CN204090973U - A kind of red bayberry core hulling machine - Google Patents

Abstract

The utility model discloses a kind of red bayberry core hulling machine, this red bayberry core hulling machine comprises frame, be arranged in the feed hopper in frame from top to bottom successively, broken shell assembly and Screen assemblies, feed hopper and broken shell inter-module are provided with upper and lower two-layer combing plate, combing plate offers the blanking port of the strip of more than one transverse direction, blanking port on upper and lower two-layer combing plate forms blanking channel, the longitudinal relative position of level of upper and lower two-layer combing plate is adjustable with the longitudinal width D changing blanking channel, the direction of the broken shell extruding force of broken shell assembly is vertical with longitudinal width of blanking channel, blanking channel is positioned at directly over the broken shell crush-zone of broken shell assembly.The utility model has the advantage that automaticity is high, kernel integrality is good.

Description

A kind of red bayberry core hulling machine

Technical field

The utility model relates to technical field of agricultural machinery, particularly relates to a kind of red bayberry core hulling machine.

Background technology

Red bayberry industry development is now rapid, the accessory substance red bayberry core quantity of red bayberry processing also gets more and more, Chinese waxmyrtle seed contains the nutritional labelings such as abundant grease, protein, nucleolus oil is a kind of novel microspecies oil based on unrighted acid, linoleic acid content is more than 40%, but therefore red bayberry core is not fully utilized, still has every year according to statistics and be no less than 100,000 tons and go out of use.As depicted in figs. 1 and 2, red bayberry core profile is similar to almond, in flat, namely width W is comparatively large, thickness H is less, nucleocapsid has two flat horizontal surfaces 12, two flat horizontal surfaces 12 have bonding crack 11, but the kernel of red bayberry core and thickness of the shell ratio are close to 1:1, and be hard wooden structures, cause red bayberry core broken shell very difficult, also have no the shell breaking method of special equipment for red bayberry core broken shell or maturation at present on the market, substantially be all obtain kernel by manual broken shell, difficulty is comparatively large, and efficiency is lower, is difficult to large-scale promotion application.

Utility model content

The technical problems to be solved in the utility model overcomes the deficiencies in the prior art, provides the red bayberry core hulling machine that a kind of shell-breaking efficiency is high, kernel integrality is good.

For solving the problems of the technologies described above, the utility model by the following technical solutions:

A kind of red bayberry core hulling machine, comprise frame, feed hopper, broken shell assembly and Screen assemblies, described feed hopper, broken shell assembly and Screen assemblies are arranged in described frame from top to bottom successively, upper and lower two-layer combing plate is provided with between described feed hopper and described broken shell assembly, described combing plate offers the blanking port of the strip of more than one transverse direction, blanking port on upper and lower two-layer described combing plate forms blanking channel, the longitudinal relative position of level of upper and lower two-layer combing plate is adjustable with the longitudinal width D changing described blanking channel, the direction of the broken shell extruding force of described broken shell assembly is vertical with longitudinal width of described blanking channel, described blanking channel is positioned at directly over the broken shell crush-zone of described broken shell assembly.

Further improvement as technique scheme:

Upper and lower two-layer described combing plate is bonded to each other.

The lateral length L of described blanking channel is greater than the width W of red bayberry core, and longitudinal width D of described blanking channel is greater than the thickness H of red bayberry core and is less than the width W of red bayberry core.

The lateral cross section of described combing plate is V-shaped, described blanking port be opened in described combing plate bottom and directly over the broken shell crush-zone being positioned at described broken shell assembly.

Combing plate in upper strata is each side provided with one group of first installing plate, lower floor's combing plate is each side provided with one group of second installing plate, described first installing plate is positioned in the middle part of the second installing plate of below, and described first installing plate is connected with frame by screw rod with the second installing plate.

Described broken shell assembly comprises the first rotating shaft, the second rotating shaft, the first broken shell roller, the second broken shell roller and actuator, first broken shell roller is installed in the first rotating shaft, second broken shell roller is installed in the second rotating shaft, described actuator rotates for driving described first rotating shaft and the second rotating shaft, and described blanking channel is positioned at directly over described first broken shell roller and the second broken shell roller junction.

