CN203872956U - Shell breaking device for peeling pecans manually - Google Patents

Abstract

The utility model discloses a device for manually peeling hickory nut shells, which comprises a frame. A feeding hopper, a transmission mechanism and a shell breaking mechanism are installed on the frame; The first central shaft and the second central shaft, a small gear is installed on the first central shaft, a large gear is installed on the second central shaft, and the small gear and the large gear are installed in mesh with each other, so The knocking drum described above is fixedly connected to the first central shaft, and the loading drum is fixedly connected to the second central shaft; the outer circle of the knocking drum is provided with evenly distributed radial arc-shaped knocking drums along the axial direction. The knocking wheel groove, the knocking wheel shaft is installed on the knocking drum, the knocking wheel is set on the knocking wheel shaft, and the knocking wheel is located in the arc-shaped knocking wheel groove; the loading Uniformly distributed spherical pits are arranged axially on the circumference of the drum. The utility model has the advantages of simple structure, convenient use, reduced hickory sorting requirements, significantly improved processing efficiency, and reduced processing cost.

Description

A hand-peeling hickory nut shell breaking device

technical field

The utility model relates to a device for manually peeling hickory nut shells, which is mainly used for cracking hickory nut shells and belongs to the field of food processing machinery.

Background technique

With the improvement of people's living standards, more and more people realize the nutritional value and health care function of pecans, and the market demand for pecans is also increasing. Yet the husk of hickory nut is hard, and there are multiple partitions in it, and walnut meat is embedded in the hard husk, often needs to use some special-purpose or auxiliary tools when eating, which brings trouble and inconvenience to eating. Hickory nuts are delicious and difficult to peel, which is a major technical problem that plagues the nut processing industry. The traditional processing method of peeling pecans by hand is: put the pecans in a special mold and beat them manually with a hammer. The traditional processing method is mainly done manually, which has low production efficiency, high labor intensity, high cost, and poor sanitation conditions. , prone to two pollutions in the process of processing; although knocking is an ideal way to break the shell, the walnut kernel breakage rate is high during production because the strength of manual knocking is not suitable for control. Therefore, there is a practical demand for a utility model for a shell-breaking device for hand-peeling hickory nuts for mechanized high-efficiency shell breaking. At present, many colleges and universities and food research institutes are researching pecan shell breaking technology and equipment. They basically use methods such as impact, grinding, shearing and extrusion, and some new machines and equipment for shell breaking have been developed. For example, the utility model patent No. 201220344049.5 discloses a high-efficiency hand-peeling hickory cracker, which utilizes the interaction between the high-speed rotating impact bar and the rebound column to crack the surface of the hickory evenly. The method is only applicable to cracking shells of materials with brittle shells and tough kernels, and is not suitable for shelling hickory nuts with thicker shells and a smaller gap between the nuts and shells. The patent No. 200920020191.2 discloses a multifunctional household walnut sheller, which adopts plum blossom rollers and parts in the shape of crocodile teeth. When the plum-blossom roller rotates, the first walnut falls between the crocodile teeth and the plum-blossom roller through the conveying pipe, and the second walnut just falls into the upper adjacent tooth groove of the plum-blossom roller to be processed. At this time, the clamped The hickory nuts are squeezed and rubbed to achieve shell breaking. The cracking machine requires walnuts to be relatively uniform in size, and usually needs to be graded before cracking. At the same time, high cracking rate and low cracking rate cannot be taken into account, and the comprehensive cracking effect is not ideal.

Utility model content

The purpose of the utility model is to provide a hand-peeled hickory nut shell breaking device, aiming at the problems existing in the current hand-peeled hickory nut processing, to provide a hand-peeled hickory nut with simple structure, easy to use, and can make the hickory surface crack evenly and the particles are complete. The hickory peeling and shelling device overcomes the problem that the processing process is limited by the shape and size of the hickory, reduces the sorting requirements of the hickory, can adapt to the processing of the hickory after the primary screening, significantly improves the processing efficiency, and reduces the processing cost.

