet (1402), the pressurizing wheel (1404) is arranged in the pressurizing shell (4101), the motor (1405) is fixedly connected to the rear of the pressurizing wheel (1404), and the water outlet (1406) is formed in the upper portion of the pressurizing shell (4101).

7. A circulating water intelligent control system as claimed in claim 6, wherein the pressure wheel (1404) is rotatably connected with the pressure shell (4101) through a motor (1405), and the motor (1405) is fixedly connected with the cylinder (1).

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