CN203752201U - Automatic feeding pastry slicing machine - Google Patents

Abstract

The utility model relates to an automatic feeding pastry slicer, which belongs to the technical field of food processing. It includes a crank slider slicing mechanism, a crank rocker feeding mechanism and a power device. The crank shaft of the crank slider slicing mechanism drives the cutter crank II and the cutter crank I to make a revolving motion, and the cutter crank II and the cutter crank I pass through the cutting The knife connecting rod drives the cutter to move up and down to complete the slice; the crank rocker feeding mechanism includes a feeding crank, a feeding connecting rod, a feeding connecting rod and a transmission device. The rocker constitutes a crank rocker, and one end of the feeding rocker is connected with the friction wheel of the conveying device, and the friction wheel is driven to rotate by the friction force of the friction wheel wrench installed on the feeding rocker, and the two friction wheels drive the conveyor belt to rotate. Through the cooperation of the crank slider mechanism and the crank rocker mechanism, automatic feeding and fast and efficient slicing are completed, and the working efficiency is improved.

Description

An automatic feeding pastry slicer

technical field

The utility model relates to an automatic feeding pastry slicer, which belongs to the field of food processing.

Background technique

The 21st century is a century of economic globalization and rapid development of science and technology. The continuous reform and innovation of technology will drive the rapid development of economy. For an enterprise, the level of production efficiency is directly related to the lifeline of the enterprise and affects the development of the enterprise. Pastry food has always occupied a certain share in the market. In the production and processing of pastry food, the pastry slicing link is one of the important links. The main reason is that the feeding mechanism and the slicing mechanism need to achieve good results while satisfying automation. cooperation. However, low production efficiency and low level of automation have always been technical problems that enterprises need to solve urgently. In view of this, it is necessary to design a kind of mechanical device that can automatically feed and can slice efficiently and quickly.

Contents of the invention

In order to overcome the deficiencies of the prior art, the utility model provides an automatic feeding pastry slicer to solve the technical problems of low production efficiency and low automation level in the current pastry food processing industry. A high-efficiency, automatic mechanical device is provided.

The structure of the utility model automatic feeding pastry slicer is as follows: comprise crank slider slicing mechanism, crank rocker feeding mechanism and power device, crank slider slicing mechanism comprises crank connecting shaft 10, cutter crank and cutter 17, crank connecting shaft Drive the cutter crank II 12 and the cutter crank I 11 to make a turnover movement, and the cutter crank II 12 and the cutter crank I 11 drive the cutter 17 to move up and down through the cutter connecting rod 16 to complete the slicing; the crank rocker feeding mechanism includes feeding Crank 8, feeding connecting rod 6, feeding connecting rod 4 and transmission device, crank connecting shaft 10 drives feeding crank 8 to make turnover motion, feeding crank 8, feeding connecting rod 6 and feeding rocker 4 form crank rocker, feeding rocker 4 One end of one end is connected with the friction wheel 20 of the transmission device, and the friction wheel 20 is driven to rotate by the friction force of the friction wheel wrench 19 installed on the feeding rocker 4, and the two friction wheels 20 drive the conveyor belt 22 to rotate, and the cutter 17 is placed on the conveyor belt 22 tops; the power unit drives the crank shaft 10 and rotates to provide power for the whole device. The combined use of the crank-slider mechanism and the crank-rocker mechanism completes the two processes of slicing and automatic feeding. Through the cooperation of the crank slider mechanism and the crank rocker mechanism, when the cutter moves to the lowest point, the conveyor belt has sent the cut material to the desired position and stops, thus ensuring that the cutter can slice quickly and efficiently.

A height-adjustable friction wheel cover 21 is arranged on the friction wheel 20, and the height of the friction wheel cover 21 can be adjusted to adjust the thickness of the required section.

The cutter 17 is guided to move up and down by the guide rod 7 fixed between the middle support plate 23 and the upper support plate.

