CN104886223A - Equipment for deep processing of spiral shells - Google Patents

Abstract

The invention discloses equipment for deep processing of spiral shells, comprising a machine body. A feeding device, a tail cutting device, a discharge device and a transmission device are arranged on the machine body. The tail cutting device comprises a spiral revolving shaft which is vertically arranged and provided with spiral orbits on the outer wall, a tail embedding cylinder sleeved outside the spiral revolving shaft, and a rotating cylinder sleeved outside the tail embedding cylinder. The two ends of the spiral revolving shaft are connected to the machine body in a rotating mode through bearings and bearing pedestals. The protruded part of each spiral orbit, which is in contact with the tail embedding cylinder, is provided with flexible scrapers. A plurality of pores are densely distributed on the wall of the tail embedding cylinder, and the outer bore diameter of each pore is less than the inner pore diameter. Cutters at the outer side of the pores are fixed on the inner wall of the rotating cylinder. The transmission device drives the spiral revolving shaft and the rotating cylinder to rotate in opposite directions. With the adoption of the equipment disclosed in the invention, the tail shells of the spiral shells can be processed more conveniently, omission in cutting can be avoided, and the survival rate of the spiral shells is improved.

Description

Spiral shell deep processing equipment

Technical field

The present invention relates to a kind of spiral shell deep processing equipment, be specifically designed to process snail tail shell part.

Background technology

At present, Machine of Resecting End of Snail market had is divided into semi-automatic with two kinds, fully automatic roll type type.Automanual higher for manpower requirements, require user to be filled in one by one by size by screw in tail shearing machine hole and can not process in enormous quantities, taking time and effort.And full automatic than more convenient, but there is remarkable shortcoming.Long and the non-fast sword of cutting knife of spiral shell run duration in cylinder and not easily surviving, because spiral shell afterbody can only be stuck on overhead nearer rolling drum surface, has fish that has escape the net unavoidably.Therefore, be badly in need of a kind of back-end crop device of exploitation to improve and cut tail efficiency.

Summary of the invention

The present invention seeks to: for the problems referred to above, provide a kind of spiral shell deep processing equipment, it can process snail tail shell part more easily, avoids cutting less and leakage cuts and improve spiral shell survival rate.

Technical scheme of the present invention is: described spiral shell deep processing equipment, comprise fuselage, the back-end crop device described fuselage is provided with the feed arrangement of spiral shell to be processed is provided, described spiral shell being carried out to back-end crop processing and the drawing mechanism of the tail shell waste material obtained after machining and finished product spiral shell separately being discharged;

Described back-end crop device comprise vertical arrange and the screw shaft being provided with helical orbit on its outer wall, the rotating cylinder that is enclosed within the embedding tail pipe outside this screw shaft and is enclosed within outside this embedding tail pipe, the two ends of screw shaft are rotatably connected on described fuselage by bearing and bearing block, the helical orbit projection contacted with embedding tail pipe is equipped with flexible blades, the barrel of embedding tail pipe gathers and offers some apertures, and the aperture, outer end of described aperture is less than inner aperture, rotating cylinder inwall is fixed with the cutting knife be positioned at outside described aperture;

Also comprise the transmission device driving described screw shaft and rotating cylinder to do rightabout rotation.

The present invention, on the basis of technique scheme, also comprises following preferred version:

Described back-end crop device also comprises the firm banking that its top is provided with draw-in groove, and the lower end of described rotating cylinder is fixedly fastened in the draw-in groove on described firm banking top.

Described drawing mechanism comprises the fixed mount be fixed on described fuselage, the cylindrical baffle be enclosed within outside described rotating cylinder, its upper end pass to waste outlet between described embedding tail pipe and rotating cylinder and its upper end passes to product outlet between embedding tail pipe and screw shaft, described firm banking is rotatably supported on described fixed mount, described embedding tail pipe is fixed by stator and cylindrical baffle, and the lower end of cylindrical baffle is fixed on fixed mount.

