CN211109910U - Full-automatic section receiving device - Google Patents

Abstract

A full-automatic slicing and receiving device is applied to turning, receiving and horizontal outputting of flaky materials and comprises a rack, wherein a horizontally arranged conveying mechanism for continuously and horizontally outputting the continuously and horizontally arranged flaky materials along a conveying line is arranged on the rack; the feeding end of the conveying mechanism is provided with a material receiving and overturning mechanism which is used for receiving vertical flaky materials, overturning the received flaky materials by 90 degrees and then placing the materials on a conveying line of the conveying mechanism; connect material tilting mechanism to include two bearings, deflection shaft, slice material and accept frame and power drive portion, two bearings set up respectively in the both sides of transfer chain on the transport mechanism and respectively through the bearing frame installation be fixed in the frame, deflection shaft pivoted is installed between two bearings, slice material accepts the frame and installs, forms a plane that is used for the slice material along the axial direction of deflection shaft, power drive portion installation is fixed in the frame and is connected with the one end of deflection shaft.

Description

Full-automatic section receiving device

[ technical field ] A method for producing a semiconductor device

The utility model relates to a receiving device, concretely relates to full-automatic section receiving device.

[ background of the invention ]

At present, the congealing points of butter and cheese are low, the butter and the cheese are in a congealing state at normal temperature, in food production, the used solid butter and cheese are required to be cut into slices when the raw materials are large, but most of the existing preparation methods are manual, the yield is low, the size error is large, time and labor are wasted, and the production requirements cannot be met by manual preparation during batch production.

With the popularization of automatic processing technology, most industries adopt automatic slicing machines in aspects related to processing when materials need to be sliced. In the existing slicer, materials can fall down directly after being sliced, particularly fragile materials or sticky and soft materials can be broken or deformed directly after falling down, and the appearance or the integrity of the slices is influenced. Therefore, in the automatic slicing industry, such as the industry of processing butter blocks and cheese blocks into slices, a mechanism capable of automatically receiving sliced materials is urgently needed.

[ Utility model ] content

The utility model provides a full-automatic section receiving device has the slice material accepting frame convenient to accept, overturn the material, contains simple structure, the transport mechanism of the steady conveying material of being convenient for again simultaneously, has solved the steady excessive problem of material from the slicer to transport mechanism after the excision material, has satisfied the demand that has good protection to shape, the outward appearance of sheet stock.

The utility model provides a technical scheme that its technical problem adopted is:

a full-automatic slicing and receiving device is applied to turning, receiving and horizontal outputting of flaky materials and comprises a rack, wherein a horizontally arranged conveying mechanism for continuously and horizontally outputting the continuously and horizontally arranged flaky materials along a conveying line is arranged on the rack; the feeding end of the conveying mechanism is provided with a material receiving and overturning mechanism which is used for receiving vertical flaky materials, overturning the received flaky materials by 90 degrees and then placing the materials on a conveying line of the conveying mechanism.

Furthermore, the material receiving and overturning mechanism comprises two bearings, a deflection shaft, a sheet material bearing frame and a power driving part, wherein the two bearings are respectively arranged on two sides of the conveying line on the conveying mechanism and are respectively fixed on the rack through a bearing seat, the deflection shaft is rotatably arranged between the two bearings, the sheet material bearing frame is arranged along the axial direction of the deflection shaft to form a plane for bearing the sheet material, the power driving part is fixedly arranged on the rack and is connected with one end of the deflection shaft, and the deflection shaft on the power driving part driving the bearing seat and the sheet material bearing frame are overturned for 90 degrees to horizontally place the vertically borne sheet material on the horizontal conveying line of the conveying mechanism.

Further, the power driving part comprises an air cylinder, a crank and a connecting rod, the air cylinder is installed on the rack, the connecting rod is connected to a piston rod of the air cylinder, one end of the crank is fixedly connected to the end of the deflection shaft, the other end of the crank is hinged to the connecting rod, and the connecting rod and the crank drive the deflection shaft to turn over by 90 degrees under the driving of the air cylinder.

Furthermore, the sheet material bearing frame is a plurality of uniformly vertical bearing strips arranged on the deflection shaft.

Furthermore, the sheet material bearing frame is a plurality of bearing strips which are uniformly and vertically arranged on the deflection shaft, and through holes are formed in the length direction of the bearing strips.

Furthermore, the side surface of the bearing seat is also provided with a rotation limiting pin for limiting the rotation angle of the deflection shaft.

Further, transport mechanism includes servo motor, two horizontal track framves, drive roll, a plurality of conveyer belt and driven voller, and two horizontal track framves are arranged in the transfer chain both sides and are installed and be fixed in the frame, drive roll and driven voller are installed respectively in the both ends of two horizontal track framves, and the even tensioning of a plurality of conveyer belts is installed between drive roll and driven voller, servo motor installs in the one end in one of them horizontal track frame outside, thereby servo motor rotates through driving the drive roll and drives conveyer belt, driven voller and rotate.

