CN209662762U - A kind of device for separating mud and water of mud filter - Google Patents

Abstract

The utility model discloses a kind of device for separating mud and water of mud filter, its key points of the technical solution are that: including rack, the rack is connected with filter mechanism, filter mechanism includes filter bag, two the first rotating rollers and first motors, two first rotating rollers are connect with gantry rotation, the filter bag is socketed on two the first rotating rollers, and the first motor is fixedly connected with rack；The rack is connected with the adsorbing mechanism for accelerating mud-water separation, the adsorbing mechanism includes the vacuum pump for manufacturing negative pressure and several vacuum tubes for drawing water, the air inlet of the vacuum pump is fixedly connected with general pipeline, one end of the vacuum tube is both secured to the side wall of general pipeline, and the other end of the vacuum tube is connect with filter bag inner cavity lower end.The utility model it is structurally reasonable, make mud-water separation using filter bag, using adsorbing mechanism accelerate mud-water separation speed, isolated water is recycled later, reduces the waste of water resource.

Description

A kind of device for separating mud and water of mud filter

Technical field

The utility model belongs to filter plant, more specifically, it relates to which a kind of mud-water separation of mud filter fills It sets.

Background technique

Steel slag needs first to crush steel slag during recycling and reusing, later using shaking table by metallic particles and Sludge is separated, and needs constantly mix and shape with water in sludge at this time to washing by water above shaking table during separation At mud, if mud is directly discharged into environment at this time, a large amount of water resource can be wasted.

Therefore it needs to propose the new technical solution of one kind to solve the above problems.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of muddy water of mud filter Separator separates muddy water, later can recycle the water at separation, reduce the waste of water resource.

To achieve the above object, the utility model provides following technical solution: a kind of muddy water of mud filter point From device, including rack, the rack is connected with the filter mechanism for filtering mud, and filter mechanism includes being used for mud-water separation Filter bag, drive filter bag rotation two the first rotating rollers and driving the first rotating roller rotation first motor, two institutes It states the first rotating roller to connect with gantry rotation, the filter bag is socketed on two the first rotating rollers, the first motor and rack It is fixedly connected, the output shaft of the first motor is coaxially fixed with first rotating roller；The rack is connected with acceleration muddy water Isolated adsorbing mechanism, the adsorbing mechanism include the vacuum pump for manufacturing negative pressure and several vacuum tubes for drawing water, institute The air inlet for stating vacuum pump is fixedly connected with general pipeline, and one end of the vacuum tube is both secured to the side wall of general pipeline, the vacuum tube The other end connect with filter bag inner cavity lower end.

By using above-mentioned technical proposal, mud is placed in filter bag upper end, later filter bag rotation to make its with it is true Blank pipe generates relative motion, accelerates the speed that water passes through from filter bag using vacuum tube, to make sludge retention in filter bag side Wall upper end, and water then passes through filter bag and separates with sludge, the water isolated can be recycled, and the waste of water resource is reduced.

The utility model is further arranged to: the rack is connected with the auxiliary body for accelerating filtering, the auxiliary body Including connect with gantry rotation two the second rotating rollers, be socketed on two rotating rollers vacuum belt and driving the second rotating roller turn The second dynamic motor, the auxiliary body are located inside filter bag, and vacuum belt outer wall upper end is supported with filter bag inner wall upper end It connects, vacuum belt inner wall upper end can be bonded with vacuum end surfaces, and the vacuum belt outer wall offers several recessing grooves, described to allow Through there is filter hole in the slot of position, the filter hole can be connected to vacuum tube.

By using above-mentioned technical proposal, the area for the negative pressure that filter bag is subject to is increased using recessing groove, to increase The identical volume for realizing the water by filter bag, accelerates the speed of mud-water separation.

The utility model is further arranged to: check valve, the check valve direction are fixedly connected in the filter hole The conducting of vacuum belt inner wall.

