CN215433936U - Walnut slicer - Google Patents

Abstract

The utility model provides a walnut slicing machine, and belongs to the field of walnut processing. The belt pulley of the motor is driven by a belt with a reducer belt pulley fixed on the middle layer of a frame, a slicing saw blade is fixed on the other end shaft of the reducer, a feeding grinding tool is fixed on the side surface of the slicing saw blade, the feeding grinding tool is fixed on the middle layer of the frame through a support, a sliding base is arranged on a sliding rod, one end of a push plate is fixed on the sliding base through a bolt, and the other end of the push plate is inserted into the feeding grinding tool; the belt pulley is coaxially fixed with a crank wheel, and the crank wheel is fixed with the sliding base through a connecting rod; the upper layer of the frame is fixed with the storage hopper, the middle layer of the frame is fixed with the connecting rod, the top end of the connecting rod is fixed with the baffle plate through the bolt, the baffle plate is inserted into the outlet of the storage hopper, and the lower end of the discharge hole of the storage hopper is fixed with the discharge guide groove. The utility model can realize the automation of walnut slicing, and saves labor cost; the contact between the operator and the slicing saw blade is reduced, and the working safety is improved; uniform slicing and stable power.

Description

Walnut slicer

Technical Field

The utility model relates to a walnut slicing machine, and belongs to the field of walnut processing.

Background

At present, wild walnuts (whole walnuts) are commonly used in China and processed into sheets or hemispheres to be made into artware such as sculptures, fresco or inscribed boards. The existing processing method is manual saw blade cutting, time and labor are wasted, the efficiency is low, due to the fact that wild walnuts are irregular in shape and difficult to fix, the thickness of cut flake products is uneven, the surfaces of the flake products are not smooth, the flake products are easy to break, the quality is difficult to guarantee, and the production cost is too high.

Disclosure of Invention

The utility model aims to solve the problems in the prior art, and further provides a walnut slicer.

The purpose of the utility model is realized by the following technical scheme:

a walnut slicer comprises a frame, a storage hopper, a baffle, a connecting rod, a push plate, a feeding mold, a slicing saw blade, a first belt pulley, a second belt pulley, a third driven belt pulley, a motor, a sliding base, a sliding rod, a curved wheel, a fourth driven belt pulley, a discharging guide groove, a first bearing seat, a first gear, a second bearing seat, a third bearing seat, a fourth bearing seat, a fifth driven belt pulley and a sixth driven belt pulley,

the frame is divided into an upper layer, a middle layer and a lower layer, the lower layer of the frame is fixed with a motor, a belt pulley of the motor and a reducer belt pulley fixed on the middle layer of the frame are driven by a belt, the other end of the reducer is fixed with a slicing saw blade on a shaft, a feeding grinding tool is fixed on the side surface of the slicing saw blade, the feeding grinding tool is fixed on the middle layer of the frame through a support, a sliding rod is horizontally fixed between the support at the lower end of the feeding grinding tool and the side edge of the frame, a sliding base is arranged on the sliding rod, one end of a push plate is fixed on the sliding base through a bolt, and the other end of the push plate is inserted into the feeding grinding tool; a belt pulley of a motor is in belt transmission with a driven belt pulley tee joint, the driven belt pulley tee joint is fixed on the side face of a frame through a bearing seat I, a gear I coaxial with the driven belt pulley is meshed with a gear II, a shaft of the gear II is fixed on the side face of the frame through the bearing seat II and the bearing seat I, a driven belt pulley VI coaxial with the gear II is in belt transmission with the driven belt pulley tee joint, a shaft of the driven belt pulley IV is fixed on the side face of the frame through the bearing seat III and the bearing seat IV, a driven belt pulley V coaxial with the driven belt pulley IV is in belt transmission with the belt pulley I, the belt pulley I is fixed on the side face of a middle layer of the frame, a belt pulley is coaxially fixed with a crank wheel, and the crank wheel is fixed with a sliding base through a connecting rod; the upper layer of the frame is fixed with the storage hopper, the middle layer of the frame is fixed with the connecting rod, the connecting rod sequentially penetrates through the push plate and the sliding base, the top end of the connecting rod is fixed with the baffle plate through the bolt, the baffle plate is inserted into the outlet of the storage hopper, and the lower end of the discharge hole of the storage hopper is fixed with the discharge guide groove.

