CN209552503U - A kind of extruding separation, equipment for purifying - Google Patents

Abstract

The utility model embodiment discloses a kind of extruding separation, equipment for purifying, it is related to field of garbage disposal, squeeze separation, equipment for purifying includes squeezing separation equipment ontology and equipment for purifying, equipment for purifying includes material trough, helical axis, motor and reduction gearbox, the length direction of material trough is provided with sieve plate inside material trough, the inside of material trough is divided into upper storehouse room and lower warehouse by sieve plate, sieve plate is equipped with multiple through-holes, helical axis is rotatablely arranged in upper storehouse room, the shaft of motor and the power input shaft of reduction gearbox connect, the power output shaft of reduction gearbox and one end of helical axis connect, one end of material trough is provided with the first discharge port being connected to upper warehouse, the other end of material trough is provided with the second discharge port being connected to lower warehouse, the discharge port for squeezing separation equipment ontology is located above the notch of material trough.The extruding separation of the utility model embodiment, equipment for purifying improve separating dry space from moist space efficiency, can effectively remove the impurity in wet component materials.

Description

A kind of extruding separation, equipment for purifying

Technical field

The utility model relates to field of garbage disposal, and in particular to a kind of extruding separation, equipment for purifying.

Background technique

Existing rubbish separating dry space from moist space squeezes separator, generally by feeding mechanism, precompressed mechanism, pressing mechanism, discharge On mechanism is set on the outside of body, feeding mechanism is arranged vertically with precompressed mechanism, and precompressed mechanism, pressing mechanism and discharge mechanism are flat Row arrangement, and precompressed mechanism, pressing mechanism and discharge mechanism axis are located on same circumference, are spaced apart from each other between axis 120 degree of angles, rotating mechanism are set on the intracorporal central axis of machine, and rotating mechanism and driving mechanism be coaxially arranged or parallel cloth It sets, driving mechanism is set on the outside of body.There are precompressed mechanism, pressing mechanism and discharge mechanisms in rotary course for above-mentioned apparatus Material catching phenomenon leads to not continuous operation, inefficiency.In addition, existing extruding separator can not be to treated Wet component materials are purified, and cause wherein to contain many impurity.

Utility model content

The utility model embodiment is designed to provide a kind of extruding separation, equipment for purifying, to solve existing squeeze Contain impurity in wet component materials that pressure separator is there are low separation efficiency, reliability is low and treated.

To achieve the above object, the utility model embodiment provides a kind of extruding separation, equipment for purifying, described to squeeze point It include squeezing separation equipment ontology from, equipment for purifying, extrudings separates, equipment for purifying further includes equipment for purifying, the purification Equipment includes material trough, helical axis, motor and reduction gearbox, and the length direction of material trough is provided with sieve inside the material trough The inside of the material trough is divided into upper storehouse room and lower warehouse by plate, the sieve plate, and the sieve plate is equipped with multiple through-holes, described Helical axis is rotatablely arranged in the upper storehouse room, and the shaft of the motor is connect with the power input shaft of the reduction gearbox, The power output shaft of the reduction gearbox is connect with one end of the helical axis, and one end of the material trough is provided with and the upper storehouse First discharge port of room connection, the other end of the material trough is provided with the second discharge port being connected to the lower warehouse, described The discharge port for squeezing separation equipment ontology is located above the notch of the material trough.

Preferably, the equipment for purifying further includes multiple support frames, and support frame as described above is set to the lower section of the material trough.

Preferably, the through-hole is evenly arranged on the sieve plate.

Preferably, the extruding separation equipment ontology includes that charging push top assembly, charging box assembly, extruding and discharge are total At, main extruding guiding assemblage, backward extrusion guiding assemblage；The main extruding guiding assemblage, charging box assembly, extruding and discharge are total It is located on same level axis at, backward extrusion guiding assemblage and is sequentially connected；The charging push top assembly and the charging box assembly It connects and is vertically arranged with the horizontal axis, and the charging push top both assembly and the charging box assembly cooperatively form circle The spacer of tubular；The charging push top assembly includes precompression chamber, the feed hopper for being connected to precompression chamber upper end, is connected to precompression chamber The oil cylinder of one end and be located at the indoor push top of precompressed；The piston rod front end of the oil cylinder and the push top connect；Before the push top End is arc-shaped less than semicircle.