By using above-mentioned technical proposal, after filter hole and vacuum tube are disconnected, air will not be out of filter hole Into in recessing groove, the air pressure in recessing groove at this time is still below extraneous atmospheric pressure, and water remains to pass through under the auxiliary of negative pressure Strainer further increases the speed of filtering.

The utility model is further arranged to: the vacuum tube two sides are provided with support roller, the support roller and rack Rotation connection, the axis of the support roller are overlapped with the axis of the second rotating roller, the upper end of the support roller and the end of vacuum tube Face is in same plane.

By using above-mentioned technical proposal, vacuum belt and filter bag are supported using support roller, to make vacuum belt It will not be moved down when by gravity with filter bag, be bonded vacuum belt inner wall upper end can with vacuum end surfaces.

The utility model is further arranged to: the vacuum belt lateral wall is fixedly connected with two circle baffle rings, and the baffle ring leans on The two sides of nearly vacuum belt.

By using above-mentioned technical proposal, the flowing of mud is limited using baffle ring, makes mud will not be from vacuum pump Two sides flow away.

The utility model is further arranged to: the gantry rotation is connected with the first guide roller and the second guide roller, described First guide roller side wall can be abutted with filter bag inner wall upper end, and the second guide roller side wall can be supported with filter bag outer wall upper end It connects, first guide roller is located at side of second guide roller far from auxiliary body, and the sidewall upper of first guide roller is high In the side wall lower ends of the second guide roller.

By using above-mentioned technical proposal, filter bag is lifted upwards using the first guide roller, utilize the second guiding later Roller is close to filter bag with vacuum belt, so that the flowing to mud generates limitation, makes mud that can not flow away in spite of wound from filter bag.

The utility model is further arranged to: the width of the filter bag is greater than the width of vacuum belt.

By using above-mentioned technical proposal, can filter bag two sides be applied with upward support force using baffle ring, make filter bag Two sides are lifted upwards, and mud can not be entered in recessing groove by the limitation of filter bag at this time, to make using for auxiliary body Cheng Gengjia stablizes.

The utility model is further arranged to: the vacuum tube is coaxially fixed with sealing ring far from the end face of general pipeline, described Sealing ring can be abutted with vacuum belt inner wall upper end, and the sealing ring upper end is higher than the upper end of support roller.

By using above-mentioned technical proposal, the gap between vacuum tube and vacuum belt is reduced using sealing ring, reduces seam The volume of the air passed through in gap accelerates the speed that vacuum tube takes out negative pressure to recessing groove, increases the speed of mud-water separation.

In conclusion the utility model has the following beneficial effects:

1, the utility model is separated muddy water using filter mechanism, is later recycled the water after separation again sharp With reducing the waste of water resource；

2, speed of the water by filter bag is accelerated by setting adsorbing mechanism, to accelerate the speed of mud-water separation, increased The speed of Slurry treatment is added；

3, the contact area that filter bag and negative pressure are increased using auxiliary body, was passed through to increase in same time The volume of the water of strainer accelerates the speed of mud-water separation.

Detailed description of the invention

Fig. 1 is the perspective view of the present embodiment；

Fig. 2 is the schematic diagram that the present embodiment is used to show auxiliary body's internal structure；

Fig. 3 is the portion the A enlarged drawing of Fig. 2.

Detailed description of the invention: 1, rack；11, support roller；12, the first guide roller；13, the second guide roller；2, filter mechanism；21, First rotating roller；22, filter bag；23, first motor；3, adsorbing mechanism；31, vacuum pump；32, vacuum tube；33, general pipeline；35, close Seal ring；4, auxiliary body；41, the second rotating roller；42, the second motor；43, vacuum belt；431, baffle ring；44, recessing groove；45, mistake Filter opening；46, check valve.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Wherein identical components are presented with like reference characters.It should be noted that word used in the following description Language "front", "rear", "left", "right", "up" and "down" refer to the direction in attached drawing, word " bottom surface " and " top surface ", "inner" and "outside" refers respectively to the direction towards or away from geometric center of specific component.

