CN215599124U - Ecological simulation device capable of automatically controlling water level - Google Patents

Abstract

The utility model provides an ecological simulation device capable of automatically controlling water level, which comprises an ecological simulation box device, a first supporting seat, a first anti-skid pad, an ecological carrier, a controller, a control switch, an adjusting and measuring seat structure, a first conveying pipe, a filter box structure, a water pump, a second conveying pipe, a control valve, a second supporting seat, a second anti-skid pad and a water storage tank, wherein the ecological carrier is placed on the lower right side inside the ecological simulation box device; the first supporting seats are respectively installed on the periphery of the lower end of the ecological simulation box device through bolts, and a first anti-skid pad is glued to the lower end of each first supporting seat; the controller bolt is installed on the front side of the upper portion of the right surface of the ecological simulation box device, and a control switch is embedded in the front end of the controller. The utility model has the beneficial effects that: through the setting of filter cartridge structure, absorb the department and carry out filtration treatment to water.

Description

Ecological simulation device capable of automatically controlling water level

Technical Field

The utility model belongs to the technical field of ecological simulation, and particularly relates to an ecological simulation device capable of automatically controlling water level.

Background

The ecological simulation refers to a research method for establishing a mathematical model of the ecological system and simulating the behavior and characteristics of the ecological system by applying the principle of system analysis, and the existing ecological simulation work can be directly carried out on an ecological simulation device, so that the simulation work can be realized more conveniently.

However, the existing ecological simulation device also has the problems that the existing ecological simulation device is not convenient to be matched with a water level to be detected for adjustment and is not convenient to be filtered when water is sucked.

Therefore, it is necessary to invent an ecological simulation device capable of automatically controlling water level.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides an ecological simulation device capable of automatically controlling a water level, so as to solve the problems that the existing ecological simulation device is inconvenient to be matched with a water level detection position for adjustment and use and is inconvenient to carry out filtration treatment during water suction. An ecological simulation device capable of automatically controlling water level comprises an ecological simulation box device, a first supporting seat, a first anti-skid pad, an ecological carrier, a controller, a control switch, an adjusting and measuring seat structure, a first conveying pipe, a filter box structure, a water pump, a second conveying pipe, a control valve, a second supporting seat, a second anti-skid pad and a water storage tank, wherein the ecological carrier is placed on the lower right side inside the ecological simulation box device; the first supporting seats are respectively installed on the periphery of the lower end of the ecological simulation box device through bolts, and a first anti-skid pad is glued to the lower end of each first supporting seat; the controller bolt is arranged on the front side of the upper part of the right surface of the ecological simulation box device, and a control switch is embedded in the front end of the controller; the adjusting and measuring seat structure is arranged at the upper left part of the inner wall of the ecological simulation box device; one end of the first conveying pipe is embedded in the upper part of the middle left side in front of the interior of the ecological simulation box device, and the other end of the first conveying pipe is connected with the water pump through a flange; the filter box structure is arranged at the rear end of the first conveying pipe; the left end of the water pump is connected with the second conveying pipe through a flange; the control valve is in threaded connection with the right lower side inside the water storage tank, and the right end of the control valve is in threaded connection with the left end of the second conveying pipe; the second supporting seats are respectively installed on the periphery of the lower end of the water storage tank through bolts, and a second anti-skid pad is glued to the lower end of each second supporting seat; the adjusting and measuring seat structure comprises a speed reducer, a lifting motor, a side plate dismounting structure, a threaded rod, a limiting rod, an assembling seat, a lifting slide block and a liquid level sensor, wherein the lifting motor is installed on a right bolt at the front end of the speed reducer; the dismounting side plate structure is arranged at the lower end of the speed reducer; the threaded rod is arranged on the left side of the upper end of the assembling seat through a bearing; the limiting rod bolt is arranged on the right side of the upper end of the assembling seat; the left side of the interior of the lifting slide block is in threaded connection with the threaded rod, and the right side of the interior of the lifting slide block is sleeved on the limiting rod; the liquid level sensor is installed in the middle of the interior of the lifting slide block through a bolt.