Furthermore, the corresponding belt grooves which are convenient for fixing each conveying belt are arranged on the driving roller and the driven roller, and a gap which is convenient for sinking the sheet material bearing frame on the material receiving and overturning mechanism to the lower side of the conveying belt is formed between the adjacent belt grooves.

The utility model has the advantages that:

the utility model discloses at first drive the deflection axle with the cylinder and rotate before the section for the slice material is accepted the frame synchronous rotation and is hugged closely the material to vertical direction, then cuts away the sheet stock, and rotatory slice material is accepted the frame again, and overturns 90 the slice material of accepting after steadily overturning to the horizontal position from vertical direction, places on transport mechanism's conveying line, ensures that the sheet stock of separation can not be broken or warp, keeps the outward appearance and the completeness of sheet stock.

Each receiving strip of the sheet material receiving frame is located at a gap position of the conveying belt, and when the sheet material receiving frame and the sheet material rotate to the horizontal position, gaps between the receiving strips on the sheet material receiving frame and the conveying belt are staggered, so that the sheet materials can be easily transferred onto the conveying belt from the sheet material receiving frame, and the sheet materials can be conveyed away by the conveying belt along the conveying line.

[ description of the drawings ]

FIG. 1 is a perspective view of the fully automatic slicing and receiving device of the present invention;

FIG. 2 is a side view of the fully automatic slicing and receiving device of the present invention;

FIG. 3 is a structural diagram of the automatic slicing and receiving device of the present invention fixed to a frame;

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

A full-automatic slicing and receiving device is applied to turnover, carrying and horizontal output of sheet materials as shown in figures 1 to 3, and comprises a rack 1, wherein a conveying mechanism 3 which is horizontally arranged and continuously outputs the sheet materials 6 which are continuously and horizontally arranged along a conveying line is arranged on the rack 1; the feeding end of the conveying mechanism 3 is provided with a material receiving and overturning mechanism 2 which is used for receiving vertical sheet materials, overturning the received sheet materials 6 by 90 degrees and then placing the sheet materials on a conveying line of the conveying mechanism.

Continuing as shown in fig. 1 to fig. 3, the material receiving and turning mechanism 2 includes two bearings 21, a deflection shaft 22, a sheet material receiving frame 23 and a power driving portion 4, the two bearings 21 are respectively disposed at two sides of the conveying line on the conveying mechanism 3 and are respectively fixed on the frame 1 through a bearing seat 5, a rotation limiting pin 51 is installed at a side surface of the bearing seat 5, the rotation limiting pin 51 cooperates with the crank 42 to limit a rotation range of the crank 42, and further limit a rotation angle of the sheet material receiving frame 23. The deflection shaft 22 is rotatably arranged between the two bearings 21, the sheet material bearing frame 23 is arranged along the axial direction of the deflection shaft 22 to form a plane for bearing the sheet materials 6, the sheet material bearing frame 23 is five bearing strips 24 which are uniformly and vertically arranged on the deflection shaft 22, and through holes are formed in the length direction of the bearing strips 24.

As shown in fig. 1 to fig. 3, the power driving unit 4 is fixed on the frame 1 and connected to one end of the deflecting shaft 22, and the power driving unit 4 drives the deflecting shaft 22 and the sheet material receiving rack 23 on the bearing block 5 to turn 90 °, so as to place the vertically received sheet material 6 on the horizontal conveying line of the conveying mechanism 3. The power driving part 4 comprises a cylinder 41, a crank 42 and a connecting rod 43, the cylinder 41 is mounted on the frame 1, the connecting rod 43 is connected to a piston rod of the cylinder 41, one end of the crank 42 is fixedly connected to the end of the deflection shaft 22, the other end of the crank 42 is hinged to the connecting rod 43, and the connecting rod 43 and the crank 42 drive the deflection shaft 22 to turn 90 ° under the driving of the cylinder 41.

The mounting part 7 of the cylinder 41 can be adjusted in the vertical direction, so that the lifting angle of the sheet material bearing frame 23 can be adjusted within the range of 90 degrees +/-15 degrees, the sheet material bearing frame can be adapted to materials with different thicknesses, and the optimal material receiving effect can be achieved. Of course, the power driving portion 4 in this embodiment may also drive the deflection shaft to rotate 90 ° by using a motor-driven gear and rack-and-pinion mechanism, in addition to the cylinder driving the crank-link mechanism.