Preferably, it is described charging push top assembly in oil cylinder be two, the piston rod front end of two oil cylinders respectively with The push top connection.

Preferably, two sidewalls are respectively arranged with rectangular guideway in the precompression chamber, and the push top is transported along the rectangular guideway It is dynamic.

Preferably, the charging box assembly includes feeding box body and being greater than semicircle positioned at the material feeding box box inside Sieve cylindrical sidewall, the sieve cylindrical sidewall is fixedly supported in the charging box body.

The utility model embodiment has the advantages that

1, in the utility model embodiment squeeze separation, equipment for purifying push top front end be it is arc-shaped less than semicircle, when When push top advances to charging box assembly, columnar spacer can be formed with the side wall greater than semicircle on the inside of charging box assembly, The two in compared with the existing technology is semicircular structure, is conducive to improve compression ratio, and then improves separating dry space from moist space effect Rate.

2, extruding separation, the push top of equipment for purifying are double oil cylinders drivings in the utility model embodiment, are further improved Separating dry space from moist space efficiency；Simultaneously guide rail be rectangle, compared with the existing technology in single cylinder driving and guide rail be triangle structure, Have a haircut uniform force, should not occur guide rail and push top clamping stagnation the problem of, further improve the efficiency of separating dry space from moist space.

3, separation, equipment for purifying are squeezed in the utility model embodiment by increasing equipment for purifying, to extruding separation equipment Treated that wet component materials are purified for ontology, removes the impurity in dehumidifying component materials, provides for subsequent technique good Raw material.

Detailed description of the invention

Fig. 1 is the main view the schematic diagram of the section structure that separation, equipment for purifying are squeezed in the utility model embodiment.

Fig. 2 is the main view the schematic diagram of the section structure of equipment for purifying in the utility model embodiment.

Fig. 3 is the schematic perspective view that separation equipment ontology is squeezed in the utility model embodiment.

Fig. 4 is the overlooking structure diagram that separation equipment ontology is squeezed in the utility model embodiment.

Fig. 5 is by the schematic diagram of the section structure done in Fig. 4 along hatching A-A.

Fig. 6 is by the schematic diagram of the section structure done in Fig. 4 along hatching B-B.

Fig. 7 is by the schematic diagram of the section structure done in Fig. 4 along hatching C-C.

Fig. 8 is the schematic perspective view of charging push top assembly in the utility model embodiment.

Fig. 9 is the overlooking structure diagram of charging push top assembly in the utility model embodiment.

Figure 10 is by the schematic diagram of the section structure done in Fig. 9 along hatching A-A.

Figure 11 is the structural schematic diagram that box assembly is fed in the utility model embodiment.

Figure 12 is by the schematic diagram of the section structure done in Figure 11 along hatching A-A.

Specific embodiment

The following examples illustrate the utility model, but is not intended to limit the scope of the present invention.

As shown in Fig. 1,3,4,5,6,7, separation is squeezed, equipment for purifying includes that extruding separation equipment ontology 100 and purification are set Standby 200, wherein squeeze separation equipment ontology 100 include charging push top assembly 1, charging box assembly 2, squeeze and discharge assembly 3, Main extruding guiding assemblage 4, backward extrusion guiding assemblage 5.Wherein, main extruding guiding assemblage 4, charging box assembly 2, extruding and discharge are total It is located on same level axis at 3, backward extrusion guiding assemblage 5 and is sequentially connected；Charging push top assembly 1 is connect with charging box assembly 2 And it is vertically arranged with above-mentioned horizontal axis, and feed both push top assembly 1 and charging box assembly 2 and cooperatively form columnar precompressed Chamber.

As seen in figs. 8-10, charging push top assembly 1 include precompression chamber 12, be connected to 12 upper end of precompression chamber feed hopper 14, Two oil cylinders 11 for being connected to 12 one end of precompression chamber and the push top 13 in precompression chamber 12.The piston rod front end of two oil cylinders 11 It is connect respectively with push top 13, by using double oil cylinders 11 driving push top 13, further improves the separating dry space from moist space efficiency of equipment.It pushes away First 13 front end be it is arc-shaped less than semicircle, can be with charging box assembly 2 inside when push top 13 advances to charging box assembly 2 Columnar spacer is formed greater than the side wall of semicircle.Two sidewalls are respectively arranged with rectangular guideway 15, push top 13 in precompression chamber 12 It is moved along rectangular guideway 15.

