CN211004518U - Fluid filling machine - Google Patents

Abstract

The utility model provides a fluid filling machine, it includes: the device comprises a rack unit, a pressing unit, a fluid sucking unit and a material barrel unit. The utility model discloses fluid filling machine can realize that the fluid is taken out from the bottom of material bucket unit, is favorable to avoiding the inside fluid of material bucket unit to remain, reduces extravagantly. Meanwhile, as the material barrel unit is provided with the built-in flexible packaging bag, the materials are contained in the flexible packaging bag, and the fluid can not be exposed in the environment in the whole fluid extraction process, the overflow of harmful gases such as VOCS (volatile organic Compounds), and the like, can be avoided, and the environmental pollution can be better avoided.

Description

Fluid filling machine

Technical Field

The utility model relates to a fluid filling technical field especially relates to a fluid filling machine.

Background

At present, the filling of the fluid is mainly to draw the fluid from the upper part of the packaging container by various types of fluid pumps, however, the above filling method has the following problems:

(1) and the fluid in the packaging container is more remained, which causes waste.

(2) And if the waste is dangerous, the treatment cost of the dangerous waste is increased.

(3) And the energy consumption of the fluid pump is high during operation.

(4) Some fluids can also generate VOCS gas, and when the equipment is installed, environmental protection departments require the installation of VOCS gas collecting and processing devices, so that the cost is high.

(5) When viscous fluid such as ink, grease, resin, glue and the like is extracted from the upper surface of the packaging container, a sucker is usually adopted, a fluid pump is installed on the sucker, downward pressure needs to be applied to a pressure plate in the using process, the viscous fluid inside the packaging container often overflows along the periphery of the pressure plate, and the pollution of the viscous fluid and the waste of materials are caused. In addition, the sucker is generally made of non-metal materials for sealing, fatigue damage or aging can occur in the using process, the sealing is not tight, and high replacement cost is caused when the sucker needs to be replaced. Meanwhile, the periphery of the sucker is sealed by non-metal materials, and certain extrusion force is required between the sucker and a packaging container, so that the packaging container is difficult to replace and long in time. Therefore, it is necessary to provide a further solution to the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fluid filling machine to overcome the not enough that exists among the prior art.

In order to achieve the above object, the present invention provides a fluid filling machine, which includes: the device comprises a rack unit, a pressing unit, a fluid sucking unit and a material barrel unit;

the rack unit includes: the material barrel comprises a material barrel supporting plate, a cylinder, a square tube, a material receiving cup seat and a frame seat;

the material barrel supporting plate is arranged above the rack seat, the square tubes are vertically arranged on the material barrel supporting plate, the upper part of at least one square tube is provided with the air cylinder, and the material receiving cup seat is arranged on the rack seat;

the unit of pressing is pressed by the cylinder drive carries out the material action of pressing, and it includes: a material pressure plate, a pressure plate connecting rod and a cross beam;

the material pressure plate is connected with the cross beam through the pressure plate connecting rod, and two ends of the cross beam are respectively connected with the air cylinders;

inhale the fluid unit with set up in the bottom of material bucket unit on the material bucket layer board is linked together, it includes: the quick-change connector assembly comprises a connecting cover, a quick-change connector assembly, a feed inlet hose, a high-pressure pump, a high-pressure pipe, a speed reducer and a motor;

one end of the feed inlet hose is connected with the bottom of the material barrel unit through the quick-change connector assembly and the connecting cover, the other end of the feed inlet hose is connected to a high-pressure pipe through the high-pressure pump, a motor shaft of the motor extends into an input hole of the speed reducer, a pump shaft of the high-pressure pump extends into an output hole of the speed reducer, a material receiving opening is formed in one end of the high-pressure pipe, and a high-pressure pipe outlet connector is formed in the other end of the high-pressure pipe.

As the utility model discloses a fluid filling machine's improvement, still be provided with two at least material container locating pins on the material bucket layer board, set up the change on the material bucket layer board the handle hole of material bucket unit.

As the utility model discloses a fluid filling machine's improvement, the upper end of square pipe is close to the position of cylinder still is provided with scarce material alarm sensor.