Described crank connecting shaft 10 is installed on the upper support plate of device by bearing block 9, and upper support plate is fixed on middle support plate 23 by upper support rod 18, and transmission device is installed on middle support plate 23 (transmission device is connected by conveyor belt 22 Conveyor belt roller 5 and friction wheel 20 are formed), middle support plate 23 fixes lower support plate 1 by lower support bar, and power unit is installed on the support plate 1.

The power unit is composed of a plurality of reduction gears driven by the electrode 3, the motor gear 24 meshes with the primary reduction gear 25, the primary reduction large gear 25 is coaxially connected with the secondary reduction pinion 26, and the secondary reduction pinion 26 meshes with the two-stage deceleration bull gear 28, and the two-stage deceleration bull gear 28 drives the belt pulley 13 at one end of the crank shaft 10 through the belt 14 to rotate to provide power.

The beneficial effects of the utility model are: through the cooperation of the crank slider mechanism and the crank rocker mechanism, automatic feeding and fast and efficient slicing are completed, and the work efficiency is improved; the intermittent feeding is completed through the use of the friction wheel wrench and the friction wheel, The effect of slicing is guaranteed; adjusting the height of the friction wheel cover can change the feeding amount of the conveyor belt each time, thus realizing slicing with different thicknesses.

Description of drawings

Fig. 1 is the axial schematic diagram of the utility model;

Fig. 2 is the rear view schematic diagram of the utility model;

Fig. 3 is a schematic right view of the utility model.

In the figure: 1-lower bottom plate, 2-lower support rod, 3-motor, 4-feeding rocker, 5-conveyor belt roller, 6-feeding connecting rod, 7-guide rod, 8-feeding crank, 9-bearing seat, 10-crank shaft, 11-cutter crank I, 12-cutter crank II, 13-pulley, 14-belt, 15-upper support plate, 16-cutter connecting rod, 17-cutter, 18-upper support Rod, 19-friction wheel wrench, 20-friction wheel, 21-friction wheel cover, 22-conveyor belt, 23-middle support plate, 24-motor gear, 25-one-stage reduction gear, 26-two-stage reduction pinion, 27-gear shaft, 28-two-stage reduction bull gear.

Detailed ways

Below in conjunction with accompanying drawing and specific embodiment, the utility model is described further.

Embodiment 1: As shown in Figures 1 to 3, the structure of the automatic feeding pastry slicer of the present embodiment is: comprise crank slider slicing mechanism, crank rocker feeding mechanism and power plant, crank slider slicing mechanism comprises crank connecting shaft 10. The cutter crank and the cutter 17, the crank shaft drives the cutter crank II 12 and the cutter crank I 11 to make a turnover motion, and the cutter crank II 12 and the cutter crank I 11 drive the cutter 17 through the cutter connecting rod 16 Do up and down movement to complete the slice; the crank rocker feeding mechanism includes a feeding crank 8, a feeding connecting rod 6, a feeding connecting rod 4 and a transmission device, and the crank connecting shaft 10 drives the feeding crank 8 to make a revolving motion, and the feeding crank 8, the feeding connecting rod 6 and The feed rocker 4 forms a crank rocker, and one end of the feed rocker 4 is connected with the friction wheel 20 of the transmission device, and the friction wheel 20 is driven by the friction force of the friction wheel wrench 19 installed on the feed rocker 4 to rotate. The wheel 20 drives the conveyor belt 22 to rotate, and the cutter 17 is placed above the conveyor belt 22; the power unit drives one end of the crank shaft 10 to rotate to provide power for the whole device. The combined use of the crank-slider mechanism and the crank-rocker mechanism completes the two processes of slicing and automatic feeding. Through the cooperation of the crank slider mechanism and the crank rocker mechanism, when the cutter moves to the lowest point, the conveyor belt has sent the cut material to the desired position and stops, thus ensuring that the cutter can slice quickly and efficiently. A height-adjustable friction wheel cover 21 is arranged on the friction wheel 20, and the height of the friction wheel cover 21 can be adjusted to adjust the thickness of the required section. Cutter 17 is guided to move up and down by the guide rod 7 that is fixed between middle support plate 23 and the upper support plate. The crank connecting shaft 10 is installed on the upper support plate of the device through the bearing seat 9, the upper support plate is fixed on the middle support plate 23 by the upper support rod 18, and the transmission device is installed on the middle support plate 23 (the transmission device is a conveyor belt connected by a conveyor belt 22 roller 5 and friction wheel 20), the middle support plate 23 fixes the lower support plate 1 through the lower support rod, and the support plate 1 is equipped with a power unit. The power device is made up of a plurality of reduction gears driven by the electrode 3, the motor gear 24 meshes with the primary reduction gear 25, the primary reduction large gear 25 is coaxially connected with the secondary reduction pinion 26, and the secondary reduction pinion 26 is connected with the The two-stage deceleration bull gear 28 meshes, and the two-stage deceleration bull gear 28 drives the belt pulley 13 at one end of the crank shaft 10 through the belt 14 to rotate to provide power.

