CN112607074B

CN112607074B - Automatic quantitative output mechanism for liquid materials of high-speed packaging machine

Info

Publication number: CN112607074B
Application number: CN202011482575.3A
Authority: CN
Inventors: 蔡坤宏; 张伟秋
Original assignee: Anhui Zhongyi Intelligent Technology Co ltd
Current assignee: Anhui Zhongyi Intelligent Technology Co ltd
Priority date: 2020-12-15
Filing date: 2020-12-15
Publication date: 2023-04-28
Anticipated expiration: 2040-12-15
Also published as: CN112607074A

Abstract

The utility model provides a high-speed packagine machine's automatic ration output mechanism of liquid material, which comprises a frame, a supporting rack, the rotating rack, rotating rack actuating mechanism, rotatable storage disk, material ration output mechanism, the support frame, rotating rack actuating mechanism installs respectively in the frame, the rotating rack is rotationally installed on the support frame, rotating rack actuating mechanism connects the rotating rack and drives the rotating rack and rotate, rotatable storage disk, material ration output mechanism installs respectively on the rotating rack, rotatable storage disk bottom has at least one intercommunication rotatable storage disk and the discharging pipe that extends towards the below, material ration output mechanism includes at least one material ration output device, material ration output device includes the mount pad, at least one horizontal material ration output unit. The invention can automatically complete the quantitative extraction and delivery of liquid materials, so that the packaging machine can be used for packaging various liquid materials, a large number of power driving devices are saved, and the manufacturing cost and the production cost are greatly reduced.

Description

Automatic quantitative output mechanism for liquid materials of high-speed packaging machine

Technical Field

The invention relates to liquid material output equipment of a packaging machine, in particular to an automatic liquid material quantitative output mechanism of a high-speed packaging machine, which can automatically complete quantitative conveying of liquid materials.

Background

The traditional packing machine is a semi-automatic packing machine, and the packing machine generally adopts the prepared packing bags for filling and packing, so the packing machine has the defects of low technical level, high packing cost, high labor intensity, low production efficiency and the like.

As disclosed in chinese patent document CN102874423B, entitled "high-speed fully automatic packaging machine", the packaging machine comprises a frame, and a film releasing device, a packaging bag forming device, a longitudinal sealing device, a filling device, a sealing device, a shearing device, a bag feeding device and a finished product output device which are respectively arranged on the frame; the film placing device, the packaging bag forming device, the longitudinal sealing device, the bag conveying device and the finished product output device are sequentially arranged along the conveying direction of the packaging material, the filling device is located above the longitudinal sealing device, and the finished product output device is located below the bag conveying device. The packaging machine can manufacture the packaging film into packaging bags, and fill and package the packaging bags with materials (solid granular materials and liquid materials), so that high-speed full-automatic packaging is realized, the packaging cost and labor intensity are reduced, and the production efficiency is improved.

However, the applicant found that the filling device of the above-mentioned packaging machine is suitable for solid particulate material, liquid with good fluidity, but is difficult to use for filling relatively viscous, poorly flowing liquid material, and therefore has poor adaptability, and needs improvement so that it can be used for filling all liquid materials.

Disclosure of Invention

The invention aims to provide an automatic quantitative liquid material output mechanism of a high-speed packaging machine, which can automatically finish quantitative liquid material conveying. The technical scheme adopted is as follows:

