CN111622300B - Intelligent variable-frequency water supply equipment with self-cleaning function - Google Patents

Abstract

The invention discloses intelligent variable-frequency water supply equipment with a self-cleaning function, which comprises a water storage tank, a fixed underframe and a lifting sleeve frame, wherein the lifting sleeve frame is movably arranged in the water storage tank, two groups of second brush rods are movably sleeved on the outer surface of the lifting sleeve frame, two groups of first brush rods are movably arranged on one side, close to the second brush rods, of the outer surface of the lifting sleeve frame, a lifting sleeve ring is fixedly arranged at the middle position of the inner side of the lifting sleeve frame, a threaded column is fixedly arranged at the middle position in the water storage tank, the lifting sleeve frame and the water storage tank are movably connected through the threaded column and the lifting sleeve ring, two groups of first support rods are fixedly arranged between the lifting sleeve frame and the lifting sleeve ring, and a second support rod is fixedly arranged on one side, close to the first support rods, between the lifting sleeve frame and the lifting sleeve; make this frequency conversion water supply equipment have automatically cleaning structure, make its water tank clearance operation more convenient, reduce user's operating procedure, promote the water supply quality.

Description

Intelligent variable-frequency water supply equipment with self-cleaning function

Technical Field

The invention belongs to the technical field of water supply equipment, and particularly relates to intelligent variable-frequency water supply equipment with a self-cleaning function.

Background

This intelligent frequency conversion water supply equipment with self-cleaning function is one kind and installs in high-rise building, carries out the frequency conversion water supply equipment of secondary water supply operation to its resident, utilizes this frequency conversion water supply equipment can be through the pressure boost mode, carries the water to high-rise user.

Compared with the dual-core full-frequency-conversion energy-saving water supply equipment disclosed by the reference document CN204983033U, the device comprises a non-negative-pressure water supply equipment body, a steady flow tank is arranged in the non-negative-pressure water supply equipment body, the steady flow tank is connected with a pump group formed by connecting at least two independently controlled pumps in parallel, each pump is respectively connected with a frequency converter internally provided with a PID closed-loop controller, the frequency converter is connected with a controller, a user side connecting trunk line of the non-negative-pressure water supply equipment body is provided with two pressure transmitters, the two pressure transmitters are respectively connected with a signal isolator, and the signal isolator is connected with the frequency converter.

The intelligent variable-frequency water supply equipment with the self-cleaning function has certain defects in the use process, the water tank part of the traditional variable-frequency water supply equipment adopts the traditional tank body type structural design, so that the water tank of the variable-frequency water supply equipment only has a single water storage function, partial pollutants can be generated in the water tank of the variable-frequency water supply equipment in the long-time use process of the variable-frequency water supply equipment, the traditional variable-frequency water supply equipment does not have the self-cleaning function, the cleaning operation needs to be carried out on the interior of the water tank of the variable-frequency water supply equipment in a manual mode, and the sanitary condition of the variable-frequency water supply; secondly, the traditional variable-frequency water supply equipment is not provided with a cleaning and adjusting structure, so that the cleaning structure cannot be used in water tanks with different sizes, and the flexibility of the cleaning structure in use is reduced; meanwhile, the traditional variable-frequency water supply equipment cannot be assembled and installed, the difficulty in assembling and disassembling the cleaning structure in the variable-frequency water supply equipment is increased, and certain adverse effects are brought to a user.

Disclosure of Invention

In order to overcome the defect that the water tank part of the traditional variable-frequency water supply equipment adopts a traditional tank body type structural design, so that the water tank of the variable-frequency water supply equipment only has a single water storage function, partial pollutants can be generated in the water tank of the variable-frequency water supply equipment in the long-time use process of the variable-frequency water supply equipment, the traditional variable-frequency water supply equipment does not have a self-cleaning function, the interior of the water tank of the variable-frequency water supply equipment needs to be cleaned manually, and the sanitary condition of the variable-frequency water supply equipment in use is reduced; secondly, the traditional variable-frequency water supply equipment is not provided with a cleaning and adjusting structure, so that the cleaning structure cannot be used in water tanks with different sizes, and the flexibility of the cleaning structure in use is reduced; meanwhile, the traditional variable-frequency water supply equipment cannot be assembled and installed, the difficulty in assembling and disassembling the cleaning structure in the variable-frequency water supply equipment is increased, and the intelligent variable-frequency water supply equipment with the self-cleaning function is provided.

