CN218011535U - Perlite powder recycling regeneration medium filtering device - Google Patents

Abstract

The utility model discloses a perlite powder recycling regeneration medium filter equipment, include supporting legs, filter vat, outlet pipe, look over window, medium suction valve, drain valve, inlet tube, perlite powder tectorial membrane and location buffer gear. The utility model discloses a filter cylinder is from the bottom inlet tube of the jar body intaking, the top outlet pipe goes out water, impurity in the filtering process is held back on the surface of pearlite powder tectorial membrane, through automatic powder tectorial membrane again of taking off to form new filter core and continue to filter and do not need the back flush, this in-process has realized pearlite powder cyclic regeneration and has utilized, the heating of water and this part of water is also saved and is dosed the expense to need the back flush, the emission of waste water has been reduced, reach environmental protection, energy-conserving effect.

Description

Perlite powder recycling regeneration medium filtering device

Technical Field

The utility model relates to a regeneration medium crosses relevant field, especially relates to a perlite powder circulation regeneration medium filter equipment.

Background

When water quality in various swimming pools, water entertainment venues, health centers, hydrotherapy clubs, marine houses, zoos, breeding industries and the like is used, a filtering device is often required to be assembled for use, so that the water quality is purified and filtered.

When the existing medium filtering device is used, water enters from the top of a sand cylinder and exits from the lower part of the sand cylinder in the normal filtering process of the sand cylinder, impurities intercepted in the filtering process are removed by backwashing every 3-7 days, so that resources are wasted, and when a conveying pipe is used, the conveying pipe and a connecting pipe are mutually polarized due to water flow impact, noise is generated, and the connecting part is easy to loosen.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above insufficiency, the utility model provides a perlite powder recycling regeneration medium filter equipment.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a perlite powder circulation regeneration medium filter equipment, includes supporting legs, filter vat, outlet pipe, looks over window, medium suction valve, drain valve, inlet tube, perlite powder tectorial membrane and location buffer gear, the supporting legs is fixed mutually with filter vat lower extreme triangle, location buffer gear is fixed with the inlet tube bottom, location buffer gear includes first supporting seat, sliding sleeve, slide bar, first lock nut, fixture and second lock nut, first supporting seat is fixed with the inlet tube bottom, the sliding sleeve is installed in first supporting seat lower extreme embedding, the slide bar is with the inboard sliding fit of sliding sleeve, slide bar left end both sides are provided with second lock nut and first lock nut, the slide bar is fixed with the fixture left end.

Optionally, the filter cylinder is communicated with the front end of the water outlet pipe, the right end of the filter cylinder is provided with a viewing window, the filter cylinder is communicated with the rear end of the medium suction valve, the bottom of the filter cylinder is provided with a drain valve, the filter cylinder is communicated with the left end of the water inlet pipe, and the filter cylinder is internally provided with a perlite powder coating film.

Optionally, fixture includes the second supporting seat, accepts seat, cylinder, swinging arms, clamping bar, clamp splice, depression bar, layer board and pressure spring, second supporting seat and slide bar right-hand member fixed connection, the second supporting seat with accept a top and fix mutually, it is connected with the cylinder bottom rotation through rotating to accept the seat, the cylinder is through pivot and swinging arms bottom normal running fit, the swinging arms is fixed as an organic whole with the clamping bar front end, the clamping bar rotates through pivot and clamping block front end to be connected, the depression bar passes through pressure spring and the inboard elastic connection in second supporting seat top, the depression bar is fixed bottom the layer board.

Optionally, the two bearing seats are arranged in total, and the bearing seats are oppositely arranged along the front side and the rear side of the bearing seat.

Optionally, the upper ends of the two bearing seats are provided with air cylinders, swing rods, clamping rods and clamping blocks, and the bottoms of the clamping rods are rotatably connected with the second supporting seat through rotating shafts.

Optionally, the structure of the clamping block is the same as that of the supporting plate, and the clamping block and the supporting plate are both concave.

Optionally, the sliding sleeve is provided with two sets of to the sliding sleeve upper end all is provided with the slide bar, and the slide bar left end is provided with the external screw thread.

Optionally, the number of the first locking nuts and the number of the second locking nuts are two, and the first locking nuts and the second locking nuts are respectively located at the right end and the left end of the first supporting seat.

Optionally, the compression bar is made of carbon steel and has high hardness.

Optionally, the swinging rod is made of stainless steel and has strong corrosion resistance.