the utility model provides a high-speed packagine machine's automatic ration output mechanism of liquid material, includes frame, support frame, swivel mount actuating mechanism, rotatable storage disc, material ration output mechanism, and support frame, swivel mount actuating mechanism are installed in the frame respectively, and the swivel mount is rotatably installed on the support frame, and swivel mount actuating mechanism connects the swivel mount and drives the swivel mount and rotate, and rotatable storage disc, material ration output mechanism are installed on the swivel mount respectively, its characterized in that: the bottom surface of the rotatable storage disc is provided with at least one discharging pipe which is communicated with the rotatable storage disc and extends downwards, the material quantitative output mechanism comprises at least one material quantitative output device, the material quantitative output device comprises a mounting seat and at least one horizontal material quantitative output unit, the horizontal material quantitative output unit comprises a pumping pump and a three-way valve, the mounting seat is fixed on the outer edge of the rotating frame, the pumping pump and the three-way valve are respectively arranged on the top surface of the mounting seat, the three-way valve is arranged on the inner side of the mounting seat, the pumping pump is positioned on the outer side of the mounting seat, the three-way valve is provided with an upper outlet, an outer outlet and a lower outlet, the upper outlet faces upwards and is communicated with one discharging pipe, the outer outlet is communicated with the discharging outlet of the pumping pump, the pumping pump is provided with a piston shaft, the operating end of the pumping pump extends towards the outer side of the rotating frame, and the operating end of the piston shaft is provided with a controlled roller; the automatic material quantitative output mechanism also comprises a quantitative material pumping control device and a quantitative material feeding control device; the quantitative material pumping control device comprises a first mounting plate and a first control plate, wherein the first mounting plate is hung on the outer side of the rotating frame, the first control plate is arranged on the first mounting plate, and the outer side wall of the first control plate is a material pumping control cambered surface which can enable a controlled roller to roll along the surface of the controlled roller and drive a piston to axially move on the outer side of the rotating frame; the quantitative feeding control device comprises a second mounting plate and a second control plate, wherein the second mounting plate is hung on the outer side of the rotating frame, the second control plate is arranged on the second mounting plate, and the inner side wall of the second control plate is a feeding control cambered surface which can enable the controlled roller to roll along the surface of the controlled roller and drive the piston to move towards the inner side of the rotating frame. The first mounting plate of the quantitative pumping control device and the second mounting plate of the quantitative feeding control device can be respectively mounted on a wall of a factory building, and can be connected with a rack or a supporting frame through a connecting mechanism. When the upper outlet and the outer outlet of the three-way valve are communicated, the rotating frame rotates, so that the controlled roller of the horizontal material quantitative output unit passes through the outer side wall of the first control panel of the quantitative pumping control device, the controlled roller drives the piston to axially move outside the rotating frame when rolling along the outer side wall of the first control panel, and the pumping pump finishes quantitative pumping work from the rotatable storage disc to the pumping pump; when the outlet and the lower outlet of the three-way valve are communicated, the rotating frame rotates, so that the controlled roller of the horizontal material quantitative output unit passes through the inner side wall of the second control panel of the quantitative feeding control device, and the controlled roller drives the piston to move towards the inner side of the rotating frame when rolling along the inner side wall of the second control panel, and the pumping pump finishes quantitative feeding work of pumping the quantitative material out of the pumping pump.

The preferred scheme is located install the slip track parallel with the piston axle on the mount pad top surface of piston axle below, install the slidable seat on the slip track, install the backup pad on the slidable seat, the piston axle operation end connection backup pad, the controlled gyro wheel is installed on the backup pad top.

Preferably, the quantitative material pumping control device further comprises a first adjusting device, the first adjusting device is provided with a first action end, the first adjusting device is arranged on the first mounting plate, and the first control board is arranged on the first action end of the first adjusting device; the quantitative feeding control device further comprises a second adjusting device, the second adjusting device is provided with a second action end, the second adjusting device is arranged on the second mounting plate, and the second control plate is arranged on the second action end of the second adjusting device. Thus, the producer can adjust the volume and the weight of the liquid materials for pumping and feeding according to the needs.

More preferably, the first adjusting device is a manual adjusting device or an electric adjusting device; the second adjusting device is a manual adjusting device or an electric adjusting device.

More preferably, the manual adjusting device comprises an operation hand wheel, a screw rod and a first sliding block, wherein the first sliding block is slidably arranged on the first mounting plate or the second mounting plate, the screw rod is arranged on the first mounting plate or the second mounting plate, the operation hand wheel is arranged at the outer end of the screw rod, the inner end of the screw rod is connected with the outer end of the first sliding block, and the first control plate or the second control plate is arranged at the inner end of the first sliding block.

More preferably, the electric adjusting device comprises a cylinder and a second sliding block, the second sliding block is slidably arranged on the first mounting plate or the second mounting plate, the cylinder is arranged on the first mounting plate or the second mounting plate, a piston shaft of the cylinder is connected with the outer end of the second sliding block, and the first control plate or the second control plate is arranged at the inner end of the second sliding block.

Preferably, the discharging pipes and the upper outlets are the same in number and correspond to each other one by one, and each discharging pipe is respectively communicated with the corresponding upper outlet. The discharge pipes of the rotatable storage disc are the same as the upper outlets of all the three-way valves in number and are correspondingly communicated with each other one by one. More preferably, each discharging pipe is communicated with the corresponding upper outlet through a water pipe.

The material quantitative output device comprises two horizontal material quantitative output units, wherein the two horizontal material quantitative output units are respectively arranged on the top surface of the mounting seat, and the two horizontal material quantitative output units are respectively arranged on the left side and the right side of the top surface of the mounting seat.