In order to achieve the above object, the technical scheme of the utility model is:

A hand-peeling hickory cracking device includes a frame, a feed hopper, a transmission mechanism and a shell breaking mechanism are installed on the frame; the transmission mechanism includes a first central shaft mounted on the frame and a The second central shaft, a small gear is installed on the first central shaft, a large gear is installed on the second central shaft, and the small gear and the large gear are installed in mesh with each other, and the first central shaft The shaft is connected with the gearbox and the motor through a coupling; the shell breaking mechanism includes a knocking drum, a loading drum, and a knocking block located between the knocking drum and the loading drum, wherein the knocking drum It is fixedly connected with the first central shaft, and the loading drum is fixedly connected with the second central shaft; the outer circle of the knocking drum is provided with evenly distributed radial arc-shaped knocking wheel grooves along the axial direction, so that The knocking wheel shaft is installed on the knocking drum, and the knocking wheel is set on the knocking wheel shaft, and the knocking wheel is located in the arc-shaped knocking wheel groove; the axial direction on the circumference of the loading drum is There are evenly distributed spherical pits.

A dial wheel shaft is installed inside the feed hopper, and the feed hopper is fixedly installed on the frame above the loading drum.

A baffle plate is installed on the frame between the bottom of the feed hopper and the loading drum.

The first central shaft is connected to the gearbox and the motor through a coupling, and it can also be replaced by connecting the first central shaft to the rotating handle.

The knocking wheel shaft is fitted with a knocking wheel, and there is a movable gap between the knocking wheel shaft and the knocking wheel, and the knocking wheel is a ring-shaped knocking wheel.

The spherical pits are spherical pits with a diameter of 20±3mm; and the number of the spherical pits is equal to the number of arc-shaped knocking wheel grooves.

The frame is also set up with a shaft support, and a knocking block shaft is installed in the shaft hole of the shaft support, and a knocking block is installed on the knocking block shaft, so that the knocking block shaft The strike block is located between the beating drum and the loading drum.

Between the knocking drum and the loading drum, a discharge port is installed on the frame behind the knocking block.

The beneficial effects of the utility model are: the utility model adopts the centrifugal force generated when the knocking drum rotates to make the knocking wheel centrifugally move, and after colliding with the knocking block, the knocking block knocks the hickory at the corresponding position of the loading drum, realizing It simulates the way of manual knocking to break the shell; the spherical pit designed in the axial direction of the circumferential surface of the loading drum fits the shape of the hickory nut, and the force on the hickory nut is even when knocked. Crushing can reduce the breakage rate of hickory nuts and effectively ensure the processing quality; there is a gap between the ring-shaped knocking wheel and the knocking wheel shaft, and the displacement of the knocking wheel for centrifugal movement has an automatic adjustment function with the size of the hickory shape, that is, The knocking force can be automatically adjusted, which can adapt to the processing of pecans of different sizes; the utility model does not need the step of grading device or replacing parts for the processing of pecans of different sizes, reduces the requirements of hickory sorting, and can adapt to the processing of pecans after primary screening , significantly improve the processing efficiency, simple and compact structure, easy to use, low manufacturing and processing costs, is a hand-peeled hickory nut shell cracking device that can make the hickory surface evenly cracked and the particles intact.

Description of drawings

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

Fig. 2 is a cross-sectional view along line A-A of Fig. 1 .