A kind of device for separating mud and water of mud filter, as shown in Figure 1, including rack 1, rack 1 was connected with filter mud The filter mechanism 2 of slurry, filter mechanism 2 include two first turn rotated for mud-water separation filter bag 22, drive filter bag 22 The first motor 23 of dynamic roller 21 and driving the first rotating roller 21 rotation.Two rotating rollers are rotatablely connected with rack 1, filter bag 22 It is socketed on two the first rotating rollers 21.First motor 23 is connect using bolt with rack 1, output shaft and first rotating roller 21 coaxial weldings.Rack 1 is connected with the adsorbing mechanism 3 for accelerating mud-water separation, and adsorbing mechanism 3 includes the vacuum for manufacturing negative pressure Pump 31 and several vacuum tubes 32 for drawing water.The air inlet use of vacuum pump 31 has been bolted general pipeline 33, and vacuum tube 32 is equal Make to be bolted to 33 side wall of general pipeline, and its inner cavity is connected to 33 inner cavity general pipeline, and its one end and filtering far from general pipeline 33 The connection of 22 inner wall upper end of band, the air outlet use of vacuum pump 31 have been bolted drainpipe.Mud is placed in 22 upper end of filter bag, The rotation of filter bag 22 later is accelerated water using vacuum tube 32 and is led to from filter bag 22 to make it generate relative motion with vacuum tube 32 The speed crossed, thus make sludge retention in 22 sidewall upper of filter bag, and water then passes through filter bag 22 and separates with sludge, isolates Water can be recycled, reduce the waste of water resource.

As shown in Figure 1, applying negative pressure for filter bag 22 since vacuum tube 32 and the contact area of filter bag 22 are smaller Area is smaller, and smaller by the flow of filter bag 22 at this time, the speed of mud-water separation is slower.Therefore rack 1, which is connected with, accelerated The auxiliary body 4 of filtering velocity degree, auxiliary body 4 are located inside filter bag 22 comprising two second turn be rotatablely connected with rack 1 Second motor 42 of dynamic roller 41, the vacuum belt 43 for being socketed on two rotating rollers and driving rotating roller rotation.Second motor 42 uses Bolt and rack 1 are fixed, output shaft and 41 coaxial welding of the second rotating roller.As shown in figure 3,43 outer wall of vacuum belt opens up There are several recessing grooves 44 for being parallel to the second rotating roller 41,44 bottom surface of recessing groove, which is run through, filter hole 45.Vacuum tube 32 is far from total One end of pipe 33 is bonded with 43 inner wall upper end of vacuum belt, and its inner cavity can be connected to filter hole 45, and 43 outer wall upper end of vacuum belt can It is abutted with 22 inner wall upper end of filter bag.The area for the negative pressure that filter bag 22 is subject to is increased using recessing groove 44, to increase By the volume of the water of filter bag 22 in same time, the speed of mud-water separation is accelerated.

As shown in figure 3, air pressure and the external world due to after filter hole 45 and vacuum tube 32 are disconnected, in recessing groove 44 Air pressure keep identical, water can be slowed down at this time and pass through the speed of filter bag 22.Therefore it is threaded in filter hole 45 unidirectional The inner wall of valve 46, check valve 46 towards vacuum belt 43 is connected.After filter hole 45 and vacuum tube 32 are disconnected, air will not Enter in recessing groove 44 out of filter hole 45, the air pressure in recessing groove 44 at this time is still below extraneous atmospheric pressure, and water is remained to negative Across filter bag 22 under the auxiliary of pressure, the speed of filtering is further increased.

