CN218113068U - Silicone sealant on-line filling and subpackaging integrated device - Google Patents

Abstract

The utility model discloses an online filling partial shipment integrated device of silicone sealant, including partial shipment bucket conveyer belt, revolving stage, ration transfer jar, unloading docking mechanism, partial shipment docking mechanism and fine setting feed supplement mechanism. The utility model discloses an online filling partial shipment integrated device of silicone sealant has realized the online accurate automatic partial shipment of silicone sealant, ensures the stability of at every turn partial shipment volume. The silicone sealant does not need to enter a storage tank for storage and then is weighed and subpackaged, and the silicone sealant does not need to be manually contacted with the silicone sealant for a long time. The environmental protection performance in the production process of the silicone sealant is improved, and the production efficiency of the silicone sealant is improved.

Description

Silicone sealant on-line filling and subpackaging integrated device

Technical Field

The utility model belongs to the technical field of the sealed production facility of glue of silicone, concretely relates to sealed online filling partial shipment integrated device of glue of silicone.

Background

The silicone sealant is a paste prepared by mixing polydimethylsiloxane as a main raw material, a cross-linking agent, a filler, a plasticizer, a coupling agent and a catalyst in a vacuum state, and is cured to form the elastic silicone rubber by reacting with water in the air at room temperature. The silicone sealant needs to be quantitatively packaged into a packaging barrel after the production is finished. When the silicone sealant generated by reaction in the reaction kettle is directly filled into a packaging barrel by using a silicone sealant conveying pipe, the silicone sealant conveying pipe has large flow and thick pipe opening, so that the weight of the silicone sealant entering the packaging barrel is difficult to control, and the silicone sealant in the packaging barrel needs to be manually adjusted after the packaging barrel is weighed. This type of packaging is laborious and takes up a lot of labour. Workers need to have long time direct contact with the silicone sealant, which has an impact on the health of the workers and increases the cost of the workers of the silicone sealant.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model discloses a technical scheme is: an on-line filling and subpackaging integrated device of silicone sealant comprises a subpackaging barrel conveyer belt, a rotating platform, a quantitative transfer tank, a blanking butt joint mechanism, a subpackaging butt joint mechanism and a fine adjustment material supplementing mechanism,

a discharging pipe is arranged at the lower end of the quantitative transfer tank, a valve is arranged on the discharging pipe, and a liquid level measuring mechanism for measuring the liquid level in the quantitative transfer tank is arranged on the quantitative transfer tank;

the rotary table is driven to rotate by a rotary driving mechanism, the number of the quantitative transfer tanks is multiple, the quantitative transfer tanks are respectively fixedly mounted on the rotary table, the quantitative transfer tanks are arranged in an array around the axis circumference of the rotary table, a blanking station, a stabilizing station, a fine adjustment station, a sub-packaging station and a reset station are sequentially arranged above the rotary table, and the rotary driving mechanism drives the rotary table to rotate so that the quantitative transfer tanks respectively stop below the blanking station, the stabilizing station, the fine adjustment station, the sub-packaging station or the reset station;

a plurality of subpackage barrels are sequentially placed on the subpackage barrel conveying belt, and the subpackage barrels are conveyed by the subpackage barrel conveying belt to be sequentially moved to positions right below subpackage stations;

the blanking butt joint mechanism comprises a silicone sealant conveying pipe, an upper corrugated conveying pipe, an upper insertion pipe and a lifting driving mechanism, wherein one end of the upper corrugated conveying pipe is connected with the silicone sealant conveying pipe, the other end of the upper corrugated conveying pipe is connected with the upper insertion pipe, the lifting driving mechanism drives the upper insertion pipe to move up and down, the upper insertion pipe is positioned above the blanking station, and a valve is arranged on the upper insertion pipe;

the split charging butt joint mechanism comprises a material receiving funnel, a middle corrugated conveying pipe, a fixed pipe, a lower corrugated conveying pipe, a barrel pressing cover and a telescopic driving mechanism, wherein the two ends of the middle corrugated conveying pipe are respectively connected with the material receiving funnel and the fixed pipe, the fixed pipe is fixedly connected with a horizontally arranged mounting plate, the two ends of the lower corrugated conveying pipe are respectively connected with the fixed pipe and the barrel pressing cover, a discharge hole communicated with the lower corrugated conveying pipe is formed in the middle of the barrel pressing cover, the telescopic driving mechanism is mounted on the mounting plate, the telescopic driving mechanism drives the material receiving funnel to move upwards and simultaneously move downwards, or the material receiving funnel moves downwards and simultaneously move upwards, the barrel pressing cover is arranged, and the material receiving funnel is positioned right below a split charging station;

