CN210168986U - Hazelnut shell breaking and separating equipment - Google Patents

Abstract

The utility model discloses a hazelnut breaking and separating equipment, including support, broken shell system and piece-rate system, the support includes platform and four stands, platform bottom four corners has respectively welded a stand, broken shell system is installed through two sets of fixing bases to platform central point, install piece-rate system between the stand. In adopting the above technical scheme, the beneficial effects of the utility model are that: the utility model has the advantages of being simple in structure and convenient in operation, be difficult to the blocking phenomenon appear, overhaul simple and conveniently.

Description

Hazelnut shell breaking and separating equipment

Technical Field

The utility model belongs to hazelnut treatment facility field specifically says so a hazelnut breaking and separating equipment.

Background

The hazelnut is rich in nutrition, the nuts contain protein, fat and sugar, carotene, vitamin B1, vitamin B2 and vitamin E, the hazelnut contains 8 kinds of amino acids which are needed by human bodies and have full sample and the content of the amino acids is far higher than that of the walnuts, the hazelnut contains various trace elements such as calcium, phosphorus and iron which are also higher than that of other nuts, and the hazelnut contains special components such as grease (mostly unsaturated fatty acid), protein, carbohydrate, vitamin E, mineral substances, sugar fiber, β -archasterol, antioxidant carbolic acid and the like, and eight kinds of amino acids and trace elements needed by human bodies.

However, the hazelnuts belong to nut food, and the hazelnuts are difficult to eat due to the fact that the surfaces of the hazelnuts are provided with a layer of hard shells, so that a plurality of hazelnut shell breaking and separating devices exist in the market at present, and the existing devices have the following defects:

1. the structure is complicated, the installation and the disassembly and the repair are complicated, the workload is large, and if a certain part is damaged, the maintenance cannot be carried out in time;

2. the shell breaking effect is poor, the existing hazelnut processing equipment mostly adopts a mode of a cutter, the cutter is a quick-wear part, the production cost is increased, and the effect of the cutter on shell breaking is poor due to the fact that the hazelnuts are irregular objects;

3. the separation effect is poor, the existing treatment equipment mostly adopts a layer screen mechanism to treat the hazelnuts after the shells are broken, and the hazelnuts after the shells are broken are different in size and easily cause the blockage of the screen surface, so that the separation effect of the hazelnuts after the shells are broken is poor, and the production efficiency of the equipment is reduced.

Disclosure of Invention

The utility model aims at providing a hazelnut breaking and separating device.

In order to achieve the above purpose, the technical scheme of the utility model is that: the utility model provides a hazelnut breaking and separating equipment, includes support, broken shell system and piece-rate system, the support includes platform and four stands, platform bottom four corners respectively welds has a stand, the broken shell system is installed through two sets of fixing bases to platform central point, piece-rate system is installed to the stand between.

Preferably, the shell breaking system comprises a shell breaking barrel, a shell breaking motor, a first shell breaking roller, a second shell breaking roller, a feeding hole and a discharging hole, wherein the shell breaking barrel is mounted on the fixed seat through a fixing bolt, the feeding hole is mounted at the top of the shell breaking barrel, the discharging hole is mounted at the bottom of the shell breaking barrel, the shell breaking motor is mounted on a platform on the left side of the shell breaking barrel, and the head of the shell breaking motor is provided with a bidirectional belt pulley through a motor shaft;

a first shell breaking roller supporting bearing seat and a second shell breaking roller supporting bearing seat are respectively arranged on the right side of the shell breaking motor, which is positioned on the outer wall of the shell breaking barrel and positioned on the upper side and the lower side of the fixed seat, a first shell breaking roller guide disc is arranged on the right side wall in the shell breaking barrel and is positioned on the same horizontal line position with a first shell breaking roller supporting bearing seat, a supporting rotating shaft is arranged in the first shell breaking roller supporting bearing seat, a guide plate is arranged at one end of the supporting rotating shaft, which is positioned in the shell breaking barrel, through a fastening bolt, a first shell breaking roller main shaft is welded at the bottom of the guide plate, the first shell breaking roller is arranged on a main shaft of the first shell breaking roller, a group of second shell breaking roller supporting bearing seats with the same structure are arranged on the right side wall of the inner part of the shell breaking barrel and are positioned on the same horizontal line position with the second shell breaking roller supporting bearing seats, the second shell breaking roller is arranged between the two groups of second shell breaking roller supporting bearing seats through a second shell breaking roller main shaft;

the supporting rotating shaft left end is located shell breaking barrel externally mounted and is provided with a first shell breaking roller belt pulley, the second shell breaking roller main shaft left end is located shell breaking barrel externally mounted and is provided with a second shell breaking roller belt pulley, the first shell breaking roller belt pulley is connected with the bidirectional belt pulley through a first shell breaking roller belt, and the second shell breaking roller belt pulley is connected with the bidirectional belt pulley through a second shell breaking roller belt.