Preferably, the side plate structure comprises a support plate, a screw rod, a positioning nut, a first clamping plate, a second clamping plate and an anti-skid sleeve, wherein the screw rod is welded at the left end of the support plate; the positioning nut is in threaded connection with the outer wall of the screw rod, and an anti-skid sleeve is embedded in the outer wall of the positioning nut; the first clamping plate is welded on the right side of the outer wall of the screw; the second clamping plate is sleeved on the left side of the outer wall of the screw rod.

Preferably, the filter box structure comprises a corrugated pipe, a first connector, a connecting disc, a second connector, a two-stage telescopic rod, a suction hood and a protective net, wherein the first connector and the second connector are respectively embedded at the upper end and the lower end of the corrugated pipe; the connecting discs are respectively embedded on the outer walls of the first connector and the second connector; the upper end and the lower end of the two-stage telescopic rod are connected with the connecting disc through bolts; a second connector is embedded in the middle part inside the suction cover; the protective net bolt is arranged at the lower part of the inner wall of the suction hood.

Preferably, the lifting slide block is arranged in the long direction, the left side of the lifting slide block is movably supported through a threaded rod, and the right side of the lifting slide block is matched with the limiting rod.

Preferably, the left lower part of the speed reducer is in key connection with the upper end of the threaded rod, and the front end of the speed reducer is in key connection with the output shaft of the lifting motor.

Preferably, the speed reducer is installed on the upper end of the support plate through a bolt, the right side of the lower end of the support plate is connected with the limiting rod through a bolt, and the left side inside the support plate is provided with a threaded rod through a bearing.

Preferably, the first clamping plate and the second clamping plate are respectively sleeved at the upper left part of the outer wall of the ecological simulation box device and clamped and fixed.

Preferably, the upper end of the first connector is in threaded connection with the rear side of the upper right part of the first conveying pipe, the first connector is matched with the corrugated pipe to enable the suction hood at the lower end of the second connector to be hoisted on the left side inside the ecological simulation box device, and the protective net on the lower side inside the suction hood is an activated carbon net.

Preferably, the upper end and the lower end of the secondary telescopic rod are adjusted by matching the connecting discs with the corrugated pipe.

Compared with the prior art, the utility model has the beneficial effects that:

1. in the utility model, the threaded rod and the limiting rod are arranged to be matched with the liquid level sensor in the assembling seat to adjust the height of the assembling seat.

2. In the utility model, the speed reducer and the lifting motor are arranged and are matched with the threaded rod for rotating use.

3. In the utility model, the assembly seat and the support plate are arranged, and the auxiliary threaded rod and the limiting rod are assembled and movably supported.

4. In the utility model, the first clamping plate and the second clamping plate are arranged, so that the first clamping plate and the second clamping plate are convenient to disassemble, assemble and fix at a specified position.

5. In the utility model, the screw rod can be matched with the second clamping plate for movement and matched with the positioning nut for supporting and rotating.

6. In the utility model, the positioning nut and the anti-slip sleeve are arranged to be matched with the second clamping plate to move and fix the clamping position.

7. In the utility model, the arrangement of the suction cover and the protective net is used for filtering the water suction position.

8. According to the utility model, the arrangement of the corrugated pipe, the connecting disc and the two-stage telescopic rod drives the suction hood to realize lifting adjustment.

Drawings

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

Fig. 2 is a schematic structural diagram of an adjusting measuring seat structure of the utility model.

Fig. 3 is a schematic structural view of the detachable side plate structure of the present invention.

Fig. 4 is a schematic structural view of the filter cassette structure of the present invention.

In the figure:

1. an ecological simulation box device; 2. a first support base; 3. a first non-slip mat; 4. an ecological carrier; 5. a controller; 6. a control switch; 7. adjusting the structure of the measuring seat; 71. a speed reducer; 72. a lifting motor; 73. disassembling and assembling the side plate structure; 731. a support plate; 732. a screw; 733. positioning a nut; 734. a first splint; 735. a second splint; 736. an anti-slip sleeve; 74. a threaded rod; 75. a restraining bar; 76. assembling a seat; 77. a lifting slide block; 78. a liquid level sensor; 8. a first delivery pipe; 9. a filter cartridge structure; 91. a bellows; 92. a first connector; 93. a connecting disc; 94. a second connector; 95. a secondary telescopic rod; 96. a suction hood; 97. a protective net; 10. a water pump; 11. a second delivery pipe; 12. a control valve; 13. a second support seat; 14. a second non-slip mat; 15. a water storage tank.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

