CN108622469B - Crawler-type ware of dosing of independent packing - Google Patents

Abstract

The invention relates to an independently packaged crawler-type drug delivery device, in particular to a crawler-type drug delivery device which can automatically carry out single-dose drug delivery by a person through simple operation when in use and is applicable to freeze-dried preparations and can be applied to the fields of medicines, biological products, daily chemical products, chemical industry, foods, health care foods, dressing and other products.

Description

Crawler-type ware of dosing of independent packing

Technical Field

The invention relates to an independently packaged crawler-type drug delivery device, in particular to a crawler-type drug delivery device which can automatically carry out single-dose drug delivery by a person through simple operation when in use and is applicable to freeze-dried preparations and can be applied to the fields of medicines, biological products, daily chemical products, chemical industry, foods, health care foods, dressing and other products.

Background

In products with higher water content such as conventional cosmetics, foods, medicines and the like sold in the market, a large amount of auxiliary materials such as an antiseptic system, additives and the like are generally added to ensure long-term effectiveness of the products. The product has low content of effective components, and is used for a long time to hurt human health.

The freeze-drying technique refers to a technique in which an active ingredient and a binder are added to a flowable liquid, semisolid or solid, or the flowable liquid, semisolid or solid itself contains a binder and a skeleton support agent, which is then poured into a molding die to be molded by a freeze-drying process, and a formulation prepared by the freeze-drying technique is referred to as a freeze-dried formulation.

The preparation adopts a freeze drying process, so that heat sensitive components can be protected from being damaged, a large number of micropores and pore channels are generated through water sublimation, the preparation has very fast disintegration and dissolution speed, and auxiliary materials such as a preservative system and additives are not required to be added, so that the content of effective components in the product is extremely high, and long-term effectiveness in the processes of storage, transportation, sales and use can be efficiently ensured.

The product is required to have the characteristics of good convenience, portability, quick response and the like in a wide application way. In order to solve the problems that the product can be operated by one hand and is easy to be polluted after being opened, the inventor innovates sharply, and provides a novel crawler-type drug feeder for vertical package of freeze-dried preparation, which can be operated by one hand, and can well isolate moisture and prevent pollution, thereby completing the invention.

Disclosure of Invention

An individually packaged tracked applicator comprising the following components:

the medicine belt 1, a gear set, a bellows device 3, a medicine outlet cabin 4, an ejection device 5 and a wrench 6.

The medicine feeder is characterized in that the medicine band 1 comprises a forming film 11, a sealing film 12, a preparation and a leading band 14; the drug tape 1 containing the preparation is such that the molding film 11 and the sealing film 12 are closely adhered to each other, and the lead tape 14 is a part of the drug tape 1 containing no preparation where the molding film 11 and the sealing film 12 are separated from each other.

The gear set comprises a medicine belt ratchet 21 and a sealing membrane wheel 22. Before use, the molding film 11 and the sealing film 12 of the leading tape 14 are respectively fixed on the medicine tape ratchet wheel 21 and the sealing film wheel 22 so as to ensure that the molding film 11 and the sealing film 12 of the medicine tape 1 can be linked together.

The bellows device 3 comprises a bellows body 31, an air plate 32, an air plate spring 33, an air outlet 34 and air plate pressing teeth 35; the medicine outlet cabin 4 comprises a cabin body 41, an air inlet hole 42, a medicine inlet hole 43 and a medicine outlet hole 44.

When in use, the wrench 6 is firstly lifted and pressed down, thereby driving the medicine belt ratchet 21 and the sealing film wheel 22 to start moving; the medicine band ratchet 21 rotates to move the medicine band 1, so that the formed film 11 and the sealing film 12 in the medicine band 1 can be separated, and the ejector 5 acts on the top of the bubble cap of the formed film 11 to deform the bubble cap; at this time, the blister opening of the forming film 11 is opposite to the medicine inlet hole 43 of the medicine outlet cabin 4, and the preparation falls into the cabin 41 under the action of the compression blister; simultaneously, the sealing membrane wheel 22 rotates to enable the air plate pressing teeth 35 to drive the air plate 32 to rotate along the axis of the air plate, and the air plate 32 enables the air plate spring 33 to compress; when the air plate pressing teeth 35 run to a certain angle, the air plate 32 is rebounded, compressed air enters the box body 31, and air is pressed into the box body 31 through the air outlet holes 34 and the air inlet holes 42, and the preparation is blown out of the device through the medicine outlet holes 44 by utilizing the air flow effect for use; after the movement is completed, the forming film 11 and the sealing film 12 of the leading tape 14 are respectively rolled into the cavity of the device; thereby repeatedly lifting and pressing the wrench 6 for use.

The material of the molding film 11 and the sealing film 12 may be one or more selected from aluminum, other metals, aluminum-plastic composite films, plastics, composite plastic films, paper plastics, paper aluminum plastics, synthetic paper, rubber, silica gel, latex, and other polymer materials; and the molding film 11 and the sealing film 12 may be sealed and separated by an external force; the sealing mode can be one or a combination of a plurality of modes selected from the modes of hot-press sealing, ultrasonic wave, electromagnetic induction, high frequency, gluing and the like.

