CN211618266U - Automatic pipe device that send of cream goods - Google Patents

Abstract

An automatic tube feeding device for cream products comprises a tube feeding box, wherein a vibrating push sheet is arranged in the tube feeding box, the lower end of the vibrating push sheet is positioned at an outlet of the tube feeding box and is spaced from the bottom surface of the tube feeding box by a distance of a material tube; the outer side of the vibrating material pushing sheet is hinged with a top rod, the other end of the top rod is hinged with a crank, the crank is fixedly arranged on a first rotating shaft, the other end of the first rotating shaft is fixedly connected with a rocker, the rocker is connected with a lifting top rod, and the other end of the lifting top rod is rotatably arranged on a first central shaft through a first bearing seat; one side of the outlet of the pipe conveying box is connected with a slide way which is obliquely and downwards arranged, a material blocking supporting plate is arranged at the outlet of the slide way, and the material blocking supporting plate is rotatably arranged on a first central shaft through a second bearing seat; the other sides of the first bearing seat and the second bearing seat are driven by a lifting mechanism. The utility model provides a pair of automatic tub device that send of cream goods can improve the stability of pay-off.

Description

Automatic pipe device that send of cream goods

Technical Field

The utility model relates to a cream goods processingequipment, especially an automatic tub device that send of cream goods.

Background

When cream products (such as lomefloxacin hydrochloride cream) are manufactured, hoses to be filled need to be placed on a hose storage bin in order, and blanking is carried out one by one through an automatic pipe feeding device, so that pipe feeding is completed. The existing pipe conveying method adopts the air cylinder to drive to separate or discharge, and the air pressure of the air cylinder is unstable sometimes, so that the driving is not in place, the pipe discharging is enabled to be in error, and the later-stage filling is not in place.

Disclosure of Invention

The utility model aims to solve the technical problem that an automatic tub device that send of cream goods is provided, can guarantee that the unloading is stable.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

an automatic tube feeding device for cream products comprises a tube feeding box, wherein a vibrating push sheet is arranged in the tube feeding box, the lower end of the vibrating push sheet is positioned at an outlet of the tube feeding box and is spaced from the bottom surface of the tube feeding box by a distance of a material tube; the outer side of the vibrating material pushing sheet is hinged with a top rod, the other end of the top rod is hinged with a crank, the crank is fixedly arranged on a first rotating shaft, the other end of the first rotating shaft is fixedly connected with a rocker, the rocker is connected with a lifting top rod, and the other end of the lifting top rod is rotatably arranged on a first central shaft through a first bearing seat; one side of the outlet of the pipe conveying box is connected with a slide way which is obliquely and downwards arranged, a material blocking supporting plate is arranged at the outlet of the slide way, and the material blocking supporting plate is rotatably arranged on a first central shaft through a second bearing seat; the other sides of the first bearing seat and the second bearing seat are driven by a lifting mechanism.

The lifting mechanism comprises a first cam and a second cam which are coaxially connected with the driving shaft, the first cam is in sliding fit with a pulley on the first sliding rod, the second cam is in sliding fit with a pulley on the second sliding rod, one ends of the first sliding rod and the second sliding rod can be rotatably arranged on the second central shaft, the other end of the first sliding rod is hinged with a first driving rod, and the first driving rod is hinged with one side of the first bearing seat; the other end of the second slide bar is hinged with a second driving rod, and the second driving rod is hinged with a second bearing block.

The material blocking supporting plate comprises a horizontal supporting plate, a first baffle is vertically and upwards arranged on the outer side of the horizontal supporting plate, and a second baffle is vertically and downwards arranged on the inner side of the horizontal supporting plate.

The utility model relates to an automatic tub device that send of cream goods has following technological effect: the mode that directly adopts cylinder drive to keep off the material layer board with traditional ejection of compact changes into keeping off material layer board mechanical connection on the cam of drive shaft, can reach the stability of pay-off like this through mechanical control to accurate when making the later stage carry out the filling takes one's place, avoids leading to keeping off the material layer board because of the atmospheric pressure unstability of cylinder and moves late doubt or too fast.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a partial structure of the present invention.

Fig. 3 is a schematic view of a partial structure of the present invention.

Fig. 4 is an overall schematic diagram of the operation of each part driven by the lifting mechanism of the present invention.

