CN205009430U - Novel high -efficient granulator cutting that improves structure device - Google Patents

Abstract

The utility model provides a novel high -efficient granulator cutting that improves structure device, including the engine, set screw, the switch, the feed inlet, cutting device and material feeding unit, set screw set up the upper portion right side position at the engine, switching system in the front portion of engine, the feed inlet pass through material feeding unit and be connected with the engine and fix on upper portion, cutting device set up the left side at material feeding unit. The utility model discloses a separation net, the cutting knife, compress tightly the body, the setting of rotatory wing and feed inlet, be favorable to producing the granule of different shapes through the hole of different shapes, thereby make things convenient for the diversification of product, process the material that comes out through the blade and cut off, thereby realize the granule shaping, make the cutting knife compress tightly fixed position through the spring, thereby guarantee that the granule shaping is fixed, granule shaping error can not appear, thereby make the material advance rotatory elasticity cutting device through the heliciform, accomplish the cutting task.

Description

A kind of comminutor cutter sweep of new and effective modified node method

Technical field

The utility model belongs to particle device technical field, particularly relates to a kind of comminutor cutter sweep of new and effective modified node method.

Background technology

In plastics forming graininess process, in order to operational convenience, by required various auxiliary agents, filler, the mixing apparatus that plastic carrier first puts into comminutor carries out high-temperature mixing, then the polymer extruding melting from extruder forms some plastic strips by mouth mould, cool and dry section drying through water-cooling apparatus again, finally plastic conveying and plastic is carried out cutting granulating to cutter sweep, but the plastic material strength of pelletizing mostly now, toughness is all very high, just need the cutter sweep that a kind of intensity is fine and rational in infrastructure, but some cutter sweep intensity is little in prior art, cutter rotating speed is partially slow, cutter easily breaks, affect production efficiency, and the structure that can meet split requirement is more complicated, manufacturing cost is high, concerning very difficult some little processing enterprises.China Patent Publication No. CN102791450A, the title of innovation and creation is used for the cutter sweep of the comminutor being obtained particle by cutting, this application case discloses: for being obtained the cutter sweep of the comminutor of particle by cutting, comprise: cutting rotor (6,28), this cutting rotor (6,28) driving shaft is connected to by gimbal joints part, described gimbal joints part comprises driven member and actuator, it is characterized in that, described actuator and described driven member all comprise power transmission part (2,15), and there is clamp forks (5,7 separately; , and make described clamp forks (5,7 18,22); 18,22) relative to each other orientate as in 90 ° and surround described power transmission part (2,15), each described clamp forks (5,7; 18,22) support the axle extending through described power transmission part (2,15), and two described axles relative to each other deflect 90 ° substantially.But existing comminutor cutter sweep cutter sweep is complicated, inconvenient operation and can not continue to carry out with materials device.

Therefore, the comminutor cutter sweep inventing a kind of new and effective modified node method seems very necessary.

Utility model content

In order to solve the problems of the technologies described above, the utility model provides a kind of comminutor cutter sweep of new and effective modified node method, to solve but the problem that existing comminutor cutter sweep cutter sweep is complicated, inconvenient operation and can not continuing with materials device is carried out.

For achieving the above object, the technical scheme that the utility model is taked is: a kind of comminutor cutter sweep of new and effective modified node method, comprises engine, hold-down screw, switch, charging aperture, cutter sweep and pay-off, described hold-down screw is arranged on the upper right position of engine; Described switch-linear hybrid is in the front portion of engine; Described charging aperture is fastened on top by pay-off and engine; Described cutter sweep is arranged on the left side of pay-off.

Described cutter sweep comprises separation net, fixed axis, cutter, pad, fastening body and locking pin, and described separation net is fixed by fixed axis; Described cutter are arranged on the front portion of separation net by fixed axis; Described pad is arranged on the front portion of cutter; Described fastening body is arranged on the front portion of pad; Described locking pin is arranged on the front portion of fastening body.

Described separation net specifically adopts the circular stainless steel mesh sheet of circle, triangle or quadrilateral hole, is conducive to, and is conducive to producing difform particle by difform hole, thus facilitates the variation of product.

Described cutter specifically adopt triplasy or four fraction stainless steel blades, are conducive to carrying out processing by blade to material out and cut off, thus realize grain forming.

Described fastening body specifically adopts helical spring, is conducive to making cutter be fixed position by spring, thus ensures that grain forming is fixed, and there will not be grain forming to slip up.

Described pay-off comprises rotating shaft, parallels, latch, and rotate wing and lock-screw, described parallels is arranged on the rear positions of rotating shaft; Described latch is arranged on the forward position of parallels; Described rotation wing is arranged on the front portion of latch; Described lock-screw is arranged on the front portion rotating wing.

Described rotation wing specifically adopts helical form lamellar body, is conducive to making material enter over-rotation thus degree of tightness cutter sweep by helical form, completes cutting task.

Described charging aperture specifically adopts rectangular tray, favourablely holds more material by pallet, thus operation when facilitating specific works.

Compared with prior art, the utility model has following beneficial effect: because the comminutor cutter sweep of a kind of new and effective modified node method of the present utility model is widely used in particle device technical field.Meanwhile, the beneficial effects of the utility model are:

1. the utility model passes through separation net, the setting of cutter and fastening body, be conducive to producing difform particle by difform hole, thus facilitate the variation of product, carry out processing by blade to material out to cut off, thus realize grain forming, make cutter be fixed position by spring, thus ensure that grain forming is fixed, there will not be grain forming to slip up.

2. the utility model is by rotating the setting of wing, is conducive to making material enter over-rotation thus degree of tightness cutter sweep by helical form, completes cutting task.