the fine-tuning feeding mechanism comprises a feeding corrugated conveying pipe, a feeding inserting pipe and an upper driving mechanism and a lower driving mechanism, one end of the feeding corrugated conveying pipe is connected with the silicone sealant conveying pipe, the other end of the feeding corrugated conveying pipe is connected with the feeding inserting pipe, the upper driving mechanism and the lower driving mechanism drive the feeding inserting pipe to move up and down, the feeding inserting pipe is located above the fine-tuning station, and a valve is installed on the feeding inserting pipe.

Preferably, the quantitative transfer tank is made of a transparent material, and the liquid level measuring mechanism is a laser liquid level sensor or an ultrasonic liquid level sensor.

Preferably, the quantitative transfer tank is internally provided with a piston plate, the piston plate is driven by a material cleaning driving mechanism to move up and down in the quantitative transfer tank, the piston plate is provided with a plug-in port, the lower surface of the piston plate is provided with a movable cover plate, the movable cover plate covers the plug-in port, one side of the movable cover plate is hinged with the piston plate through a hinge shaft, and the hinge shaft is sleeved with a torsional spring which enables the movable cover plate to cover the plug-in port in a natural state.

As the optimization of the technical scheme, the material cleaning driving mechanism comprises a linkage rod, a connecting plate and a material cleaning cylinder, wherein one end of the linkage rod is fixedly connected with the middle part of the piston plate, the other end of the linkage rod is fixedly connected with the connecting plate, the connecting plate is fixedly connected with a piston rod of the material cleaning cylinder, and the material cleaning cylinder is fixed on the rotating platform.

Preferably, the rotary driving mechanism comprises an indexing motor, the rotary table is rotatably mounted on the support frame, and the indexing motor is mounted on the support frame.

Preferably, the lifting driving mechanism comprises a lifting cylinder, and a piston rod of the lifting cylinder is fixedly connected with the upper end of the upper insertion pipe through a linkage plate;

the telescopic driving mechanism comprises a driving motor and a bidirectional screw rod, the bidirectional screw rod is vertically arranged, the middle part of the bidirectional screw rod is rotatably arranged on the mounting plate, the upper end of the bidirectional screw rod is provided with an upper screw thread section, the lower end of the bidirectional screw rod is provided with a lower screw thread section, the upper screw thread section is matched with an upper screw rod pair, the lower screw thread section is matched with a lower screw rod pair, the lower end of the material receiving funnel is fixedly connected with a lifting plate, the lifting plate is fixedly connected with the upper screw rod pair, the middle part of the pressing barrel cover is fixedly connected with an inclined connecting plate, the upper end of the inclined connecting plate is fixedly connected with the lower screw rod pair, the mounting plate is fixedly connected with a guide rod, the lifting plate is provided with an upper guide hole for movably inserting the upper end of the guide rod, the inclined connecting plate is provided with a lower guide hole for movably inserting the upper end of the guide rod, a gear is arranged between the upper screw thread section and the lower screw thread section, and the driving motor drives the gear to rotate;

the upper and lower driving mechanism comprises a material supplementing cylinder, and a piston rod of the material supplementing cylinder is fixedly connected with the upper end of the material supplementing inserting pipe through a material supplementing linkage plate.

The utility model has the advantages that: the utility model discloses an online filling partial shipment integrated device of silicone sealant has realized the online accurate automatic partial shipment of silicone sealant, ensures the stability of at every turn partial shipment volume. The silicone sealant does not need to be weighed and subpackaged after being stored in a storage tank, and does not need to be manually contacted with the silicone sealant for a long time. The environmental protection performance in the production process of the silicone sealant is improved, and the production efficiency of the silicone sealant is improved.