More preferably, the top surface of the support frame is provided with an on-off control groove; the material quantitative output device further comprises an on-off control rack and an on-off control roller, the horizontal material quantitative output unit further comprises a gear which can be matched with the on-off control rack, the on-off control rack can be axially and slidably arranged on the top surface of the mounting seat, the on-off control rack is positioned between the three-way valves of the two horizontal material quantitative output units, the on-off control roller is arranged at the inner end of the on-off control rack, the on-off control roller is positioned in the on-off control groove and can roll along the on-off control groove, the gear is arranged on the valve core rotating shaft of the three-way valve, and the two gears are respectively meshed with the on-off control rack. The on-off control idler wheel moves along the on-off control groove and drives the on-off control rack to slide on the top surface of the mounting seat along the axial direction of the on-off control idler wheel to drive the two gears to rotate, and simultaneously, the two valve cores are rotated to control the two three-way valves to switch the communication state.

Preferably, the rotating frame driving mechanism comprises a motor and a gear set, and the motor drives the rotating frame to rotate through the gear set.

In a more preferable scheme, the motor is a servo motor.

Compared with the prior art, the invention has the beneficial effects that the material quantitative output device adopts the controlled roller to be matched with the first control board and the second control board to automatically finish quantitative extraction and delivery of liquid materials, so that the packaging machine can be used for packaging various liquid materials, a large number of power driving devices are saved, the structure is more reasonable, and the manufacturing cost and the production cost are greatly reduced; the material quantitative output device adopts the components such as a rack, a gear, an on-off control groove, an on-off control roller and the like to mutually cooperate to realize the automatic conversion of the communication state of the three-way valve, so that a large number of power driving devices are further saved, the structure is further optimized, and the manufacturing cost and the production cost are reduced again.

Drawings

FIG. 1 is a schematic structural view of embodiment 1 of the present invention;

FIG. 2 is a top view of embodiment 1 shown in FIG. 1;

FIG. 3 is a schematic view of the top surface of the support frame, the top surface of the rotating frame, two material quantitative output devices, a quantitative material pumping control device and a quantitative material feeding control device in the embodiment 1 shown in FIG. 1;

FIG. 4 is a front view of the material metering device of example 1 shown in FIG. 1;

FIG. 5 is a top view of FIG. 4;

FIG. 6 is a cross-sectional view taken along A-A of FIG. 5;

fig. 7 is a schematic perspective view of fig. 4.

Detailed Description

Example 1

As shown in fig. 1-7, the automatic quantitative output mechanism for liquid materials of the high-speed packaging machine in this embodiment comprises a frame 1, a support frame 2, a rotating frame 3, a rotating frame driving mechanism, a rotatable material storage disc 4, a quantitative output mechanism 5, a quantitative material pumping control device 6 and a quantitative material feeding control device 7, wherein the support frame 2 and the rotating frame driving mechanism are respectively arranged on the frame 1, the rotating frame 3 is rotatably arranged on the support frame 2, the rotating frame driving mechanism is connected with the rotating frame 3 and drives the rotating frame 3 to rotate, and the rotatable material storage disc 4 and the quantitative output mechanism 5 are respectively arranged on the rotating frame 3. In the present application, the direction toward the center of the rotating frame 3 is inward, and the direction toward the outside of the rotating frame 3 is outward.

The rotating frame driving mechanism comprises a motor and a gear set, and the motor drives the rotating frame 3 to rotate through the gear set. The motor is a servo motor. In the preferred embodiment, the rotating frame driving mechanism is hidden at the bottom of the frame 1, which is not visible in the figure.

The bottom surface of the rotatable tray 4 has 22 discharge pipes 401 which are connected to the rotatable tray 4 and extend downward.

The material quantitative output mechanism 5 comprises 11 material quantitative output devices 501, wherein the material quantitative output devices 501 comprise a mounting base 5011, 2 horizontal material quantitative output units 5012, an on-off control rack 5013 and an on-off control roller 5014.