The purpose of the invention is realized by the following technical scheme:

an intelligent frequency conversion water supply device with a self-cleaning function comprises a water storage tank, a fixed bottom frame and a lifting sleeve frame, wherein the lifting sleeve frame is movably arranged in the water storage tank, two groups of second brush rods are sleeved on the outer surface of the lifting sleeve frame, two groups of first brush rods are movably arranged on one side, close to the second brush rods, of the outer surface of the lifting sleeve frame, a lifting sleeve ring is fixedly arranged on the middle position of the inner side of the lifting sleeve frame, a threaded column is fixedly arranged on the middle position of the inner part of the water storage tank, the lifting sleeve frame is movably connected with the water storage tank through the threaded column, two groups of first support rods are fixedly arranged between the lifting sleeve frame and the lifting sleeve ring, a second support rod is fixedly arranged on one side, close to the first support rods, between the lifting sleeve frame and the lifting sleeve ring, the first brush rods, the second brush rods and the lifting sleeve frame are movably connected through rotating rods, the inboard equal activity of second die-pin and first die-pin has cup jointed first sleeve, the inboard activity of dwang has cup jointed the second sleeve, water storage box fixed mounting is on the upper portion of fixed chassis.

As a further scheme of the invention, first clamping angles are fixedly arranged at four corners of the lifting sleeve frame, second clamping angles are fixedly arranged on the outer surfaces of the first clamping angles, rolling balls are movably sleeved between the first clamping angles and the second clamping angles, rotating grooves are respectively formed in the inner sides of the first clamping angles and the inner sides of the second clamping angles, and the first clamping angles and the second clamping angles are movably connected through the rotating grooves and the rolling balls.

As a further scheme of the invention, a second clamping pin is fixedly installed on the outer surface of one end of the first clamping corner, a second clamping groove is formed in the inner surface of one end of the second clamping corner, the first clamping corner and the second clamping corner are fixedly connected through the second clamping groove and the second clamping pin, a fixed clamping bolt is fixedly sleeved on the inner side of the second clamping groove, and cylindrical connecting grooves are formed in the inner sides of the other ends of the first clamping corner and the second clamping corner.

As a further scheme of the invention, the integral structures of the first support rod and the second support rod are both cylindrical two-section structures, one ends of the first support rod and the second support rod are fixedly connected with the lifting lantern ring through welding, a threaded groove is formed in the inner side of the lifting lantern ring, a splicing base is fixedly installed on the inner surface of the water storage tank, and a rotary clamping groove is formed in the inner side of the upper end of the splicing base.

As a further scheme of the invention, a rotating connecting rod is fixedly arranged on the outer surface of the lower end of the threaded column, a connecting pin is fixedly arranged on the outer surface of the top end of the threaded column, a limiting groove is formed in the inner side of the connecting pin, the threaded column and the splicing base are movably connected through the rotating connecting rod and the rotating clamping groove, a hinge is arranged on the inner side of the splicing base, a first clamping pin is arranged on the inner surface of the splicing base, and the splicing base is fixedly butted with the first clamping groove through the first clamping pin.

As a further scheme of the invention, the outer surface of the side edge of the water storage tank is fixedly provided with a fixed frame, the bottom of the fixed frame is fixedly provided with a connecting rod, the fixed frame is fixedly connected with a fixed underframe through the connecting rod, the bottom of the fixed underframe is fixedly provided with three groups of supporting foot frames, and the number of the supporting foot frames is three.

As a further scheme of the invention, the integral structure of the water storage tank is a cuboid hollow structure, a water inlet pipe is fixedly sleeved on the outer surface of the side edge of the water storage tank, a communicating pipe is fixedly installed on the outer surface of the side edge of the water storage tank, which is close to the lower part of the water inlet pipe, and the communicating pipe, the water inlet pipe and the water storage tank are fixedly butted through a butt joint chuck.

As a further scheme of the invention, the outer surface of the top end of the water storage tank is fixedly provided with the motor, one side of the top end of the water storage tank, which is close to the motor, is movably provided with the sealing top cover, the water storage tank and the sealing top cover are movably connected through the connecting rotating shaft, three groups of drain pipes are fixedly arranged on one side of the upper part of the fixed underframe, which is close to the water storage tank, and the drain pipes and the communicating pipe are fixedly sleeved through the sleeve.

As a further scheme of the invention, the top end of the water storage tank is fixedly provided with combined covers at the other side close to the motor, and the number of the combined covers is three.

As a further scheme of the invention, the specific using operation steps of the equipment are;

the method comprises the following steps that firstly, a water inlet pipe of a water storage tank is butted with an external water pipe, so that water is discharged into the water storage tank through the water inlet pipe, the water in the water storage tank is pumped out through a water pump matched with a communicating pipe, and meanwhile, the water pumped out through the communicating pipe is shunted through a water discharge pipe;