The gear set, the bellows device 3, the medicine outlet cabin 4, the ejection device 5 and the wrench 6 can be made of one or more materials selected from plastics, metals, rubber, silica gel, latex, other high polymer materials, wood, ceramics, glass, paper and synthetic paper, and meet the requirements of corresponding components on the materials.

The preparation can be one or more of dry powder preparation, granule, capsule, soft capsule, microcapsule, pill, tablet and freeze-dried preparation.

The preparation is preferably a freeze-dried preparation, and the form of the preparation can be one or a combination of a plurality of powder, granules, tablets and any three-dimensional preparation.

The application field can be selected from one or more of medicine, biological product, daily chemical product, chemical industry, food, health food and dressing.

Drawings

Figures 1-5 are exploded views of the components of a tracked applicator.

Detailed Description

The present invention is further illustrated by the following examples, but the present invention is not limited thereto.

Example 1

The molding film 11 and the sealing film 12 are heat sealed by adopting an aluminum plastic composite film material, and are filled with 50 mg/grain of skin care product freeze-dried balls with the diameter of 5 mm. The gear set, the bellows device 3, the medicine outlet cabin 4, the ejection device 5 and the wrench 6 are made of hard PP plastic.

When in use, the wrench 6 is firstly lifted and pressed down, thereby driving the medicine belt ratchet 21 and the sealing film wheel 22 to start moving; the medicine band ratchet 21 rotates to move the medicine band 1, so that the formed film 11 and the sealing film 12 in the medicine band 1 can be separated, and the ejector 5 acts on the top of the bubble cap of the formed film 11 to deform the bubble cap; at this time, the blister opening of the forming film 11 is opposite to the medicine inlet hole 43 of the medicine outlet cabin 4, and the preparation falls into the cabin 41 under the action of the compression blister; simultaneously, the sealing membrane wheel 22 rotates to enable the air plate pressing teeth 35 to drive the air plate 32 to rotate along the axis of the air plate, and the air plate 32 enables the air plate spring 33 to compress; when the air plate pressing teeth 35 run to a certain angle, the air plate 32 is rebounded, compressed air enters the box body 31, air is pressed into the box body 31 through the air outlet holes 34 and the air inlet holes 42, and the preparation is blown out of the device through the medicine outlet holes 44 under the action of air flow.

The blown preparation can be dissolved in several drops of purified water for use in skin care products.

After the use is completed, the forming film 11 and the sealing film 12 of the leading tape 14 are respectively rolled into the cavity of the device; thereby repeatedly lifting and pressing the wrench 6 for use.

Example 2

The shaping film 11 and the sealing film 12 are made of paper aluminum plastic composite film material for ultrasonic sealing, and are filled with external medicine powder. The gear set, the bellows device 3, the medicine outlet cabin 4 and the ejection device 5 are made of hard PE plastic, and the wrench 6 is made of stainless steel.

When in use, the wrench 6 is firstly lifted and pressed down, thereby driving the medicine belt ratchet 21 and the sealing film wheel 22 to start moving; the medicine band ratchet 21 rotates to move the medicine band 1, so that the formed film 11 and the sealing film 12 in the medicine band 1 can be separated, and the ejector 5 acts on the top of the bubble cap of the formed film 11 to deform the bubble cap; at this time, the blister opening of the forming film 11 is opposite to the medicine inlet hole 43 of the medicine outlet cabin 4, and the preparation falls into the cabin 41 under the action of the compression blister; simultaneously, the sealing membrane wheel 22 rotates to enable the air plate pressing teeth 35 to drive the air plate 32 to rotate along the axis of the air plate, and the air plate 32 enables the air plate spring 33 to compress; when the air plate pressing teeth 35 run to a certain angle, the air plate 32 is rebounded, compressed air enters the box body 31, air is pressed into the box body 31 through the air outlet holes 34 and the air inlet holes 42, and the preparation is blown out of the device through the medicine outlet holes 44 under the action of air flow.

The blown preparation is dissolved in purified water or other corresponding medicinal liquid, and applied to affected part for topical application.

After the use is completed, the forming film 11 and the sealing film 12 of the leading tape 14 are respectively rolled into the cavity of the device; thereby repeatedly lifting and pressing the wrench 6 for use.

Example 3

The forming film 11 and the sealing film 12 are bonded by adopting a paper-plastic composite film material, and probiotic freeze-dried powder is filled in the forming film.

The gear set and the bellows device 3 are made of hard PVC plastic, and the medicine outlet cabin 4, the ejection device 5 and the wrench 6 are made of aluminum metal.