example (b):

as shown in fig. 1, an ecological simulation device capable of automatically controlling a water level comprises an ecological simulation box device 1, a first supporting seat 2, a first anti-skid pad 3, an ecological carrier 4, a controller 5, a control switch 6, an adjusting and measuring seat structure 7, a first conveying pipe 8, a filter box structure 9, a water pump 10, a second conveying pipe 11, a control valve 12, a second supporting seat 13, a second anti-skid pad 14 and a water storage tank 15, wherein the ecological carrier 4 is placed on the lower right side inside the ecological simulation box device 1; the first supporting seats 2 are respectively installed on the periphery of the lower end of the ecological simulation box device 1 through bolts, and the lower ends of the first supporting seats 2 are connected with first anti-skid pads 3 in a gluing mode; the controller 5 is mounted on the front side of the upper part of the right surface of the ecological simulation box device 1 through a bolt, and a control switch 6 is embedded in the front end of the controller 5; the adjusting and measuring seat structure 7 is arranged at the upper left part of the inner wall of the ecological simulation box device 1; one end of the first conveying pipe 8 is embedded in the middle upper part and the left upper part of the front part in the ecological simulation box device 1, and the other end of the first conveying pipe is connected with the water pump 10 through a flange; the filter box structure 9 is arranged at the rear end of the first delivery pipe 8; the left end of the water pump 10 is connected with a second conveying pipe 11 through a flange; driving the water pump 10 and opening the control valve 12 to make the water in the water storage tank 15 enter the ecological simulation tank device 1 for supplementation through the transportation of the second transportation pipe 11, the first transportation pipe 8 and the corrugated pipe 91; the control valve 12 is in threaded connection with the right lower side inside the water storage tank 15, and the right end of the control valve 12 is in threaded connection with the left end of the second conveying pipe 11; the second supporting seats 13 are respectively installed around the lower end of the water storage tank 15 through bolts, and the lower ends of the second supporting seats 13 are connected with second anti-skid pads 14 in an adhesive mode.

As shown in fig. 2, in the above embodiment, specifically, the adjusting and measuring seat structure 7 includes a speed reducer 71, a lifting motor 72, a side plate dismounting structure 73, a threaded rod 74, a limiting rod 75, an assembling seat 76, a lifting slider 77 and a liquid level sensor 78, and a right bolt at the front end of the speed reducer 71 is provided with the lifting motor 72 to drive the lifting motor 72 to cooperate with the speed reducer 71 to rotate the threaded rod 74; the dismounting side plate structure 73 is arranged at the lower end of the speed reducer 71; the threaded rod 74 is mounted on the left side of the upper end of the assembly seat 76 through a bearing; the rotating threaded rod 74 drives the lifting slide block 77 to be matched with the limiting rod 75 to realize lifting; the limiting rod 75 is mounted on the right side of the upper end of the assembling seat 76 through a bolt; the left side of the interior of the lifting slide block 77 is in threaded connection with the threaded rod 74, and the right side of the interior of the lifting slide block is sleeved on the limiting rod 75; the lifting slide block 77 cooperates with the liquid level sensor 78 to reach a proper position in the ecological simulation box device 1; the liquid level sensor 78 is bolted to the middle inside the elevator slide block 77.

As shown in fig. 3, in the above embodiment, specifically, the detachable side plate structure 73 includes a supporting plate 731, a screw 732, a positioning nut 733, a first clamping plate 734, a second clamping plate 735, and an anti-slip sleeve 736, and the screw 732 is welded to the left end of the supporting plate 731; the positioning nut 733 is in threaded connection with the outer wall of the screw 732, and an anti-skid sleeve 736 is embedded in the outer wall of the positioning nut 733; the first clamping plate 734 is matched with the second clamping plate 735 to be sleeved at the edge of the ecological simulation box device 1; the first clamping plate 734 is welded on the right side of the outer wall of the screw 732; the second clamping plate 735 is sleeved on the left side of the outer wall of the screw 732; the positioning nut 733 is rotated to move the second clamp plate 735 on the screw 732, so that the second clamp plate 735 cooperates with the first clamp plate 734 to clamp the edge of the ecological simulation box assembly 1 to complete the assembly.