Described transmission device comprises the first bevel gear, the second bevel gear, third hand tap gear and motor, described second bevel gear is relative and coaxially arranged with described third hand tap gear direction, on the motor output shaft that described first bevel gear is fixed on described motor and respectively with described second bevel gear and third hand tap gears meshing, described second bevel gear and described firm banking are coaxially fixed, and described third hand tap gear and described screw shaft are coaxially fixed.

Coaxially be fixed together by a hollow shaft between second bevel gear and firm banking, it is outer and be threadedly connected on firm banking that described hollow shaft sleeve is located at described screw shaft, and the second bevel gear is fixed in hollow shaft by the shaft shoulder and the axle collar.

Deep groove ball bearing is supported with between described hollow shaft and screw shaft.

Described feed arrangement is made up of hopper and driving lever, hopper is with upper feed inlet and the bottom discharging opening that passes between embedding tail pipe and screw shaft, charging aperture place is provided with the fixed dam of being lived by charging aperture aperture area partial occlusion and the circular orbit be positioned at below this fixed dam, described driving lever is made up of the body of rod and the fan-shaped plectrum be threaded on this body of rod, and fan-shaped plectrum is stuck in circular orbit and also can circumference rotates, to adjust the size of described charging aperture.

Described screw shaft is provided with altogether three the described helical orbits distributed from top to bottom.

The inwall of described rotating cylinder is provided with cutting knife groove, described cutting knife to be stuck in described cutting knife groove and to be screwed.

Described cutting knife is fast sword hilted broadsword, is made up of carbide alloy.

Advantage of the present invention is:

1, form helical duct by the cooperation of screw shaft and embedding tail pipe, effectively utilize spiral shell self gravitation, add its trailer card probability on embedding tail pipe.By arranging the lead angle of rational screw shaft, spiral shell can be made to cut tail rate up to 100%.

2, by bevel gear transmission, realize the reverse coaxial rotation of screw shaft and rotating cylinder, improve the relative rotation speed of cutting knife, realize high speed back-end crop, guarantee that spiral shell incision is smooth, improve the quality of spiral shell tail cutting.

3, cut snail tail shell naturally to come off along embedding tail pipe, can not mix with the spiral shell after processing, ensure that the cleannes that spiral shell is processed.Whole process is quick, clean, improves survival rate and the cleannes of spiral shell.

4, whole contrive equipment is small and exquisite, cost is low, be easy to manufacture.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly described, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the overall structure schematic diagram of this spiral shell deep processing equipment of the embodiment of the present invention;

Fig. 2 is the structural representation of feed arrangement in this spiral shell deep processing equipment of the embodiment of the present invention;

Fig. 3 is the structural representation of back-end crop device in this spiral shell deep processing equipment of the embodiment of the present invention;

Fig. 4 is the structural representation of drawing mechanism in this spiral shell deep processing equipment of the embodiment of the present invention;

Fig. 5 is the structural representation of transmission device in this spiral shell deep processing equipment of the embodiment of the present invention;

Detailed description of the invention:

Below in conjunction with specific embodiment, such scheme is described further.Should be understood that these embodiments not limit the scope of the invention for illustration of the present invention.The implementation condition adopted in embodiment can do further adjustment according to the condition of Specific construction unit, and not marked implementation condition is generally the condition in normal experiment.

Specific embodiment mode:

Fig. 1 ~ Fig. 5 shows a specific embodiment of this spiral shell deep processing equipment of the present invention, this equipment comprises fuselage 2, the back-end crop device 3 described fuselage 2 is provided with and provides the feed arrangement 1 of spiral shell to be processed, described spiral shell being carried out to back-end crop processing, the drawing mechanism 4 of the tail shell waste material obtained after machining and finished product spiral shell separately being discharged and the transmission device 5 providing driving force.