As the utility model discloses an improvement of fluid filling machine, press the material unit still to include: the sealing ring supporting rod, the sealing ring fixing plate and the sealing ring are arranged on the sealing ring supporting rod;

the sealing ring is fixed on the material pressure plate, and the sealing ring support rod enables the sealing ring not to move up and down along with the material pressure plate with the fixed part of the material pressure plate.

As an improvement of the fluid filling machine of the present invention, the fluid suction unit is disposed below the material barrel support plate.

As an improvement of the fluid filling machine of the present invention, the quick-change connector assembly comprises: the material bucket device comprises a quick-change connector upper portion, a quick-change connector pagoda head, a clamp and a sealing ring, wherein the clamp and the sealing ring are connected with the quick-change connector upper portion and the quick-change connector pagoda head, the quick-change connector upper portion is connected with an interface at the bottom of a flexible package in a material bucket unit, the quick-change connector pagoda head is connected with a feed port hose, and the other end of the feed port hose is connected with a high-pressure.

As the utility model discloses a fluid filling machine's improvement, still be provided with high-pressure valve and manometer on the high-pressure pipe.

As the utility model discloses a fluid filling machine's improvement, material bucket unit includes: a semicircular pressing plate, a discharge port, a material barrel cover, a material barrel and a soft packaging bag;

the discharge gate set up in material barrel head portion, the material bung connect soon on the discharge gate, semi-circular clamp plate bilateral symmetry set up in the upper portion opening part of material bucket, and the straight flange of two semi-circular clamp plates docks mutually, place in the flexible packaging bag in the material bucket, its bottom opening with the discharge gate is connected, two semi-circular clamp plates will flexible packaging bag does not contact the material part extrusion together, lets do not contact the material part in the top of semi-circular clamp plate, flat pressure below the semi-circular clamp plate on flexible packaging bag.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses fluid filling machine can realize that the fluid is taken out from material bucket unit bottom, is favorable to avoiding the inside fluid of material bucket unit to remain, reduces extravagantly. Meanwhile, as the material barrel unit is provided with the built-in flexible packaging bag, the materials are contained in the flexible packaging bag, and the fluid can not be exposed in the environment in the whole fluid extraction process, the overflow of harmful gases such as VOCS (volatile organic Compounds), and the like, can be avoided, and the environmental pollution can be better avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic perspective view of a fluid filling machine according to the present invention;

FIG. 2 is an isolated perspective view of the rack unit of FIG. 1;

FIG. 3 is an isolated perspective view of the pressing unit of FIG. 1;

FIG. 4 is a perspective view of the fluid suction unit of FIG. 1 in isolation;

FIG. 5 is an enlarged schematic view of view E of FIG. 4;

fig. 6 is a perspective view of the material bucket unit of fig. 1;

fig. 7 is a sectional view taken in the direction of a-a in fig. 6.

Detailed Description

The present invention is described in detail with reference to the embodiments shown in the drawings, but it should be understood that these embodiments are not intended to limit the present invention, and those skilled in the art should understand that the functions, methods, or structural equivalents or substitutions made by these embodiments are within the scope of the present invention.

As shown in fig. 1-7, the present invention provides a fluid filling machine, which comprises: the device comprises a rack unit 1, a pressing unit 2, a fluid sucking unit 3 and a material barrel unit 4.

In one embodiment, the rack unit 1 includes: the device comprises a lighting lamp 5, a material barrel supporting plate 6, a material container positioning device 7, a cylinder 8, a material shortage alarm sensor 9, a square tube 10, a material receiving cup seat 11 and a frame seat 12.

The material barrel supporting plate 6 of the rack unit 1 is arranged above the rack base 12, the square pipe 10 is vertically arranged on the material barrel supporting plate 6 of the rack unit 1, and the upper part of at least one square pipe 10 is provided with the material shortage alarm sensor 9. Preferably, the cylinder 8 is placed inside the square pipe 10, so as to increase the strength of the cylinder 8 and enhance durability.