As shown in fig. 4, in the above embodiment, specifically, the filter box structure 9 includes a corrugated pipe 91, a first connector 92, a connecting disc 93, a second connector 94, a two-stage telescopic rod 95, a suction hood 96 and a protective net 97, and the upper and lower ends of the corrugated pipe 91 are respectively embedded with the first connector 92 and the second connector 94; the connecting disc 93 is respectively embedded on the outer walls of the first connector 92 and the second connector 94; the upper end and the lower end of the two-stage telescopic rod 95 are connected with the connecting disc 93 through bolts; the length of the movable two-stage telescopic rod 95 is adjusted by matching with the corrugated pipe 91; a second connector 94 is embedded in the middle part inside the suction cover 96; the protective net 97 is mounted on the lower part of the inner wall of the suction hood 96 through bolts; the secondary expansion link 95 drives the suction hood 96 to reach a proper height in the ecological simulation box device 1, and then bolts at the connection of the secondary expansion link 95 are screwed to fix and complete adjustment.

In the above embodiment, specifically, the lifting motor 72 is a 5IK90A-CF type motor, and the liquid level sensor 78 is a QDY30A-N type liquid level sensor.

Principle of operation

The working principle of the utility model is as follows: the lifting motor 72 is driven to cooperate with the speed reducer 71 to rotate the threaded rod 74 before use, the rotating threaded rod 74 drives the lifting slide block 77 to cooperate with the limiting rod 75 to realize lifting, the lifting slide block 77 cooperates with the liquid level sensor 78 to reach a proper position in the ecological simulation box device 1 during lifting, when the water level of the ecological simulation box device 1 is lowered below the liquid level sensor 78 in use, the water pump 10 is driven and the control valve 12 is opened to enable water in the water storage tank 15 to enter the ecological simulation box device 1 for replenishment through the conveying of the second conveying pipe 11, the first conveying pipe 8 and the corrugated pipe 91, when the water in the ecological simulation box device 1 needs to be discharged, the water pump 10 is driven and the control valve 12 is opened to enable the water in the ecological simulation box device 1 to be sucked through the suction cover 96 and to cooperate with the corrugated pipe 91, the first conveying pipe 8 and the second conveying pipe 11 to enter the water storage tank 15 for work, when the ecological simulation box device is not used and is assembled in an adjusting mode, the movable secondary expansion link 95 is matched with the corrugated pipe 91 to adjust the length of the corrugated pipe, so that the suction hood 96 is driven to reach a proper height position in the ecological simulation box device 1, then the bolt at the joint of the secondary expansion link 95 is screwed to complete adjustment, the first clamping plate 734 is matched with the second clamping plate 735 to be sleeved on the edge of the ecological simulation box device 1, then the positioning nut 733 is rotated to drive the second clamping plate 735 to move on the screw 732, and therefore the second clamping plate 735 is matched with the first clamping plate 734 to clamp the edge of the ecological simulation box device 1 to complete assembly.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (8)

1. The ecological simulation device capable of automatically controlling the water level is characterized by comprising an ecological simulation box device (1), a first supporting seat (2), a first anti-skid pad (3), an ecological carrier (4), a controller (5), a control switch (6), an adjusting and measuring seat structure (7), a first conveying pipe (8), a filter box structure (9), a water pump (10), a second conveying pipe (11), a control valve (12), a second supporting seat (13), a second anti-skid pad (14) and a water storage tank (15), wherein the ecological carrier (4) is placed on the lower right side inside the ecological simulation box device (1); the first supporting seats (2) are respectively installed on the periphery of the lower end of the ecological simulation box device (1) through bolts, and the lower ends of the first supporting seats (2) are connected with first anti-skid pads (3) in an adhesive mode; the controller (5) is installed on the front side of the upper part of the right surface of the ecological simulation box device (1) through bolts, and a control switch (6) is embedded in the front end of the controller (5); the adjusting and measuring seat structure (7) is arranged at the upper left part of the inner wall of the ecological simulation box device (1); one end of the first conveying pipe (8) is embedded in the upper part of the middle left side in front of the interior of the ecological simulation box device (1), and the other end of the first conveying pipe is connected with the water pump (10) through a flange; the filter box structure (9) is arranged at the rear end of the first conveying pipe (8); the left end of the water pump (10) is connected with a second conveying pipe (11) through a flange; the control valve (12) is in threaded connection with the right lower side inside the water storage tank (15), and the right end of the control valve (12) is in threaded connection with the left end of the second conveying pipe (11); the second supporting seats (13) are respectively installed on the periphery of the lower end of the water storage tank (15) through bolts, and a second anti-skid pad (14) is glued to the lower end of each second supporting seat (13); the adjusting and measuring seat structure (7) comprises a speed reducer (71), a lifting motor (72), a dismounting side plate structure (73), a threaded rod (74), a limiting rod (75), an assembling seat (76), a lifting slide block (77) and a liquid level sensor (78), wherein the lifting motor (72) is installed on a right bolt at the front end of the speed reducer (71); the dismounting side plate structure (73) is arranged at the lower end of the speed reducer (71); the threaded rod (74) is arranged on the left side of the upper end of the assembling seat (76) through a bearing; the limiting rod (75) is mounted on the right side of the upper end of the assembling seat (76) through a bolt; the left side of the interior of the lifting slide block (77) is in threaded connection with the threaded rod (74), and the right side of the interior of the lifting slide block is sleeved on the limiting rod (75); the liquid level sensor (78) is installed in the middle of the interior of the lifting slide block (77) through bolts.