When in use, the wrench 6 is firstly lifted and pressed down, thereby driving the medicine belt ratchet 21 and the sealing film wheel 22 to start moving; the medicine band ratchet 21 rotates to move the medicine band 1, so that the formed film 11 and the sealing film 12 in the medicine band 1 can be separated, and the ejector 5 acts on the top of the bubble cap of the formed film 11 to deform the bubble cap; at this time, the blister opening of the forming film 11 is opposite to the medicine inlet hole 43 of the medicine outlet cabin 4, and the preparation falls into the cabin 41 under the action of the compression blister; simultaneously, the sealing membrane wheel 22 rotates to enable the air plate pressing teeth 35 to drive the air plate 32 to rotate along the axis of the air plate, and the air plate 32 enables the air plate spring 33 to compress; when the air plate pressing teeth 35 run to a certain angle, the air plate 32 is rebounded, compressed air enters the box body 31, air is pressed into the box body 31 through the air outlet holes 34 and the air inlet holes 42, and the preparation is blown out of the device through the medicine outlet holes 44 under the action of air flow.

The blown preparation can be directly taken orally and used for conditioning health food products for oral administration.

After the use is completed, the forming film 11 and the sealing film 12 of the leading tape 14 are respectively rolled into the cavity of the device; thereby repeatedly lifting and pressing the wrench 6 for use.

The packaging structure of the present invention is not limited to the forms exemplified in the examples, which are only preferred embodiments of the present invention, and the scope of protection is not limited thereto. All simple or equivalent changes and modifications as described in the claims of the present invention fall within the scope of the present invention.

Claims (5)

1. An individually packaged tracked applicator comprising the following components: the medicine taking device comprises a medicine belt (1), a gear set, a bellows device (3), a medicine outlet cabin (4), an ejection device (5) and a wrench (6);

the medicine band (1) comprises a molding film (11), a sealing film (12), a preparation and a leading band (14); the medicine band (1) containing the preparation is that the molding film (11) and the sealing film (12) are tightly adhered to each other, and the guiding band (14) is a part of the medicine band (1) which does not contain the preparation and is that the molding film (11) and the sealing film (12) are separated from each other;

the gear set comprises a medicine belt ratchet wheel (21) and a sealing film wheel (22); before use, the forming film (11) and the sealing film (12) of the leading belt (14) are respectively fixed on the medicine belt ratchet wheel (21) and the sealing film wheel (22) so as to ensure that the forming film (11) and the sealing film (12) of the medicine belt (1) can be linked with each other;

the air box device (3) comprises a box body (31), an air plate (32), an air plate spring (33), an air outlet hole (34) and air plate tooth pressing (35); the medicine outlet cabin (4) comprises a cabin body (41), an air inlet hole (42), a medicine inlet hole (43) and a medicine outlet hole (44);

when in use, firstly, the spanner (6) is lifted and pressed down, thereby driving the medicine belt ratchet wheel (21) and the sealing film wheel (22) to start moving; then the medicine band ratchet wheel (21) rotates to enable the medicine band (1) to move, so that the formed film (11) in the medicine band (1) and the sealing film (12) can be separated, and the ejection device (5) acts on the top of a bubble cap of the formed film (11) to deform the bubble cap; at the moment, the blister opening of the forming film (11) is opposite to the medicine inlet hole (43) of the medicine outlet cabin (4), and the preparation falls into the cabin body (41) under the action of the compression blister; simultaneously, the sealing membrane wheel (22) rotates to enable the air plate pressing teeth (35) to drive the air plate (32) to rotate along the axis of the air plate, and the air plate (32) enables the air plate spring (33) to compress; when the air plate pressing teeth (35) run to a certain angle, the air plate (32) can rebound, compressed air enters the box body (31), and air is pressed into the box body (31) through the air outlet holes (34) and the air inlet holes (42), and the preparation is blown out of the device through the medicine outlet holes (44) by utilizing the air flow effect for use; after the movement is completed, the forming film (11) and the sealing film (12) of the leading tape (14) are respectively rolled into the cavity of the device; thereby repeatedly lifting and pressing the wrench (6) for use.

2. The drug delivery device according to claim 1, wherein the material of the molding film (11) and the sealing film (12) is selected from one or more of aluminum, aluminum-plastic composite film, plastic, synthetic paper, rubber, silica gel, latex; the molding film (11) and the sealing film (12) can be sealed and separated by external force; the sealing mode is one or a combination of a plurality of hot pressing sealing modes, ultrasonic waves, electromagnetic induction modes, high frequency modes and gluing modes.

3. The drug feeder according to claim 1, wherein the gear set, the bellows device (3), the drug outlet cabin (4), the ejection device (5) and the wrench (6) are made of one or more materials selected from plastics, metals, rubber, silica gel, latex, wood, ceramics, glass and paper, and meet the requirements of corresponding components on materials.

4. The dispenser of claim 1, wherein the formulation is selected from one or more of a capsule, a lyophilized formulation.

5. The dispenser of claim 1, wherein the formulation is a lyophilized formulation in the form of one or more of a powder, a granule, a tablet.