As shown in figure 3, filter bag 22 and vacuum belt 43 are applied downward by mud at this time due to the heavier-weight of mud Gravity make to be bent downwardly, will appear biggish gap between 43 inner wall upper end of vacuum tube 32 and vacuum belt at this time, thus shadow It rings to the process for extracting negative pressure in recessing groove 44 out.Therefore 32 two sides of vacuum tube are provided with support roller 11, and support roller 11 is and machine Frame 1 is rotatablely connected, and axis is overlapped with the axis of the second rotating roller 41, and the upper end and the end face of vacuum tube 32 are in same flat Face.Vacuum belt 43 and filter bag 22 are supported using support roller 11, to make vacuum belt 43 and filter bag 22 by weight It will not be moved down when power, be bonded 43 inner wall upper end of vacuum belt can with 32 end face of vacuum tube.

In order to make mud not flow away from the two sides of filter bag 22, as shown in Fig. 2, 43 lateral wall of vacuum belt is fixedly connected with Two circle baffle rings 431, baffle ring 431 are located at the two sides of vacuum belt 43.The flowing of mud is limited using baffle ring 431, is made Mud will not flow away from 31 two sides of vacuum pump.

As shown in Fig. 2, since mud can flow away from filter bag 22 close to the side of the first rotating roller 21,1 turn of rack Dynamic to be connected with the first guide roller 12 and the second guide roller 13,12 side wall of the first guide roller can be abutted with 22 inner wall upper end of filter bag, Second guide roller 13 can be abutted with 22 outer wall upper end of filter bag, and the first guide roller 12 is located at the second guide roller 13 far from auxiliary machine The side of structure 4,12 sidewall upper of the first guide roller are higher than 13 side wall lower ends of the second guide roller.Make to filter using the first guide roller 12 Band 22 is lifted upwards, is close to filter bag 22 with vacuum belt 43 using the second guide roller 13 later, so that the flowing to mud produces Raw limitation, makes mud that can not flow away in spite of wound from filter bag 22.

Recessing groove 44 is blocked in order to enter mud will not in recessing groove 44.Therefore the width of filter bag 22 is greater than true The width of blanking bar 43, baffle ring 431 can apply upward support force to 22 two sides of filter bag at this time, lift 22 two sides of filter bag upwards It rises, mud can not be entered in recessing groove 44 by the limitation of filter bag 22 at this time, to make the use process of auxiliary body 4 more Stablize.

As shown in figure 3, air can be from vacuum tube 32 and vacuum due to when vacuum tube 32 is to negative pressure is manufactured in recessing groove 44 With the gap flowing between 43, the speed that negative pressure is taken out in recessing groove 44 can be slowed down at this time.Therefore vacuum tube 32 is far from general pipeline's 33 End face has coaxially been adhered sealing ring 35, and sealing ring 35 can be abutted with 43 inner wall upper end of vacuum belt, and 35 upper end of sealing ring is higher than branch Support the upper end of roller 11.Using sealing ring 35 gap between vacuum tube 32 and vacuum belt 43 is reduced, reduces and pass through in gap The volume of air accelerates the speed that vacuum tube 32 takes out negative pressure to recessing groove 44, increases the speed of mud-water separation.

Working principle:

When work, mud is placed in 22 upper end of filter bag, filter bag 22 is continuous under the driving of first motor 23 later It is mobile, at the same under driving of the vacuum belt 43 in the second motor 42 with 22 synchronizing moving of filter bag.When filter hole 45 is from vacuum tube When 32 upper ends are passed through, since 22 inner wall upper end of filter bag is abutted with 43 outer wall upper end of vacuum belt, vacuum tube 32 utilizes filter hole 45 It extracts the partial air in recessing groove 44 out, so that the air pressure in recessing groove 44 is lower than extraneous atmospheric pressure, at this time 22 upper end of filter bag Water pass through filter bag 22 under atmospheric pressure and enter in recessing groove 44, the water of filtering is extracted out using vacuum tube 32.When After filter hole 45 passes through from 43 upper end of vacuum belt, the closure of check valve 46 makes the air pressure in recessing groove 44 be still below atmospheric pressure, The water on filter bag 22 can still be entered in recessing groove 44 by filter bag 22 under atmospheric pressure at this time, make mud-water separation.