The utility model relates to a walnut slicer, wherein the upper end and the side surface of a feeding mould are provided with openings, the interiors of the openings form channels, and the rear side of the opening at the upper end is provided with a metal sheet.

According to the walnut slicing machine, the push plate is inserted into the channel of the feeding mold to push walnuts to leave from the side opening of the feeding mold.

According to the walnut slicer, the connecting rod is movably fixed on the metal rod on the middle layer of the frame through the bolt to realize the left-right movement of the connecting rod, a hole is formed in the corresponding position of the push plate and penetrates through the hole, a groove is formed in the corresponding position of the sliding base, and the connecting rod is arranged in the groove.

According to the walnut slicing machine, the baffle plate is provided with the circular hole, and the size of the circular hole is larger than that of a walnut.

The utility model relates to a walnut slicer, wherein the outlet of a discharging guide groove corresponds to the upper end opening of a feeding mold.

The utility model relates to a walnut slicer, wherein a gear two-way is controlled to move left and right through a connecting rod.

According to the walnut slicing machine, the walnuts cut by the slicing saw blade are discharged through the left side of the frame.

The utility model relates to a walnut slicer, wherein a metal support is arranged on the right side of a frame, a third bearing seat and a fourth bearing seat are fixed on the side surface of the metal support, and a first belt pulley is fixed on the upper surface of the metal support.

According to the walnut slicing machine, the number of the slicing saw blades influences the distance between the slicing saw blades, the distance between the slicing saw blades influences the cutting thickness, and the number of the slicing saw blades is selected according to actual conditions.

The walnut slicing machine can realize automation of walnut slicing, and saves labor cost; the contact between the operator and the slicing saw blade is reduced, and the working safety is improved; the slicing is uniform, the power is stable, and the next production and processing are facilitated.

Drawings

Fig. 1 is a front view of a walnut slicer of the present invention.

Fig. 2 is a right side view of the walnut slicer of the present invention.

Fig. 3 is a rear view of the walnut slicer of the present invention.

Fig. 4 is a top view of a storage hopper of the walnut slicer of the present invention.

Fig. 5 is a detail view of a baffle of the walnut slicer of the present invention.

Fig. 6 is a detail view of a slicing saw blade of the walnut slicer according to the present invention.

Reference numeral in the figure, 1 is a frame; 2 is a storage hopper; 3 is a baffle plate; 4 is a connecting rod; 5 is a push plate; 6, feeding a mold; 7 is a slicing saw blade; 8 is a belt pulley I; 9 is a belt pulley II; 10 is a driven belt wheel III; 11 is a motor; 12 is a sliding base; 13 is a slide bar; 14 is a curved wheel; 15 is a driven belt wheel IV; 16 is a discharge guide groove; 17 is a bearing seat I; 18 is a gear I; 19 is a gear II; 20 is a bearing seat II; 21 is a bearing seat III; a bearing seat four is 22; 23 is a driven belt wheel V; and 24 is a driven pulley six.

Detailed Description

The utility model will be described in further detail below with reference to the accompanying drawings: the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation is given, but the scope of the present invention is not limited to the following embodiments.

