CN108638142B

CN108638142B - Semi-automatic papaya cutting device

Info

Publication number: CN108638142B
Application number: CN201810416186.7A
Authority: CN
Inventors: 栾飞; 穆家宁; 谢宇锋; 桓源; 闫洋洋; 万琛琛; 李富康; 吴頔华
Original assignee: Shaanxi University of Science and Technology
Current assignee: Shaanxi University of Science and Technology
Priority date: 2018-05-03
Filing date: 2018-05-03
Publication date: 2020-07-14
Anticipated expiration: 2038-05-03
Also published as: CN108638142A

Abstract

The invention discloses a semi-automatic papaya cutting device which comprises a support, wherein a cutting mechanism is arranged above the support, a compression elastic mechanism is connected above the cutting mechanism, a conveying mechanism is arranged below the cutting mechanism, a synchronous belt is arranged on the conveying mechanism, at least one group of papaya clamping mechanisms are arranged on the synchronous belt, a push rod is arranged on the outer wall of each papaya clamping mechanism, and the push rod is matched with the cutting mechanism. The device can reduce intensity of labour, improves cutting efficiency.

Description

Semi-automatic papaya cutting device

Technical Field

The invention belongs to the technical field of papaya slicing equipment, and relates to a semi-automatic papaya slicing device.

Background

With the development of agriculture, more and more farmers select crops such as medicinal materials for planting. Medicinal pawpaw called Baiyi fruit is a traditional Chinese medicine, and is planted by a large number of farmers at present, but when the pawpaw is used for medicine, fresh pawpaw needs to be cut and brightly dried. Cutting the papaya is a very hard physical activity to there are excision inefficiency in artifical excision, the amount of labour is big, extravagant many scheduling problems of pulp, and the people easily receives the injury when carrying out the excision work in addition, has the potential safety hazard. Therefore, the invention is necessary to invent a device for semi-automatically cutting pawpaw.

Disclosure of Invention

The invention aims to provide a semi-automatic papaya cutting device, which can reduce labor intensity and improve cutting efficiency.

The technical scheme includes that the semi-automatic papaya cutting device comprises a support, a cutting mechanism is arranged above the support, a compression elastic mechanism is connected above the cutting mechanism, a conveying mechanism is arranged below the cutting mechanism, a synchronous belt is arranged on the conveying mechanism, at least one group of papaya clamping mechanisms are arranged on the synchronous belt, a push rod is arranged on the outer wall of each papaya clamping mechanism, and the push rod is matched with the cutting mechanism.

The present invention is also characterized in that,

the cutting mechanism comprises a guide rod A and a guide rod B which are arranged in parallel along the vertical direction, a connecting rod is arranged between the guide rod A and the guide rod B, sliding sleeves are respectively arranged on the guide rod A and the guide rod B, the two sliding sleeves are connected through a sliding plate, a blade is arranged on the sliding plate, the blade is positioned between the two sliding sleeves, and one end of the sliding plate is connected with a driving mechanism; the bottom of guide bar B is equipped with the horizontal pole, and the lower extreme of horizontal pole is equipped with the baffle along vertical direction, and the lower extreme of baffle is equipped with pressure sensing switch.

The driving mechanism comprises a motor, an output shaft of the motor is connected with a transmission pin A through a coupler, the motor is connected with one end of a transmission rod A through the transmission pin A, the other end of the transmission rod A is connected with one end of a transmission rod B through a transmission pin B, and the other end of the transmission rod B is hinged with one end of a sliding plate.

Each group of pawpaw clamping mechanism comprises two clamping containers, and the two clamping containers in the same group are arranged along the length direction of the synchronous belt; two adjacent groups of pawpaw clamping mechanisms are arranged along the width direction of the synchronous belt; the number and the arrangement mode of the blades on the sliding plates are matched with the number and the arrangement of the clamping containers on the synchronous belt.

The clamping container comprises four quarter circular arc sheets vertically arranged on the synchronous belt, the bottom of each quarter circular arc sheet is fixed on the synchronous belt, the four quarter circular arc sheets are combined into an oval container adaptive to the shape of the pawpaw, and a gap is formed between every two adjacent quarter circular arc sheets.

The compression elastic mechanism comprises a horizontally arranged frame, a guide rod C is arranged on the frame, a sliding block A and a sliding block B are respectively arranged on the guide rod C, the sliding block B is connected with one end of a spring, and the other end of the spring is fixed at one end of the frame; the sliding block A and the sliding block B are respectively connected with the connecting rod through vertically arranged connecting frames.

The papaya cutting device has the beneficial effects that the cutting knife can be driven to move by the cutting mechanism, so that people can cut papaya rapidly in time, a large amount of labor force can be liberated, manpower is saved, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of a semi-automatic papaya cutting device according to the present invention;

fig. 2 is a top view of the distribution of the pawpaw clamping mechanism on the synchronous belt in the semi-automatic pawpaw cutting device.

