CN206359823U - Pulper size degradation mechanism - Google Patents

Abstract

The utility model discloses a kind of pulper size degradation mechanism, including a sieve plate and a rotating disk.Sieve plate offers multiple sieve apertures.Rotating disk is located above sieve plate.Multiple blades and the deflector for being arranged at blade upper limb at interval that rotating disk extends comprising a wheel hub, from wheel hub, one end of each deflector from blade is spiral helicine to extend to wheel hub, and each blade can rotate above each sieve aperture.Size degradation efficiency is effectively improved whereby and increases the throughput of slurry.

Description

Pulper size degradation mechanism

Technical field

The utility model is related to a kind of size degradation mechanism, and espespecially a kind of raising size degradation efficiency simultaneously increases the pulping of slurry throughput Machine size degradation mechanism.

Background technology

Various waste paper is collected reuses that all kinds of paper and cardboard is made as reclaim paper.The qualitative variability of reclaim paper It is quite big, and by pure paper and containing different fillings and both plastics and the paper of other materials may be scribbled constituted.In addition, A variety of plastics, fiber, metal, sand etc. can be brought by collecting reclaim paper, and these materials must be removed when paper pulp is processed.

Existing reclaim paper is degraded first in pulper or in other similar equipment, that is, goes fiber, and shape Into the pulp mixture containing fouling products.The cutterhead of existing low concentration pulper is bottom in bottom land of the locking in stock tank, stock tank Portion and cutterhead combination sieve plate, then will start to dissipate slurry in waste paper input groove.Because the screen size on existing sieve plate is small, it is necessary to anti- Size degradation is carried out again, production requirement could be met, consequently, it is possible to not only cause the energy and the waste of action, also results in size degradation effect It is undesirable.

In view of this, the utility model is directed to above-mentioned prior art then, and spy concentrates on studies and coordinated the utilization of scientific principle, as possible The problem of solving above-mentioned point, becomes the target of the utility model improvement.

Utility model content

The utility model first purpose, is to provide a kind of pulping for effectively improving size degradation efficiency and increasing slurry throughput Machine size degradation mechanism.

For up to above-mentioned purpose, the utility model provides a kind of pulper size degradation mechanism, including a sieve plate and a rotating disk.Sieve plate Offer multiple sieve apertures.Rotating disk is located above sieve plate.Rotating disk includes a wheel hub, the multiple blades extended from wheel hub and interval A deflector of blade upper limb is arranged at, one end of each deflector from blade is spiral helicine to extend to wheel hub, and each blade can Rotated above each sieve aperture.

Preferably, also including a pedestal and a screen cylinder groove, the sieve plate is arranged on the pedestal, and the pedestal is located at screen cylinder In groove.

Preferably, wherein the area of the pedestal is more than the area of the sieve plate, respectively the length of the blade is more than respectively sieve aperture point It is distributed in the circumferential length of the sieve plate.

Preferably, wherein respectively the height of the deflector between 55 millimeters to 75 millimeters.

Preferably, wherein respectively the height of the deflector is 60 millimeters.

Preferably, wherein respectively the aperture of the sieve aperture between 13 millimeters to 15 millimeters.

Preferably, wherein respectively the aperture of the sieve aperture is 14 millimeters.

By the improvement of pulper size degradation structure of the present utility model, from daily 500 tondal of original slurry material is thrown to daily 700 tons More than, and good slurry throughput is up to more than 250 tons.

The utility model is described in detail below in conjunction with the drawings and specific embodiments, but not as to the utility model Restriction.

Brief description of the drawings

Fig. 1 is the schematic perspective view of the utility model pulper size degradation mechanism.

Fig. 2 is the schematic perspective view that the utility model pulper size degradation mechanism is installed on screen cylinder groove.

Fig. 3 is the implementation illustration of the utility model pulper size degradation mechanism.

Wherein, reference：

A original slurry materials

The good slurries of B

100 pulper size degradation mechanisms

110 sieve plates

120 sieve apertures

130 pedestals

140 screen cylinder grooves

150 slurry transfer members

152nd, 162 conveyer belt

154th, 164 roller

160 good slurry transfer members

200 rotating disks

210 wheel hubs

220 blades

230 deflectors

Embodiment

Relevant detailed description of the present utility model and technology contents, coordinate schema to be described as follows, but institute's accompanying drawings are only carried Used for reference with explanation, not for being any limitation as to the utility model.

As shown in Figure 1 to Figure 3, the utility model provides a kind of pulper size degradation mechanism 100, including a sieve plate 110 and one Rotating disk 200.Sieve plate 110 offers multiple sieve apertures 120.Rotating disk 200 is arranged on sieve plate 110.Rotating disk 200 comprising a wheel hub 210, The multiple blades 220 and the deflector 230 for being arranged at the upper limb of blade 220 at interval extended from the surrounding of wheel hub 210.Each water conservancy diversion One end of plate 230 from blade 220 is spiral helicine to extend to wheel hub 210, and each blade 220 can rotate relative to each top of sieve aperture 120.