The first embodiment is as follows: as shown in fig. 1-6, the present embodiment relates to a walnut slicer, including: comprises a frame, a storage hopper, a baffle, a connecting rod, a push plate, a feeding mold, a slicing saw blade, a first belt pulley, a second belt pulley, a third driven belt pulley, a motor, a sliding base, a sliding rod, a curved wheel, a fourth driven belt pulley, a discharging guide groove, a first bearing seat, a first gear, a second bearing seat, a third bearing seat, a fourth bearing seat, a fifth driven belt pulley and a sixth driven belt pulley,

the frame is divided into an upper layer, a middle layer and a lower layer, the lower layer of the frame is fixed with a motor, a belt pulley of the motor and a reducer belt pulley fixed on the middle layer of the frame are driven by a belt, the other end of the reducer is fixed with a slicing saw blade on a shaft, a feeding grinding tool is fixed on the side surface of the slicing saw blade, the feeding grinding tool is fixed on the middle layer of the frame through a support, a sliding rod is horizontally fixed between the support at the lower end of the feeding grinding tool and the side edge of the frame, a sliding base is arranged on the sliding rod, one end of a push plate is fixed on the sliding base through a bolt, and the other end of the push plate is inserted into the feeding grinding tool; a belt pulley of a motor is in belt transmission with a driven belt pulley tee joint, the driven belt pulley tee joint is fixed on the side face of a frame through a bearing seat I, a gear I coaxial with the driven belt pulley is meshed with a gear II, a shaft of the gear II is fixed on the side face of the frame through the bearing seat II and the bearing seat I, a driven belt pulley VI coaxial with the gear II is in belt transmission with the driven belt pulley tee joint, a shaft of the driven belt pulley IV is fixed on the side face of the frame through the bearing seat III and the bearing seat IV, a driven belt pulley V coaxial with the driven belt pulley IV is in belt transmission with the belt pulley I, the belt pulley I is fixed on the side face of a middle layer of the frame, a belt pulley is coaxially fixed with a crank wheel, and the crank wheel is fixed with a sliding base through a connecting rod; the upper layer of the frame is fixed with the storage hopper, the middle layer of the frame is fixed with the connecting rod, the connecting rod sequentially penetrates through the push plate and the sliding base, the top end of the connecting rod is fixed with the baffle plate through the bolt, the baffle plate is inserted into the outlet of the storage hopper, and the lower end of the discharge hole of the storage hopper is fixed with the discharge guide groove.

The upper end and the side surface of the feeding mold are provided with openings, the inner parts of the openings form channels, and the rear side of the upper end opening is provided with a metal sheet. The push plate is inserted into the channel of the feeding mold to push the walnuts to leave from the side opening of the feeding mold. The outlet of the discharging guide groove corresponds to the upper end opening of the feeding mold. The walnut falls into the upper end opening of the feeding mold under the action of the discharging guide groove, the metal sheet on the rear side of the upper end opening is touched to enable the position of the walnut to be adjusted, namely the center line of the walnut is perpendicular to the slicing saw blade, and the walnut is pushed out from the side opening of the feeding mold to be sliced into walnut slices under the action of the push plate.

The connecting rod is movably fixed on a metal rod on the middle layer of the frame through a bolt to realize the left-right movement of the connecting rod, a hole is formed in the corresponding position of the push plate, the connecting rod penetrates through the hole, a groove is formed in the corresponding position of the sliding base, and the connecting rod is arranged in the groove. The crank wheel rotates to drive the connecting rod to move back and forth, so that the sliding base connected with the connecting rod slides left and right on the sliding rod, the push plate connected with the sliding base also moves left and right, and the connecting rod swings left and right under the action of the groove of the sliding base and the hole in the push plate.

The baffle plate is provided with a circular hole, and the size of the circular hole is larger than that of the walnut. The left and right swinging of the connecting rod drives the baffle to move back and forth, so that walnuts in the discharge hopper enter the running hole, and in the process of finishing one-time swinging, one walnut enters the feeding die through the discharge guide groove.

The gear two controls the left and right movement of the gear two through the connecting rod. The left and right movement of the second gear is controlled through the left and right swinging connecting rod, when the second gear moves leftwards, the second gear is in contact with the first gear, the whole device can work normally, when the second gear moves rightwards, the second gear is not in contact with the first gear, and even if the motor works normally, the whole device cannot be driven to work normally; the structure of the connecting rod and the gear is equivalent to a clutch.

