CN217627562U - A filling module and liquid filling machine for blood peptide oral liquid - Google Patents

Abstract

The utility model discloses a filling module and liquid filling machine for blood peptide oral liquid belongs to the filling equipment field. The filling module comprises a base, a rotating frame, a spray irrigation assembly and a leakage receiving device; the rotating frame is rotatably connected with the base; the sprinkling irrigation assembly is connected with the rotating frame and is far away from the base; the leakage receiving device is connected with the base; the rotating frame is configured to drive the sprinkling irrigation assembly to rotate relative to the base, so that the sprinkling irrigation assembly is located at the working position and the idle position of the base, and when the sprinkling irrigation assembly is located at the idle position, the sprinkling irrigation assembly is opposite to the interface of the leakage receiving appliance. The liquid medicine bottle can avoid pollution caused by residual liquid medicine.

Description

A filling module and liquid filling machine for blood peptide oral liquid

Technical Field

The disclosure belongs to the field of filling equipment, and particularly relates to a filling module and a filling machine for a blood peptide oral liquid.

Background

The filling machine is a mechanical device for filling liquid, and is usually applied to the filling process of the blood peptide oral liquid in the manufacturing process of the blood peptide oral liquid.

In the related art, a filling module is a key component of a filling machine, and mainly comprises a base, a rotating frame and a sprinkling irrigation assembly. The sprinkling irrigation subassembly passes through the rotating turret and links to each other with the base, can realize the drive to the sprinkling irrigation subassembly through the rotating turret for the sprinkling irrigation subassembly removes for the base. In the filling process, the rotating frame drives the sprinkling irrigation assembly to the working position so as to fill the liquid medicine into the medicine bottle. When the sprinkler is idle, the rotating frame drives the sprinkling irrigation assembly to the idle position to wait for the next filling process.

However, after the rotating frame drives the sprinkling irrigation assembly to the idle position, the residual liquid medicine on the sprinkling irrigation assembly can drip onto other parts to cause pollution.

SUMMERY OF THE UTILITY MODEL

The embodiment of the disclosure provides a filling module and a filling machine for a blood peptide oral liquid, which can avoid pollution caused by residual liquid medicine. The technical scheme is as follows:

in one aspect, the disclosed embodiments provide a filling module for a blood peptide oral liquid, including a base, a rotating frame, a spray irrigation assembly and a leakage receiving device;

the rotating frame is rotatably connected with the base;

the sprinkling irrigation assembly is connected with the rotating frame and is far away from the base;

the leakage receiving device is connected with the base;

the rotating frame is configured to drive the sprinkling irrigation assembly to rotate relative to the base, so that the sprinkling irrigation assembly is located at the working position and the idle position of the base, and when the sprinkling irrigation assembly is located at the idle position, the sprinkling irrigation assembly is opposite to the interface of the leakage receiving appliance.

In one implementation of this embodiment, the base has a through hole;

the leakage receiving appliance comprises a bracket and a leakage receiving barrel;

the bracket is positioned at the through hole and connected with the base;

the leakage receiving cylinder is connected with the support, two ends of the leakage receiving cylinder are respectively located on two opposite sides of the base, one end of the leakage receiving cylinder is a connector, and the other end of the leakage receiving cylinder is closed.

In one implementation manner of this embodiment, the leakage receiving barrel comprises a barrel body and a bottom cover;

the outer side wall of the cylinder is connected with the bracket;

the bottom cover is detachably connected with one end, deviating from the sprinkling irrigation assembly, of the barrel in a sealing mode, and the orthographic projection of the bottom cover on the base is located in the through hole.

In one implementation of this embodiment, the bottom cover includes a bottom plate, an outer ring, and an inner ring;

one end of the outer ring is connected with one surface of the bottom plate;

the inner ring is positioned in the outer ring and is coaxially arranged with the outer ring, and one end of the inner ring is connected with one surface of the bottom plate;

the barrel is inserted between the outer ring and the inner ring, the outer side wall of the barrel is attached to the inner side wall of the outer ring, and the inner side wall of the barrel is in threaded fit with the outer side wall of the inner ring.