In the present embodiment, also comprising a pedestal 130 and a screen cylinder groove 140.Sieve plate 110 is arranged on pedestal 130, base Seat 130 is located in screen cylinder groove 140.In the present embodiment, pedestal 130 is preferably integrally formed being arranged at of being made with sieve plate 110 Screen cylinder groove 140, the opposite base 130 of rotating disk 200 rotates；But in other embodiments, pedestal 130 is also separable and sieve plate 110 are set, and optionally change.As illustrated, the area of pedestal 130 is preferably more than the area of sieve plate 110, each blade 220 Length is more than the circumferential length that each sieve aperture 120 is distributed in sieve plate 110, therefore when rotating disk 200 is rotated, each rotation of blade 220 production Raw mixing power (shear strength) can make original slurry material A pass through each sieve aperture 120.

In order to improve the power of the whirlpool of rotating disk 200, size degradation power and solve the problems such as size degradation efficiency is not good, the present embodiment exists Under the power of existing size degradation mechanism, the rotating disk 200 such as Fig. 1 to Fig. 3 is installed.In other words, the diameter of rotating disk 200 is constant, reduces The wheel hub 210 of rotating disk 200, the width for reducing blade 220, while increasing the height positioned at the baffle upper plate 230 of blade 220 between 55 Millimeter is to 75 millimeters, preferably 60 millimeters.

Therefore the size degradation efficiency of original disintegrator size degradation mechanism 100 is effectively increased, while also increasing having for sieve aperture 120 Imitate usable floor area.Size degradation circulation is so not required to repeatedly, the waste of the energy or action is caused.In addition, the hole of sieve aperture 120 of sieve plate 110 Footpath is between 13 millimeters to 15 millimeters, preferably 14 millimeters, to increase original slurry material A throughput.

As shown in figure 3, it is the implementation illustration of the utility model pulper size degradation structure.In practical operation, pulper Size degradation structure 100 is arranged in screen cylinder groove 140, and slurry transfer member 150 and good slurry transfer member are respectively arranged with up and down 160.Slurry transfer member 150 conveys original slurry material A by the driving conveying belt 152 of roller 154 respectively.Good slurry transfer member 160 It is that the good slurry B completed with size degradation is taken away by the driving conveying belt 162 of roller 164 respectively and next processing step is delivered to.

Size degradation structure 100 provides power by a power resources (figure is omited) rotates rotating disk 200, and original slurry material A is passed through The stirring increase of rotating disk 200 original slurry material A contacts the chance peeled off with each blade 220, while adding water makes sieve plate 110 and screen cylinder groove Dissociated between 140.Good slurry B throughput is improved whereby or screens out field trash (screening the pulp ability) in original slurry material A.

It should be noted that, the deflector 230 of each blade 220 contributes to rotating disk 200 to strengthen the power of vortex, increases original slurry material A and blade 220 engagement capacity, to effectively improve size degradation efficiency and increase good slurry B throughput.By of the present utility model The improvement of pulper size degradation structure 100, effectively reaches good slurry B throughputs up to more than 250 tons, and it is 700 daily to beat original slurry material A It is more than ton.

Certainly, the utility model can also have other various embodiments, spiritual and its essence without departing substantially from the utility model In the case of, those skilled in the art can make various corresponding changes and deformation, but these phases according to the utility model The change and deformation answered should all belong to the utility model scope of the claims.

Claims (7)

1. a kind of pulper size degradation mechanism, it is characterised in that including:

One sieve plate, offers multiple sieve apertures；And

One rotating disk, positioned at setting for the multiple blades and interval that above the sieve plate, the rotating disk extends comprising a wheel hub, from the wheel hub A deflector of the blade upper limb is placed in, one end of each deflector from the blade is spiral helicine to extend to the wheel hub, respectively should Blade can rotate above the respectively sieve aperture.

2. pulper size degradation mechanism according to claim 1, it is characterised in that also comprising a pedestal and a screen cylinder groove, The sieve plate is arranged on the pedestal, and the pedestal is located in screen cylinder groove.

3. pulper size degradation mechanism according to claim 2, it is characterised in that the area of the pedestal is more than the face of the sieve plate Long-pending, respectively the length of the blade is more than the circumferential length that the respectively sieve aperture is distributed in the sieve plate.

4. pulper size degradation mechanism according to claim 1, it is characterised in that respectively the height of the deflector is between 55 millimeters To 75 millimeters.

5. pulper size degradation mechanism according to claim 4, it is characterised in that respectively the height of the deflector is 60 millimeters.

6. pulper size degradation mechanism according to claim 1, it is characterised in that respectively the aperture of the sieve aperture between 13 millimeters extremely 15 millimeters.

7. pulper size degradation mechanism according to claim 6, it is characterised in that respectively the aperture of the sieve aperture is 14 millimeters.