step two, after the water in the water storage tank is emptied, starting a motor at the top of the water storage tank, enabling the motor to be matched with a connecting pin to drive a threaded column to rotate on a splicing base, utilizing the threaded connection between a lifting sleeve ring and the threaded column, driving the lifting sleeve frame to move upwards in the water storage tank through a first support rod and a second support rod between the lifting sleeve ring and a lifting sleeve frame when the threaded column rotates clockwise, simultaneously driving the lifting sleeve frame to move downwards in the water storage tank when the motor drives the threaded column to rotate anticlockwise, and utilizing the lifting sleeve frame to move upwards and downwards in the water storage tank to enable the first brush rod and the second brush rod to be in friction contact with the inner wall of the water storage tank, cleaning stains in the water storage tank, and discharging the stains through a water discharge pipe after the water in the water storage tank is filled with clear water;

and step three, rotating the splicing base by utilizing the hinge, thereby opening the splicing base, separating a first clamping pin and a first clamping groove of the splicing base, separating a rotating extension rod of the threaded column from a rotary clamping groove of the splicing base, simultaneously rotating the threaded column, taking the threaded column down from a lifting sleeve ring of the lifting sleeve frame, and taking out a fixed clamping bolt by a user to separate a second clamping pin of a first clamping angle from a second clamping groove of a second clamping angle, simultaneously pulling two sides of the lifting sleeve frame, drawing out a first sleeve in a first supporting rod and a second supporting rod, prolonging the lengths of the first supporting rod and the second supporting rod, simultaneously matching a second sleeve of the rotating rod to prolong the lengths of four sides of the lifting sleeve frame, and further adjusting the use size of the lifting sleeve frame.

The invention has the beneficial effects that:

1. by arranging the first brush rod, the second brush rod and the lifting sleeve frame, after the intelligent variable-frequency water supply equipment is used for a long time, a user can empty the water in the water storage tank, then the motor at the top of the water storage tank is started, the motor is matched with the connecting pin to drive the threaded column to rotate on the splicing base, the splicing base is matched with the rotating connecting rod of the threaded column to enable the threaded column to rotate at a fixed position, the lifting sleeve frame is driven to move upwards in the water storage tank by utilizing the threaded connection between the lifting sleeve ring and the threaded column, when the threaded column rotates clockwise, the lifting sleeve ring can be driven to move upwards on the surface of the threaded column, the lifting sleeve frame is driven to move downwards in the water storage tank by virtue of the first support rod and the second support rod between the lifting sleeve ring and the lifting sleeve frame, and the lifting sleeve frame is driven to move upwards in the water storage tank by virtue of the anticlockwise rotation of the motor, make first brush-holder stud and second brush-holder stud and the water storage box inner wall frictional contact on the lift cover frame, the spot in the clearance water storage box, the user is through pouring into the clear water back in the water storage box, passes through the drain pipe with the spot and discharges to accomplish the clearance operation to this frequency conversion water supply equipment, utilize the setting of first brush-holder stud, second brush-holder stud and lift cover frame, make this frequency conversion water supply equipment have automatically cleaning structure, make its clearance operation more convenient.

2. By arranging the first sleeve and the second sleeve, when a user needs to install the lifting sleeve frame of the variable-frequency water supply equipment in water storage tanks with different sizes for cleaning operation, the user can separate the second clamping pin of the first clamping angle from the second clamping slot of the second clamping angle by taking out the fixed clamping bolt according to the side length of the water storage tank, so that four sides of the lifting sleeve frame are separated, simultaneously two sides of the lifting sleeve frame are pulled, four sides of the lifting sleeve frame are moved outwards, the first sleeve in the first support rod and the second support rod is pulled out, the positions of the four sides of the lifting sleeve frame are adjusted by prolonging the lengths of the first support rod and the second support rod, the lengths of the four sides of the lifting sleeve frame are prolonged by matching with the second sleeve of the rotating rod, the four sides of the lifting sleeve frame are butted again, the use size of the lifting sleeve frame is adjusted, and the lifting sleeve frame after adjustment can be used for cleaning the water storage tanks with different sizes, thereby make this frequency conversion water supply equipment have and wash the regulation structure, promote the flexibility ratio when it uses.

3. Through setting up the concatenation base, when the user utilizes this intelligence frequency conversion water supply equipment's self-cleaning structure to wash the water storage box of the different degree of depth, the user can utilize the hinge to rotate the concatenation base, thereby open the concatenation base, make whole concatenation base divide into two from the middle, make the first bayonet lock and the first draw-in groove separation of concatenation base, connect the rotatory draw-in groove separation of pole and concatenation base with the rotation of screw thread post, rotate the screw thread post simultaneously, take off the screw thread post from the lift lantern ring of lift cover frame, thereby accomplish the change operation to the screw thread post, through changing the screw thread post of different heights, can make the screw thread post clear up the operation to the water storage box of the different degree of depth, utilize the setting of concatenation base, make this intelligence frequency conversion water supply equipment have concatenation fixed knot structure, promote its application scope.