Detailed ways

Example 1

A kind of hand-peeling hickory nut cracking device as shown in Figure 1-2, comprises frame 11, and feed hopper 1, transmission mechanism and shell breaking mechanism are installed on described frame 11; Described transmission mechanism comprises The first central shaft 14 and the second central shaft 19 installed on the frame 11, the two ends of the first central shaft 14 and the second central shaft 19 are respectively equipped with bearings 15, and are fixed on the machine by the bearing seat 16. On the frame 11; the first central shaft 14 is equipped with a pinion 13, and the second central shaft 19 is equipped with a large gear 18, and the small gear 13 and the large gear 18 are installed in mutual meshing, forming The deceleration transmission mechanism is used to drive the knocking drum 9 and the loading drum 4 to rotate in reverse, and to ensure the time phase relationship of the cracking process; the first central shaft 14 is connected to the gearbox 21 and the motor 22 through a coupling 20 , the handle can also be turned on the shaft end sleeve of the first central shaft 14 to realize manual operation; power input is provided. The cracking mechanism includes a knocking drum 9, a loading drum 4, and a knocking block 7 between the knocking drum 9 and the loading drum 4, wherein the knocking drum 9 is connected to the first central shaft 14 Fixedly connected, the described loading drum 4 is fixedly connected with the second central shaft 19; the outer circle of the knocking drum 9 is provided with evenly distributed radial arc-shaped knocking wheel grooves 23 along the axial direction, and the A knocking wheel shaft 17 is installed on the knocking drum 9, and the knocking wheel 10 is set on the knocking wheel shaft 17, and the knocking wheel 10 is located in the arc-shaped knocking wheel groove 23; There is a movable gap between the wheel shaft 17 and the knocking wheel 10, and the knocking wheel 10 is an annular knocking wheel (also can be designed as an eccentric wheel structure). When the knocking drum 9 rotates at high speed, the knocking wheel 10 is subjected to centrifugal force, and the gap between the knocking wheel 10 and the knocking wheel shaft 17 provides the displacement of the radial centrifugal movement of the knocking wheel 10 and hits the knocking block 7. Walnut 5 implements knocking to break the shell. The frame 11 is also erected with a shaft support 8, a knocking block shaft 6 is installed in the shaft hole of the shaft support 8, and a knocking block 7 is installed on the knocking block shaft 6, The knocking block 7 is separated by a spacer; and the knocking block 7 is located between the knocking drum 9 and the loading drum 4; the knocking block 7 can freely swing around the knocking block shaft 6 . The circumference of the loading drum 4 is axially provided with evenly distributed spherical dimples 24 . The spherical pit 24 is a spherical pit with a diameter of 20 ± 3mm; and the number of the spherical pit 24 is equal to the number of the arc-shaped knocking wheel groove 23; it can adapt to hickory nuts of different sizes 5. At the same time, the hickory nuts 5 to be shelled can be effectively brought to the knocking position with the rotation of the loading drum 4 for shelling. A dial wheel shaft 2 is installed in the feed hopper 1 , and the feed hopper 1 is fixedly installed on the frame 11 above the loading drum 4 . A baffle plate 3 is installed on the frame 11 between the bottom of the feed hopper 1 and the loading drum 4 . Between the knocking drum 9 and the loading drum 4, a discharge port 12 is installed on the frame 11 behind the knocking block 7.

In the shell breaking device of this embodiment, when in use, first put hickory nuts 5 into the feed hopper 1, and rotate the hickory nuts 5 through the dial wheel shaft 2 installed in the feed hopper 1, so that the hickory nuts 5 can be smoothly Into the spherical pit 24 of the loading drum 4, because the knocking wheel 10 is empty set on the knocking wheel shaft 17 fixed on the knocking drum 9, the motor 22 and the gearbox 21 drive the coupling 20 to drive the first center The shaft 14 rotates, or manually drives the first central shaft 14 to rotate by turning the handle, and the second central shaft 19 is driven to rotate through the engagement of the small gear 13 on the first central shaft 14 with the large gear 18, thereby driving the drum 9 and the load. The material drum 4 rotates in reverse according to a fixed transmission ratio to ensure the time phase relationship of the shell breaking process; during the rotation of the material drum 4, the hickory nuts 5 in the spherical pit 24 gradually enter into the Knocking position; Simultaneously by the effect of rotating centrifugal force, the knocking wheel 10 that is sheathed on the knocking wheel shaft 17 throws out and hits knocking block 7 radially, makes it swing and exerts knocking force to hickory nut 5, knocks block 7. Instantly knock the hickory nuts 5 transferred to the knocking position on the loading drum 4 to break the shell. After the impact, the knocking wheel 10 bounces back to let out the rotating channel under the action of the reaction force, and along with the continuous rotation of the loading drum 4, the broken hickory nuts 5 fall into the discharge port 12, completing a knocking. During the working process, the different shapes and sizes of the hickory nuts 5 only affect the displacement of the knocking wheel 10 in the radial direction, that is, the swing amplitude of the knocking block 7. The percussion force of block 7 is basically constant, thereby can automatically adapt to the broken shell of hickory nut 5 of different sizes, avoids the broken phenomenon that hickory nut 5 connects shell band benevolence together, can effectively guarantee the broken shell quality.