The material receiving cup seat 11 is arranged on the frame seat 12. In addition, in order to facilitate the fixing of the material barrel unit 5, the material barrel supporting plate 6 of the rack unit 1 is further provided with the positioning devices 7 of at least two material containers. The positioning device 7 can be a positioning pin, and an operation hole for replacing the material barrel unit 4 is formed in the material barrel supporting plate 6. Meanwhile, the upper end of the square pipe 10 is close to the position of the cylinder 8, and a material shortage alarm sensor 9 is further arranged.

In one embodiment, the pressing unit 2 is driven by the cylinder 8 to perform a pressing action, which includes: material pressure plate 17, pressure plate connecting rod 14 and cross beam 15.

Wherein, the material pressure plate 17 through the pressure plate connecting rod 14 with the crossbeam 15 is connected, the both ends of crossbeam 15 respectively with the cylinder 8 is connected. In addition, the material pressing unit 2 further includes: a seal ring supporting rod 13, a seal ring fixing plate 16 and a seal ring 18. The sealing ring 18 is fixed on the material pressure plate 17 through the sealing ring support rod 13 and the sealing ring fixing plate 16. The seal ring support rod 13 enables the seal ring 18 and the fixed part of the material pressure plate 17 not to move up and down along with the material pressure plate 17.

Further, the sealing ring 18 is connected with the material pressure plate 17 only in the diameter direction through the sealing ring fixing plate 16, the other part of the sealing ring 17 is not connected with the material pressure plate 17, the sealing ring 18 can move up and down along with the material pressure plate 17 only through the supporting rod of the sealing ring 17, the center of the material pressure plate 17 is provided with a hole, and no other equipment or parts are arranged on the material pressure plate 17. According to the arrangement, the connection mode that the traditional sealing ring 18 is required to be connected with the material pressure plate 17 is changed, the connection mode that the traditional material pressure plate 17 unit is provided with the exhaust valve and the inflation valve is also changed, the exhaust valve is not required to exhaust in the process that the material pressure plate 17 moves downwards to press materials, compressed air is not required to be filled into the material barrel 27 in the process that the material pressure plate 17 rises from the material barrel 27, the sealing ring 17 around the material pressure plate 17 is not connected with the material pressure plate 17, the sealing ring 17 bends downwards in the rising process of the material pressure plate 17, the sealing ring is not in close contact with or is in a leaving state with the periphery of the material barrel 27 basically, the friction force with the inner wall of the material barrel 27 is very small, and the material pressure plate 17 can be moved out from the barrel without filling compressed air into the barrel. Meanwhile, the sealing ring fixing plate 16 ensures that the sealing ring 17 has a larger stress point, the service life of the sealing ring 17 is prolonged, the supporting rod of the sealing ring 17 enables the folding angle of the sealing ring to be smaller, the sealing ring can better enter the material barrel 27 conveniently, the structure not only enables the material barrel 27 to be more conveniently replaced, but also can save compressed air and energy.

In one embodiment, the fluid suction unit 3 is communicated with the bottom of the material barrel unit 4 disposed on the material barrel supporting plate 6 of the frame unit 1, and includes: the quick-change connector comprises a quick-change connector upper part 21, a quick-change connector assembly 22, a feed inlet hose 29, a high-pressure pump 28, a speed reducer 23 and a motor 30.

One end of the feed inlet hose 29 is connected with the bottom of the material barrel unit 4 through a quick-change connector assembly 22 and a connecting cover 21, the other end of the feed inlet hose is connected with the high-pressure pump 28 to form a high-pressure pipe, a motor shaft of the motor 30 extends into an input hole of the speed reducer 23, and a pump shaft of the high-pressure pump 28 extends into an output hole of the speed reducer 23. Therefore, the input shaft and the output shaft of the speed reducer 23 are vertical, and the speed reducer has the advantages of simple structure and small occupied space. One end of the high-pressure pipe forms a material receiving opening 27, and the other end forms a high-pressure pipe outlet connector 24.