Preferably, the separation system is composed of a first vibrating screen and a second vibrating screen installed between the columns, the first vibrating screen comprises two groups of first vibrating screen vibrating mechanisms and a first vibrating screen surface, the two groups of first vibrating screen vibrating mechanisms are respectively arranged on the inner side walls of the two upright posts, the two groups of first vibrating mechanisms are provided with first vibrating screen surfaces, the first vibrating screen surfaces are provided with a plurality of first vibrating screen surface screen holes, the second vibrating screen comprises two groups of vibrating mechanisms and a second vibrating screen surface, the two groups of vibrating mechanisms are respectively arranged on the inner side walls of the two upright posts, the screen surface is installed at above-mentioned two sets of second reciprocating sieve reciprocating mechanism, be equipped with a plurality of second reciprocating sieve sifter meshes on the second reciprocating sieve sifter, the diameter of first reciprocating sieve sifter mesh is greater than the diameter of second reciprocating sieve sifter mesh.

Preferably, the guide plate is shorter than the lower part of the support rotating shaft relative to the upper part of the support rotating shaft, so that the first shell breaking roller can perform revolution motion around the support rotating shaft, and the first shell breaking roller can perform revolution motion and simultaneously perform rotation motion around the main shaft of the first shell breaking roller.

Preferably, the first shell breaking roller guide disc comprises a chassis and a circular ring-shaped track, the circular ring-shaped track is arranged on the inner side of the chassis, and a pulley is mounted at the right end of a main shaft of the first shell breaking roller and can be clamped in the circular ring-shaped track and can freely slide.

As preferred, first reciprocating sieve vibrations mechanism and second reciprocating sieve vibrations mechanism structure are the same, all include slide rail, slide, fixed plate, spring, elastic connecting rod and lug, the slide rail is established at the stand inboardly, the block has the slide in the slide rail, the slide rail top is located the inboard welding of stand and has the fixed plate, vertically install the spring between fixed plate and the slide, the lug passes through the one end of helicitic texture installation at first reciprocating sieve sifter or second reciprocating sieve sifter, the right-hand member of slide is equipped with the pilot hole, elastic connecting rod installs between pilot hole and lug.

Preferably, two ends of the elastic connecting rod are arranged on the lifting lug and the assembling hole through sliding sleeves.

The outer wall of the first shell breaking roller is provided with regular hill-shaped first shell breaking roller extrusion blocks, the outer wall of the second shell breaking roller is provided with regular hill-shaped second shell breaking roller extrusion blocks, and the first shell breaking roller extrusion blocks and the second shell breaking roller extrusion blocks are arranged at intervals.

Due to the adoption of the technical scheme, the beneficial effects of the utility model are that: the utility model has the advantages of being simple in structure and convenient in operation, be difficult to the blocking phenomenon appear, overhaul simple and conveniently.

Drawings

The present invention will now be further described with reference to the accompanying drawings.

Fig. 1 is a schematic view of the working principle of the present invention.

Fig. 2 is a schematic view of the structure of the guiding plate of the present invention.

Fig. 3 is the structural schematic diagram of the first vibrating screen vibrating mechanism or the second vibrating screen vibrating mechanism of the present invention.

Fig. 4 is the schematic diagram of the position relationship between the first shell breaking roller and the second shell breaking roller of the present invention.

In the figure: 1. support, 11, platform, 12, upright column, 13, fixed seat, 14, fixing bolt, 2, crust breaking system, 21, crust breaking barrel, 22, crust breaking motor, 23, first crust breaking roller, 24, second crust breaking roller, 25, feed inlet, 26, discharge outlet, 27, motor shaft, 28, bidirectional belt pulley, 29, first crust breaking roller supporting bearing seat, 210, second crust breaking roller supporting bearing seat, 211, first crust breaking roller guide disc, 2111, chassis, 2112, circular orbit, 212, supporting rotating shaft, 213, fastening bolt, 214, guide plate, 215, first crust breaking roller main shaft, 216, second crust breaking roller main shaft, 217, first crust breaking roller belt pulley, 218, second crust breaking roller belt pulley, 219, first crust breaking roller belt, 220, second crust breaking roller, belt 221, pulley, 3, separating system, 31, first vibrating screen, 311, first vibrating screen mechanism, 312, The vibrating screen comprises a first vibrating screen surface 313, a first vibrating screen surface sieve hole 32, a second vibrating screen 321, a second vibrating screen vibrating mechanism 322, a second vibrating screen surface 323, a second vibrating screen surface sieve hole 33, a sliding rail 34, a sliding plate 35, a fixing plate 36, a spring 37, an elastic connecting rod 38, a lifting lug 39, an assembling hole 310 and a sliding sleeve.