Described first broken shell roller and the second broken shell roller are the serrated roller of pair of meshing, and tooth top is N, 3mm≤N≤9mm to the tooth root minimum clearance of another engaging tooth.

Described first rotating shaft is provided with coarse adjustment mechanism, described coarse adjustment mechanism comprises the coarse adjustment nut that is fixedly connected with the bearing block of the first rotating shaft and the coarse adjustment leading screw with coarse adjustment nut screw connection, described second rotating shaft is provided with micro-adjusting mechanism, described micro-adjusting mechanism comprises the fine-tuning nut be fixedly connected with the bearing block of the second rotating shaft, the fine setting leading screw coordinated with fine-tuning nut and is sheathed on the spring of finely tuning on leading screw, described spring one end acts in frame, and the other end acts on the bearing block of described second rotating shaft.

Described Screen assemblies comprise for nucleocapsid and Nucleolar Segregation the first sieve plate, be positioned at below the first sieve plate for below the second sieve plate of kernel and dust separation and the second sieve plate for collecting the slide plate of dust, the angle of described first sieve plate, the second sieve plate and slide plate and horizontal plane is β, 10 °≤β≤20 °, the discharge outlet of the first sieve plate and the second sieve plate is equipped with collector, described slide plate is equipped with dust collecting box, and described dust collecting box can be extracted out in described frame.

Compared with prior art, the utility model has the advantage of:

Red bayberry core hulling machine of the present utility model, comprise frame, feed hopper, broken shell assembly and Screen assemblies, feed hopper, broken shell assembly and Screen assemblies are arranged in frame from top to bottom successively, upper and lower two-layer combing plate is provided with between feed hopper and broken shell assembly, combing plate offers the blanking port of the strip of more than one transverse direction, blanking port on upper and lower two-layer combing plate forms blanking channel, the longitudinal relative position of level of upper and lower two-layer combing plate is adjustable with the longitudinal width D changing blanking channel, the direction of the broken shell extruding force of broken shell assembly is vertical with longitudinal width of blanking channel, blanking channel is positioned at directly over the broken shell crush-zone of broken shell assembly.During broken shell, red bayberry core adds from feed hopper, be adjusted by the whereabouts attitude of red bayberry core during blanking channel, when red bayberry core enters broken shell assembly, ensure that the extruding force of broken shell assembly acts on the bonding crack of red bayberry core nucleocapsid, instead of act on two flat horizontal surfaces of red bayberry core, thus avoid kernel crushed, ensure that the integrality of kernel, after broken shell, nucleocapsid, kernel and dust realize being separated automatically, and this red bayberry core hulling machine structure is simple, automaticity is high, and can ensure the integrality of kernel.

Accompanying drawing explanation

Fig. 1 is the appearance schematic diagram of red bayberry core.

Fig. 2 is the side view of Fig. 1.

Fig. 3 is the structural representation of the utility model red bayberry core hulling machine.

Fig. 4 is the structural representation of the utility model combing plate at the middle and upper levels.

Fig. 5 is the structural representation of lower floor's combing plate in the utility model.

Fig. 6 is the structural representation of blanking channel in the utility model.

Fig. 7 is the enlarged drawing at A place in Fig. 3.

Fig. 8 is the structural representation of broken shell assembly in the utility model.

Fig. 9 is the structural representation of coarse adjustment mechanism and micro-adjusting mechanism in the utility model.

Figure 10 is the method flow diagram of the utility model red bayberry core hulling machine for red bayberry core broken shell.

In figure, each label represents: 1, frame; 2, feed hopper; 3, combing plate; 31, blanking port; 32, the first installing plate; 33, the second installing plate; 4, broken shell assembly; 41, the first rotating shaft; 42, the second rotating shaft; 43, the first broken shell roller; 44, the second broken shell roller; 45, actuator; 5, Screen assemblies; 51, the first sieve plate; 52, the second sieve plate; 53, slide plate; 54, collector; 55, dust collecting box; 6, blanking channel; 7, screw rod; 8, coarse adjustment mechanism; 81, coarse adjustment leading screw; 9, micro-adjusting mechanism; 91, leading screw is finely tuned; 92, spring; 10, adjusting handle; 11, bonding crack; 12, flat horizontal surface.