4. Through setting up the spin, when the lifting cover frame reciprocates the operation in the water storage box, through setting up the spin between first card angle and second card angle for the lifting cover frame has the slip auxiliary structure, when the lifting cover frame reciprocates, utilizes the spin can reduce the frictional force between lifting cover frame four corners department and the water storage box four corners, thereby makes the removal of lifting cover frame more smooth.

Drawings

The invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of the overall structure of an intelligent variable-frequency water supply device with a self-cleaning function according to the invention.

Fig. 2 is a rear structure view of an intelligent variable frequency water supply device with a self-cleaning function according to the present invention.

FIG. 3 is an internal structure view of the water storage tank of the intelligent variable frequency water supply equipment with the self-cleaning function.

Fig. 4 is an overall structure diagram of the lifting sleeve frame of the intelligent variable-frequency water supply equipment with the self-cleaning function.

Fig. 5 is a partial structure view of the lifting sleeve frame of the intelligent variable frequency water supply equipment with the self-cleaning function.

FIG. 6 is an overall structure diagram of the splicing base of the intelligent variable frequency water supply equipment with the self-cleaning function.

Fig. 7 is an overall structure diagram of a first clamping angle and a second clamping angle of the intelligent variable frequency water supply equipment with the self-cleaning function.

In the figure: 1. a communicating pipe; 2. a supporting foot rest; 3. fixing the underframe; 4. a drain pipe; 5. a fixed mount; 6. a water storage tank; 7. an electric motor; 8. sealing the top cover; 9. butting the chucks; 10. a water inlet pipe; 11. a connecting rod; 12. connecting the rotating shaft; 13. a first brush bar; 14. a lifting lantern ring; 15. splicing the base; 16. a second brush bar; 17. lifting the sleeve frame; 18. a combined cover; 19. a threaded post; 20. a first support rod; 21. a second support rod; 22. a first clamp angle; 23. rolling a ball; 24. a second clamp angle; 25. a first sleeve; 26. a second sleeve; 27. rotating the rod; 28. a rotating groove; 29. a first card slot; 30. a first bayonet lock; 31. a hinge; 32. rotating the clamping groove; 33. rotating the connecting rod; 34. a connecting pin; 35. a limiting groove; 36. a cylindrical connecting groove; 37. a second card slot; 38. fixing the clamping bolt; 39. a second detent.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figures 1-7, an intelligent frequency conversion water supply device with self-cleaning function comprises a water storage tank 6, a fixed bottom frame 3 and a lifting sleeve frame 17, wherein the lifting sleeve frame 17 is movably arranged inside the water storage tank 6, two groups of second brush rods 16 are movably sleeved on the outer surface of the lifting sleeve frame 17, two groups of first brush rods 13 are movably arranged on one side, close to the second brush rods 16, of the outer surface of the lifting sleeve frame 17, a lifting sleeve ring 14 is fixedly arranged at the middle position of the inner side of the lifting sleeve frame 17, a threaded column 19 is fixedly arranged at the middle position inside the water storage tank 6, the use height of the lifting sleeve frame 17 can be adjusted by utilizing the rotation of the threaded column 19, the lifting sleeve frame 17 is movably connected with the water storage tank 6 through the threaded column 19 and the lifting sleeve ring 14, two groups of first support rods 20 are fixedly arranged between the lifting sleeve frame 17 and the lifting sleeve ring 14, a second support rod 21 is fixedly arranged on one side, close to the first support rod 20, between the, all through dwang 27 swing joint between first brush-holder stud 13, second brush-holder stud 16 and the lift cover frame 17, the equal activity of inboard of second die-pin 21 and first die-pin 20 has cup jointed first sleeve 25, and the inboard activity of dwang 27 has cup jointed second sleeve 26, and water storage box 6 fixed mounting is on the upper portion of fixed chassis 3.

The equal fixed mounting in four corners department of lift cover frame 17 has first card angle 22, the fixed surface of first card angle 22 installs second card angle 24, spin 23 has been cup jointed in the activity between first card angle 22 and the second card angle 24, and the inboard of first card angle 22 and second card angle 24 has all been seted up and has been rotated groove 28, first card angle 22 and second card angle 24 are all through rotating groove 28 and spin 23 swing joint, utilize spin 23 can reduce the frictional force when lift cover frame 17 removes.

The outer fixed surface of one end of first calorie of angle 22 has second bayonet lock 39, and second draw-in groove 37 has been seted up to the one end internal surface of second calorie of angle 24, through second draw-in groove 37 and second bayonet lock 39 fixed connection between first calorie of angle 22 and the second calorie of angle 24, and fixed joint bolt 38 has been cup jointed to the inboard of second draw-in groove 37, and cylindricality connecing groove 36 has all been seted up to the other end inboard of first calorie of angle 22 and second calorie of angle 24.