The horizontal material quantitative output unit 5012 comprises a pumping pump 50121, a three-way valve 50122 and a gear 50123 which can be matched with the on-off control rack 5013, wherein the mounting base 5011 is fixed on the outer edge of the rotating frame 3, the pumping pump 50121 and the three-way valve 50122 are respectively arranged on the top surface of the mounting base 5011, the three-way valve 50122 is positioned on the inner side of the mounting base 5011, the pumping pump 50121 is positioned on the outer side of the mounting base 5011, the three-way valve 50122 is provided with an upper outlet 501221, an outer outlet 501222 and a lower outlet 501223, the upper outlet 501221 faces upwards and is communicated with a discharging pipe 401, the outer outlet 501222 is communicated with the discharging outlet of the pumping pump 50121, the lower outlet 501223 is provided with a material output pipe 501224, the pumping pump 50121 is provided with a piston shaft 501211, the operation end of which extends towards the outer side of the rotating frame 3, a sliding rail 50111 parallel to the piston shaft 501211 is arranged on the top surface of the mounting base 5011 below the piston shaft 50132, a supporting plate 50113 is arranged on the sliding rail 50111, the supporting plate 50113 is arranged on the sliding base 50112, the operation end of the piston shaft 501222 is communicated with the discharging port, and the supporting plate is controlled by the supporting plate 6213.

The quantitative material drawing control device 6 comprises a first mounting plate 601, a first control plate 602 and a first adjusting device, the first mounting plate 601 is suspended outside the rotating frame 3, the first control plate 602 is mounted on the first mounting plate 601, and the outer side wall of the first control plate 602 is a material drawing control arc surface 6021 which can enable the controlled roller 501212 to roll along the surface and drive the piston shaft 501211 to move outside the rotating frame 3. The first adjusting device has a first actuating end, the first adjusting device is mounted on the first mounting plate 601, and the first control board 602 is mounted on the first actuating end of the first adjusting device. The first adjusting device is a manual adjusting device; the manual adjustment device 603 includes an operation hand wheel 6031, a screw 6032, and a first slide 6033, the first slide 6033 is slidably mounted on the first mounting plate 601, the screw 6032 is mounted on the first mounting plate 601, the operation hand wheel 6031 is mounted at the outer end of the screw 6032, the inner end of the screw 6032 is connected with the outer end of the first slide 6033, the first action end is the inner end of the first slide 6033, and the first control board 602 is mounted at the inner end of the first slide 6033.

The quantitative feeding control device 7 comprises a second mounting plate 701, a second control board 702 and a second adjusting device, the second mounting plate 701 is hung on the outer side of the rotating frame 3, the second control board 702 is mounted on the second mounting plate 701, and the inner side wall of the second control board 702 is a feeding control cambered surface 7021 which can enable the controlled roller 501212 to roll along the surface and drive the piston shaft 501211 to move towards the inner side of the rotating frame 3. In this embodiment, the first mounting plate 601 of the quantitative pumping control device 6 and the second mounting plate 701 of the quantitative feeding control device 7 are respectively mounted on a wall of a factory building. In practice, the frame 1 or the support frame 2 may also be connected by a connection mechanism. The second adjustment device has a second actuating end, the second adjustment device being mounted on the second mounting plate 701 and the second control board 702 being mounted on the second actuating end of the second adjustment device. The second adjusting device is an electric adjusting device 703; the electric adjusting device 703 comprises an air cylinder 7031 and a second sliding block 7032, the second sliding block 7032 is slidably mounted on the second mounting plate 701, the air cylinder 7031 is mounted on the second mounting plate 701, a piston shaft 501211 of the air cylinder 7031 is connected with the outer end of the second sliding block 7032, the second action end is the inner end of the second sliding block 7032, and the second control plate 702 is mounted on the inner end of the second sliding block 7032.

The discharging pipes 401 and the upper outlets 501221 are the same in number and correspond to each other one by one, and each discharging pipe 401 is respectively communicated with the corresponding upper outlet 501221. The discharge pipes 401 of the rotatable tray 4 are the same in number and communicate with the upper outlets 501221 of all three-way valves 50122 in a one-to-one correspondence. In this embodiment, each discharging pipe 401 is connected to the corresponding upper outlet 501221 through a water pipe, so as to achieve the purpose of mounting the rotatable tray 4 on the rotating frame 3, and thus, no other fixing and connecting components are required to achieve the connection of the rotatable tray 4 and the rotating frame 3.

Two horizontal material ration output units 5012 are respectively installed on the top surface of the installation base 5011 and two horizontal material ration output units 5012 are respectively positioned on the left side and the right side of the top surface of the installation base 5011.