In an implementation manner of this embodiment, the bottom cover further includes a sealing ring;

the sealing ring is located between the outer ring and the inner ring and connected with the bottom plate, and the sealing ring is clamped between the bottom plate and the end part of the barrel.

In one implementation of this embodiment, the outer side wall of the outer ring is flush with the outer edge of the base plate.

In one implementation manner of this embodiment, the bottom cover further includes a water absorption pad;

the water absorption pad is positioned in the inner ring and is attached to the bottom plate.

In one implementation of this embodiment, the support includes a plurality of arms;

a plurality of the support arm is followed the circumference of through-hole is arranged, and is a plurality of the one end of support arm with the base links to each other, and is a plurality of the other end of support arm with it links to each other to connect to leak a section of thick bamboo.

In one implementation manner of this embodiment, the rotating frame includes a frame body and a motor;

the frame body is rotatably connected with the base;

the motor with the support body is located respectively the opposite both sides of base, just the shell of motor with the base links to each other, the output shaft of motor with the support body links to each other.

In another aspect, the present disclosure provides a filling machine for a serum peptide oral liquid, including the filling module described above.

The beneficial effect that technical scheme that this disclosure embodiment provided brought includes at least:

because the sprinkling irrigation subassembly passes through the rotating turret and links to each other with the base, the sprinkling irrigation subassembly can pass through the rotating turret, realizes the rotation for the base. In the filling process, the rotating frame drives the sprinkling irrigation assembly to the working position so as to fill the liquid medicine into the medicine bottle. When the sprinkler is idle, the rotating frame drives the sprinkling irrigation assembly to the idle position to wait for the next filling process. Because when the sprinkling irrigation subassembly was located idle position, the sprinkling irrigation subassembly was relative with the interface that connects the hourglass utensil, so remaining liquid medicine can drip to in the interface that connects the hourglass utensil on the sprinkling irrigation subassembly to the holding has avoided remaining liquid medicine to drip to cause the pollution on other parts in connecing the hourglass utensil.

In other words, the residual liquid medicine is collected by the leakage receiving device, so that the residual liquid medicine is prevented from polluting other parts.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is apparent that the drawings in the description below are only some embodiments of the present disclosure, and it is obvious for those skilled in the art that other drawings may be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a filling module provided in an embodiment of the present disclosure;

FIG. 2 is a schematic illustration of the position of a sprinkler assembly provided by embodiments of the present disclosure;

FIG. 3 is a schematic illustration of the position of a sprinkler assembly provided by embodiments of the present disclosure;

FIG. 4 is a schematic structural view of a leak detector provided in an embodiment of the disclosure;

fig. 5 isbase:Sub>A sectional view taken along the linebase:Sub>A-base:Sub>A of fig. 4 in accordance with an embodiment of the present disclosure.

The symbols in the drawings represent the following meanings:

10. a base;

110. a through hole;

20. a rotating frame;

210. a frame body; 220. a motor;

30. a spray irrigation assembly;

40. a leakage receiving device;

410. an interface; 420. a support; 421. a support arm; 430. a leakage receiving cylinder; 431. a cylinder body; 432. a bottom cover; 433. a base plate; 434. an outer ring; 435. an inner ring; 436. a seal ring; 437. an absorbent pad.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.

The filling machine is a mechanical device for filling liquid, and is usually applied to the filling process of the blood peptide oral liquid in the manufacturing process of the blood peptide oral liquid.

In the related art, a filling module is a key component of a filling machine, and mainly comprises a base, a rotating frame and a sprinkling irrigation assembly. The sprinkling irrigation subassembly passes through the rotating turret and links to each other with the base, can realize the drive to the sprinkling irrigation subassembly through the rotating turret for the sprinkling irrigation subassembly removes for the base. In the filling process, the rotating frame drives the sprinkling irrigation assembly to the working position so as to fill the liquid medicine into the medicine bottle. When the spray irrigation device is idle, the rotating frame drives the spray irrigation assembly to an idle position to wait for the next filling process.