Specific embodiment is only the explanation to the utility model, is not limitations of the present invention, this field Technical staff can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but only It will be in the scope of the claims of the utility model all by the protection of Patent Law.

Claims (8)

1. a kind of device for separating mud and water of mud filter, including rack (1), it is characterised in that: the rack (1) is connected with For filtering the filter mechanism (2) of mud, filter mechanism (2) includes filter bag (22), the drive filter bag for mud-water separation (22) first motor (23) that two the first rotating rollers (21) and driving the first rotating roller (21) rotated rotate, two described the One rotating roller (21) and rack (1) are rotatablely connected, and the filter bag (22) is socketed on two the first rotating rollers (21), and described first Motor (23) is fixedly connected with rack (1), and the output shaft of the first motor (23) is coaxial solid with first rotating roller (21) It is fixed；The rack (1) is connected with the adsorbing mechanism (3) for accelerating mud-water separation, and the adsorbing mechanism (3) includes for manufacturing negative pressure Vacuum pump (31) and several vacuum tubes (32) for drawing water, the air inlet of the vacuum pump (31) be fixedly connected with general pipeline (33), one end of the vacuum tube (32) is both secured to the side wall of (33) general pipeline, the other end of the vacuum tube (32) and filtering Band (22) inner cavity lower end connects.

2. a kind of device for separating mud and water of mud filter according to claim 1, it is characterised in that: the rack (1) it is connected with the auxiliary body (4) for accelerating filtering, the auxiliary body (4) includes two second with rack (1) rotation connection Second motor of rotating roller (41), the vacuum belt (43) for being socketed on two rotating rollers and driving the second rotating roller (41) rotation (42), the auxiliary body (4) is located at filter bag (22) inside, vacuum belt (43) the outer wall upper end and filter bag (22) inner wall Upper end abuts, and vacuum belt (43) the inner wall upper end can be bonded with vacuum tube (32) end face, and vacuum belt (43) outer wall opens up Have several recessing grooves (44), through having filter hole (45) in the recessing groove (44), the filter hole (45) can be with vacuum tube (32) it is connected to.

3. a kind of device for separating mud and water of mud filter according to claim 2, it is characterised in that: the filter hole (45) it is fixedly connected to check valve (46) in, the check valve (46) is connected towards vacuum belt (43) inner wall.

4. a kind of device for separating mud and water of mud filter according to claim 1, it is characterised in that: the vacuum tube (32) two sides are provided with support roller (11), and the support roller (11) and rack (1) are rotatablely connected, the axis of the support roller (11) Line is overlapped with the axis of the second rotating roller (41), and the upper end of the support roller (11) and the end face of vacuum tube (32) are in same flat Face.

5. a kind of device for separating mud and water of mud filter according to claim 2, it is characterised in that: the vacuum belt (43) lateral wall is fixedly connected with two circle baffle rings (431), two sides of the baffle ring (431) close to vacuum belt (43).

6. a kind of device for separating mud and water of mud filter according to claim 1, it is characterised in that: the rack (1) it is rotatably connected to the first guide roller (12) and the second guide roller (13), the first guide roller (12) side wall can be with filter bag (22) inner wall upper end abuts, and the second guide roller (13) side wall can be abutted with filter bag (22) outer wall upper end, and described first leads It is located at side of the second guide roller (13) far from auxiliary body (4), the sidewall upper of first guide roller (12) to roller (12) Higher than the side wall lower ends of the second guide roller (13).

7. a kind of device for separating mud and water of mud filter according to claim 2, it is characterised in that: the filter bag (22) width is greater than the width of vacuum belt (43).

8. a kind of device for separating mud and water of mud filter according to claim 2, it is characterised in that: the vacuum tube (32) be coaxially fixed with sealing ring (35) far from the end face of general pipeline (33), the sealing ring (35) can on vacuum belt (43) inner wall End abuts, and the sealing ring (35) upper end is higher than the upper end of support roller (11).