In the figure, 1, a bracket, 2, a conveying mechanism, 3, a synchronous belt;

4. clamping the container, 4-1. quarter circular arc sheet, 4-2. gap;

5. the device comprises a push rod, 6 guide rods A, 7 guide rods B, 8 connecting rods, 9 sliding sleeves, 10 sliding plates, 11 blades, 12 motors, 13 transmission pins A, 14 transmission rods A, 15 transmission pins B, 16 transmission rods B, 17 baffle plates, 18 pressure sensing switches, 19 frames, 20 guide rods C, 21 sliding blocks A, 22 sliding blocks B, 23 springs, 24 cross rods and 25 connecting frames.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

The invention discloses a semi-automatic papaya cutting device, which comprises a support 1, wherein a cutting mechanism is arranged above the support 1, a compression elastic mechanism is connected above the cutting mechanism, a conveying mechanism 2 is arranged below the cutting mechanism, a synchronous belt 3 is arranged on the conveying mechanism 2, at least one group of papaya clamping mechanisms are arranged on the synchronous belt 3, a push rod 5 is arranged on the outer wall of each papaya clamping mechanism, and the push rod 5 is matched with the cutting mechanism.

The block cutting mechanism comprises two guide rods A6 and a guide rod B7 which are arranged in parallel along the vertical direction, a connecting rod 8 is arranged between the guide rod A6 and the guide rod B7, sliding sleeves 9 are respectively arranged on the guide rod A6 and the guide rod B7, the two sliding sleeves 9 are connected through a sliding plate 10, a blade 11 is arranged on the lower surface of the sliding plate 10, the blade 11 is positioned between the two sliding sleeves 9, and one end of the sliding plate 10 is connected with a driving mechanism; the bottom of the guide rod B7 is provided with a cross rod 24, the lower end of the cross rod 24 is provided with a baffle 17 along the vertical direction, and the lower end of the baffle 17 is provided with a pressure sensing switch 18.

The driving mechanism comprises a motor 12, an output shaft of the motor 12 is connected with a transmission pin A13 through a coupler, the motor 12 is connected with one end of a transmission rod A14 through a transmission pin A13, the other end of the transmission rod A14 is connected with one end of a transmission rod B16 through a transmission pin B15, and the other end of the transmission rod B16 is hinged with one end of the sliding plate 10.

Each group of pawpaw clamping mechanisms comprises two clamping containers 4, and the two clamping containers 4 in the same group are arranged along the length direction of the synchronous belt 3; two adjacent groups of pawpaw clamping mechanisms are arranged along the width direction of the synchronous belt 3; the number and the arrangement mode of the blades 11 on the sliding plates 10 are matched with the number and the arrangement placement of the clamping containers 4 on the synchronous belt 3. The blades 11 on the sliding plate 10 are the same as the clamping container 4 on the synchronous belt 3, a group of papaya clamping mechanism is provided with two (a group of) blades 11 in a matching way, the group number of the blades is the same as that of the papaya clamping mechanism, each group of blades is arranged along the width direction of the sliding plate 10, and the two blades 11 of the same group are arranged along the length direction of the sliding plate 10.

The clamping container 4 comprises four quarter circular arc pieces 4-1 vertically arranged on the synchronous belt 3, the bottom of each quarter circular arc piece 4-1 is fixed on the synchronous belt 3, the four quarter circular arc pieces 4-1 are combined into an oval container matched with the shape of the pawpaw, a gap 4-2 is arranged between every two adjacent quarter circular arc pieces 4-1, in the advancing direction of the synchronous belt 3, the outer wall of one quarter circular arc piece 4-1 of one clamping container 4 close to the baffle 17 is connected with the push rod 5, the push rod 5 is L-shaped, one end of a cross rod of the push rod 5 is connected to the quarter circular arc piece 4-1, and one end of a vertical rod of the push rod 5 is used for touching the pressure sensing switch 18.

The compression elastic mechanism comprises a horizontally arranged frame 19, a guide rod C20 is arranged on the frame 19, a slide block A21 and a slide block B22 are respectively arranged on the guide rod C20, the slide block B22 is connected with one end of a spring 23, and the other end of the spring 23 is fixed at one end of the frame 19; the slide block A21 and the slide block B22 are respectively connected with the connecting rod 8 through a connecting frame 25 which is vertically arranged. The transfer mechanism 1 is an existing transfer mechanism.