As shown in fig. 1 to fig. 3, the conveying mechanism 3 includes a servo motor 31, a speed reducer 32, two horizontal rail brackets 33, a driving roller 34, twelve conveying belts 35 and a driven roller 36, the two horizontal rail brackets 33 are disposed on two sides of the conveying line and are fixedly mounted on the frame 1, the driving roller 34 and the driven roller 36 are respectively mounted at two ends of the two horizontal rail brackets 33, the twelve conveying belts 35 are uniformly tensioned and mounted between the driving roller 34 and the driven roller 36, and the driving roller 34 and the driven roller 36 are correspondingly provided with belt grooves 8 for fixing each conveying belt 35; the servo motor 31 is installed at one end of the outer side of one of the horizontal track frames 33, and is also installed with a speed reducer 32, and the servo motor 31 drives a driving roller 34 to rotate through the speed reducer 32, so as to drive a conveying belt 35 and a driven roller 36 to rotate.

Wherein, a gap which is convenient for the sheet material bearing frame 23 on the material receiving and turning mechanism 2 to be sunk at the lower side of the conveying belt 35 is formed between the adjacent belt grooves 8. Through a plurality of adjacent clearances, the sheet material receiving frame 23 is recessed below the conveying belts 35, so that the sheet material 6 on the sheet material receiving frame 23 is supported on the conveying surfaces formed by the plurality of conveying belts 35 and is driven by the driving rollers 34 to be discharged by the plurality of conveying belts 35.

The above-mentioned embodiments are only preferred embodiments of the present invention, not limiting the scope of the present invention, and all equivalent changes made by the shape, structure and principle of the present invention should be covered by the protection scope of the present invention.

Claims (8)

1. The utility model provides a full-automatic section receiving device, is applied to the upset of slice material and accepts and horizontal output, includes the frame, its characterized in that:

the frame is provided with a horizontally arranged conveying mechanism which continuously outputs the continuously and horizontally arranged flaky materials along a conveying line;

the feeding end of the conveying mechanism is provided with a material receiving and overturning mechanism which is used for receiving vertical flaky materials, overturning the received flaky materials by 90 degrees and then placing the materials on a conveying line of the conveying mechanism.

2. The full-automatic slicing and receiving device according to claim 1, characterized in that: the material receiving and overturning mechanism comprises two bearings, a deflection shaft, a sheet material bearing frame and a power driving part, wherein the two bearings are respectively arranged on two sides of an upper conveying line of the conveying mechanism and are respectively fixed on the rack through a bearing seat, the deflection shaft is rotatably arranged between the two bearings, the sheet material bearing frame is arranged along the axial direction of the deflection shaft to form a plane for bearing the sheet material, the power driving part is fixedly arranged on the rack and is connected with one end of the deflection shaft, and the deflection shaft on the power driving part driving bearing seat and the sheet material bearing frame are overturned by 90 degrees to horizontally place the vertically-borne sheet material on a horizontal conveying line of the conveying mechanism.

3. The full-automatic slicing and receiving device according to claim 2, characterized in that: the power driving part comprises an air cylinder, a crank and a connecting rod, the air cylinder is installed on the rack, the connecting rod is connected to a piston rod of the air cylinder, one end of the crank is fixedly connected to the end of the deflection shaft, the other end of the crank is hinged to the connecting rod, and the connecting rod and the crank drive the deflection shaft to turn over by 90 degrees under the driving of the air cylinder.

4. The full-automatic slicing and receiving device according to claim 2, characterized in that: the flaky material bearing frame is composed of a plurality of uniformly vertical bearing strips arranged on the deflection shaft.

5. The full-automatic slicing and receiving device according to claim 2, characterized in that: the flaky material bearing frame is formed by a plurality of bearing strips which are uniformly and vertically arranged on the deflection shaft, and through holes are formed in the length direction of the bearing strips.

6. The full-automatic slicing and receiving device according to claim 2, characterized in that: and a rotary limiting pin for limiting the rotation angle of the deflection shaft is further installed on the side surface of the bearing seat.

7. The full-automatic slicing and receiving device according to claim 1, characterized in that: the conveying mechanism comprises a servo motor, two horizontal track frames, a driving roller, a plurality of conveying belts and a driven roller, the two horizontal track frames are arranged on two sides of the conveying line and are fixedly installed on the rack, the driving roller and the driven roller are installed at two ends of the two horizontal track frames respectively, the conveying belts are evenly tensioned and installed between the driving roller and the driven roller, the servo motor is installed at one end of the outer side of one of the horizontal track frames, and the servo motor drives the conveying belts and the driven roller to rotate through driving the driving roller.

8. The full-automatic slicing and receiving device according to claim 7, characterized in that: the driving roller and the driven roller are correspondingly provided with belt grooves convenient for fixing each conveying belt, and a gap convenient for sinking the sheet material bearing frame on the material receiving turnover mechanism to the lower side of the conveying belt is formed between every two adjacent belt grooves.

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