The walnuts cut by the slicing saw blade are discharged through the left side of the frame. The walnut after slicing is discharged from the left side of the frame, and a bag or a box or other containers are placed on the left side of the frame to collect walnut slices.

The right side of the frame is provided with a metal support, the side face of the metal support is fixed with a third bearing seat and a fourth bearing seat, and a first belt pulley is fixed on the metal support. Driven pulley four and driven pulley six are through belt transmission, and the direction and the axle of belt are perpendicular, and driven pulley four is sheltered from by driven pulley six completely to the side of looking, and there is certain distance between driven pulley four and the axle of driven pulley six promptly, so the right side of frame sets up metal crate, guarantees through belt transmission between driven pulley four and the driven pulley six, and driven pulley five with driven pulley six coaxial is through belt and the transmission of vertical fixed belt pulley.

The number of the slicing saw blades influences the distance between the slicing saw blades, the distance between the slicing saw blades influences the cutting thickness, and the number of the slicing saw blades is selected according to actual conditions. The thickness of walnut piece is decided by the interval of section saw bit, and the total thickness of section saw bit should be greater than the length of walnut, but sets up the total thickness overlength of section saw bit and causes the waste, should set for according to particular case.

Example two: as shown in fig. 1 to 6, the walnut slicer according to the embodiment has the following specific working processes: the motor at the lower layer of the frame is powered on, a belt pulley of the motor drives a third driven belt pulley and a belt pulley of the speed reducer to rotate, a first gear coaxial with the third driven belt pulley rotates, whether a second gear meshed with the first gear is meshed with the second gear is driven by a connecting rod, the rotation of the second gear is transmitted to a sixth driven belt pulley through a shaft, the sixth driven belt pulley and a fourth driven belt pulley are in belt transmission, a fifth driven belt pulley coaxial with the fourth driven belt pulley rotates, the fifth driven belt pulley is transmitted to the first belt pulley through a belt, a curved wheel coaxial with the first belt pulley rotates, the sliding base is controlled by the connecting rod to slide on the sliding rod in the process of the curved wheel rotation, the sliding base controls the connecting rod to swing left and right in the sliding process, the connecting rod drives the baffle plate to control feeding, when the sliding base drives the connecting rod to move left, the baffle plate connected with the top of the connecting rod is inserted into the discharging hopper, a walnut falls down through a round hole in the baffle plate, the walnut touches the metal sheet on the upper part of the feeding mould and is bounced into the feeding mould, so that the central line of the walnut entering the feeding mould is vertical to the direction of the slicing saw blade, the sliding base drives the push plate to be inserted into the feeding mould, the walnut is pushed out from the side opening of the feeding mould, and the walnut is cut into slices by the slicing saw blade on the side of the feeding mould and is collected on the left side of the device.

The above description is only a preferred embodiment of the present invention, and these embodiments are based on different implementations of the present invention, and the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A walnut slicer is characterized by comprising a frame (1), a storage hopper (2), a baffle (3), a connecting rod (4), a push plate (5), a feeding die (6), a slicing saw blade (7), a first belt pulley (8), a second belt pulley (9), a third driven belt pulley (10), a motor (11), a sliding base (12), a sliding rod (13), a curved wheel (14), a fourth driven belt pulley (15), a discharging guide groove (16), a first bearing seat (17), a first gear (18), a second gear (19), a second bearing seat (20), a third bearing seat (21), a fourth bearing seat (22), a fifth driven belt pulley (23) and a sixth driven belt pulley (24),