However, after the rotating frame drives the spray irrigation assembly to the idle position, the residual liquid medicine on the spray irrigation assembly may drop onto other components to cause pollution.

In order to solve the technical problem, the present disclosure provides a filling module for a serum peptide oral liquid, fig. 1 is a schematic structural view of the filling module, referring to fig. 1, and in this embodiment, the filling module includes a base 10, a rotating frame 20, a sprinkling irrigation assembly 30 and a leakage receiving device 40.

The turret 20 is pivotally connected to the base 10, the sprinkler assembly 30 is connected to the turret 20 remote from the base 10, and the leak receiver 40 is connected to the base 10. The turret 20 is configured to drive the sprinkler assembly 30 to rotate relative to the base 10 such that the sprinkler assembly 30 is positioned in the operating position and the rest position of the base 10, the sprinkler assembly 30 being positioned opposite the interface 410 of the leak detector 40 when the sprinkler assembly 30 is in the rest position.

Since the sprinkler assembly 30 is connected to the base 10 by the turret 20, the sprinkler assembly 30 is able to rotate relative to the base 10 by the turret 20.

Fig. 2 and 3 are schematic views of the position of the sprinkler 30, with the sprinkler 30 in fig. 2 in a fill position and the sprinkler 30 in fig. 3 in a rest position. Referring to fig. 2 and 3, in the filling process, the turret 20 drives the spray irrigation assembly 30 to the operating position to enable filling of the liquid medicine into the medicine bottle. At rest, the turret 20 drives the sprinkler assembly 30 to a rest position to await the next filling process. Because when the spray irrigation assembly 30 is in the idle position, the spray irrigation assembly 30 is opposite to the interface 410 of the leakage receiver 40, the residual liquid medicine on the spray irrigation assembly 30 can drip into the interface 410 of the leakage receiver 40, so that the residual liquid medicine is accommodated in the leakage receiver 40, and the residual liquid medicine is prevented from dripping onto other components to cause pollution.

That is, the residual liquid chemical is collected by the leak detector 40, and the residual liquid chemical is prevented from contaminating other parts.

As can be seen from the foregoing, the leakage receiving device 40 plays a key role in preventing residual droplets from falling onto other components and causing pollution, and the leakage receiving device 40 is described below.

Fig. 4 is a schematic structural diagram of the leakage protector 40, and in order to show the connection relationship between the leakage protector 40 and the base 10, a part of the base 10 is also shown in fig. 4, and in combination with fig. 4, in the present embodiment, the base 10 has a through hole 110. The leakage receiving device 40 includes a bracket 420 and a leakage receiving cylinder 430, the bracket 420 is located at the through hole 110 and connected to the base 10, the leakage receiving cylinder 430 is connected to the bracket 420, two ends of the leakage receiving cylinder 430 are respectively located at two opposite sides of the base 10, one end of the leakage receiving cylinder 430 is a connector 410, and the other end of the leakage receiving cylinder 430 is sealed.

In the above implementation, the bracket 420 provides a mounting base for the leak receiving cylinder 430, so that the leak receiving cylinder 430 can be stably mounted on the base 10. The leakage receiving tube 430 is a cylindrical container, one end of the leakage receiving tube 430 is a connector 410, which is opposite to the sprinkling irrigation assembly 30 located at the idle position and can receive residual liquid medicine dripped from the sprinkling irrigation assembly 30, and the other end of the leakage receiving tube 430 is closed. Because the leakage receiving cylinder 430 is inserted into the through hole 110, and two ends of the leakage receiving cylinder 430 are respectively located at two opposite sides of the base 10, the space can be fully utilized, and the leakage receiving cylinder 430 and the spray irrigation assembly 30 are completely located at the same side of the base 10, so that excessive space is occupied.