The key improvements of the present embodiment is that described back-end crop device 3 have employed one structure very cleverly, and as shown in Figure 3, it comprises screw shaft 3-1, embedding tail pipe 3-2 and rotating cylinder 3-3.Wherein, screw shaft 3-1 vertically arranges, and on its outer wall, be provided with three helical orbits distributed from top to bottom, and every bar spiral has 4.5 circles.Embedding tail pipe 3-2 coaxial sleeve is located at outside screw shaft 3-1.Rotating cylinder 3-3 coaxial sleeve is located at outside embedding tail pipe 3-2.The two ends of screw shaft 3-1 are rotatably connected on fuselage 2 by bearing and bearing block, and the helical orbit projection contacted with embedding tail pipe 3-2 is equipped with flexible blades.The barrel of embedding tail pipe 3-2 gathers and offers some apertures, and the aperture, outer end of described aperture is less than inner aperture.Rotating cylinder 3-3 inwall is fixed with the cutting knife 3-6 be positioned at outside described aperture.In this example, be provided with cutting knife groove on rotating cylinder 3-3 inwall, described cutting knife 3-6 is stuck in cutting knife groove, is screwed.In order to energy back-end crop fast, cutting knife is hilted broadsword, and otch is fast sword, is made up of carbide alloy.

Transmission device 5 does rightabout rotation for driving described screw shaft 3-1 and rotating cylinder 3-3.

During work, spiral shell to be processed is added between screw shaft 3-1 and embedding tail pipe 3-2 by feed arrangement 1, transmission device 5 drives screw shaft 3-1 and rotating cylinder 3-3 to do rightabout rotation, screw shaft 3-1 rotates, spiral shell from top to bottom moves, again because the effect of centrifugal force, spiral shell outwards moves.At a time, spiral shell afterbody is just in time stuck in certain aperture of embedding tail pipe 3-2, and at this moment rotating cylinder 3-3 drives cutting knife 3-6 high-speed reverse to rotate, cutting spiral shell afterbody.

In this example, the aperture arranged distribution in the shape of a spiral on embedding tail pipe 3-2, this helix is consistent with the helical orbit on screw shaft, and hole is just to track.

Described back-end crop device 3 also comprises the firm banking 3-5 that its top is provided with band draw-in groove, and the lower end of described rotating cylinder 3-3 is fixedly fastened in the draw-in groove on described firm banking 3-5 top.

As shown in Figure 4, in this example, described drawing mechanism 4 comprise be fixedly connected on described fuselage 2 upper holder 4-1, the cylindrical baffle 4-2 be enclosed within outside described rotating cylinder 3-3, its upper end passes to waste outlet 4-3 between described embedding tail pipe 3-2 and rotating cylinder 3-3 and its upper end passes to product outlet 4-4 between embedding tail pipe 3-2 and screw shaft 3-1.Described firm banking 3-5 is rotatably supported on above described fixed mount 4-1, and the upper end of described cylindrical baffle 4-2 is fixed by stator 3-4 and embedding tail pipe 3-2, to fix embedding tail pipe 3-2, is mainly used in stopping that the spiral shell afterbody splashed flies out from embedding tail pipe upper end.Wherein stator 3-4 screw 3-7 and nut 3-8 fixes.The lower end of cylindrical baffle 4-2 is fixed on fixed mount 4-1.Described waste outlet 4-3 and product outlet 4-4 can adopt funnel structure, also can adopt pipeline configuration.During enforcement, collect easily, at waste outlet 4-3 arranged beneath waste collection reservoirs at product outlet 4-4 arranged beneath finished product.The finished product spiral shell sheared falls into the bottom in region between embedding tail pipe 3-2 and screw shaft 3-1, then is fallen in finished product collection container below by product outlet 4-4.Meanwhile, after snail tail shell part is cut, splashes to surrounding and blocked by cylindrical baffle 4-2, dropping on the bottom in region between embedding tail pipe 3-2 and rotating cylinder 3-3, then out fall into waste collection reservoirs from waste outlet 4-3.