3. the utility model is by the setting of charging aperture, is conducive to holding more material by pallet, thus operation when facilitating specific works.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of the utility model whirligig.

Fig. 3 is the structural representation of the utility model control device.

In figure:

1-engine, 2-hold-down screw, 3-switch, 4-charging aperture, 5-cutter sweep, 51-separation net, 52-fixed axis, 53-cutter, 54-pad, 55-fastening body, 56-locking pin, 6-pay-off, 61-rotating shaft, 62-parallels, 63-latch, 64-rotates wing, 65-lock-screw.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described further:

Embodiment:

As shown in Figure 1 to Figure 3:

The utility model provides a kind of comminutor cutter sweep of new and effective modified node method, comprises engine 1, hold-down screw 2, switch 3, charging aperture 4, cutter sweep 5 and pay-off 6, and described hold-down screw 2 is arranged on the upper right position of engine 1; Described switch 3 is arranged on the front portion of engine 1; Described charging aperture 4 is fastened on top by pay-off 6 and engine 1; Described cutter sweep 5 is arranged on the left side of pay-off 6.

Described cutter sweep 5 comprises separation net 51, fixed axis 52, cutter 53, pad 54, fastening body 55 and locking pin 56, and described separation net 51 is fixed by fixed axis 52; Described cutter 53 are arranged on the front portion of separation net 51 by fixed axis 52; Described pad 54 is arranged on the front portion of cutter 53; Described fastening body 55 is arranged on the front portion of pad 54; Described locking pin 56 is arranged on the front portion of fastening body 55.

Described separation net 51 specifically adopts the circular stainless steel mesh sheet of circle, triangle or quadrilateral hole, is conducive to, and is conducive to producing difform particle by difform hole, thus facilitates the variation of product.

Described cutter 53 specifically adopt triplasy or four fraction stainless steel blades, are conducive to carrying out processing by blade to material out and cut off, thus realize grain forming.

Described fastening body 55 specifically adopts helical spring, is conducive to making cutter be fixed position by spring, thus ensures that grain forming is fixed, and there will not be grain forming to slip up.

Described pay-off 6 comprises rotating shaft 61, parallels 62, latch 63, and rotate wing 64 and lock-screw 65, described parallels 62 is arranged on the rear positions of rotating shaft 61; Described latch 63 is arranged on the forward position of parallels 62; Described rotation wing 64 is arranged on the front portion of latch 63; Described lock-screw 65 is arranged on the front portion rotating wing 64.

Described rotation wing 64 specifically adopts helical form lamellar body, is conducive to making material enter over-rotation thus degree of tightness cutter sweep by helical form, completes cutting task.

Described charging aperture 4 specifically adopts rectangular tray, favourablely holds more material by pallet, thus operation when facilitating specific works.

Operation principle

The utility model is achieved like this; the utility model realizes grain forming by cutter sweep 5 and brings up difformity; meet different needs, ensure that feeding completes and reduces the working time by pay-off 6, operation when facilitating comminutor to work by charging aperture 4.

Utilize technical scheme described in the utility model, or those skilled in the art being under the inspiration of technical solutions of the utility model, designing similar technical scheme, and reach above-mentioned technique effect, is all fall into protection domain of the present utility model.

Claims (8)

1. the comminutor cutter sweep of a new and effective modified node method, it is characterized in that, the comminutor cutter sweep of this new and effective modified node method, comprise engine (1), hold-down screw (2), switch (3), charging aperture (4), cutter sweep (5) and pay-off (6), described hold-down screw (2) is arranged on the upper right position of engine (1); Described switch (3) is arranged on the front portion of engine (1); Described charging aperture (4) is fastened on top by pay-off (6) and engine (1); Described cutter sweep (5) is arranged on the left side of pay-off (6).

2. the comminutor cutter sweep of new and effective modified node method according to claim 1, it is characterized in that, described cutter sweep (5) comprises separation net (51), fixed axis (52), cutter (53), pad (54), fastening body (55) and locking pin (56), described separation net (51) is fixed by fixed axis (52); Described cutter (53) are arranged on the front portion of separation net (51) by fixed axis (52); Described pad (54) is arranged on the front portion of cutter (53); Described fastening body (55) is arranged on the front portion of pad (54); Described locking pin (56) is arranged on the front portion of fastening body (55).

3. the comminutor cutter sweep of new and effective modified node method according to claim 2, is characterized in that, described separation net (51) specifically adopts the circular stainless steel mesh sheet of circle, triangle or quadrilateral hole.

4. the comminutor cutter sweep of new and effective modified node method according to claim 2, is characterized in that, described cutter (53) specifically adopt triplasy or four fraction stainless steel blades.

5. the comminutor cutter sweep of new and effective modified node method according to claim 2, is characterized in that, described fastening body (55) specifically adopts helical spring.

6. the comminutor cutter sweep of new and effective modified node method according to claim 1, it is characterized in that, described pay-off (6) comprises rotating shaft (61), parallels (62), latch (63), rotate wing (64) and lock-screw (65), described parallels (62) is arranged on the rear positions of rotating shaft (61); Described latch (63) is arranged on the forward position of parallels (62); Described rotation wing (64) is arranged on the front portion of latch (63); Described lock-screw (65) is arranged on the front portion rotating wing (64).

7. the comminutor cutter sweep of new and effective modified node method according to claim 6, is characterized in that, described rotation wing (64) specifically adopts helical form lamellar body.

8. the comminutor cutter sweep of new and effective modified node method according to claim 1, is characterized in that, described charging aperture (4) specifically adopts rectangular tray.