With continued reference to fig. 4, in the present embodiment, the leakage receiving cylinder 430 includes a cylinder body 431 and a bottom cover 432, the outer side wall of the cylinder body 431 is connected to the bracket 420, the bottom cover 432 is detachably and hermetically connected to an end of the cylinder body 431 facing away from the spray irrigation assembly 30, and an orthographic projection of the bottom cover 432 on the base 10 is located in the through hole 110.

In the above embodiment, the cylindrical body 431 is a cylindrical member with both ends open, one end of the cylindrical body 431 is open as the interface 410 of the leak receiving cylinder 430, and the other end opening of the cylindrical body 431 is closed by the bottom cover 432. When the filling module works normally, the bottom cover 432 and the cylinder 431 are connected together in a sealing manner, so that the dripping liquid medicine can be received. After the filling module works for a period of time, the bottom cover 432 can be detached from the cylinder 431, so that the liquid medicine on the bottom cover 432 is cleaned, and the long-term accumulation of the liquid medicine in the leakage receiving cylinder 430 is avoided. Further, since the orthogonal projection of bottom cover 432 on base 10 is positioned inside through hole 110, the space of through hole 110 can be utilized, and bottom cover 432 can be easily attached to and detached from cylindrical body 431.

Fig. 5 isbase:Sub>A sectional view taken alongbase:Sub>A-base:Sub>A of fig. 4, and in conjunction with fig. 5, in this embodiment,base:Sub>A bottom cover 432 includesbase:Sub>A bottom plate 433, an outer ring 434, and an inner ring 435. One end of the outer ring 434 is connected to a face of the base plate 433, the inner ring 435 is positioned inside the outer ring 434 and is coaxially arranged with the outer ring 434, and one end of the inner ring 435 is connected to a face of the base plate 433. The cylinder 431 is inserted between the outer ring 434 and the inner ring 435, the outer side wall of the cylinder 431 is attached to the inner side wall of the outer ring 434, and the inner side wall of the cylinder 431 is in threaded fit with the outer side wall of the inner ring 435.

In the above implementation, the bottom plate 433 provides a mounting base for the outer ring 434 and the inner ring 435. The detachable mounting between the bottom cover 432 and the cylinder 431 is achieved by the inner ring 435. And, the inner ring 435 is connected with the bottom cover 432, and a space capable of containing the liquid medicine is formed between the inner ring 435 and the bottom cover 432. When the liquid medicine drops from the mouthpiece 410 into the cylinder 431, the liquid medicine can be accommodated in the space. Thus, after the bottom cover 432 is detached from the barrel 431, the liquid medicine is still contained in the bottom cover 432 and is not splashed out. The fixing stability between the bottom cover 432 and the barrel 431 is reinforced by the outer ring 434, so that the barrel 431 can be stably clamped between the outer ring 434 and the inner ring 435.

Illustratively, the bottom plate 433, the outer ring 434 and the inner ring 435 are an integrated structural member, which not only ensures structural stability of the bottom cover 432, but also improves manufacturing efficiency of the bottom cover 432.

In this embodiment, the bottom cover 432 further includes a water absorption pad 437, and the water absorption pad 437 is disposed in the inner ring 435 and attached to the bottom plate 433.

The water absorption pad 437 is arranged in the inner ring 435, and the water absorption pad 437 can absorb the liquid medicine dripped into the leakage receiving cylinder 430, so that the liquid medicine is prevented from splashing out of the leakage receiving cylinder 430.

Illustratively, the absorbent pad 437 is a sponge pad, so that the liquid medicine dripping into the leakage receiving cylinder 430 can be effectively absorbed by the material characteristics of the sponge.

Illustratively, the absorbent pad 437 is layered on the bottom plate 433. So design, the water absorption pad 437 and the bottom plate 433 are not fixed connection between, can be convenient for change the water absorption pad 437 as required. In other embodiments, the absorbent pad 437 and the bottom panel 433 are bonded together by an adhesive. By adopting the design, the absorbent pad 437 is prevented from being lost when the bottom cover 432 is cleaned.