The overall structure of first die-pin 20 and second die-pin 21 is two segmentation structures of cylinder, all through welded fastening connection between the one end of first die-pin 20, second die-pin 21 and the lift lantern ring 14, the thread groove has been seted up to the inboard of the lift lantern ring 14, and the internal surface fixed mounting of water storage box 6 has concatenation base 15, utilizes concatenation base 15 can make the installation of screw thread post 19 dismantle the operation more convenient, and the upper end inboard of concatenation base 15 has seted up rotary clamping groove 32.

The lower extreme fixed surface of screw thread post 19 installs to rotate and connects pole 33, the top fixed surface of screw thread post 19 installs connecting pin 34, and connecting pin 34's inboard has been seted up spacing groove 35, connect pole 33 and rotatory draw-in groove 32 swing joint through rotating between screw thread post 19 and the concatenation base 15, the inboard of concatenation base 15 is provided with hinge 31, the internal surface of concatenation base 15 is equipped with first bayonet lock 30, concatenation base 15 is through first bayonet lock 30 and first draw-in groove 29 butt joint fixed.

The outer surface of the side edge of the water storage tank 6 is fixedly provided with a fixing frame 5, the bottom of the fixing frame 5 is fixedly provided with a connecting rod 11, the fixing frame 5 is fixedly connected with a fixed underframe 3 through the connecting rod 11, the bottom of the fixed underframe 3 is fixedly provided with three groups of supporting foot frames 2, and the supporting foot frames 2 are utilized to support the bottom of the fixed underframe 3.

The integral structure of the water storage tank 6 is a cuboid hollow structure, the water inlet pipe 10 is sleeved on the outer surface of the side edge of the water storage tank 6 in a fixed mode, the communicating pipe 1 is fixedly installed on the outer surface of the side edge of the water storage tank 6, close to the lower portion of the water inlet pipe 10, and the communicating pipe 1, the water inlet pipe 10 and the water storage tank 6 are fixedly connected in a butt mode through the butt joint clamping head 9.

The motor 7 is fixedly installed on the outer surface of the top end of the water storage tank 6, the sealing top cover 8 is movably installed on one side, close to the motor 7, of the top end of the water storage tank 6, the sealing top cover 8 is opened to maintain the inside of the water storage tank 6, the water storage tank 6 and the sealing top cover 8 are movably connected through the connecting rotating shaft 12, the three groups of drain pipes 4 are fixedly installed on one side, close to the water storage tank 6, of the upper portion of the fixed bottom frame 3, and the drain pipes 4 and the communicating pipe 1 are fixedly sleeved through.

The top end of the water storage tank 6 is fixedly provided with combined covers 18 at the other side close to the motor 7, and the number of the combined covers 18 is three.

The specific using operation steps of the equipment are as follows;

the method comprises the following steps that firstly, a water inlet pipe 10 of a water storage tank 6 is butted with an external water pipe, so that water is discharged into the water storage tank 6 through the water inlet pipe 10, the water in the water storage tank 6 is pumped out through a water pump matched with a communicating pipe 1, and meanwhile, the water pumped out through the communicating pipe 1 is shunted through a water discharge pipe 4;

step two, after the water in the water storage tank 6 is emptied, starting the motor 7 at the top of the water storage tank 6, enabling the motor 7 to be matched with the connecting pin 34 to drive the threaded column 19 to rotate on the splicing base 15, utilizing the threaded connection between the lifting sleeve ring 14 and the threaded column 19, when the threaded column 19 rotates clockwise, driving the lifting sleeve frame 17 to move upwards in the water storage tank 6 through the first support rod 20 and the second support rod 21 between the lifting sleeve ring 14 and the lifting sleeve frame 17, simultaneously driving the lifting sleeve frame 17 to move downwards in the water storage tank 6 when the motor 7 drives the threaded column 19 to rotate anticlockwise, utilizing the vertical movement of the lifting sleeve frame 17 in the water storage tank 6 to enable the first brush rod 13 and the second brush rod 16 to be in frictional contact with the inner wall of the water storage tank 6, cleaning stains in the water storage tank 6, and discharging the stains through the water discharge pipe 4 after the water storage tank 6 is filled with clean water;

and step three, rotating the splicing base 15 by using the hinge 31, so as to open the splicing base 15, separating a first clamping pin 30 and a first clamping groove 29 of the splicing base 15, separating a rotating connecting rod 33 of the threaded column 19 from a rotating clamping groove 32 of the splicing base 15, simultaneously rotating the threaded column 19, taking the threaded column 19 down from the lifting lantern ring 14 of the lifting lantern ring 17, and taking out a fixed clamping bolt 38 by a user to separate a second clamping pin 39 of the first clamping corner 22 from a second clamping groove 37 of the second clamping corner 24, simultaneously pulling two sides of the lifting lantern ring 17, drawing out the first support rod 20 and the first sleeve 25 in the second support rod 21, so as to prolong the lengths of the first support rod 20 and the second support rod 21, and simultaneously matching the second sleeve 26 of the rotating rod 27 to prolong the lengths of four sides of the lifting lantern ring 17, thereby adjusting the use size of the lifting lantern ring 17. .