In this embodiment, the centrifugal force generated when the knocking drum is rotated is used to make the knocking wheel move centrifugally, and after the knocking block collides with the hickory at the corresponding position of the loading drum, the shell breaking method of simulating manual knocking is realized. ;The spherical pit designed in the axial direction on the circumference of the loading drum fits the shape of the hickory nut, and the hickory nut is evenly stressed when knocked. After knocking, the hickory nut has many cracks but is not broken, which can reduce the damage of the hickory nut The efficiency can effectively guarantee the processing quality; there is a gap between the ring-shaped knocking wheel and the knocking wheel shaft, and the displacement of the knocking wheel in centrifugal motion has an automatic adjustment function with the size of the hickory shape, that is, the automatic adjustment of the knocking force, which can adapt to the Processing of hickory nuts of different sizes; in this embodiment, the processing of hickory nuts of different sizes does not require steps of grading devices or parts replacement, which reduces the requirements for sorting hickory nuts, can adapt to the processing of hickory nuts after primary screening, significantly improves processing efficiency, and has a simple structure The device is compact, easy to use, and low in manufacturing and processing costs. It is a hand-peeling hickory nut shelling device that can crack the surface of hickory nuts evenly and keep the particles intact.

Claims (8)

1. A hand-peeled hickory nut shell breaking device, characterized in that: it includes a frame (11), and the frame (11) is equipped with a feed hopper (1), a transmission mechanism and a shell breaking mechanism; The transmission mechanism includes a first central shaft (14) and a second central shaft (19) installed on the frame (11), the first central shaft (14) is equipped with a pinion (13), the A large gear (18) is installed on the second central shaft (19), and the small gear (13) and the large gear (18) are installed in mesh with each other, and the first central shaft (14) passes through the coupling (20) is connected with the gearbox (21) and the motor (22); the shell breaking mechanism includes a knocking drum (9), a loading drum (4), and a drum located between the knocking drum (9) and the loading drum ( 4) The knocking block (7) between, wherein said knocking roller (9) is fixedly connected with the first central shaft (14), and said loading roller (4) is connected with the second central shaft (19) Fixed connection; the outer circle of the knocking drum (9) is provided with evenly distributed radial circular arc-shaped knocking wheel grooves (23) along the axial direction, and the knocking drum (9) is equipped with a knocking wheel groove (23). The wheel shaft (17), the knocking wheel (10) is set on the knocking wheel shaft (17), and the knocking wheel (10) is located in the arc-shaped knocking wheel groove (23); Uniformly distributed spherical pits (24) are axially opened on the circumference of the drum (4). 2. A kind of hand-peeling hickory nut cracking device as claimed in claim 1, is characterized in that: the setting wheel shaft (2) is installed in the described feed hopper (1), and the described feed hopper ( 1) It is fixedly installed on the frame (11) above the loading drum (4). 3. A kind of hand-peeled hickory nut shell breaking device as claimed in claim 1 or 2, characterized in that: the frame (11) between the bottom of the described feed hopper (1) and the loading drum (4) ) is equipped with a baffle plate (3). 4. A hand-peeling hickory nut shell breaking device as claimed in claim 1, characterized in that: the first central shaft (14) is connected to the gearbox (21), motor (22) through a coupling (20) ) can also be replaced by connecting the first central shaft (14) with the rotating handle. 5. A kind of hand-peeling pecan shell breaking device as claimed in claim 1, characterized in that: said knocking wheel shaft (17) is sleeved with knocking wheel (10), and said knocking wheel shaft ( 17) There is an active gap between the knocking wheel (10), and the knocking wheel (10) is an annular knocking wheel. 6. A kind of hand-peeling pecan broken shell device as claimed in claim 1, is characterized in that: described spherical pit (24) is the spherical pit of diameter at 20 ± 3mm; And described spherical pit The number of (24) is equal to the number of arc-shaped knocking wheel grooves (23). 7. A kind of hand-peeled pecan shell breaking device as claimed in claim 1, characterized in that: said frame (11) is also set up with a shaft support (8), and said shaft support (8) ) is equipped with a knocking block shaft (6) in the shaft hole, and a knocking block (7) is installed on the knocking block shaft (6), and the knocking block (7) is located on the knocking drum (9) and the loading roller (4). 8. A kind of hand peeling hickory nut shell breaking device as claimed in claim 1, characterized in that: between the described knocking drum (9) and the loading drum (4), after the knocking block (7) A discharge port (12) is also installed on the frame (11).