Illustratively, the outer edge of the absorbent pad 437 contacts the inner sidewall of the inner ring 435, thereby securing the area of the absorbent pad 437 to better absorb the liquid medicine dripping into the leak receiver 430.

In this embodiment, the outer side wall of the outer ring 434 is flush with the outer edge of the base plate 433. By the design, the outer ring 434 is prevented from protruding out of the bottom plate 433, or the bottom plate 433 is prevented from protruding out of the outer ring 434, so that interference is generated between the outer ring 434 or the bottom plate 433 and other parts of the filling machine.

Illustratively, the end of the outer ring 434 distal from the base plate 433 is the same length from the base plate 433 as the end of the inner ring 435 distal from the base plate 433. The design is such that the outer ring 434 and the inner ring 435 can better clamp the cylinder 431.

In this embodiment, the bottom cover 432 further includes a gasket 436, the gasket 436 is disposed between the outer ring 434 and the inner ring 435 and connected to the bottom plate 433, and the gasket 436 is sandwiched between the bottom plate 433 and the end of the cylinder 431.

By interposing the gasket 436 between the bottom plate 433 and the cylindrical body 431, the bottom cover 432 and the cylindrical body 431 can be effectively sealed. Furthermore, due to the threaded fit between the inner ring 435 and the cylinder 431, after the inner ring 435 and the cylinder 431 are screwed into place, the bottom plate 433 can always apply a force to the gasket 436 in the axial direction of the cylinder 431, thereby pressing the gasket 436 against the end of the cylinder 431.

Illustratively, the cylinder 431, inner ring 435, outer ring 434, and seal 436 are coaxially arranged.

Illustratively, one surface of the bottom plate 433 is provided with a sealing groove, and a part of the sealing ring 436 is located in the sealing groove, so as to provide a receiving space for the sealing groove.

Referring to fig. 4 again, in the present embodiment, the support frame 420 includes a plurality of support arms 421, the plurality of support arms 421 are arranged along the circumferential direction of the through hole 110, one end of the plurality of support arms 421 is connected to the base 10, and the other end of the plurality of support arms 421 is connected to the leak receiving cylinder 430.

In the above implementation manner, the leakage receiving cylinder 430 is supported by a plurality of support arms 421, so that the connection firmness between the leakage receiving cylinder 430 and the base 10 can be effectively improved, and the reliability of the filling module is improved.

Illustratively, the support arms 421 are bolted or welded to the base 10 and the support arms 421 are welded to the leak detecting cylinder 430. If the support arms 421 are bolted to the leak receiving canister 430, corresponding lugs are provided on the outer side wall of the canister 431 to provide a mounting base for the bolts.

Referring again to fig. 1, in the present embodiment, the turret 20 includes a frame body 210 and a motor 220. The holder body 210 is rotatably connected to the base 10, the motor 220 and the holder body 210 are respectively located at opposite sides of the base 10, a housing of the motor 220 is connected to the base 10, and an output shaft of the motor 220 is connected to the holder body 210.

In the above-mentioned implementation, support body 210 provides the installation basis for sprinkling irrigation subassembly 30, and support body 210 links to each other with the output shaft of motor 220 for motor 220 can drive support body 210 and rotate, thereby drives sprinkling irrigation subassembly 30 and removes between operating position and idle position.

The disclosed embodiments provide a filling machine for a serum peptide oral liquid, which includes a filling module shown in fig. 1-5.

Since the filling machine comprises the filling module shown in fig. 1-5, the filling machine has all the advantages of the filling module shown in fig. 1-5, and the details are not repeated herein.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of "first," "second," "third," and similar terms in the description and claims of the present disclosure are not intended to indicate any order, quantity, or importance, but rather are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprising" or "comprises", and the like, means that the element or item appearing in front of the word "comprising" or "comprises" includes the element or item listed after the word "comprising" or "comprises" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used only to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

The above description is intended to be exemplary only and not to limit the present disclosure, and any modification, equivalent replacement, or improvement made without departing from the spirit and scope of the present disclosure is to be considered as the same as the present disclosure.