Further, a suction port of the high-pressure pump 28 can be vertically and upwards opposite to a hole below the material barrel supporting plate 6 in the material barrel unit 4, a suction port of the high-pressure pump 28 can also be horizontally arranged or obliquely and upwards arranged, the high-pressure pump 28 is connected with the hole below the material barrel 35 through the feed inlet hose 29, and the suction port of the high-pressure pump 28 is lower than an outlet at the bottom of the material barrel 35, so that the high-pressure pump 28 can more smoothly suck fluid from the material barrel 35.

In one embodiment of this embodiment, the fluid suction unit 3 is disposed below the material barrel support plate 6 of the rack unit 1, and one end of the fluid suction unit penetrates through a through hole formed in the material barrel support plate 6 and is connected to the material barrel unit 4 through a quick-change connector assembly 22 and a quick-change connector upper portion 21.

In addition, the high-pressure pipe is also provided with a high-pressure valve 26 and a pressure gauge 25. The electronic pressure gauge 25 can be an electric contact pressure gauge 25 or other pressure sensors, and the electronic pressure gauge 25 controls the system pressure and ensures that the system pressure is in a preset range, so that the system can work normally. The high pressure valve 26 is used to remove air from the pipe. Also can be used for color matching or material receiving ports.

In one embodiment of this embodiment, the quick-change coupler assembly 22 includes: quick-change connector upper portion 21, quick-change connector pagoda head 19, and sealing washer 20. The upper part 21 of the quick-change connector is connected with an interface at the bottom of a flexible package in the material barrel unit 4, the pagoda head 19 of the quick-change connector is connected with the feed inlet hose 29, and the other end of the feed inlet hose 29 is connected with the high-pressure pump 8 through the connector.

When the material barrel 35 is replaced each time, the upper part 21 of the quick change connector can be detached from the packaging bag in the material barrel 35 which has used up the materials or the material barrel 35, and then the quick change connector is arranged on the packaging bag in the new material barrel 35 or the material barrel 35. In addition, the upper part 21 of the quick-change connector is provided with a section of pipeline which extends into the pagoda head 19 of the quick-change connector when being butted with the pagoda head 19 of the quick-change connector, thereby being convenient for quick and accurate butting.

In one embodiment, the material bucket unit 4 includes: a semicircular pressing plate 31, a discharge hole 33, a material barrel 35 cover 39, a material barrel cover 34 and a soft packaging bag 32.

The discharge port 33 is arranged at the bottom of the material barrel 35, the material barrel 35 and the material barrel cover 34 are connected to the discharge port 33 in a screwing mode, the semicircular pressing plates are arranged at an opening in the upper portion of the material barrel 35 in a bilateral symmetry mode, straight edges of the two semicircular pressing plates 31 are connected in a butt joint mode, the flexible packaging bag 32 is arranged in the material barrel 35, the opening of the flexible packaging bag is connected with the discharge port 33, the parts, which are not in contact with the materials, of the flexible packaging bag are extruded together through the two semicircular pressing plates 31, the parts, which are not in contact with the materials, of the flexible packaging bag are arranged above the semicircular pressing plates 31, and the. In addition, the bottom of the soft packaging bag 32 is provided with a threaded hole, so that the upper part 21 of the quick-change connector can be connected with the soft packaging bag 32. Alternatively, the bottom of the flexible package 32 may be sealed by other means, instead of a screw seal.

The utility model discloses fluid filling machine works according to following mode: when the operation is performed for the first time, the air cylinder is lifted to the position; placing the material barrel into a position designated by a positioning pin of the material container; connecting a connector of the fluid suction unit with a discharge hole of the material barrel; pressing the material pressing disc to the material; and starting the motor of the high-pressure pump to automatically work. When the materials are used up, the material shortage alarm sensor can send out a signal to remind the user to replace the material container. And circulating according to the sequence of the first operation. In addition: when the air-cooled generator is started for the first time, an exhaust valve needs to be opened to exhaust air and be flat due to the fact that air exists in the pipeline; and closing the exhaust valve after the exhaust is finished.