Detailed Description

As shown in fig. 1-4, the utility model discloses a hazelnut breaking and separating equipment, including support 1, broken shell system 2 and piece-rate system 3, support 1 includes platform 11 and four stands 12, 11 bottom four corners of platform have respectively welded a stand 12, 11 central point of platform puts and installs broken shell system 2 through two sets of fixing bases 13, piece-rate system 3 is installed between stand 12.

The shell breaking system 2 comprises a shell breaking barrel 21, a shell breaking motor 22, a first shell breaking roller 23, a second shell breaking roller 24, a feeding hole 25 and a discharging hole 26, wherein the shell breaking barrel 21 is installed on the fixed seat 13 through a fixing bolt 14, the feeding hole 25 is installed at the top of the shell breaking barrel 21, the discharging hole 26 is installed at the bottom of the shell breaking barrel 21, the shell breaking motor 22 is installed on the platform 11 on the left side of the shell breaking barrel 21, and the head of the shell breaking motor 22 is provided with a bidirectional belt pulley 28 through a motor shaft 27;

the right side of the shell breaking motor 22 is positioned on the outer wall of the shell breaking barrel 21 and positioned on the upper side and the lower side of the fixed seat 13, and is respectively provided with a first shell breaking roller supporting bearing seat 29 and a second shell breaking roller supporting bearing seat 210, the right side wall in the shell breaking barrel 21 and the first shell breaking roller supporting bearing seat 29 are positioned on the same horizontal line and are respectively provided with a first shell breaking roller guide disc 211, a supporting rotating shaft 212 is arranged in the first shell breaking roller supporting bearing seat 29, one end of the supporting rotating shaft 212 positioned in the shell breaking barrel 21 is provided with a guide plate 214 through a fastening bolt 213, the bottom of the guide plate 214 is welded with a first shell breaking roller main shaft 215, the first shell breaking roller 23 is arranged on the first shell breaking roller main shaft 215, the right side wall in the shell breaking barrel 21 and the second shell breaking roller supporting bearing seat 210 are positioned on the same horizontal line and are provided with a group of second shell breaking roller supporting bearing seats, the second shell breaking roller 24 is mounted between the two groups of second shell breaking roller supporting bearing seats 210 through a second shell breaking roller main shaft 216;

the left end of the supporting rotating shaft 212 is located at the outer portion of the shell breaking barrel 21 and is provided with a first shell breaking roller belt pulley 217, the left end of the second shell breaking roller main shaft 216 is located at the outer portion of the shell breaking barrel 21 and is provided with a second shell breaking roller belt pulley 218, the first shell breaking roller belt pulley 217 is connected with the two-way belt pulley 28 through a first shell breaking roller belt 219, and the second shell breaking roller belt pulley 218 is connected with the two-way belt pulley 28 through a second shell breaking roller belt 220.

The separation system 3 is composed of a first vibrating screen 31 and a second vibrating screen 32 which are arranged between the upright posts 12, the first vibrating screen 31 comprises a first vibrating screen vibrating mechanism 311 and a first vibrating screen surface 312, the first vibrating screen vibrating mechanism 311 comprises two groups which are respectively arranged on the inner side walls of the two upright posts 12, the first vibrating screen surface 312 is arranged on the two groups of first vibrating screen vibrating mechanisms 311, a plurality of first vibrating screen surface sieve holes 313 are arranged on the first vibrating screen surface 312, the second vibrating screen 32 comprises a second vibrating screen vibrating mechanism 321 and a second vibrating screen surface 322, the two groups of second vibrating screen vibrating mechanisms 321 are respectively arranged on the inner side walls of the two upright posts 12, the sieve surface 322 is arranged on the two groups of second vibrating screen vibrating mechanisms 321, a plurality of second vibrating screen surface sieve holes 323 are arranged on the second vibrating screen surface 322, the diameter of the first shaker screening surface mesh 313 is greater than the diameter of the second shaker screening surface mesh 323.

The guide plate 213 is shorter in length than the lower portion of the upper portion of the support shaft 212, so that the first shell-breaking roll 23 can revolve around the support shaft 212, and the first shell-breaking roll 23 can revolve and simultaneously rotate around the first shell-breaking roll spindle 215.