Detailed description of the invention

Fig. 3 to Fig. 9 shows a kind of embodiment of the utility model red bayberry core hulling machine, this red bayberry core hulling machine comprises frame 1, feed hopper 2, broken shell assembly 4 and Screen assemblies 5, feed hopper 2, broken shell assembly 4 and Screen assemblies 5 are arranged in frame 1 from top to bottom successively, upper and lower two-layer combing plate 3 is provided with between feed hopper 2 and broken shell assembly 4, combing plate 3 offers the blanking port 31 of the strip of more than one transverse direction, in the present embodiment, the quantity of blanking port 31 is multiple, blanking port 31 on upper and lower two-layer combing plate 3 forms blanking channel 6, the longitudinal relative position of level of upper and lower two-layer combing plate 3 is adjustable with the longitudinal width D changing blanking channel 6, the direction of the broken shell extruding force of broken shell assembly 4 is vertical with longitudinal width of blanking channel 6, blanking channel 6 is positioned at directly over the broken shell crush-zone of broken shell assembly 4.During broken shell, red bayberry core adds from feed hopper 2, by during in the blanking channel 6 of strip, the whereabouts attitude of red bayberry core is adjusted, when red bayberry core enters broken shell assembly 4, ensure that the extruding force of broken shell assembly 4 acts on the bonding crack 11 of red bayberry core nucleocapsid, instead of act on two flat horizontal surfaces 12 of red bayberry core, therefore hard red bayberry core can be broken easily, and the application point freestone benevolence of extruding force is far away, not easily crush kernel, flat horizontal surface 12 thus the integrality of kernel after ensure that broken shell, after broken shell, nucleocapsid, kernel realizes being separated by Screen assemblies 5 with dust automatically.For the red bayberry core of different brackets, without the need to changing any parts, the longitudinal relative position of level adjusting upper and lower two-layer combing plate 3 is only needed to change longitudinal width D of blanking channel 6, this red bayberry core hulling machine, structure is simple, shell-breaking efficiency and automaticity high, and the integrality of kernel is good.

In the present embodiment, upper and lower two-layer combing plate 3 is bonded to each other, the lateral length L of blanking channel 6 is greater than the width W of red bayberry core, and longitudinal width D of blanking channel 6 is greater than the thickness H of red bayberry core and is less than the width W of red bayberry core, ensures that the active force of broken shell assembly 4 acts on the bonding crack 11 of red bayberry core.

According to the size dimension of red bayberry core, blanking port 31 width is that d1 need meet 10 mm≤d1≤14 mm, and the interval d2 between adjacent two blanking ports 31 need meet 5 mm≤d2≤7 mm, and in the present embodiment, d1 equals 12mm, and d2 equals 6 mm.

In the present embodiment, the lateral cross section of combing plate 3 is V-shaped, blanking port 31 be opened in combing plate 3 bottom and directly over the broken shell crush-zone being positioned at broken shell assembly 4.

In the present embodiment, upper strata combing plate 3 is each side provided with one group of first installing plate 32, lower floor's combing plate 3 is each side provided with one group of second installing plate 33, first installing plate 32 is positioned in the middle part of the second installing plate 33 of below, and the first installing plate 32 is connected with frame 1 by screw rod 7 with the second installing plate 33.In the present embodiment, first installing plate 32 offers circular hole, second installing plate 33 offers mounting hole, and each installing plate is by stop nut location and installation on screw rod 7, and screw rod 7 is fixedly connected with frame 1 by clamp nut, when adjusting the position of upper and lower two-layer combing plate 3, unclamp the clamp nut on screw rod 7, manual slip lower floor combing plate 3, can realize the width of blanking channel 6, for the ease of operation, screw rod 7 is also provided with adjusting handle 10.Except the present embodiment, the first installing plate 32 and the second installing plate 33 also can be exchanged mutually, can realize the width adjusting blanking channel 6.