To sum up, the utility model discloses fluid filling machine can realize that the fluid takes out from material bucket unit, is favorable to avoiding the inside fluid of material bucket unit to remain, reduces extravagantly. Meanwhile, as the material barrel unit is provided with the built-in flexible packaging bag, the materials are contained in the flexible packaging bag, and the fluid can not be exposed in the environment in the whole fluid extraction process, the overflow of harmful gases such as VOCS (volatile organic Compounds), and the like, can be avoided, and the environmental pollution can be better avoided.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A fluid dispenser, comprising: the device comprises a rack unit, a pressing unit, a fluid sucking unit and a material barrel unit;

the rack unit includes: the material barrel comprises a material barrel supporting plate, a cylinder, a square tube, a material receiving cup seat and a frame seat;

the material barrel supporting plate is arranged above the rack seat, the square tubes are vertically arranged on the material barrel supporting plate, the upper part of at least one square tube is provided with the air cylinder, and the material receiving cup seat is arranged on the rack seat;

the unit of pressing is pressed by the cylinder drive carries out the material action of pressing, and it includes: a material pressure plate, a pressure plate connecting rod and a cross beam;

the material pressure plate is connected with the cross beam through the pressure plate connecting rod, and two ends of the cross beam are respectively connected with the air cylinders;

inhale the fluid unit with set up in the bottom of material bucket unit on the material bucket layer board is linked together, it includes: the quick-change connector assembly comprises a connecting cover, a quick-change connector assembly, a feed inlet hose, a high-pressure pump, a high-pressure pipe, a speed reducer and a motor;

one end of the feed inlet hose is connected with the bottom of the material barrel unit through the quick-change connector assembly and the connecting cover, the other end of the feed inlet hose is connected to a high-pressure pipe through the high-pressure pump, a motor shaft of the motor extends into an input hole of the speed reducer, a pump shaft of the high-pressure pump extends into an output hole of the speed reducer, a material receiving opening is formed in one end of the high-pressure pipe, and a high-pressure pipe outlet connector is formed in the other end of the high-pressure pipe.

2. The fluid filling machine according to claim 1, wherein the material barrel supporting plate is further provided with at least two material container positioning pins, and the material barrel supporting plate is provided with an operation hole for replacing the material barrel unit.

3. The fluid filling machine according to claim 1, wherein a starved alarm sensor is further provided at a position where the upper end of the square tube is close to the cylinder.

4. The fluid filling machine of claim 1, wherein the pressing unit further comprises: the sealing ring supporting rod, the sealing ring fixing plate and the sealing ring are arranged on the sealing ring supporting rod;

the sealing ring is fixed on the material pressure plate, and the sealing ring support rod enables the sealing ring not to move up and down along with the material pressure plate with the fixed part of the material pressure plate.

5. The fluid filling machine according to claim 1, wherein the fluid suction unit is disposed below the material bucket tray.

6. The fluid filler of claim 1, wherein the quick-change coupler assembly comprises: the material bucket device comprises a quick-change connector upper portion, a quick-change connector pagoda head, a clamp and a sealing ring, wherein the clamp and the sealing ring are connected with the quick-change connector upper portion and the quick-change connector pagoda head, the quick-change connector upper portion is connected with an interface at the bottom of a flexible package in a material bucket unit, the quick-change connector pagoda head is connected with a feed port hose, and the other end of the feed port hose is connected with a high-pressure.

7. The fluid dispenser according to claim 1, wherein the high pressure pipe further comprises a high pressure valve and a pressure gauge.

8. The fluid filler of claim 1, wherein the material bucket unit comprises: a semicircular pressing plate, a discharge port, a material barrel cover, a material barrel and a soft packaging bag;

the discharge gate set up in material barrel head portion, the material bung connect soon on the discharge gate, semi-circular clamp plate bilateral symmetry set up in the upper portion opening part of material bucket, and the straight flange of two semi-circular clamp plates docks mutually, place in the flexible packaging bag in the material bucket, its bottom opening with the discharge gate is connected, two semi-circular clamp plates will flexible packaging bag does not contact the material part extrusion together, lets do not contact the material part in the top of semi-circular clamp plate, flat pressure below the semi-circular clamp plate on flexible packaging bag.

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