Drawings

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

FIG. 2 is a schematic cross-sectional view of a quantitative transfer tank.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

As shown in figure 1-2, the silicone sealant on-line filling and subpackaging integrated device comprises a subpackaging barrel conveyer belt 1, a rotating platform 2, a quantitative transfer tank 3, a blanking butt joint mechanism, a subpackaging butt joint mechanism and a fine adjustment material supplementing mechanism,

a blanking pipe 301 is arranged at the lower end of the quantitative transfer tank 3, a valve 304 is arranged on the blanking pipe 301, and a liquid level measuring mechanism for measuring the liquid level in the quantitative transfer tank 3 is arranged on the quantitative transfer tank 3;

the rotary table 2 is driven to rotate by a rotary driving mechanism, the quantitative transfer tanks 3 are multiple in number, the quantitative transfer tanks 3 are respectively fixedly mounted on the rotary table 2, the quantitative transfer tanks 3 are arranged in a row around the circumference of the axis of the rotary table 2, a blanking station 201, a stabilizing station 202, a fine-tuning station 203, a sub-packaging station 204 and a reset station 205 are sequentially arranged above the rotary table 2, and the rotary driving mechanism drives the rotary table 2 to rotate so that the quantitative transfer tanks 3 respectively stop below the blanking station 201, the stabilizing station 202, the fine-tuning station 203, the sub-packaging station 204 or the reset station 205;

a plurality of sub-packaging barrels 206 are sequentially placed on the sub-packaging barrel conveying belt 1, and the sub-packaging barrels 206 are conveyed by the sub-packaging barrel conveying belt 1 to enable the sub-packaging barrels 206 to sequentially move to positions right below the sub-packaging stations 204;

the blanking docking mechanism comprises a silicone sealant conveying pipe, an upper corrugated conveying pipe 501, an upper plug pipe 502 and a lifting driving mechanism, wherein one end of the upper corrugated conveying pipe 501 is connected with the silicone sealant conveying pipe, the other end of the upper corrugated conveying pipe 501 is connected with the upper plug pipe 502, the lifting driving mechanism drives the upper plug pipe 502 to move up and down, and the upper plug pipe 502 is positioned above the blanking station 201;

the subpackage docking mechanism comprises a material receiving funnel 601, a middle ripple conveying pipe 602, a fixed pipe 603, a lower ripple conveying pipe 604, a barrel pressing cover 605 and a telescopic driving mechanism, wherein two ends of the middle ripple conveying pipe 602 are respectively connected with the material receiving funnel 601 and the fixed pipe 603, the fixed pipe 603 is fixedly connected with a horizontally arranged mounting plate 606, two ends of the lower ripple conveying pipe 604 are respectively connected with the fixed pipe 603 and the barrel pressing cover 605, a discharge hole communicated with the lower ripple conveying pipe 604 is formed in the middle of the barrel pressing cover 605, the telescopic driving mechanism is mounted on the mounting plate 606, the telescopic driving mechanism drives the material receiving funnel 601 to move upwards and simultaneously move the barrel pressing cover 605 downwards, or the material receiving funnel 601 moves downwards and simultaneously moves the barrel pressing cover 605 upwards, and the material receiving funnel 601 is located right below the subpackage station 204;

the fine-tuning feeding mechanism comprises a feeding corrugated conveying pipe 701, a feeding plug pipe 702 and an up-and-down driving mechanism, one end of the feeding corrugated conveying pipe 701 is connected with the silicone sealant conveying pipe, the other end of the feeding corrugated conveying pipe 701 is connected with the feeding plug pipe 702, the up-and-down driving mechanism drives the feeding plug pipe 702 to move up and down, and the feeding plug pipe 702 is located above the fine-tuning station 203.