In the present embodiment, broken shell assembly 4 comprises the first rotating shaft 41, second rotating shaft 42, first broken shell roller 43, second broken shell roller 44 and actuator 45, first broken shell roller 43 is installed in the first rotating shaft 41, second broken shell roller 44 is installed in the second rotating shaft 42, actuator 45 rotates for driving the first rotating shaft 41 and the second rotating shaft 42, and blanking channel 6 is positioned at directly over the first broken shell roller 43 and the second broken shell roller 44 junction.In the present embodiment, actuator 45 adopts variable-frequency motor, controls rotating speed when the first broken shell roller 43 and the second broken shell roller 44 broken shell.

In the present embodiment, the first broken shell roller 43 and the second broken shell roller 44 are the serrated roller of pair of meshing, and tooth top to the tooth root minimum clearance of another engaging tooth is that the size of N, 3mm≤N≤9mm, N value and red bayberry core adapts.

In the present embodiment, first rotating shaft 41 is provided with coarse adjustment mechanism 8, coarse adjustment mechanism 8 comprises the coarse adjustment nut that is fixedly connected with the bearing block of the first rotating shaft 41 and the coarse adjustment leading screw 81 with coarse adjustment nut screw connection, second rotating shaft 42 is provided with micro-adjusting mechanism 9, micro-adjusting mechanism 9 comprises the fine-tuning nut be fixedly connected with the bearing block of the second rotating shaft 42, the fine setting leading screw 91 coordinated with fine-tuning nut and be sheathed on the spring 92 of finely tuning on leading screw 91, spring 92 one end acts in frame 1, the other end acts on the bearing block of the second rotating shaft 42, in the present embodiment, coarse adjustment leading screw 81 and fine setting leading screw 91 are provided with adjusting handle 10, rotate adjusting handle 10, and then the distance of the first broken shell roller 43 and the second broken shell roller 44 is adjusted by coarse adjustment mechanism 8 and micro-adjusting mechanism 9, realize the adjustment of N value, control extruding degree, avoid crushing kernel.

In the present embodiment, Screen assemblies 5 comprise for nucleocapsid and Nucleolar Segregation the first sieve plate 51, be positioned at below the first sieve plate 51 for below the second sieve plate 52 of kernel and dust separation and the second sieve plate 52 for collecting the slide plate 53 of dust.First sieve plate 51, second sieve plate 52 and slide plate 53 are β with the angle of horizontal plane, β need meet 10 °≤β≤20 °, in the present embodiment, β equals 15 °, the discharge outlet of the first sieve plate 51 and the second sieve plate 52 is equipped with collector 54, and slide plate 53 is equipped with dust collecting box 55, and dust collecting box 55 can be extracted out in frame 1, after broken shell operation, automatically sieve, save labour, improve efficiency.

Figure 10 shows a kind of embodiment of the utility model based on the red bayberry core shell breaking method of above-mentioned red bayberry core hulling machine, and the shell breaking method of this embodiment, comprises the following steps:

S1: according to the longitudinal relative position of the level of the upper and lower two-layer combing plate 3 of red bayberry core level adjustment red bayberry core hulling machine, determine longitudinal width D of blanking channel 6;

S2: open broken shell assembly 4 and Screen assemblies 5, red bayberry core is added feed hopper 2 and start broken shell;

S3: take out kernel and nucleocapsid respectively through Screen assemblies 5.

The method efficiency is high, and shell-breaking rate is not less than 98%, and kernel integrality is good.