The invention relates to a semi-automatic papaya cutting device, which comprises a clamping container 4, a push rod 5, a pressure sensing switch 18, a motor 12, a transmission rod A14, a transmission rod A14, a transmission rod B16 and a sliding plate 10, wherein the papaya to be cut is placed in the clamping container 4 (the shape of the clamping container 4 is matched with the shape of the papaya), the clamping container 4 moves along with a synchronous belt 3, when the clamping container 4 filled with the papaya moves to the position right below a blade 11, the push rod 5 is contacted with the pressure sensing switch 18, the motor 12 is started, the motor 12 drives the transmission rod A14 to rotate through a transmission pin A13, the transmission rod A14 drives the transmission rod B16 to reciprocate through the transmission pin B15, the sliding plate 10 reciprocates up and down along with the transmission rod B16, as the sliding plate 10 is fixedly connected with sliding sleeves 9, the two sliding sleeves 9 move down along a guide rod A6 and a guide rod B7 respectively in, the blade 11 just falls on two gaps 4-2 on the same straight line, at the moment, the push rod 5 drives the cutting mechanism to continue moving through the baffle 17, the spring 23 is compressed, finally the clamping container 4 rotates to the lower part along with the walking belt 3, the push rod 5 is separated from the pressure sensing switch 18, the motor 12 stops moving, the cutting mechanism returns to the original position under the elastic force of the spring 23 which recovers deformation, cut pawpaw falls into the lower bin under the action of gravity, and single pawpaw cutting work can be completed. In the papaya cutting process, the transmission mechanism 1 is matched with the motor 10 in rotating speed, so that when the clamping container 4 on the synchronous belt 3 reaches the tail end of the advancing direction of the synchronous belt 3, the blade 11 just completes one reciprocating cutting motion to return to the original position, at the moment, the push rod 5 is separated from the baffle 17, the motor 10 stops working, the spring 23 recovers deformation, and the elastic force of the spring 23 enables the sliding block A21 and the sliding block B22 to drive the cutting mechanism to return to the initial position.

Claims

1. The utility model provides a device of semi-automatic papaya of cutting which characterized in that: the device comprises a support (1), wherein a cutting mechanism is arranged above the support (1), a compression elastic mechanism is connected above the cutting mechanism, a conveying mechanism (2) is arranged below the cutting mechanism, a synchronous belt (3) is arranged on the conveying mechanism (2), at least one group of pawpaw clamping mechanisms is arranged on the synchronous belt (3), each group of pawpaw clamping mechanisms comprises two clamping containers (4), and the two clamping containers (4) in the same group are arranged along the length direction of the synchronous belt (3); two adjacent groups of pawpaw clamping mechanisms are arranged along the width direction of the synchronous belt (3);

the clamping container (4) comprises four quarter circular arc sheets (4-1) vertically arranged on the synchronous belt (3), the bottom of each quarter circular arc sheet (4-1) is fixed on the synchronous belt (3), the four quarter circular arc sheets (4-1) are combined into an oval container which is adaptive to the shape of the pawpaw, and a gap (4-2) is arranged between every two adjacent quarter circular arc sheets (4-1);

the cutting mechanism comprises two guide rods A (6) and a guide rod B (7) which are arranged in parallel along the vertical direction, a connecting rod (8) is arranged between the guide rods A (6) and the guide rods B (7), sliding sleeves (9) are respectively arranged on the guide rods A (6) and the guide rods B (7), the two sliding sleeves (9) are connected through a sliding plate (10), a blade (11) is arranged on the sliding plate (10), the blade (11) is positioned between the two sliding sleeves (9), and one end of the sliding plate (10) is connected with a driving mechanism; a cross bar (24) is arranged at the bottom of the guide rod B (7), a baffle (17) is arranged at the lower end of the cross bar (24) along the vertical direction, and a pressure sensing switch (18) is arranged at the lower end of the baffle (17);

the driving mechanism comprises a motor (12), an output shaft of the motor (12) is connected with a transmission pin A (13) through a coupler, the motor (12) is connected with one end of a transmission rod A (14) through the transmission pin A (13), the other end of the transmission rod A (14) is connected with one end of a transmission rod B (16) through a transmission pin B (15), and the other end of the transmission rod B (16) is hinged with one end of the sliding plate (10);

the number and the arrangement mode of the blades (11) on the sliding plate (10) are matched with the number and the arrangement placement of the clamping containers (4) on the synchronous belt (3);

be equipped with catch bar (5) on the papaya clamping mechanism, catch bar (5) with the cooperation of dicing mechanism.

2. The device for semi-automatically cutting papaya according to claim 1 is characterized in that: the compression elastic mechanism comprises a horizontally arranged frame (19), a guide rod C (20) is arranged on the frame (19), a sliding block A (21) and a sliding block B (22) are respectively arranged on the guide rod C (20), the sliding block B (22) is connected with one end of a spring (23), and the other end of the spring (23) is fixed at one end of the frame (19); the sliding block A (21) and the sliding block B (22) are respectively connected with the connecting rod (8) through a connecting frame (25) which is vertically arranged.