Embodiment two: as shown in Figures 1 to 3, the structure of the automatic feeding pastry slicer of the present embodiment is: comprise crank slider slicing mechanism, crank rocker feeding mechanism and power plant, crank slider slicing mechanism comprises crank connecting shaft 10. The cutter crank and the cutter 17, the crank shaft drives the cutter crank II 12 and the cutter crank I 11 to make a turnover motion, and the cutter crank II 12 and the cutter crank I 11 drive the cutter 17 through the cutter connecting rod 16 Do up and down movement to complete the slice; the crank rocker feeding mechanism includes a feeding crank 8, a feeding connecting rod 6, a feeding connecting rod 4 and a transmission device, and the crank connecting shaft 10 drives the feeding crank 8 to make a revolving motion, and the feeding crank 8, the feeding connecting rod 6 and The feed rocker 4 forms a crank rocker, and one end of the feed rocker 4 is connected with the friction wheel 20 of the transmission device, and the friction wheel 20 is driven by the friction force of the friction wheel wrench 19 installed on the feed rocker 4 to rotate. The wheel 20 drives the conveyor belt 22 to rotate, and the cutter 17 is placed above the conveyor belt 22; the power unit drives one end of the crank shaft 10 to rotate to provide power for the whole device. The combined use of the crank-slider mechanism and the crank-rocker mechanism completes the two processes of slicing and automatic feeding. Through the cooperation of the crank slider mechanism and the crank rocker mechanism, when the cutter moves to the lowest point, the conveyor belt has sent the cut material to the desired position and stops, thus ensuring that the cutter can slice quickly and efficiently. A height-adjustable friction wheel cover 21 is arranged on the friction wheel 20, and the height of the friction wheel cover 21 can be adjusted to adjust the thickness of the required section. Cutter 17 is guided to move up and down by the guide rod 7 that is fixed between middle support plate 23 and the upper support plate. The power device is made up of a plurality of reduction gears driven by the electrode 3, the motor gear 24 meshes with the primary reduction gear 25, the primary reduction large gear 25 is coaxially connected with the secondary reduction pinion 26, and the secondary reduction pinion 26 is connected with the The two-stage deceleration bull gear 28 meshes, and the two-stage deceleration bull gear 28 drives the belt pulley 13 at one end of the crank shaft 10 through the belt 14 to rotate to provide power.