Claims (10)

1. A filling module for a blood peptide oral liquid is characterized by comprising a base (10), a rotating frame (20), a spray irrigation component (30) and a leakage receiving device (40);

the rotating frame (20) is rotatably connected with the base (10);

the sprinkling irrigation assembly (30) is connected with the rotating frame (20) and is far away from the base (10);

the leakage receiving device (40) is connected with the base (10);

the rotating frame (20) is configured to drive the sprinkling irrigation assembly (30) to rotate relative to the base (10), so that the sprinkling irrigation assembly (30) is located at the working position and the idle position of the base (10), and when the sprinkling irrigation assembly (30) is located at the idle position, the sprinkling irrigation assembly (30) is opposite to the interface (410) of the leakage receiving appliance (40).

2. The filling module according to claim 1, wherein the base (10) has a through hole (110);

the leakage receiving appliance (40) comprises a bracket (420) and a leakage receiving cylinder (430);

the bracket (420) is positioned at the through hole (110) and is connected with the base (10);

the leakage receiving cylinder (430) is connected with the support (420), two ends of the leakage receiving cylinder (430) are respectively located on two opposite sides of the base (10), one end of the leakage receiving cylinder (430) is provided with an interface (410), and the other end of the leakage receiving cylinder (430) is sealed.

3. The filling module according to claim 2, wherein the funnel (430) comprises a barrel (431) and a bottom cover (432);

the outer side wall of the barrel body (431) is connected with the bracket (420);

the bottom cover (432) is detachably connected with one end of the barrel body (431) which is far away from the sprinkling irrigation assembly (30) in a sealing mode, and the orthographic projection of the bottom cover (432) on the base (10) is located in the through hole (110).

4. A filling module according to claim 3, wherein the bottom cover (432) comprises a bottom plate (433), an outer ring (434) and an inner ring (435);

one end of the outer ring (434) is connected with one surface of the bottom plate (433);

the inner ring (435) is positioned in the outer ring (434) and is coaxially arranged with the outer ring (434), and one end of the inner ring (435) is connected with one surface of the bottom plate (433);

the cylinder (431) is inserted between the outer ring (434) and the inner ring (435), the outer side wall of the cylinder (431) is attached to the inner side wall of the outer ring (434), and the inner side wall of the cylinder (431) is in threaded fit with the outer side wall of the inner ring (435).

5. The filling module according to claim 4, wherein the bottom cover (432) further comprises a gasket (436);

the sealing ring (436) is located between the outer ring (434) and the inner ring (435) and connected with the bottom plate (433), and the sealing ring (436) is clamped between the bottom plate (433) and the end part of the cylinder body (431).

6. The filling module according to claim 4, wherein the outer side wall of the outer ring (434) is flush with the outer edge of the bottom plate (433).

7. The filling module according to claim 4, wherein the bottom cover (432) further comprises a wicking pad (437);

the water absorption pad (437) is positioned in the inner ring (435) and is attached to the bottom plate (433).

8. A filling module according to claim 2, wherein the support (420) comprises a plurality of arms (421);

the support arms (421) are arranged along the circumferential direction of the through hole (110), one ends of the support arms (421) are connected with the base (10), and the other ends of the support arms (421) are connected with the leakage receiving cylinder (430).

9. A filling module according to any one of claims 1-8, wherein the turret (20) comprises a frame (210) and a motor (220);

the frame body (210) is rotatably connected with the base (10);

the motor (220) and the frame body (210) are respectively located on two opposite sides of the base (10), the shell of the motor (220) is connected with the base (10), and the output shaft of the motor (220) is connected with the frame body (210).

10. A filling machine for a serum peptide oral liquid, characterized in that it comprises a filling module according to any one of claims 1 to 9.

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