2. The ecological simulation apparatus capable of automatically controlling a water level according to claim 1, wherein the elevation slider (77) is provided in a long direction, the left side of the elevation slider (77) is movably supported by a screw rod (74), and the right side of the elevation slider (77) is adapted by a restriction rod (75).

3. The ecological simulation apparatus capable of automatically controlling a water level according to claim 1, wherein a lower left portion of the decelerator (71) is keyed with an upper end of the threaded rod (74), and a front end of the decelerator (71) is keyed with an output shaft of the elevating motor (72).

4. The ecological simulation device capable of automatically controlling the water level according to claim 1, wherein the detachable side plate structure (73) comprises a support plate (731), a screw rod (732), a positioning nut (733), a first clamping plate (734), a second clamping plate (735) and an anti-skid sleeve (736), the screw rod (732) is welded at the left end of the support plate (731); the positioning nut (733) is in threaded connection with the outer wall of the screw (732), and an anti-skid sleeve (736) is embedded in the outer wall of the positioning nut (733); the first clamping plate (734) is welded on the right side of the outer wall of the screw (732); the second clamping plate (735) is sleeved on the left side of the outer wall of the screw rod (732).

5. The ecological simulation apparatus capable of automatically controlling a water level according to claim 4, wherein a decelerator (71) is bolt-installed at an upper end of the support plate (731), a right side of a lower end of the support plate (731) is bolt-connected to a limiting rod (75), a threaded rod (74) is installed at a left side inside the support plate (731) through a bearing, and the first clamping plate (734) and the second clamping plate (735) are respectively sleeved at an upper left portion of an outer wall of the ecological simulation tank apparatus (1) and are clamped and fixed.

6. The ecological simulation device capable of automatically controlling the water level according to claim 1, wherein the filter box structure (9) comprises a corrugated pipe (91), a first connector (92), a connecting disc (93), a second connector (94), a secondary expansion link (95), a suction hood (96) and a protective screen (97), wherein the first connector (92) and the second connector (94) are respectively embedded at the upper end and the lower end of the corrugated pipe (91); the connecting disc (93) is respectively embedded on the outer walls of the first connector (92) and the second connector (94); the upper end and the lower end of the two-stage telescopic rod (95) are connected with the connecting disc (93) through bolts; a second connector (94) is embedded in the middle part inside the suction cover (96); the protective net (97) is mounted at the lower part of the inner wall of the suction cover (96) by bolts.

7. The ecological simulation device capable of automatically controlling the water level according to claim 6, wherein the upper end of the first connector (92) is connected with the rear side of the right upper part of the first conveying pipe (8) in a threaded manner, the first connector (92) is matched with the corrugated pipe (91) to enable the suction hood (96) at the lower end of the second connector (94) to be hung at the left side inside the ecological simulation box device (1), and the protective net (97) at the lower side inside the suction hood (96) is made of activated carbon net.

8. The ecological simulation apparatus capable of automatically controlling a water level according to claim 6, wherein the upper and lower ends of the secondary expansion link (95) are adjusted by a connection plate (93) in cooperation with the bellows (91).

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