As shown in FIG. 11 and 12, charging box assembly 2 includes feeding box body 22 and positioned at the big of 22 inside of charging box body The sieve cylindrical sidewall 21 of semicircle, sieve cylindrical sidewall 21 are fixedly supported in charging box body 22.Sieve cylindrical sidewall 21 be used for Have a haircut 13 front ends cooperation.The set-up mode of the charging box assembly 2 of the utility model, is connected compared to tradition using lead screw, favorably In the reliability for improving equipment.

As shown in Figures 4 and 5, main extruding guiding assemblage 4 includes oil cylinder 41, guide sleeve 42 and guide post 43, the method for oil cylinder 41 Orchid connection guide sleeve 42, the piston rod of oil cylinder 41 connect guide post 43, and the two can be moved along the inside of guide sleeve 42, and be extended into In columnar spacer in hopper assembly 2, and then protrude into extruding and discharge assembly 3.It squeezes and discharge assembly 3 includes master Screen drum 31 and discharge mechanism 32, material channel mouth 20 are set to discharge mechanism as the discharge port for squeezing separation equipment ontology 100 32 lower part, can will squeeze the wet component materials that are disposed of separation equipment ontology 100 and be delivered to equipment for purifying 200 and mention It is pure.

Backward extrusion guiding assemblage 5 include oil cylinder 51 and guide sleeve 52, the flanged joint guide sleeve 52 of oil cylinder 51, oil cylinder 51 Piston rod connects guide post 53, and the two can move along the inside of guide sleeve 52, can successively protrude into discharge mechanism 32 and can close master One end of screen drum 31.

As shown in Fig. 2, equipment for purifying 200 includes material trough 7, helical axis 8, motor 9 and reduction gearbox 10, material trough 7 is presented The trench structure of portion's opening, material trough 7 are in the lower section of material channel mouth 20, and extruding separation equipment ontology 100 has handled wet Component materials are entered in material trough 7 by material channel mouth 20.The lower part of material trough 7 is provided with multiple support frames, for mentioning Pure equipment 200 is supported, and the length direction of material trough 7 is provided with sieve plate 16 inside material trough 7, and sieve plate 16 has certain Radian, to ensure that wet component materials are in the middle part of sieve plate 16, the inside of material trough 7 is divided into 16 top of sieve plate by sieve plate 16 The lower warehouse 19 of 16 lower section of upper warehouse 18 and sieve plate, sieve plate 16 are equipped with multiple through-holes 17, and through-hole 17 is evenly arranged in sieve plate 16 On, helical axis 8 is rotatablely arranged in warehouse 18, and the shaft of motor 9 is connect with the power input shaft of reduction gearbox 10, is slowed down The power output shaft of case 10 is connect with one end of helical axis 8, and one end of material trough 7 is provided with first be connected to upper warehouse 18 and goes out Material mouth 23, the first discharge port 23 are used to that the wet component materials after purification to be discharged.The other end of material trough 7 is provided with and lower warehouse 19 Second discharge port 24 of connection, the second discharge port 24 is for being discharged the impurity and moisture isolated.By the way that separation equipment will be squeezed Ontology 100 is integrated with equipment for purifying 200, has not only increased new purification function, but also realizes the height collection of complete equipment At reducing complete equipment the space occupied.

Squeeze separation, equipment for purifying working principle (by taking primary extruding separation circulation as an example) includes:

(1) charging and precompressed: the materials such as kitchen, house refuse and other aqueous rubbish, such as vinasse, vinegar grain pass through charging Bucket 14 enters, and have a haircut 13 is in retracted position at this time, and the piston rod of oil cylinder 11 drives push top 13 along guide rail 15 to charging box assembly 2 Mobile, 13 promotion rubbish of push top enters in charging box assembly 2, and rubbish is pre-compressed to by 13 front ends of push top and sieve cylindrical sidewall 21 In the columnar spacer formed；Complete pre-pressing function.