The invention aims to provide intelligent variable-frequency water supply equipment with a self-cleaning function, which is characterized in that a first brush rod 13, a second brush rod 16 and a lifting sleeve frame 17 are arranged, after the intelligent variable-frequency water supply equipment is used for a long time, a user can empty water in a water storage tank 6 and then start a motor 7 at the top of the water storage tank 6, so that the motor 7 is matched with a connecting pin 34 to drive a threaded column 19 to rotate on a splicing base 15, the splicing base 15 is matched with a rotating connecting rod 33 of the threaded column 19 to enable the threaded column 19 to rotate at a fixed position, the lifting sleeve ring 14 is driven to move upwards on the surface of the threaded column 19 by virtue of threaded connection between the lifting sleeve ring 14 and the threaded column 19, and the lifting sleeve frame 17 is driven to move upwards inside the water storage tank 6 by virtue of a first support rod 20 and a second support rod 21 between the lifting sleeve ring 14 and the lifting sleeve frame 17, meanwhile, when the motor 7 drives the threaded column 19 to rotate anticlockwise, the lifting sleeve frame 17 can be driven to move downwards in the water storage tank 6, the lifting sleeve frame 17 moves upwards and downwards in the water storage tank 6, so that the first brush rod 13 and the second brush rod 16 on the lifting sleeve frame 17 are in friction contact with the inner wall of the water storage tank 6, stains in the water storage tank 6 are cleaned, a user fills clean water into the water storage tank 6 and discharges the stains through the water discharge pipe 4, and therefore the cleaning operation of the variable-frequency water supply equipment is completed, and the first brush rod 13, the second brush rod 16 and the lifting sleeve frame 17 are arranged, so that the variable-frequency water supply equipment has a self-cleaning structure, and the cleaning operation is more convenient;

by arranging the first sleeve 25 and the second sleeve 26, when a user needs to install the lifting sleeve frame 17 of the variable-frequency water supply equipment in the water storage tanks 6 with different sizes for cleaning operation, the user can separate the second clamping pin 39 of the first clamping corner 22 from the second clamping slot 37 of the second clamping corner 24 by taking out the fixed clamping bolt 38 according to the side length of the water storage tank 6, so as to separate four sides of the lifting sleeve frame 17, pull two sides of the lifting sleeve frame 17 at the same time, move four sides of the lifting sleeve frame 17 outwards, pull out the first sleeve 25 in the first support rod 20 and the second support rod 21, adjust the four side positions of the lifting sleeve frame 17 by prolonging the lengths of the first support rod 20 and the second support rod 21, simultaneously prolong the length of the four sides of the lifting sleeve frame 17 by matching with the second sleeve 26 of the rotating rod 27, re-butt-joint the four sides of the lifting sleeve frame 17, and adjust the use size of the lifting sleeve frame 17, the water storage tanks 6 with different sizes can be cleaned by utilizing the adjusted lifting sleeve frame 17, so that the variable-frequency water supply equipment has a cleaning and adjusting structure, and the flexibility of the variable-frequency water supply equipment in use is improved;

by arranging the splicing base 15, when a user cleans the water storage boxes 6 with different depths by using the self-cleaning structure of the intelligent frequency conversion water supply equipment, the user can rotate the splicing base 15 by using the hinge 31, thereby opening the splicing base 15, dividing the whole splicing base 15 into two parts from the middle, separating the first clamping pin 30 and the first clamping groove 29 of the splicing base 15, separating the rotating connecting rod 33 of the threaded column 19 from the rotating clamping groove 32 of the splicing base 15, simultaneously rotating the threaded column 19, taking the threaded column 19 off the lifting sleeve ring 14 of the lifting sleeve frame 17, thereby completing the replacement operation of the threaded column 19, by replacing the threaded columns 19 with different heights, the threaded column 19 can clean the water storage boxes 6 with different depths, and by using the arrangement of the splicing base 15, the intelligent frequency conversion water supply equipment has a splicing fixed structure, the application range is improved.