The rotary table 2 rotates by a fixed angle each time, so that the quantitative transfer tank 3 is sequentially stopped at the blanking station 201. Quantitative transfer jar 3 stops behind unloading station 201, and grafting pipe 502 moves down and stretches into on the unloading station 201 in quantitative transfer jar 3 in the lift actuating mechanism drive, and utility model opens, injects into quantitative transfer jar 3 with the sealed glue of silicone, and grafting pipe 502 rises on finishing. Then the rotating platform 2 rotates by a fixed angle, so that the quantitative transfer tank 3 moves to the stable station 202, the liquid level of the silicone sealant in the quantitative transfer tank 3 of the stable station 202 is gradually stabilized by the aid of self weight, a liquid level measuring mechanism can accurately obtain the liquid level condition, and the height difference between the liquid level condition and the rated liquid level is calculated. Meanwhile, the blanking butting mechanism repeats the steps to fill the silicone sealant into the quantitative transfer tank 3 on the blanking station 201. Then the rotating platform 2 rotates a fixed angle again, so that the quantitative transfer tank 3 with the measured liquid level on the stabilizing station 202 is transferred to the fine tuning station 203. The feeding plug tube 702 of the fine-tuning feeding mechanism is lowered and inserted into the quantitative transfer tank 3, the corresponding valve is opened, and silicone sealant with a liquid level height difference equivalent is injected, so that the silicone sealant amount in the quantitative transfer tank 3 reaches a rated amount. The turntable 2 is then rotated by a fixed angle so that the quantitative transfer pot 3 at the fine adjustment station 203 is transferred to the dispensing station 204. The receiving funnel 601 in the subpackaging docking mechanism rises, and the pressing barrel cover 605 descends, so that the discharging pipe 301 is inserted into the receiving funnel 601, and meanwhile, the pressing barrel cover 605 covers the subpackaging barrel 206 below the subpackaging station 204. And opening a valve on the discharging pipe 301, completely discharging the silicone sealant in the quantitative transfer tank 3 into the sub-packaging barrel 206, and covering the sub-packaging barrel 206 with a barrel cover. The quantitative transfer pot 3 waits in the reset station 205, and the number of the reset stations 205 may be designed to be plural as necessary. The above steps are repeated, and the silicone sealant is sequentially dispensed into the dispensing barrels 206 on the dispensing barrel conveyor 1. Wherein the blanking station 201, the stabilizing station 202, the fine-tuning station 203 and the sub-packaging station 204 are respectively and simultaneously operated correspondingly.

Further, the quantitative transfer tank 3 is made of a transparent material, and the liquid level measuring mechanism is a laser liquid level sensor or an ultrasonic liquid level sensor. The liquid level condition in the quantitative transfer tank 3 is sensed by a laser liquid level sensor or an ultrasonic liquid level sensor to obtain accurate liquid level information in the quantitative transfer tank 3.

Further, a piston plate 310 is installed in the quantitative transfer tank 3, the piston plate 310 is driven by a material cleaning driving mechanism to move up and down in the quantitative transfer tank 3, a plug port 312 is formed in the piston plate 310, a movable cover plate 311 is arranged on the lower surface of the piston plate 310, the plug port 312 is covered by the movable cover plate 311, one side of the movable cover plate 311 is hinged to the piston plate 310 through a hinge shaft, and a torsion spring enabling the movable cover plate 311 to cover the plug port 312 in a natural state is sleeved on the hinge shaft. The upper plug tube 502 is inserted into the plug port 312 of the quantitative transfer pot 3 and pushes away the removable cover plate 311, injecting the silicone sealant into the quantitative transfer pot 3. After the upper plug-in pipe 502 is lifted, the movable cover plate 311 automatically covers the plug-in port 312 under the elastic restoring force of the torsion spring. The piston plate 310 is lowered too heavily to force the silicone sealant out of the feed tube 301. The rotary table is rotated by a fixed angle so that the piston plate 310 is lifted and reset after the empty quantitative transfer pot 3 is transferred to the reset station 205.

Furthermore, the material cleaning driving mechanism comprises a linkage rod, a connecting plate 311 and a material cleaning cylinder 312, one end of the linkage rod is fixedly connected with the middle part of the piston plate 310, the other end of the linkage rod is fixedly connected with the connecting plate 311, the connecting plate 311 is fixedly connected with a piston rod of the material cleaning cylinder 312, and the material cleaning cylinder 312 is fixed on the rotating platform 2.

Further, the rotation driving mechanism comprises an indexing motor 220, the rotating platform 2 is rotatably mounted on the supporting frame, and the indexing motor 220 is mounted on the supporting frame. The index motor 220 rotates by a fixed angle every time, so that the quantitative transfer pot 3 can be precisely stopped at a corresponding position.