The utility model has the advantages that:

1. the utility model discloses a filter cylinder is that the bottom inlet tube from the jar body intakes, the top outlet pipe goes out water, impurity in the filtering process is held back on the surface of pearlite powder tectorial membrane, tectorial membrane again through automatic the powder that takes off to form new filter core and continue to filter and do not need the back flush, pearlite powder cyclic regeneration has been realized to this in-process, the heating expense of offeing medicine of water and this part of water has also been saved in the back flush not needed, the emission of waste water is reduced, reach the environmental protection, energy-conserving effect.

2. The utility model discloses a having set up location buffer gear, fixture can carry out the centre gripping to the flow pipe, concatenates the flow pipe each other with the inlet tube and is in the same place, reduces the polarization that the rivers were carried, removes the slide bar simultaneously, makes the slide bar slide in the sliding sleeve inboard, can adjust fixture's horizontal position, can fix a position the slide bar through first lock nut and second lock nut afterwards, has reached the advantage that can reduce rivers noise of delivery.

3. The utility model discloses a fixture has been set up, the layer board can lift the flow pipe, and the cylinder extends simultaneously, drives the clamping bar through the swinging arms and swings in second supporting seat upper end, makes the clamping bar drive the clamp splice and carries out the centre gripping to the flow pipe, when the flow pipe upper end produces the eccentric force, can press and move the pressure spring and produce deformation, absorbs the eccentric force on the flow pipe, has reached the advantage that can make the steady work of flow pipe.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of the internal structure of the filtering cylinder of the present invention;

FIG. 3 is a schematic view of the three-dimensional structure of the positioning and buffering mechanism of the present invention;

FIG. 4 is a schematic view of the three-dimensional structure of the clamping mechanism of the present invention;

fig. 5 is a schematic sectional view of the clamping mechanism of the present invention.

Wherein: the device comprises a supporting foot-1, a filtering cylinder-2, a water outlet pipe-3, a viewing window-4, a medium suction valve-5, a drain valve-6, a water inlet pipe-7, a positioning buffer mechanism-8, a perlite powder coating-9, a first supporting seat-8 a, a sliding sleeve-8 b, a sliding rod-8 d, a first locking nut-8 e, a clamping mechanism-8 f, a second locking nut-8 g, a second supporting seat-8 f1, a bearing seat-8 f2, a cylinder-8 f3, a swinging rod-8 f4, a clamping rod-8 f5, a clamping block-8 f6, a pressing rod-8 f7, a supporting plate-8 f8 and a pressure spring-8 f9.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

Please refer to fig. 1-2, the utility model provides a perlite powder recycling regeneration medium filter equipment, including supporting legs 1, filter cylinder 2, outlet pipe 3, look over window 4, medium suction valve 5, drain valve 6, inlet tube 7, perlite powder tectorial membrane 9 and location buffer gear 8, supporting legs 1 is fixed mutually with 2 lower extreme triangular phases of filter cylinder, location buffer gear 8 is fixed mutually with 7 bottoms of inlet tube, filter cylinder 2 communicates with 3 front ends of outlet pipe, filter cylinder 2 right-hand member has been seted up and has been looked over window 4, filter cylinder 2 communicates with 5 rear ends of medium suction valve, filter cylinder 2 bottom is provided with drain valve 6, filter cylinder 2 communicates with 7 left ends of inlet tube, filter cylinder 2 internally mounted has perlite powder tectorial membrane 9.

Referring to fig. 3-4, the utility model provides a perlite powder recycling regeneration medium filter equipment, location buffer gear 8 includes first supporting seat 8a, sliding sleeve 8b, slide bar 8d, first lock nut 8e, fixture 8f and second lock nut 8g, first supporting seat 8a is fixed with inlet tube 7 bottom, sliding sleeve 8b is installed in the embedding of first supporting seat 8a lower extreme, slide bar 8d and the inboard sliding fit of sliding sleeve 8b, slide bar 8d left end both sides are provided with second lock nut 8g and first lock nut 8e, slide bar 8d is fixed with fixture 8f left end.

Optionally, two sets of sliding sleeves 8b are arranged, sliding rods 8d are arranged at the upper ends of the sliding sleeves 8b, and external threads are arranged at the left ends of the sliding rods 8 d; first lock nut 8e and second lock nut 8g all are provided with two to first lock nut 8e and second lock nut 8g are located the right-hand member and the left end of first supporting seat 8a respectively, do benefit to and play and carry out spacing effect to slide bar 8 d.