Fig. 5 is a partially enlarged schematic view of a portion a of fig. 4.

Fig. 6 is a schematic view of a partial structure of the middle cam of the present invention.

In the figure: the material conveying box comprises a material conveying box 1, a vibrating material pushing sheet 2, a material conveying pipe 3, a top rod 4, a crank 5, a first rotating shaft 6, a rocker 7, a lifting top rod 8, a first bearing seat 9, a first central shaft 10, a slideway 11, a material blocking supporting plate 12, a lifting mechanism 13, a driving shaft 14, a first cam 15, a second cam 16, a first sliding rod 17, a second sliding rod 18, a second central shaft 19, a first driving rod 20, a second driving rod 21, a horizontal supporting plate 22, a first baffle 23 and a second baffle 24.

Detailed Description

As shown in figures 1-5, the automatic tube feeding device for the cream products comprises a tube feeding box 1, wherein a vibrating push sheet 2 is arranged in the tube feeding box 1, the vibrating push sheet 2 is of a quarter small semicircular arc structure, the upper end of the vibrating push sheet 2 is connected with the tube feeding box 1 through a connecting plate, and the lower end of the vibrating push sheet 2 is positioned at an outlet of the tube feeding box 1 and is spaced from the bottom surface of the tube feeding box 1 by a distance of a material tube 3. The vibrating tablet 2 can limit the material pipe 3 in the material pipe box 1 at the lower part of the vibrating tablet 2 and only allow the material pipe 3 at the lower layer to pass through. The pipe feeding box 1 is installed to be slightly inclined, a discharge hole at one side is connected with a slideway 11, and the slideway 11 is arranged downwards in an inclined mode. So that the material pipe 3 can automatically roll downwards under the action of gravity.

In order to discharge the material pipes 3 one by one in order, a reciprocating stirring mechanism is arranged outside the vibrating material pushing sheet 2, and an intermittent stirring mechanism is arranged at the outlet of the slideway 11.

Specifically, toggle mechanism includes ejector pin 4, and ejector pin 4 is articulated with the lug plate of vibration tablet 2 outside, and ejector pin 4 other end is articulated with crank 5, and crank 5 other end fixed mounting is on first pivot 6, and first pivot 6 is installed on the bearing assembly of slide 11 one side support and can rotate relatively the bearing assembly. The other end of the first rotating shaft 6 is fixedly connected with a rocker 7, the other end of the rocker 7 is hinged with a lifting mandril 8, the other end of the lifting mandril 8 is fixedly connected with a first bearing seat 9, and the first bearing seat 9 is rotatably arranged on a first central shaft 10. The first central shaft 10 is fixedly arranged on a bracket at one side of the slideway 11.

The first bearing seat 9 is hinged with a first driving rod 20 at the position offset from the axle center of the first central shaft 10, the other end of the first driving rod 20 is hinged with a first slide bar 17, the other end of the first slide bar 17 is rotatably arranged on a second central shaft 19, and the second central shaft 19 is fixed on the shell of the driving box. A pulley is arranged on one side of the middle section of the first sliding rod 17 and is in sliding fit with the first cam 15 on the driving shaft 14.

The intermittent material shifting mechanism comprises a material blocking supporting plate 12 arranged at a discharge hole of the slideway 11, and the material blocking supporting plate 12 is rotatably arranged on the first central shaft 10 through a second bearing seat.

The material blocking supporting plate 12 comprises a horizontal supporting plate 22, a first baffle plate 23 is vertically arranged on the outer side of the horizontal supporting plate 22 upwards, and a second baffle plate 24 is vertically arranged on the inner side of the horizontal supporting plate 22 downwards. The horizontal pallet 22 is in the same plane as the chute 11 and is wide enough to accommodate only one tube 3. When the material pipe 3 falls on the horizontal supporting plate 22, the material pipe 3 can be blocked by the second baffle plate 24 to avoid sliding out, and when the blocking supporting plate 12 is turned over for 90 degrees to send the material pipe 3 out, the material pipe 3 at the slide 11 is blocked by the second baffle plate 24 to avoid sliding out.

Here, a second bearing seat at the material blocking supporting plate 12 is hinged to a second driving rod 21 at a position offset from the axis of the first central shaft 10, the other end of the second driving rod 21 is hinged to a second slide bar 18, and the second slide bar 18 is rotatably mounted on a second central shaft 19. A pulley is mounted on one side of the middle section of the second slide bar 18 and is in sliding fit with the second cam 16 on the drive shaft 14.