(2) squeeze: the piston rod in the oil cylinder 51 of backward extrusion guiding assemblage 5 is moved with guide post 53 along guide sleeve 52, and Block the end of main screen drum 31.Piston rod in the main oil cylinder 41 for squeezing guiding assemblage 4 is moved with guide post 43 along guide sleeve 42, Precompressed rubbish is further depressed into main screen drum 31, reaches predetermined pressure and pressure maintaining in main screen drum 31, completes squeeze function.

(3) discharge: the piston rod in the oil cylinder 51 of backward extrusion guiding assemblage 5 drives guide post 53 to retreat to original position, main Squeezing the piston rod in the oil cylinder 41 of guiding assemblage 4 drives guide post 43 to move on, and dry material is passed through 32 row of discharge mechanism Out, wet component materials are delivered to equipment for purifying 200 by the material channel mouth 20 of discharge mechanism 32 and are purified.

(4) purify: after wet component materials enter material trough 7, motor 9 is rotated, and motor 9 drives helical axis by reduction gearbox 10 8 rotations, wet component materials are under the action of helical axis 8, an end motion along from sieve plate 16 to material trough 7, in the process of movement, Impurity and moisture in wet component materials enter lower warehouse 19 by the through-hole 17 on sieve plate 16, eventually by the second discharge port 24 Discharge, the material after purification then pass through the discharge of the first discharge port 23.

Although being above described in detail with generality explanation and specific embodiment to the utility model, On the basis of the utility model, it can be modified or is improved, this is apparent to those skilled in the art 's.Therefore, these modifications or improvements on the basis of without departing from the spirit of the present invention, belong to the utility model and want Seek the range of protection.

Claims (7)

1. a kind of extruding separation, equipment for purifying, the extruding separation, equipment for purifying include squeezing separation equipment ontology, feature Be, extruding separation, equipment for purifying further include equipment for purifying, the equipment for purifying include material trough, helical axis, motor and Reduction gearbox is provided with sieve plate along the length direction of material trough inside the material trough, and the sieve plate will be in the material trough Part is divided into warehouse and lower warehouse, and the sieve plate is equipped with multiple through-holes, and the helical axis is rotatablely arranged on described In warehouse, the shaft of the motor is connect with the power input shaft of the reduction gearbox, the power output shaft of the reduction gearbox and institute One end connection of helical axis is stated, one end of the material trough is provided with the first discharge port being connected to the upper warehouse, the object The other end of hopper is provided with the second discharge port being connected to the lower warehouse, the discharge port position for squeezing separation equipment ontology Above the notch of the material trough.

2. extruding separation according to claim 1, equipment for purifying, which is characterized in that the equipment for purifying further includes multiple Support frame, support frame as described above are set to the lower section of the material trough.

3. extruding separation according to claim 2, equipment for purifying, which is characterized in that the through-hole is evenly arranged in described On sieve plate.

4. extruding separation according to claim 3, equipment for purifying, which is characterized in that the extruding separation equipment ontology packet Include charging push top assembly, charging box assembly, extruding and discharge assembly, main extruding guiding assemblage, backward extrusion guiding assemblage；The master Extruding guiding assemblage, charging box assembly, extruding and discharge assembly, backward extrusion guiding assemblage, which are located on same level axis, successively to be connected It connects；The charging push top assembly connect with the charging box assembly and is vertically arranged with the horizontal axis, and the charging pushes away Head both assembly and the charging box assembly cooperatively form columnar spacer；Charging push top assembly include precompression chamber, It is connected to the feed hopper of precompression chamber upper end, be connected to the oil cylinder of precompression chamber one end and is located at the indoor push top of precompressed；The oil cylinder Piston rod front end and the push top connection.

5. extruding separation according to claim 4, equipment for purifying, which is characterized in that the oil in the charging push top assembly Cylinder is two, and the piston rod front end of two oil cylinders is connected with the push top respectively.

6. extruding separation according to claim 5, equipment for purifying, which is characterized in that two sidewalls are distinguished in the precompression chamber It is provided with rectangular guideway, the push top is moved along the rectangular guideway.

7. extruding according to claim 5 or 6 separation, equipment for purifying, which is characterized in that the charging box assembly include into Hopper cabinet and the sieve cylindrical sidewall greater than semicircle positioned at the material feeding box box inside, the sieve cylindrical sidewall are fixed branch Support is in the charging box body.