the frame (1) is divided into an upper layer, a middle layer and a lower layer, a motor (11) is fixed on the lower layer of the frame (1), a belt pulley of the motor (11) and a belt pulley of a speed reducer fixed on the middle layer of the frame (1) are in belt transmission, a slicing saw blade (7) is fixed on the shaft of the other end of the speed reducer, a feeding grinding tool (6) is fixed on the side surface of the slicing saw blade (7), the feeding grinding tool (6) is fixed on the middle layer of the frame (1) through a support, a sliding rod (13) is horizontally fixed between the support at the lower end of the feeding grinding tool (6) and the side edge of the frame (1), a sliding base (12) is arranged on the sliding rod (13), one end of a push plate (5) is fixed on the sliding base (12) through a bolt, and the other end of the push plate (5) is inserted into the feeding grinding tool (6); a belt pulley of a motor (11) is in belt transmission with a third driven belt pulley (10), the third driven belt pulley (10) is fixed on the side surface of a frame (1) through a first bearing seat (17), a first gear (18) coaxial with the third driven belt pulley (10) is meshed with a second gear (19), a shaft of the second gear (19) is fixed on the side surface of the frame (1) through a second bearing seat (20) and a first bearing seat (17), a sixth driven belt pulley (24) coaxial with the second gear (19) is in belt transmission with a fourth driven belt pulley (15), a shaft of the fourth driven belt pulley (15) is fixed on the side surface of the frame (1) through a third bearing seat (21) and a fourth bearing seat (22), a fifth driven belt pulley (23) coaxial with the fourth driven belt pulley (15) is in belt transmission with the first belt pulley (8), the first belt pulley (8) is fixed on the side surface of a middle layer of the frame (1), and the first belt pulley (8) is in coaxial with a fixed curved wheel (14), the curved wheel (14) is fixed with the sliding base (12) through a connecting rod; the upper layer of frame (1) is fixed storage hopper (2), middle level fixed connecting rod (4) of frame (1), and push pedal (5) and sliding base (12) are passed in proper order in connecting rod (4), and bolt fixed baffle (3) are passed through on connecting rod (4) top, and the exit of storage hopper (2) is inserted in baffle (3), and the discharge gate lower extreme of storage hopper (2) is fixed with ejection of compact guide slot (16).

2. The walnut slicer according to claim 1, characterized in that the upper end and the side surface of the feeding mold (6) are provided with openings to form a channel, and the rear side of the upper end opening is provided with a metal sheet.

3. The walnut slicer of claim 2, wherein the push plate (5) is inserted into the channel of the feed mold (6) to push the walnut away from the side opening of the feed mold (6).

4. The walnut slicer according to claim 1, characterized in that the connecting rod (4) is movably fixed on a metal rod on the middle layer of the frame (1) through a bolt to realize the left and right movement of the connecting rod (4), a hole is formed on the push plate (5) at a corresponding position, the connecting rod (4) passes through the hole, a groove is formed on the sliding base (12) at a corresponding position, and the connecting rod (4) is arranged in the groove.

5. Walnut slicer according to claim 3, characterized in that the baffle (3) is provided with a circular hole, the size of which is larger than the size of the walnut.

6. The walnut slicer according to claim 1, characterized in that the outlet of the discharge channel (16) is positioned corresponding to the upper opening of the feeding mold (6).

7. The walnut slicer of claim 1, wherein the second gear (19) is controlled to move left and right by a connecting rod.

8. Walnut slicer according to claim 1, characterized in that the walnut after being cut by the slicing saw (7) is discharged through the left side of the frame (1).

9. The walnut slicer according to claim 1, characterized in that a metal bracket is arranged on the right side of the frame (1), a third bearing seat (21) and a fourth bearing seat (22) are fixed on the side surface of the metal bracket, and a first belt pulley (8) is fixed on the upper surface of the metal bracket.

10. The walnut slicer according to claim 1, characterized in that the number of the slicing saw blades (7) affects the distance between the slicing saw blades (7), the distance between the slicing saw blades (7) affects the cutting thickness, and the number of the slicing saw blades (7) is selected according to actual conditions.

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