The working principle and the process are as follows: when the motor drives the driving shaft 14 to rotate, the first cam 15 and the second cam 16 also rotate along with the driving shaft, and when the first slide bar 17 is in contact with the cylindrical surface of the first cam 15, the first slide bar 17 is not moved, and the vibration material pushing sheet 2 is not moved. After a period of time, when the first slide bar 17 is in contact with the non-cylindrical surface of the first cam 15, the first slide bar 17 rotates counterclockwise downward around the axis of the second central shaft 19, so that the first bearing seat 9 rotates counterclockwise, the rocker 7 drives the first rotating shaft 6 to rotate clockwise, and the crank 5 rotates clockwise, so that the vibrating material pushing piece 2 is pushed forward by a distance of 1cm-2 cm. When the first slide bar 17 comes into contact with the cylindrical surface of the first cam 15 again, the vibrating tablet 2 is returned rearward. In the process that the material pushing sheet 2 moves back and forth, the material pipe 3 is pushed, so that the material pipe 3 can be smoothly discharged.

When the second slide bar 18 contacts the cylindrical surface of the second cam 16, the second slide bar 18 does not move, the material blocking support plate 12 is in a horizontal state, and one material pipe 3 falls on the horizontal support plate 22 and is blocked by the first baffle plate 23 to continuously slide downwards. After a period of time, when the second slide bar 18 is in contact with the non-cylindrical surface of the second cam 16, the second slide bar 18 rotates downwards and anticlockwise around the axis of the second central shaft 19, and at this time, the material blocking supporting plate 12 rotates anticlockwise by 90 degrees (the rotation angle is determined by designing the size of specific relevant parts), so that the material pipe can be vertically moved away through other equipment. When the second slide bar 18 contacts with the cylindrical surface of the second cam 16 again, the material blocking supporting plate 12 is reset and kept horizontal, and material receiving is continued.

Claims (3)

1. An automatic tube feeding device for cream products is characterized in that: the device comprises a pipe conveying box (1), wherein a vibrating push sheet (2) is arranged in the pipe conveying box (1), and the lower end of the vibrating push sheet (2) is positioned at an outlet of the pipe conveying box (1) and is separated from the bottom surface of the pipe conveying box (1) by a distance of a material pipe (3); the outer side of the vibrating material pushing sheet (2) is hinged with a top rod (4), the other end of the top rod (4) is hinged with a crank (5), the crank (5) is fixedly installed on a first rotating shaft (6), the other end of the first rotating shaft (6) is fixedly connected with a rocker (7), the rocker (7) is connected with a lifting top rod (8), and the other end of the lifting top rod (8) is rotatably installed on a first central shaft (10) through a first bearing seat (9); one side of the outlet of the pipe feeding box (1) is connected with a slide way (11) which is obliquely and downwards arranged, a material blocking supporting plate (12) is arranged at the outlet of the slide way (11), and the material blocking supporting plate (12) is rotatably arranged on a first central shaft (10) through a second bearing seat; the other sides of the first bearing seat (9) and the second bearing seat are driven by a lifting mechanism (13).

2. The automatic tube delivery device for cream products as claimed in claim 1, wherein: the lifting mechanism (13) comprises a first cam (15) and a second cam (16) which are coaxially connected with a driving shaft (14), the first cam (15) is in sliding fit with a pulley on a first sliding rod (17), the second cam (16) is in sliding fit with a pulley on a second sliding rod (18), one ends of the first sliding rod (17) and the second sliding rod (18) can be rotatably installed on a second central shaft (19), the other end of the first sliding rod (17) is hinged with a first driving rod (20), and the first driving rod (20) is hinged with one side of a first bearing seat (9); the other end of the second slide bar (18) is hinged with a second driving rod (21), and the second driving rod (21) is hinged with a second bearing seat.

3. The automatic tube delivery device for cream products as claimed in claim 1, wherein: the material blocking supporting plate (12) comprises a horizontal supporting plate (22), a first baffle (23) is vertically arranged on the outer side of the horizontal supporting plate (22) upwards, and a second baffle (24) is vertically arranged on the inner side of the horizontal supporting plate (22) downwards.

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