Below two kinds of embodiments of the utility model red bayberry core shell breaking method:

Embodiment 1, the present embodiment is to the broken shell of wooden paulownia red bayberry core, and concrete steps are as follows:

Be that the screen cloth of 8mm, 7mm and 6mm obtains one-level, secondary and three grades of wooden paulownia red bayberry cores respectively successively through aperture by wooden paulownia red bayberry core.Screen cloth has foursquare mesh, and aperture refers to the length of side of mesh, take aperture as the screen cloth of 8mm is example, and the wooden paulownia red bayberry core that width is greater than 11.3mm by screen cloth, cannot be one-level wood paulownia red bayberry core, and the thickness H of one-level wood paulownia red bayberry core is less than 9mm;

Longitudinal width D of the blanking channel 6 in the red bayberry core hulling machine that one-level, secondary and three grades of wooden paulownia red bayberry cores are corresponding is adjusted to 9mm, 8mm and 7mm respectively, and corresponding N value is respectively 6.5mm, 3.5mm and 3.5mm; The aperture of the first sieve plate 51 is respectively 6mm, 5mm and 5mm;

One-level, secondary and the broken shell of three grades of wooden paulownia red bayberry cores is carried out successively in the present embodiment, one-level wood paulownia red bayberry core is added feed hopper 2, startup broken shell assembly 4 and Screen assemblies 5 carry out broken shell, and the rotating speed that actuator 45 controls the first broken shell roller 43 and the second broken shell roller 44 is 120 r/min;

After one-level wood paulownia red bayberry core completes broken shell, carry out the broken shell of secondary wood paulownia red bayberry core, method is identical with one-level red bayberry core, finally completes the broken shell of three grades of wooden paulownia red bayberry cores, takes out kernel and nucleocapsid respectively through Screen assemblies 5.

In the present embodiment, the shell-breaking rate of wooden paulownia red bayberry core reaches 98.34%, and kernel integrality is good.

Embodiment 2, the present embodiment, to the broken shell of dark plum red bayberry core, comprises the following steps:

Be that the screen cloth of 8mm, 7mm and 6mm obtains one-level, secondary and three grades of dark plum red bayberry cores respectively successively through aperture by dark plum red bayberry core, screen cloth has foursquare mesh, aperture refers to the length of side of mesh, take aperture as the screen cloth of 8mm be example, the dark plum red bayberry core that width is greater than 11.3mm cannot pass through screen cloth, be one-level dark plum red bayberry core, the thickness H of one-level dark plum red bayberry core is less than 10mm; ;

The width of the blanking channel 6 in the red bayberry core hulling machine that one-level, secondary and three grades of dark plum red bayberry cores are corresponding is respectively 10mm, 8mm and 7mm, and in this enforcement, N value is respectively 7mm, 4mm and 3.5mm; The aperture of the first sieve plate 51 is respectively 7mm, 5.5mm and 5mm;

One-level, secondary and the broken shell of three grades of dark plum red bayberry cores is separately carried out successively in the present embodiment, one-level dark plum red bayberry core is added feed hopper 2, startup broken shell assembly 4 and Screen assemblies 5 carry out broken shell, and the rotating speed that actuator 45 controls the first broken shell roller 43 and the second broken shell roller 44 is 120 r/min;

After one-level dark plum red bayberry core completes broken shell, carry out the broken shell of secondary dark plum red bayberry core, method and one-level dark plum nuclear phase together, finally complete the broken shell of three grades of dark plum red bayberry cores.

In the present embodiment, the shell-breaking rate of dark plum red bayberry core reaches 98.20%, and kernel integrality is good.

Except above-mentioned two embodiments, can carry out pretreatment such as cleaning, dry, red bayberry core can also be divided into more multi-level during sieving and grading before red bayberry core sieving and grading, the broken shell order of each rank red bayberry core also can adopt other modes.

Although the utility model discloses as above with preferred embodiment, but and be not used to limit the utility model.Any those of ordinary skill in the art, when not departing from technical solutions of the utility model scope, the technology contents of above-mentioned announcement all can be utilized to make many possible variations and modification to technical solutions of the utility model, or be revised as the Equivalent embodiments of equivalent variations.Therefore, every content not departing from technical solutions of the utility model, according to the utility model technical spirit to any simple modification made for any of the above embodiments, equivalent variations and modification, all should drop in the scope of technical solutions of the utility model protection.