Further, the lifting driving mechanism comprises a lifting cylinder 520, and a piston rod of the lifting cylinder 520 is fixedly connected with the upper end of the upper insertion pipe 502 through a linkage plate 521;

the telescopic driving mechanism comprises a driving motor 620 and a bidirectional screw 621, the bidirectional screw 621 is vertically arranged, the middle part of the bidirectional screw 621 is rotatably installed on the installation plate 606, an upper screw thread section 622 is arranged at the upper end of the bidirectional screw 621, a lower screw thread section 623 is arranged at the lower end of the bidirectional screw 621, the upper screw thread section 622 is installed in a matched manner and is provided with an upper screw pair, the lower screw thread section 623 is installed in a matched manner and is provided with a lower screw pair, the lower end of the material receiving funnel 601 is fixedly connected with a lifting plate 625, the lifting plate 625 is fixedly connected with the upper screw pair, the middle part of the pressing barrel cover 605 is fixedly connected with an inclined connection plate 311, the upper end of the inclined connection plate 311 is fixedly connected with the lower screw pair, the installation plate 606 is fixedly connected with a guide rod 626, an upper guide hole for movably inserting the upper end of the guide rod 626 is arranged on the lifting plate 625, a lower guide hole for movably inserting the upper end of the guide rod 626 is arranged on the inclined connection plate 311, a gear 627 is arranged between the upper screw thread section 622 and the lower screw thread section 623, and the driving motor drives the gear 627 to rotate;

the up-and-down driving mechanism comprises a material supplementing cylinder 710, and a piston rod of the material supplementing cylinder 710 is fixedly connected with the upper end of the material supplementing insertion pipe 702 through a material supplementing linkage plate 711.

It is worth mentioning that the technical features such as the cylinder and the motor related to the utility model should be regarded as the prior art, and the specific structure, the working principle of these technical features and the control mode and the spatial arrangement mode that may involve are all the conventional choices in this field, and should not be regarded as the invention point of the utility model, the utility model does not further expand the detailed description.

Having described in detail preferred embodiments of the present invention, it is to be understood that modifications and variations can be made by persons skilled in the art without inventive faculty, and therefore all technical solutions which can be obtained by a person skilled in the art based on the concepts of the present invention through logic analysis, reasoning or limited experimentation will fall within the scope of protection defined by the claims.

Claims (6)

1. The silicone sealant on-line filling and subpackaging integrated device is characterized by comprising a subpackaging barrel conveyer belt, a rotating table, a quantitative transfer tank, a blanking butt joint mechanism, a subpackaging butt joint mechanism and a fine adjustment material supplementing mechanism,

a discharging pipe is arranged at the lower end of the quantitative transfer tank, a valve is arranged on the discharging pipe, and a liquid level measuring mechanism for measuring the liquid level in the quantitative transfer tank is arranged on the quantitative transfer tank;

the rotary table is driven to rotate by a rotary driving mechanism, the quantitative transfer tanks are multiple in number and are respectively fixedly mounted on the rotary table, the quantitative transfer tanks are arranged in an array around the axis circumference of the rotary table, a blanking station, a stabilizing station, a fine adjustment station, a sub-packaging station and a reset station are sequentially arranged above the rotary table, and the rotary driving mechanism drives the rotary table to rotate so that the quantitative transfer tanks are respectively stopped below the blanking station, the stabilizing station, the fine adjustment station, the sub-packaging station or the reset station;

a plurality of subpackage barrels are sequentially placed on the subpackage barrel conveying belt, and the subpackage barrels are conveyed by the subpackage barrel conveying belt to be sequentially moved to positions right below subpackage stations;

the blanking butt joint mechanism comprises a silicone sealant conveying pipe, an upper corrugated conveying pipe, an upper insertion pipe and a lifting driving mechanism, wherein one end of the upper corrugated conveying pipe is connected with the silicone sealant conveying pipe, the other end of the upper corrugated conveying pipe is connected with the upper insertion pipe, the lifting driving mechanism drives the upper insertion pipe to move up and down, the upper insertion pipe is positioned above the blanking station, and a valve is arranged on the upper insertion pipe;