The top surface of the support frame 2 is provided with an on-off control groove 201; the on-off control rack 5013 is slidably disposed on the top surface of the mounting base 5011 along the axial direction thereof, the on-off control rack 5013 is disposed between the three-way valves 50122 of the two horizontal material quantitative output units 5012, the on-off control roller 5014 is mounted on the inner end of the on-off control rack 5013, the on-off control roller 5014 is disposed in the on-off control groove 201 and is capable of rolling along the on-off control groove 201, the gear 50123 is mounted on the spindle of the spool 501225 of the three-way valve 50122, and the two gears 50123 are respectively engaged with the on-off control rack 5013. The on-off control roller 5014 moves along the on-off control groove 201 and drives the on-off control rack 5013 to slide on the top surface of the mounting seat 5011 along the axial direction thereof, drives the two gears 50123 to rotate, and simultaneously rotates the two valve cores 501225 to control the two three-way valves 50122 to switch the communication state.

The following describes the operation in connection with fig. 1-7:

the servo motor drives the rotating frame 3 to rotate through the gear set, each material quantitative output device 501 respectively rotates along with the rotating frame 3, the on-off control roller 5014 of each material quantitative output device 501 moves along the on-off control groove 201, so that the on-off control rack 5013 slides on the top surface of the mounting seat 5011 along the axial direction of the on-off control rack 5013 to drive the two gears 50123 to rotate, and simultaneously, the two valve cores 501225 are rotated to control the two three-way valves 50122 to switch the communication state;

when the outlets 501221 on the two three-way valves 50122 of one material quantitative output device 501 are communicated with the outlets 501222, the rotating frame 3 rotates, so that the controlled rollers 501212 of the two horizontal material quantitative output units 5012 of the material quantitative output device 501 sequentially pass through the outer side wall (the material pumping control cambered surface 6021) of the first control panel 602 of the quantitative material pumping control device 6, and the two controlled rollers 501212 sequentially roll along the material pumping control cambered surface 6021 to drive the corresponding piston shafts 501211 to move towards the outer side of the rotating frame 3, so that the two pumping pumps 50121 sequentially complete quantitative material pumping work from the rotatable material storage disc 4 to the pumping pumps 50121;

when the outer outlets 501222 and the lower outlets 501223 of the two three-way valves 50122 of one material quantitative output device 501 are communicated, the rotating frame 3 rotates, so that the controlled rollers 501212 of the two horizontal material quantitative output units 5012 of the material quantitative output device 501 sequentially pass through the inner side wall (the feeding control cambered surface 7021) of the second control panel 702 of the quantitative feeding control device 7, and when the two controlled rollers 501212 roll along the feeding control cambered surface 7021, the piston shafts 501211 are driven to move towards the inner side of the rotating frame 3, so that the two pumping pumps 50121 sequentially complete quantitative feeding work of delivering quantitative materials from the pumping pumps 50121.

Example 2

The difference between the liquid material automatic quantitative output mechanism of the high-speed packaging machine in this embodiment and the embodiment 1 is that:

the first adjusting device is a manual adjusting device; the second adjusting device is a manual adjusting device.

Example 3

the first adjusting device is an electric adjusting device; the second adjusting device is an electric adjusting device.

Example 4

the first adjusting device is an electric adjusting device; the second adjusting device is a manual adjusting device.

In addition, it should be noted that, in the specific embodiments described in the present specification, names of various parts and the like may be different, and all equivalent or simple changes of the structures, features and principles described in the conception of the present invention are included in the protection scope of the present invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the invention as defined in the accompanying claims.