Through setting up spin 23, when lift cover frame 17 reciprocated the operation in water storage box 6, through with spin 23 setting between first card angle 22 and second card angle 24 for lift cover frame 17 has the slip auxiliary structure, when lift cover frame 17 reciprocated, utilizes spin 23 can reduce the frictional force between lift cover frame 17 four corners department and the water storage box 6 four corners, thereby makes lift cover frame 17's removal more smooth.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. Preferred embodiments are not exhaustive of all the details of the embodiments. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (1)

1. The utility model provides an intelligence frequency conversion water supply equipment with self-cleaning function, its characterized in that, includes water storage box (6), fixed chassis (3) and lift cover frame (17), lift cover frame (17) movable mounting has two sets of second brush-holder stud (16) in the inside of water storage box (6), the surface activity of lift cover frame (17) has cup jointed two sets of second brush-holder stud (16), and the surface of lift cover frame (17) is close to one side movable mounting of second brush-holder stud (16) has two sets of first brush-holder stud (13), the inboard middle part position fixed mounting of lift cover frame (17) has lift lantern ring (14), the inside middle position fixed mounting of water storage box (6) has screw thread post (19), through screw thread post (19) and lift lantern ring (14) swing joint between lift cover frame (17) and the water storage box (6), fixed mounting has two sets of first die-pin (20) between lift lantern ring (14), a second supporting rod (21) is fixedly installed on one side, close to the first supporting rod (20), between the lifting sleeve frame (17) and the lifting sleeve ring (14), the first brush rod (13), the second brush rod (16) and the lifting sleeve frame (17) are movably connected through a rotating rod (27), first sleeves (25) are movably sleeved on the inner sides of the second supporting rod (21) and the first supporting rod (20), second sleeves (26) are movably sleeved on the inner sides of the rotating rod (27), and the water storage tank (6) is fixedly installed on the upper portion of the fixed underframe (3);

the four corners of the lifting sleeve frame (17) are fixedly provided with first clamping corners (22), the outer surfaces of the first clamping corners (22) are fixedly provided with second clamping corners (24), rolling balls (23) are movably sleeved between the first clamping corners (22) and the second clamping corners (24), the inner sides of the first clamping corners (22) and the second clamping corners (24) are respectively provided with a rotating groove (28), and the first clamping corners (22) and the second clamping corners (24) are movably connected with the rolling balls (23) through the rotating grooves (28);

a second clamping pin (39) is fixedly installed on the outer surface of one end of the first clamping corner (22), a second clamping groove (37) is formed in the inner surface of one end of the second clamping corner (24), the first clamping corner (22) and the second clamping corner (24) are fixedly connected through the second clamping groove (37) and the second clamping pin (39), a fixed clamping bolt (38) is fixedly sleeved on the inner side of the second clamping groove (37), and cylindrical connecting grooves (36) are formed in the inner sides of the other ends of the first clamping corner (22) and the second clamping corner (24);

the integral structure of the first supporting rod (20) and the second supporting rod (21) is a cylindrical two-section structure, one end of the first supporting rod (20) and one end of the second supporting rod (21) are fixedly connected with the lifting sleeve ring (14) through welding, a thread groove is formed in the inner side of the lifting sleeve ring (14), a splicing base (15) is fixedly installed on the inner surface of the water storage tank (6), and a rotary clamping groove (32) is formed in the inner side of the upper end of the splicing base (15);

the outer surface of the lower end of the threaded column (19) is fixedly provided with a rotating connecting rod (33), the outer surface of the top end of the threaded column (19) is fixedly provided with a connecting pin (34), the inner side of the connecting pin (34) is provided with a limiting groove (35), the threaded column (19) and the splicing base (15) are movably connected through the rotating connecting rod (33) and a rotating clamping groove (32), the inner side of the splicing base (15) is provided with a hinge (31), the inner surface of the splicing base (15) is provided with a first clamping pin (30), and the splicing base (15) is fixedly butted with the first clamping groove (29) through the first clamping pin (30);

the outer surface of the side edge of the water storage tank (6) is fixedly provided with a fixed frame (5), the bottom of the fixed frame (5) is fixedly provided with a connecting rod (11), the fixed frame (5) is fixedly connected with a fixed underframe (3) through the connecting rod (11), the bottom of the fixed underframe (3) is fixedly provided with three groups of supporting foot frames (2), and the number of the supporting foot frames (2) is three;

the integral structure of the water storage tank (6) is a cuboid hollow structure, a water inlet pipe (10) is fixedly sleeved on the outer surface of the side edge of the water storage tank (6), a communicating pipe (1) is fixedly installed on the outer surface of the side edge of the water storage tank (6) close to the lower part of the water inlet pipe (10), and the communicating pipe (1), the water inlet pipe (10) and the water storage tank (6) are fixedly butted through a butting chuck (9);

the outer surface of the top end of the water storage tank (6) is fixedly provided with a motor (7), one side, close to the motor (7), of the top end of the water storage tank (6) is movably provided with a sealing top cover (8), the water storage tank (6) and the sealing top cover (8) are movably connected through a connecting rotating shaft (12), one side, close to the water storage tank (6), of the upper portion of the fixed underframe (3) is fixedly provided with three groups of drain pipes (4), and the drain pipes (4) are fixedly sleeved with the communicating pipe (1) through sleeves;

the other side, close to the motor (7), of the top end of the water storage tank (6) is fixedly provided with combined covers (18), and the number of the combined covers (18) is three;