The first shell breaking roller guide disc 211 comprises a chassis 2111 and a circular ring-shaped track 2112, the circular ring-shaped track 2112 is arranged on the inner side of the chassis 2111, a pulley 221 is mounted at the right end of the first shell breaking roller main shaft 215, and the pulley 221 can be clamped in the circular ring-shaped track 2112 and can freely slide.

First reciprocating sieve reciprocating mechanism 311 and second reciprocating sieve reciprocating mechanism 321 structure are the same, all include slide rail 33, slide 34, fixed plate 35, spring 36, elastic connecting rod 37 and lug 38, slide rail 33 is established at stand 12 inboardly, the block has slide 34 in the slide rail 33, slide rail 33 top is located the inboard welding of stand 12 and has fixed plate 35, vertically install spring 36 between fixed plate 35 and the slide 34, lug 38 passes through the one end of screw thread structural installation at first reciprocating sieve sifter 312 or second reciprocating sieve sifter 322, the right-hand member of slide 34 is equipped with pilot hole 39, elastic connecting rod 37 is installed between pilot hole 39 and lug 38.

The two ends of the elastic connecting rod 36 are mounted on the lifting lugs 38 and the mounting holes 39 through sliding sleeves 310.

The outer wall of the first shell breaking roller 23 is provided with regular hill-shaped first shell breaking roller extrusion blocks 231, the outer wall of the second shell breaking roller 24 is provided with regular hill-shaped second shell breaking roller extrusion blocks 241, and the first shell breaking roller extrusion blocks 231 and the second shell breaking roller extrusion blocks 241 are arranged alternately.

The U-shaped sliding block is mounted at the bottom end of the sliding plate, a U-shaped sliding groove is formed in the sliding rail, and the U-shaped sliding block can be clamped in the U-shaped sliding groove and can freely slide.

The working principle is as follows: the shell breaking motor 22 is started, the first shell breaking roller belt pulley 217 and the second shell breaking roller belt pulley 218 are respectively driven to rotate through the cooperation between the bidirectional belt pulley 28 and the first shell breaking roller belt 219 and the second shell breaking roller belt 220, so that the first shell breaking roller 23 is driven to revolve around the supporting rotating shaft 212 through the guide plate 214 and the first shell breaking roller guide disc 211, meanwhile, the first shell breaking roller 23 rotates around the first shell breaking roller spindle 215, the second shell breaking roller 24 is driven to rotate around the second shell breaking roller spindle 216 through the second shell breaking roller belt pulley 218, hazelnuts needing shell breaking and separating are slowly poured into the feed inlet 25 and fall between the hill-shaped first shell breaking roller extrusion blocks 231 on the first shell breaking roller 23, and when the hazelnuts move to the space between the first shell breaking roller extrusion blocks 231 and the second shell breaking roller extrusion blocks 241, the shell breaking is influenced by extrusion force, and the shell breaking is completed, and then falls into the first vibrating screen surface 312 through the discharge port 26, along with the increase of gravity, the slide rail 33, the slide plate 34, the fixed plate 35, the spring 36 and the elastic connecting rod 37 in the first vibrating screen vibrating mechanism 311 are mutually matched to realize the up-and-down reciprocating motion of the first vibrating screen surface 312 to finish the primary separation of the materials, then the broken hazelnuts and a part of smaller shells fall into the second vibrating screen surface 322, and are mutually matched through the slide rail 33, the slide plate 34, the fixed plate 35, the spring 36 and the elastic connecting rod 37 in the second vibrating screen vibrating mechanism 321 to realize the secondary separation of the second vibrating screen surface 322, and finally the fallen materials are subjected to impurity removal by a winnowing machine to obtain the completely separated hazelnut kernels.

The foregoing is a detailed description of the present invention in connection with specific preferred embodiments, and it is not to be construed that the specific embodiments of the present invention are limited to those descriptions. To those skilled in the art to which the invention pertains, without departing from the spirit of the invention, several simple deductions or substitutions can be made, all of which should be considered as belonging to the scope of patent protection defined by the claims filed with the invention.

Claims (8)

1. A hazelnut breaking and separating device is characterized in that: the support comprises a platform and four stand columns, the stand columns are welded at four corners of the bottom of the platform respectively, the shell breaking system is installed at the central position of the platform through two groups of fixing seats, and the separating system is installed between the stand columns.