Referring to fig. 5, the utility model provides a perlite powder recycling regeneration medium filtering device, the clamping mechanism 8f includes the second supporting seat 8f1, accept seat 8f2, cylinder 8f3, swinging arms 8f4, clamping bar 8f5, clamp block 8f6, depression bar 8f7, layer board 8f8 and pressure spring 8f9, second supporting seat 8f1 and slide bar 8d right-hand member fixed connection, second supporting seat 8f1 and the top of accepting seat 8f2 are fixed mutually, accept seat 8f2 and cylinder 8f3 bottom rotation connection through rotating, cylinder 8f3 and swinging arms 8f4 bottom rotation fit through the pivot, swinging arms 8f4 and clamp bar 8f5 front end are fixed as an organic whole, clamp bar 8f5 rotates through the pivot and is connected with clamp block 8f6 front end, depression bar 8f7 is connected with the inboard elastic connection in second supporting seat 8f1 top through pressure spring 8f9, depression bar 8f7 and layer board 8f8 bottom fixing.

In addition, two bearing seats 8f2 are provided, and the bearing seats 8f2 are arranged along the front and rear sides of the bearing seat 8f 2; the upper ends of the two bearing seats 8f2 are respectively provided with a cylinder 8f3, a swinging rod 8f4, a clamping rod 8f5 and a clamping block 8f6, and the bottom of the clamping rod 8f5 is rotatably connected with a second supporting seat 8f1 through a rotating shaft; the structure of the clamping block 8f6 is the same as that of the supporting plate 8f8, the clamping block 8f6 and the supporting plate 8f8 are both concave inwards, the clamping effect on the water supply pipe is facilitated, and the compression bar 8f7 is made of carbon steel and high in hardness; the swinging rod 8f4 is made of stainless steel and has strong corrosion resistance.

The working principle is as follows:

before use, the perlite powder recycling regeneration medium filtering device is horizontally placed, so that the supporting feet 1 can fixedly support the device;

when the water supply device is used, the supporting plate 8f8 can lift the water supply pipe, the air cylinder 8f3 extends, the swing rod 8f4 drives the clamping rod 8f5 to swing at the upper end of the second supporting seat 8f1, the clamping rod 8f5 drives the clamping block 8f6 to clamp the water supply pipe, and when the upper end of the water supply pipe generates a deflection force, the compression spring 8f9 is pressed to deform to absorb the deflection force at the upper end of the water supply pipe;

meanwhile, the clamping mechanism 8f can clamp the water feeding pipe, the water feeding pipe and the water inlet pipe 7 are connected in series, the polarization force of water flow conveying is reduced, the sliding rod 8d is moved at the same time, the sliding rod 8d slides on the inner side of the sliding sleeve 8b, the horizontal position of the clamping mechanism 8f can be adjusted, and then the sliding rod 8d can be positioned through the first locking nut 8e and the second locking nut 8g, so that the water flow conveying noise can be reduced;

and the filtering cylinder 2 is filled with water from a water inlet pipe 7 at the bottom of the tank body, water is discharged from a water outlet pipe 3 at the top, impurities in the filtering process are intercepted on the surface of the perlite powder coating film 9, and the film is coated again through automatic powder removal, so that a new filter element is formed to continue filtering without back washing, the recycling of the perlite powder is realized in the process, the back washing is not needed, the water consumption and the heating and chemical dosing cost of the water are also saved, the discharge of waste water is reduced, and the effects of environmental protection and energy conservation are achieved.

The utility model discloses a filter vat 2 is from the bottom inlet tube 7 of jar body and is intake, and top outlet pipe 3 goes out water, and impurity in the filtering process is held back on the surface of pearlite powder tectorial membrane 9, through automatic powder removal tectorial membrane again to form new filter core and continue to filter and do not need the back flush, realized pearlite powder cyclic regeneration and utilize in this process, do not need the back flush and also saved the water and this part of water's heating chemical dosing expense, reduced the emission of waste water, reach environmental protection, energy-conserving effect; the clamping mechanism 8f can clamp the water feeding pipe, the water feeding pipe and the water inlet pipe 7 are connected in series, the polarization force of water flow conveying is reduced, the sliding rod 8d is moved at the same time, the sliding rod 8d slides on the inner side of the sliding sleeve 8b, the horizontal position of the clamping mechanism 8f can be adjusted, and then the sliding rod 8d can be positioned through the first locking nut 8e and the second locking nut 8g, so that the advantage of reducing the water flow conveying noise is achieved; layer board 8f8 can lift the flow pipe, cylinder 8f3 extends simultaneously, drive clamping bar 8f5 through swinging arms 8f4 and swing in second supporting seat 8f1 upper end, make clamping bar 8f5 drive clamp splice 8f6 carry out the centre gripping to the flow pipe, when flow pipe upper end produces the partial vibration power, can press pressure spring 8f9 and produce deformation, absorb the partial vibration power on the flow pipe, the advantage that can make the smooth work of flow pipe has been reached.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A perlite powder recycling and regenerating medium filtering device comprises supporting legs (1), a filtering cylinder (2), a water outlet pipe (3), a viewing window (4), a medium suction valve (5), a drain valve (6), a water inlet pipe (7) and a perlite powder coating film (9), wherein the supporting legs (1) are fixed with the lower end of the filtering cylinder (2) in a triangular manner;