Embodiment three: as shown in Figures 1 to 3, the structure of the automatic feeding pastry slicer of the present embodiment is: comprise crank slider slicing mechanism, crank rocker feeding mechanism and power plant, crank slider slicing mechanism comprises crank connecting shaft 10. The cutter crank and the cutter 17, the crank shaft drives the cutter crank II 12 and the cutter crank I 11 to make a turnover motion, and the cutter crank II 12 and the cutter crank I 11 drive the cutter 17 through the cutter connecting rod 16 Do up and down movement to complete the slice; the crank rocker feeding mechanism includes a feeding crank 8, a feeding connecting rod 6, a feeding connecting rod 4 and a transmission device, and the crank connecting shaft 10 drives the feeding crank 8 to make a revolving motion, and the feeding crank 8, the feeding connecting rod 6 and The feed rocker 4 forms a crank rocker, and one end of the feed rocker 4 is connected with the friction wheel 20 of the transmission device, and the friction wheel 20 is driven by the friction force of the friction wheel wrench 19 installed on the feed rocker 4 to rotate. The wheel 20 drives the conveyor belt 22 to rotate, and the cutter 17 is placed above the conveyor belt 22; the power unit drives one end of the crank shaft 10 to rotate to provide power for the whole device. The combined use of the crank-slider mechanism and the crank-rocker mechanism completes the two processes of slicing and automatic feeding. Through the cooperation of the crank slider mechanism and the crank rocker mechanism, when the cutter moves to the lowest point, the conveyor belt has sent the cut material to the desired position and stops, thus ensuring that the cutter can slice quickly and efficiently. A height-adjustable friction wheel cover 21 is arranged on the friction wheel 20, and the height of the friction wheel cover 21 can be adjusted to adjust the thickness of the required section. Cutter 17 is guided to move up and down by the guide rod 7 that is fixed between middle support plate 23 and the upper support plate. The crank connecting shaft 10 is installed on the upper support plate of the device through the bearing seat 9, the upper support plate is fixed on the middle support plate 23 by the upper support rod 18, and the transmission device is installed on the middle support plate 23 (the transmission device is a conveyor belt connected by a conveyor belt 22 roller 5 and friction wheel 20), the middle support plate 23 fixes the lower support plate 1 through the lower support rod, and the support plate 1 is equipped with a power unit.

The specific implementation of the utility model has been described in detail above in conjunction with the accompanying drawings, but the utility model is not limited to the above-mentioned implementation. Various changes are made.

Claims (5)

1. a self-feeding pastry slicer, it is characterized in that: comprise crank block slicing mechanism, crank rocker feed mechanism and power set, crank block slicing mechanism comprises crank connecting shaft (10), cutting knife crank and cutting knife (17), crank connecting shaft drives cutting knife crank II(12) and cutting knife crank I(11) make turnover motion, cutting knife crank II(12) and cutting knife crank I(11) by cutter connecting rod (16) drive cutting knife (17) section that moved up and down, crank rocker feed mechanism comprises feeding crank (8), feeding connecting rod (6), feeding connecting rod (4) and conveyer, crank connecting shaft (10) drives feeding crank (8) to do turnover motion, feeding crank (8), feeding connecting rod (6) and feeding rocking bar (4) form crank rocker, one end of feeding rocking bar (4) is connected with the friction pulley (20) of conveyer, and drive friction pulley (20) to rotate by being arranged on the frictional force of the friction pulley spanner (19) on feeding rocking bar (4), two friction pulleys (20) drive conveyer belt (22) to rotate, cutting knife (17) is positioned over conveyer belt (22) top, power set drive crank connecting shaft (10) one end to rotate and provide power for whole device.

2. self-feeding pastry slicer according to claim 1, is characterized in that: on described friction pulley (20), have height-adjustable friction pulley cover (21).

3. self-feeding pastry slicer according to claim 1, is characterized in that: described cutting knife (17) moves up and down by guide rod (7) guiding being fixed between middle gripper shoe (23) and upper backup pad.

4. self-feeding pastry slicer according to claim 1, it is characterized in that: described crank connecting shaft (10) is arranged on the upper backup pad of device by bearing block (9), upper backup pad is fixed on middle gripper shoe (23) by upper support bar (18), conveyer is arranged on middle gripper shoe (23), middle gripper shoe (23) is by the fixing lower supporting plate (1) of lower support bar, and gripper shoe is provided with power set on (1).

5. self-feeding pastry slicer according to claim 1, it is characterized in that: a plurality of ratio wheels that described power set are driven by electrode (3) form, motor gear (24) and primary speed-down gear wheel (25) engagement, primary speed-down gear wheel (25) is coaxially connected with double reduction pinion (26), double reduction pinion (26) and double reduction gear wheel (28) engagement, double reduction gear wheel (28) drives the belt pulley (13) of crank connecting shaft (10) one end to rotate by belt (14) power is provided.