the split charging butt joint mechanism comprises a material receiving funnel, a middle corrugated conveying pipe, a fixed pipe, a lower corrugated conveying pipe, a barrel pressing cover and a telescopic driving mechanism, wherein the two ends of the middle corrugated conveying pipe are respectively connected with the material receiving funnel and the fixed pipe, the fixed pipe is fixedly connected with a horizontally arranged mounting plate, the two ends of the lower corrugated conveying pipe are respectively connected with the fixed pipe and the barrel pressing cover, a discharge hole communicated with the lower corrugated conveying pipe is formed in the middle of the barrel pressing cover, the telescopic driving mechanism is mounted on the mounting plate, the telescopic driving mechanism drives the material receiving funnel to move upwards and simultaneously move downwards, or the material receiving funnel moves downwards and simultaneously move upwards, the barrel pressing cover is arranged, and the material receiving funnel is positioned right below a split charging station;

the fine setting feed supplement mechanism is including the sealed conveyer pipe of gluing of feed supplement ripple conveyer pipe, feed supplement plug tube, upper and lower actuating mechanism, and the sealed glue conveyer pipe of silicone is connected to the one end of feed supplement ripple conveyer pipe, and the pipe is pegged graft to the feed supplement, and upper and lower actuating mechanism drive feed supplement plug tube goes up and down to move, and the feed supplement plug tube is located the top of fine setting station, installs the valve on the feed supplement plug tube.

2. The integrated apparatus for on-line filling and subpackaging of silicone sealant according to claim 1, wherein the quantitative transfer tank is made of transparent material, and the liquid level measuring mechanism is a laser liquid level sensor or an ultrasonic liquid level sensor.

3. The integrated device for on-line filling and subpackaging of silicone sealant according to claim 2, wherein a piston plate is installed in the quantitative transfer tank, the piston plate is driven by a material cleaning driving mechanism to move up and down in the quantitative transfer tank, the piston plate is provided with a plug port, the lower surface of the piston plate is provided with a movable cover plate, the movable cover plate covers the plug port, one side of the movable cover plate is hinged with the piston plate through a hinge shaft, and the hinge shaft is sleeved with a torsion spring which enables the movable cover plate to cover the plug port in a natural state.

4. The integrated device for on-line filling and subpackaging of silicone sealant as claimed in claim 3, wherein the material cleaning driving mechanism comprises a linkage rod, a connecting plate and a material cleaning cylinder, one end of the linkage rod is fixedly connected with the middle part of the piston plate, the other end of the linkage rod is fixedly connected with the connecting plate, the connecting plate is fixedly connected with a piston rod of the material cleaning cylinder, and the material cleaning cylinder is fixed on the rotating table.

5. The integrated apparatus for on-line filling and dispensing of silicone sealant according to claim 1, wherein the rotary driving mechanism comprises an indexing motor, the rotary table is rotatably mounted on the support frame, and the indexing motor is mounted on the support frame.

6. The integrated device for on-line filling and subpackaging of the silicone sealant as claimed in claim 1, wherein the lifting driving mechanism comprises a lifting cylinder, a piston rod of the lifting cylinder is fixedly connected with the upper end of the upper inserting pipe through a linkage plate;

the telescopic driving mechanism comprises a driving motor and a bidirectional screw rod, the bidirectional screw rod is vertically arranged, the middle part of the bidirectional screw rod is rotatably arranged on the mounting plate, the upper end of the bidirectional screw rod is provided with an upper screw thread section, the lower end of the bidirectional screw rod is provided with a lower screw thread section, the upper screw thread section is matched with an upper screw rod pair, the lower screw thread section is matched with a lower screw rod pair, the lower end of the material receiving funnel is fixedly connected with a lifting plate, the lifting plate is fixedly connected with the upper screw rod pair, the middle part of the pressing barrel cover is fixedly connected with an inclined connecting plate, the upper end of the inclined connecting plate is fixedly connected with the lower screw rod pair, the mounting plate is fixedly connected with a guide rod, the lifting plate is provided with an upper guide hole for movably inserting the upper end of the guide rod, the inclined connecting plate is provided with a lower guide hole for movably inserting the upper end of the guide rod, a gear is arranged between the upper screw thread section and the lower screw thread section, and the driving motor drives the gear to rotate;

the upper and lower driving mechanism comprises a material supplementing cylinder, and a piston rod of the material supplementing cylinder is fixedly connected with the upper end of the material supplementing inserting pipe through a material supplementing linkage plate.

Images