the specific using operation steps of the equipment are as follows;

the method comprises the following steps that firstly, a water inlet pipe (10) of a water storage tank (6) is butted with an external water pipe, so that water is discharged into the water storage tank (6) through the water inlet pipe (10), the water in the water storage tank (6) is pumped out through a water pump matched with a communicating pipe (1), and meanwhile, the water pumped out through the communicating pipe (1) is shunted through a water discharge pipe (4);

step two, after the water in the water storage tank (6) is emptied, starting the motor (7) at the top of the water storage tank (6), enabling the motor (7) to be matched with the connecting pin (34) to drive the threaded column (19) to rotate on the splicing base (15), utilizing the threaded connection between the lifting sleeve ring (14) and the threaded column (19), when the threaded column (19) rotates clockwise, driving the lifting sleeve frame (17) to move upwards in the water storage tank (6) through the first support rod (20) and the second support rod (21) between the lifting sleeve frame (17) and the lifting sleeve frame (14), and simultaneously driving the lifting sleeve frame (17) to move downwards in the water storage tank (6) when the motor (7) drives the threaded column (19) to rotate anticlockwise, utilizing the lifting sleeve frame (17) to move upwards and downwards in the water storage tank (6), enabling the first brush rod (13) and the second brush rod (16) to be in friction contact with the inner wall of the water storage tank (6), cleaning stains in the water storage tank (6), and discharging the stains through the drain pipe (4) after filling clear water into the water storage tank (6);

step three, the splicing base (15) is rotated by utilizing a hinge (31), so that the splicing base (15) is opened, a first clamping pin (30) and a first clamping groove (29) of the splicing base (15) are separated, a rotating connecting rod (33) of the threaded column (19) is separated from a rotating clamping groove (32) of the splicing base (15), the threaded column (19) is rotated at the same time, the threaded column (19) is taken down from a lifting lantern ring (14) of a lifting lantern ring (17), a user takes out a fixed clamping bolt (38) to separate a second clamping pin (39) of a first clamping angle (22) from a second clamping groove (37) of a second clamping angle (24), meanwhile, two sides of the lifting lantern ring (17) are pulled, the first supporting rod (20) and a first sleeve (25) in the second supporting rod (21) are pulled out, the lengths of the first supporting rod (20) and the second supporting rod (21) are prolonged, and the length of the lifting lantern ring (17) is prolonged by matching a second sleeve (26) of the lifting lantern ring (27), thereby adjusting the use size of the lifting sleeve frame (17);

by arranging the first brush rod, the second brush rod and the lifting sleeve frame, after the intelligent variable-frequency water supply equipment is used for a long time, a user can empty water in the water storage tank, then the motor at the top of the water storage tank is started, the motor is matched with the connecting pin to drive the threaded column to rotate on the splicing base, the splicing base is matched with the rotating connecting rod of the threaded column to enable the threaded column to rotate at a fixed position, the lifting sleeve frame is driven to move upwards in the water storage tank by utilizing the threaded connection between the lifting sleeve ring and the threaded column, when the threaded column rotates clockwise, the lifting sleeve ring can be driven to move upwards on the surface of the threaded column, the lifting sleeve frame is driven to move downwards in the water storage tank by utilizing the first support rod and the second support rod between the lifting sleeve ring and the lifting sleeve frame, and the lifting sleeve frame can move upwards in the water storage tank by utilizing the anticlockwise rotation of the motor to drive the threaded column, the first brush rod and the second brush rod on the lifting sleeve frame are in friction contact with the inner wall of the water storage tank to clean stains in the water storage tank, and after a user fills clean water into the water storage tank, the stains are discharged through the water discharge pipe, so that the cleaning operation of the variable-frequency water supply equipment is completed;

by arranging the first sleeve and the second sleeve, when a user needs to install the lifting sleeve frame of the variable-frequency water supply equipment in water storage tanks with different sizes for cleaning operation, the user can separate the second clamping pin of the first clamping angle from the second clamping slot of the second clamping angle by taking out the fixed clamping bolt according to the side length of the water storage tank, so that four sides of the lifting sleeve frame are separated, simultaneously two sides of the lifting sleeve frame are pulled, four sides of the lifting sleeve frame are moved outwards, the first sleeve in the first support rod and the second support rod is pulled out, the positions of the four sides of the lifting sleeve frame are adjusted by prolonging the lengths of the first support rod and the second support rod, the lengths of the four sides of the lifting sleeve frame are prolonged by matching with the second sleeve of the rotating rod, the four sides of the lifting sleeve frame are butted again, the use size of the lifting sleeve frame is adjusted, and the lifting sleeve frame after adjustment can be used for cleaning the water storage tanks with different sizes, thereby make this frequency conversion water supply equipment have and wash the regulation structure, promote the flexibility ratio when it uses.

Images