Claims (9)

1. a red bayberry core hulling machine, comprise frame (1), feed hopper (2), broken shell assembly (4) and Screen assemblies (5), described feed hopper (2), broken shell assembly (4) and Screen assemblies (5) are arranged in described frame (1) from top to bottom successively, it is characterized in that: between described feed hopper (2) and described broken shell assembly (4), be provided with upper and lower two-layer combing plate (3), described combing plate (3) offers the blanking port (31) of the strip of more than one transverse direction, blanking port (31) on upper and lower two-layer described combing plate (3) forms blanking channel (6), the longitudinal relative position of level of upper and lower two-layer combing plate (3) is adjustable with the longitudinal width D changing described blanking channel (6), the direction of described broken shell assembly (4) broken shell extruding force is vertical with longitudinal width of described blanking channel (6), described blanking channel (6) is positioned at directly over the broken shell crush-zone of described broken shell assembly (4).

2. red bayberry core hulling machine according to claim 1, is characterized in that: upper and lower two-layer described combing plate (3) is bonded to each other.

3. red bayberry core hulling machine according to claim 1, it is characterized in that: the lateral length L of described blanking channel (6) is greater than the width W of red bayberry core, longitudinal width D of described blanking channel (6) is greater than the thickness H of red bayberry core and is less than the width W of red bayberry core.

4. red bayberry core hulling machine according to any one of claim 1 to 3, it is characterized in that: the lateral cross section of described combing plate (3) is V-shaped, described blanking port (31) be opened in described combing plate (3) bottom and directly over the broken shell crush-zone being positioned at described broken shell assembly (4).

5. red bayberry core hulling machine according to any one of claim 1 to 3, it is characterized in that: upper strata combing plate (3) is each side provided with one group of first installing plate (32), lower floor's combing plate (3) is each side provided with one group of second installing plate (33), described first installing plate (32) is positioned at the second installing plate (33) middle part of below, and described first installing plate (32) is connected with frame (1) by screw rod (7) with the second installing plate (33).

6. red bayberry core hulling machine according to any one of claim 1 to 3, it is characterized in that: described broken shell assembly (4) comprises the first rotating shaft (41), second rotating shaft (42), first broken shell roller (43), second broken shell roller (44) and actuator (45), first broken shell roller (43) is installed in the first rotating shaft (41), second broken shell roller (44) is installed in the second rotating shaft (42), described actuator (45) rotates for driving described first rotating shaft (41) and the second rotating shaft (42), described blanking channel (6) is positioned at directly over described first broken shell roller (43) and the second broken shell roller (44) junction.

7. red bayberry core hulling machine according to claim 6, is characterized in that: the serrated roller that described first broken shell roller (43) and the second broken shell roller (44) are pair of meshing, tooth top is N, 3mm≤N≤9mm to the tooth root minimum clearance of another engaging tooth.

8. red bayberry core hulling machine according to claim 6, it is characterized in that: described first rotating shaft (41) is provided with coarse adjustment mechanism (8), described coarse adjustment mechanism (8) comprises the coarse adjustment nut that is fixedly connected with the bearing block of the first rotating shaft (41) and the coarse adjustment leading screw (81) with coarse adjustment nut screw connection, described second rotating shaft (42) is provided with micro-adjusting mechanism (9), described micro-adjusting mechanism (9) comprises the fine-tuning nut be fixedly connected with the bearing block of the second rotating shaft (42), the fine setting leading screw (91) coordinated with fine-tuning nut and be sheathed on the spring (92) of finely tuning on leading screw (91), described spring (92) one end acts in frame (1), the other end acts on the bearing block of described second rotating shaft (42).

9. red bayberry core hulling machine according to any one of claim 1 to 3, it is characterized in that: described Screen assemblies (5) comprises the first sieve plate (51) for nucleocapsid and Nucleolar Segregation, be positioned at the first sieve plate (51) below and be used for second sieve plate (52) of kernel and dust separation and the second sieve plate (52) below for collecting the slide plate (53 of dust, described first sieve plate (51), second sieve plate (52) and slide plate (53) are β with the angle of horizontal plane, 10 °≤β≤20 °, the discharge outlet of the first sieve plate (51) and the second sieve plate (52) is equipped with collector (54), described slide plate (53) is equipped with dust collecting box (55), described dust collecting box (55) can be extracted out in described frame (1).