As shown in Figure 5, in this example, described transmission device 5 comprises the first bevel gear 5-1, second bevel gear 5-2, third hand tap gear 5-3 and motor 5-4, described second bevel gear 5-2 is relative and coaxially arranged with described third hand tap gear 5-3 direction, described first bevel gear 5-1 is coaxially fixed on by the shaft shoulder and the axle collar on the motor output shaft of described motor 5-4, and the first bevel gear 5-1 engages with described second bevel gear 5-2 and third hand tap gear 5-3 respectively, described second bevel gear 5-2 is coaxially fixed in a hollow shaft by the shaft shoulder and axle collar 5-5, it is outer and be threadedly connected on firm banking 3-5 that this hollow shaft sleeve is located at described screw shaft 3-1, deep groove ball bearing 5-6 is supported with between hollow shaft and screw shaft 3-1, second bevel gear 5-2 and firm banking 3-5 is coaxially arranged.Described third hand tap gear 5-3 is coaxially fixed on the lower end of described screw shaft 3-1.During work, motor start-up first bevel gear 5-1 rotates, and drives the second bevel gear 5-2 to rotate and drives third hand tap gear 5-3 to rotate backward simultaneously.Third hand tap gear 5-3 moves and drives screw shaft 3-1 to rotate, spiral shell outwards moves from top to bottom along helical orbit, trailer card in the aperture of embedding tail pipe 3-2, simultaneously, second bevel gear 5-2 High Rotation Speed drives firm banking and rotating cylinder 3-3 to rotate, and cutting knife 3-6 rapidly cuts spiral shell afterbody.

As shown in Figure 2, in this example, described feed arrangement 1 is made up of hopper 1-1 and driving lever 1-2, and hopper 1-1 is with upper feed inlet and bottom discharging opening.Described bottom discharging opening passes to the region between embedding tail pipe 3-2 and screw shaft 3-1.Charging aperture place is provided with the fixed dam of being lived by charging aperture aperture area partial occlusion, and namely charging aperture non-fully is empty.Charging aperture is also provided with the circular orbit be positioned at below this fixed dam everywhere, described driving lever 1-2 is made up of body of rod 1-2-2 and the fan-shaped plectrum 1-2-1 be threaded on this body of rod, and fan-shaped plectrum 1-2-1 is stuck in circular orbit and also can circumference rotates, to adjust the size of described charging aperture.During use, fan-shaped plectrum 1-2-1 annularly orbital motion, changes charging aperture size, stirs spiral shell simultaneously, prevent charging aperture from blocking.

Certainly, above-described embodiment, only for technical conceive of the present invention and feature are described, its object is to people can be understood content of the present invention and implement according to this, can not limit the scope of the invention with this.All equivalent transformations of doing according to the Spirit Essence of main technical schemes of the present invention or modification, all should be encompassed within protection scope of the present invention.

Claims (10)

1. a spiral shell deep processing equipment, comprise fuselage (2), it is characterized in that: the back-end crop device (3) be provided with on described fuselage (2) and the feed arrangement of spiral shell to be processed (1) is provided, described spiral shell being carried out to back-end crop processing and the drawing mechanism (4) that the tail shell waste material and finished product spiral shell that machine rear acquisition are separately discharged;

Described back-end crop device (3) comprise vertical arrange and on its outer wall, be provided with the screw shaft (3-1) of helical orbit, be enclosed within this screw shaft (3-1) embedding tail pipe (3-2) outward, and be enclosed within this embedding tail pipe (3-2) rotating cylinder outward (3-3), the two ends of screw shaft (3-1) are rotatably connected on described fuselage (2) by bearing and bearing block, the helical orbit projection contacted with embedding tail pipe (3-2) is equipped with flexible blades, the barrel of embedding tail pipe (3-2) gathers and offers some apertures, and the aperture, outer end of described aperture is less than inner aperture, rotating cylinder (3-3) inwall is fixed with the cutting knife (3-6) be positioned at outside described aperture,

Also comprise the transmission device (5) driving described screw shaft (3-1) and rotating cylinder (3-3) to do rightabout rotation.