Claims

1. The utility model provides a high-speed packagine machine's automatic ration output mechanism of liquid material, includes frame, support frame, swivel mount actuating mechanism, rotatable storage disc, material ration output mechanism, and support frame, swivel mount actuating mechanism are installed in the frame respectively, and the swivel mount is rotatably installed on the support frame, and swivel mount actuating mechanism connects the swivel mount and drives the swivel mount and rotate, and rotatable storage disc, material ration output mechanism are installed on the swivel mount respectively, its characterized in that: the bottom surface of the rotatable storage disc is provided with at least one discharging pipe which is communicated with the rotatable storage disc and extends downwards, the material quantitative output mechanism comprises at least one material quantitative output device, the material quantitative output device comprises a mounting seat, two horizontal material quantitative output units, an on-off control rack and an on-off control roller, the horizontal material quantitative output unit comprises a pumping pump and a three-way valve, the mounting seat is fixed on the outer edge of the rotating frame, the pumping pump and the three-way valve are respectively arranged on the top surface of the mounting seat, the three-way valve is arranged on the inner side of the mounting seat, the pumping pump is arranged on the outer side of the mounting seat, the three-way valve is provided with an upper outlet, an outer outlet and a lower outlet, the upper outlet faces upwards and is communicated with one discharging pipe, the lower outlet is provided with a material output pipe, the pumping pump is provided with a piston shaft, the operation end of the piston shaft extends towards the outer side of the rotating frame, and the operation end of the piston shaft is provided with a controlled roller; the material quantitative output mechanism also comprises a quantitative material pumping control device and a quantitative material feeding control device; the quantitative material pumping control device comprises a first mounting plate and a first control plate, wherein the first mounting plate is hung on the outer side of the rotating frame, the first control plate is arranged on the first mounting plate, and the outer side wall of the first control plate is a material pumping control cambered surface which can enable a controlled roller to roll along the surface of the controlled roller and drive a piston to axially move on the outer side of the rotating frame; the quantitative feeding control device comprises a second mounting plate and a second control plate, wherein the second mounting plate is hung on the outer side of the rotating frame, the second control plate is arranged on the second mounting plate, and the inner side wall of the second control plate is a feeding control cambered surface which can enable the controlled roller to roll along the surface of the controlled roller and drive the piston to axially move towards the inner side of the rotating frame; the rotating frame driving mechanism comprises a motor and a gear set, and the motor drives the rotating frame to rotate through the gear set;

a sliding rail parallel to the piston shaft is arranged on the top surface of the mounting seat below the piston shaft, a slidable seat is arranged on the sliding rail, a supporting plate is arranged on the slidable seat, the operating end of the piston shaft is connected with the supporting plate, and a controlled roller is arranged at the top end of the supporting plate;

the quantitative material pumping control device further comprises a first adjusting device, the first adjusting device is provided with a first action end, the first adjusting device is arranged on the first mounting plate, and the first control board is arranged on the first action end of the first adjusting device; the quantitative feeding control device also comprises a second adjusting device, the second adjusting device is provided with a second action end, the second adjusting device is arranged on the second mounting plate, and the second control plate is arranged on the second action end of the second adjusting device;

the first adjusting device is a manual adjusting device or an electric adjusting device; the second adjusting device is a manual adjusting device or an electric adjusting device;

the horizontal material quantitative output unit also comprises a gear which can be matched with the on-off control rack;

the two horizontal material quantitative output units are respectively arranged on the top surface of the mounting seat, and are respectively positioned on the left side and the right side of the top surface of the mounting seat;

the top surface of the support frame is provided with an on-off control groove; the on-off control rack can be arranged on the top surface of the mounting seat in an axial sliding manner, the on-off control rack is positioned between the three-way valves of the two horizontal material quantitative output units, the on-off control roller is arranged at the inner end of the on-off control rack, the on-off control roller is positioned in the on-off control groove and can roll along the on-off control groove, the gear is arranged on the valve core rotating shaft of the three-way valve, the two gears are respectively meshed with the on-off control rack, the on-off control roller moves along the on-off control groove and drives the on-off control rack to slide on the top surface of the mounting seat along the axial direction of the on-off control rack so as to drive the two gears to rotate, and simultaneously, the two valve cores are rotated to control the two three-way valves to switch the communication state.

2. The automatic quantitative output mechanism for liquid materials of high-speed packing machine according to claim 1, wherein: the manual adjusting device comprises an operating hand wheel, a screw rod and a first sliding block, wherein the first sliding block is slidably arranged on the first mounting plate or the second mounting plate, the screw rod is arranged on the first mounting plate or the second mounting plate, the operating hand wheel is arranged at the outer end of the screw rod, the inner end of the screw rod is connected with the outer end of the first sliding block, and the first control plate or the second control plate is arranged at the inner end of the first sliding block.

3. The automatic quantitative output mechanism for liquid materials of high-speed packing machine according to claim 2, wherein: the electric adjusting device comprises an air cylinder and a second sliding block, the second sliding block is slidably arranged on the first mounting plate or the second mounting plate, the air cylinder is arranged on the first mounting plate or the second mounting plate, a piston shaft of the air cylinder is connected with the outer end of the second sliding block, and the first control plate or the second control plate is arranged at the inner end of the second sliding block.

4. The automatic quantitative output mechanism for liquid materials of high-speed packing machine according to claim 1, wherein: the discharging pipes and the upper outlets are the same in number and correspond to each other one by one, and each discharging pipe is communicated with the corresponding upper outlet respectively.