the method is characterized in that: still including location buffer gear (8), location buffer gear (8) are fixed with inlet tube (7) bottom, location buffer gear (8) are including first supporting seat (8 a), sliding sleeve (8 b), slide bar (8 d), first lock nut (8 e), fixture (8 f) and second lock nut (8 g), first supporting seat (8 a) are fixed with inlet tube (7) bottom, sliding sleeve (8 b) are installed in first supporting seat (8 a) lower extreme embedding, slide bar (8 d) and sliding sleeve (8 b) inboard sliding fit, slide bar (8 d) left end both sides are provided with second lock nut (8 g) and first lock nut (8 e), slide bar (8 d) are fixed with fixture (8 f) left end.

2. The perlite powder recycling media filter of claim 1, wherein: the utility model discloses a filter tank, including filter tank (2), outlet pipe (3), filter tank (2) and outlet pipe (3), the front end communicates, filter tank (2) right-hand member has been seted up and has been looked into window (4), filter tank (2) communicate with medium suction valve (5) rear end, filter tank (2) bottom is provided with drain valve (6), filter tank (2) communicate with inlet tube (7) left end, filter tank (2) internally mounted has pearlite powder tectorial membrane (9).

3. The perlite powder recycling media filter of claim 1, wherein: fixture (8 f) include second supporting seat (8 f 1), accept seat (8 f 2), cylinder (8 f 3), swinging arms (8 f 4), clamping bar (8 f 5), clamp splice (8 f 6), depression bar (8 f 7), layer board (8 f 8) and pressure spring (8 f 9), second supporting seat (8 f 1) and slide bar (8 d) right-hand member fixed connection, second supporting seat (8 f 1) is fixed mutually with accepting seat (8 f 2) top, it is connected with cylinder (8 f 3) bottom rotation through rotating to accept seat (8 f 2), cylinder (8 f 3) rotates the cooperation through pivot and swinging arms (8 f 4) bottom, swinging arms (8 f 4) are fixed as an organic whole with clamping bar (8 f 5) front end, clamping bar (8 f 5) is connected with clamp splice (8 f 6) front end rotation through the pivot, depression bar (8 f 7) are connected with second supporting seat (8 f 1) top elasticity through pressure spring (8 f 9), depression bar (8 f 7) top is inboard with the fixed connection of layer board (8 f 7).

4. The perlite powder recycling media filter of claim 3, wherein: the two bearing seats (8 f 2) are arranged, and the bearing seats (8 f 2) are oppositely arranged along the front side and the rear side of the bearing seats (8 f 2).

5. The perlite powder recycling media filter device of claim 4, wherein: the upper ends of the two bearing seats (8 f 2) are provided with cylinders (8 f 3), swing rods (8 f 4), clamping rods (8 f 5) and clamping blocks (8 f 6), and the bottoms of the clamping rods (8 f 5) are rotatably connected with the second supporting seat (8 f 1) through rotating shafts.

6. The perlite powder recycling media filter of claim 3, wherein: the structure of the clamping block (8 f 6) is the same as that of the supporting plate (8 f 8), and the clamping block (8 f 6) and the supporting plate (8 f 8) are both concave.

7. The perlite powder recycling media filter of claim 1, wherein: the sliding sleeve (8 b) is provided with two groups, the upper end of the sliding sleeve (8 b) is provided with a sliding rod (8 d), and the left end of the sliding rod (8 d) is provided with an external thread.

8. The perlite powder recycling media filter of claim 1, wherein: the first locking nut (8 e) and the second locking nut (8 g) are both provided with two, and the first locking nut (8 e) and the second locking nut (8 g) are respectively located at the right end and the left end of the first supporting seat (8 a).

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