2. spiral shell deep processing equipment according to claim 1, it is characterized in that: described back-end crop device (3) also comprises the firm banking (3-5) that its top is provided with draw-in groove, and the lower end of described rotating cylinder (3-3) is fixedly fastened in the draw-in groove on described firm banking (3-5) top.

3. spiral shell deep processing equipment according to claim 2, it is characterized in that: described drawing mechanism (4) is fixed on the fixed mount (4-1) on described fuselage (2), be enclosed within described rotating cylinder (3-3) cylindrical baffle outward (4-2), its upper end passes to the waste outlet (4-3) between described embedding tail pipe (3-2) and rotating cylinder (3-3), and its upper end passes to the product outlet (4-4) between embedding tail pipe (3-2) and screw shaft (3-1), described firm banking (3-5) is rotatably supported on described fixed mount (4-1), described embedding tail pipe (3-2) is fixed by stator (3-4) and cylindrical baffle (4-2), the lower end of cylindrical baffle (4-2) is fixed on fixed mount (4-1).

4. spiral shell deep processing equipment according to claim 3, it is characterized in that: described transmission device (5) comprises the first bevel gear (5-1), second bevel gear (5-2), third hand tap gear (5-3) and motor (5-4), described second bevel gear (5-2) is relative and coaxially arranged with described third hand tap gear (5-3) direction, described first bevel gear (5-1) is fixed on the motor output shaft of described motor (5-4), and engage with described second bevel gear (5-2) and third hand tap gear (5-3) respectively, described second bevel gear (5-2) and described firm banking (3-5) are coaxially fixed, described third hand tap gear (5-3) and described screw shaft (3-1) are coaxially fixed.

5. spiral shell deep processing equipment according to claim 4, it is characterized in that: be coaxially fixed together by a hollow shaft between the second bevel gear (5-2) and firm banking (3-5), described hollow shaft sleeve is located at described screw shaft (3-1) and be threadedly connected on firm banking (3-5) outward, and the second bevel gear (5-2) is fixed in hollow shaft by the shaft shoulder and the axle collar (5-5).

6. spiral shell deep processing equipment according to claim 5, is characterized in that: be supported with deep groove ball bearing (5-6) between described hollow shaft and screw shaft (3-1).

7. spiral shell deep processing equipment according to claim 1, it is characterized in that: described feed arrangement (1) is made up of hopper (1-1) and driving lever (1-2), hopper (1-1) is with upper feed inlet, and the bottom discharging opening passed between embedding tail pipe (3-2) and screw shaft (3-1), charging aperture place is provided with the fixed dam of being lived by charging aperture aperture area partial occlusion, and the circular orbit be positioned at below this fixed dam, described driving lever (1-2) is made up of the body of rod (1-2-2) and the fan-shaped plectrum (1-2-1) be threaded on this body of rod, fan-shaped plectrum (1-2-1) is stuck in circular orbit and also can circumference rotates, to adjust the size of described charging aperture.

8. spiral shell deep processing equipment according to claim 1, is characterized in that: described screw shaft (3-1) is provided with altogether three the described helical orbits distributed from top to bottom.

9. spiral shell deep processing equipment according to claim 1, is characterized in that: the inwall of described rotating cylinder (3-3) is provided with cutting knife groove, and described cutting knife (3-6) to be stuck in described cutting knife groove and to be screwed.

10. spiral shell deep processing equipment according to claim 1, is characterized in that: described cutting knife (3-6) is fast sword hilted broadsword, is made up of carbide alloy.