2. The hazelnut shelling and separating apparatus of claim 1, wherein: the shell breaking system comprises a shell breaking barrel, a shell breaking motor, a first shell breaking roller, a second shell breaking roller, a feeding hole and a discharging hole, wherein the shell breaking barrel is installed on a fixed seat through a fixing bolt;

a first shell breaking roller supporting bearing seat and a second shell breaking roller supporting bearing seat are respectively arranged on the right side of the shell breaking motor, which is positioned on the outer wall of the shell breaking barrel and positioned on the upper side and the lower side of the fixed seat, a first shell breaking roller guide disc is arranged on the right side wall in the shell breaking barrel and is positioned on the same horizontal line position with a first shell breaking roller supporting bearing seat, a supporting rotating shaft is arranged in the first shell breaking roller supporting bearing seat, a guide plate is arranged at one end of the supporting rotating shaft, which is positioned in the shell breaking barrel, through a fastening bolt, a first shell breaking roller main shaft is welded at the bottom of the guide plate, the first shell breaking roller is arranged on a main shaft of the first shell breaking roller, a group of second shell breaking roller supporting bearing seats with the same structure are arranged on the right side wall of the inner part of the shell breaking barrel and are positioned on the same horizontal line position with the second shell breaking roller supporting bearing seats, the second shell breaking roller is arranged between the two groups of second shell breaking roller supporting bearing seats through a second shell breaking roller main shaft;

the supporting rotating shaft left end is located shell breaking barrel externally mounted and provided with a first shell breaking roller belt pulley, the second shell breaking roller main shaft left end is located shell breaking barrel externally mounted and provided with a second shell breaking roller belt pulley, the first shell breaking roller belt pulley is connected with the two-way belt pulley through a first shell breaking roller belt, and the second shell breaking roller belt pulley is connected with the two-way belt pulley through a second shell breaking roller belt.

3. The hazelnut shelling and separating apparatus of claim 1, wherein: the separation system consists of a first vibrating screen and a second vibrating screen which are arranged between upright posts, the first vibrating screen comprises a first vibrating screen vibrating mechanism and a first vibrating screen surface, two groups of first vibrating mechanisms are arranged on the inner side walls of the two upright posts respectively, the two groups of first vibrating mechanisms are provided with first vibrating screen surfaces, the first vibrating screen surfaces are provided with a plurality of first vibrating screen surface screen holes, the second vibrating screen comprises two groups of vibrating mechanisms and a second vibrating screen surface, the two groups of vibrating mechanisms are respectively arranged on the inner side walls of the two upright posts, the screen surface is installed at above-mentioned two sets of second reciprocating sieve reciprocating mechanism, be equipped with a plurality of second reciprocating sieve sifter meshes on the second reciprocating sieve sifter, the diameter of first reciprocating sieve sifter mesh is greater than the diameter of second reciprocating sieve sifter mesh.

4. The hazelnut shelling and separating apparatus of claim 2, wherein: the guide plate is shorter than the lower part of the support rotating shaft relative to the upper part of the support rotating shaft, so that the first shell breaking roller can do revolution motion around the support rotating shaft, and can also do rotation motion around the main shaft of the first shell breaking roller while doing revolution motion.

5. The hazelnut shelling and separating apparatus of claim 2, wherein: the first shell breaking roller guide disc comprises a chassis and an annular rail, the annular rail is arranged on the inner side of the chassis, a pulley is mounted at the right end of a main shaft of the first shell breaking roller, and the pulley can be clamped in the annular rail and can freely slide.

6. The hazelnut shelling and separating apparatus of claim 3, wherein: first reciprocating sieve vibrations mechanism and second reciprocating sieve vibrations mechanism structure are the same, all include slide rail, slide, fixed plate, spring, elastic connecting rod and lug, the slide rail is established at the stand inboardly, the block has the slide in the slide rail, the slide rail top is located the inboard welding of stand and has the fixed plate, vertically install the spring between fixed plate and the slide, the lug passes through the one end of helicitic texture installation at first reciprocating sieve sifter or second reciprocating sieve sifter, the right-hand member of slide is equipped with the pilot hole, elastic connecting rod installs between pilot hole and lug.

7. The hazelnut shelling and separating apparatus of claim 6, wherein: the two ends of the elastic connecting rod are arranged on the lifting lug and the assembling hole through sliding sleeves.

8. The hazelnut shelling and separating apparatus of claim 2, wherein: the outer wall of the first shell breaking roller is provided with regular hill-shaped first shell breaking roller extrusion blocks, the outer wall of the second shell breaking roller is provided with regular hill-shaped second shell breaking roller extrusion blocks, and the first shell breaking roller extrusion blocks and the second shell breaking roller extrusion blocks are arranged at intervals.

Images