CN219001539U - Atomizing device for soft capsule liquid medicine - Google Patents

Abstract

The utility model discloses an atomization device for soft capsule liquid medicine, which comprises an atomization assembly and a battery assembly; the atomizing assembly comprises a base, a piercing mechanism and an atomizing mechanism; a puncture cavity and an atomization cavity are arranged in the base, and a connecting channel is arranged between the puncture cavity and the atomization cavity; the puncturing mechanism is used for puncturing the soft capsule in the puncturing cavity; the atomizing mechanism is used for heating and atomizing atomized liquid medicine flowing into the atomizing cavity, and a first connecting electrode electrically connected with the atomizing mechanism is arranged at the bottom of the base; the battery assembly comprises a battery bin and a battery arranged in the battery bin, the battery bin is detachably connected to the lower side of the base, a second connecting electrode electrically connected with the battery is arranged at the top of the battery bin, the first connecting electrode is electrically contacted with the second connecting electrode, and a control switch for controlling the on-off of the second connecting electrode and the battery is arranged outside the battery bin. The utility model solves the problems that the soft capsule liquid medicine is inconvenient to add and the liquid medicine is easy to cause the loss of the liquid medicine when the soft capsule liquid medicine is added in the prior art.

Description

Atomizing device for soft capsule liquid medicine

Technical Field

The utility model relates to the technical field of atomization administration, in particular to an atomization device for soft capsule liquid medicine.

Background

Nebulization is a common administration method, and when nebulization is performed, nebulization of the nebulized liquid medicine is required by an nebulizing device, and the nebulized pharmaceutical preparation is inhaled by a patient through an mouth or a nose and is delivered to the respiratory tract of the patient.

At present, the atomizing drug delivery device on the market adopts a heating mode to atomize the liquid medicine, and the atomized liquid medicine on the market is a soft capsule, such as an EGCG soft capsule, when the liquid medicine is heated and atomized, the soft capsule needs to be opened in a puncturing, cutting or tearing mode, and then the liquid medicine in the soft capsule is added into an atomizing cavity, so that the operation is troublesome, and the liquid medicine loss is easy to cause.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides an atomization device for soft capsule liquid medicine, which aims to solve the problems that the soft capsule liquid medicine is inconvenient to add and the liquid medicine is easy to cause liquid medicine loss when the soft capsule liquid medicine is added in the prior art.

The utility model provides an atomization device for soft capsule liquid medicine,

comprises an atomization assembly and a battery assembly;

the atomizing assembly comprises a base, a piercing mechanism and an atomizing mechanism; the base is internally provided with a puncture cavity and an atomization cavity for accommodating the soft capsule, and a connecting channel which is inclined downwards from the puncture cavity to the atomization cavity is arranged between the puncture cavity and the atomization cavity; the puncturing mechanism is used for puncturing the soft capsule in the puncturing cavity, so that atomized liquid medicine in the soft capsule can flow out and flow into the atomizing cavity through the connecting channel; the atomizing mechanism is provided with the atomizing cavity and is used for heating and atomizing atomized liquid medicine flowing into the atomizing cavity, and the bottom of the base is provided with a first connecting electrode electrically connected with the atomizing mechanism;

the battery assembly comprises a battery compartment and a battery arranged in the battery compartment, the battery compartment is detachably connected to the lower side of the base, a second connecting electrode electrically connected with the battery is arranged at the top of the battery compartment, the first connecting electrode is electrically contacted with the second connecting electrode, and a control switch for controlling the on-off of the second connecting electrode and the battery is arranged outside the battery compartment.

Further, the puncture cavity is vertically arranged, the upper end of the puncture cavity extends to the top surface of the base, a mesh plate is arranged at one end of the connecting channel connected with the puncture cavity, and a puncture channel is arranged at one side of the side part of the puncture cavity opposite to the mesh plate;

the puncturing mechanism comprises an extrusion puncturing block and a first driving rod, wherein the extrusion puncturing block is matched in the puncturing channel, and the first driving rod is connected with the extrusion puncturing block and is used for driving the extrusion puncturing block to be pressed into the atomizing cavity or to retract into the puncturing channel.

Further, a first baffle ring is arranged in the penetrating channel, the extrusion penetrating block is arranged on one side, close to the penetrating cavity, of the first baffle ring, one end of the first driving rod penetrates through the first baffle ring, extends out of the base and is connected with a button, and a first compression spring supported between the first baffle ring and the button is sleeved on the first driving rod.

Further, a protective sleeve covering the first compression spring and extending into the penetration channel is arranged on the button.

Further, the device also comprises a shell withdrawing mechanism, wherein the shell withdrawing mechanism comprises a push block and a second driving rod, the push block is adapted to the bottom of the puncture cavity and is positioned at the lower side of the puncture channel, and the second driving rod is connected with the push block and is used for driving the push block to move up and down along the puncture cavity.

Further, an ejection channel coaxial with the puncture cavity is formed in the bottom of the base, a second baffle ring is arranged between the puncture cavity and the ejection channel, the lower end of the second driving rod penetrates through the second baffle ring and is connected with a baffle plate, the baffle plate is arranged in the ejection channel, and a second compression spring supported between the second baffle ring and the baffle plate is sleeved on the second driving rod;

the battery compartment is internally provided with a guide hole below the ejection channel, the guide hole is internally provided with a push rod, the upper end of the push rod is propped against the lower side of the second baffle ring, the side part of the battery compartment is vertically provided with a guide groove connected with the lower part of the guide hole, and the lower end of the push rod is connected with a pushing arm extending out of the guide groove.

Further, the upper end of the puncture cavity is provided with a top cover which can be opened or closed.

Further, the atomizing mechanism comprises a heating rod, the lower end of the heating rod is fixedly arranged at the bottom of the atomizing cavity, and adsorption cotton is coated outside the heating rod.

Further, the upper end of the atomizing cavity is provided with a fog outlet, and the interior of the fog outlet is provided with a conical opening which gradually reduces from bottom to top.

Further, a threaded connection hole is formed in the bottom of the base, a threaded connector matched with the threaded connection hole is arranged at the top of the battery bin, and when the threaded connector is screwed with the threaded connection hole, the first connection electrode is in contact with the second connection electrode.

The beneficial effects of the utility model are as follows:

when the atomizing subassembly and the battery pack in this application are in the same place, first connecting electrode and second connection motor contact, the battery in the battery pack is atomizing mechanism power supply, and atomizing mechanism's work passes through the outer control switch control of battery compartment, and atomizing subassembly and battery pack adopt detachable modularized design, can be equipped with multiunit battery pack, can directly dismantle the change to the battery pack.

During the use, directly throw into the soft capsule liquid medicine and puncture the chamber to puncture the mechanism with the soft capsule, make the liquid medicine in the soft capsule flow out, and flow into the atomizing intracavity through the connecting channel that the slope set up, the atomizing mechanism of rethread atomizing intracavity heats the atomizing to the liquid medicine of inflow, can realize the atomizing of liquid medicine and administer, compared with prior art, this application is when adding the soft capsule liquid medicine, directly throw into the soft capsule liquid medicine puncture the chamber can, need not open the soft capsule earlier, add the liquid medicine again, it is more convenient to add the soft capsule liquid medicine, and can not cause the liquid medicine loss basically.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a schematic view of an external structure of an embodiment of the present utility model;

fig. 2 is an internal cross-sectional view of an embodiment of the present utility model.

In the drawings, a 100-atomization assembly; 110-a base; 111-puncturing the cavity; 1111-mesh plate; 1112-top cap; 112-an atomization chamber; 1121-a fog nozzle; 113-connection channels; 114-piercing the passageway; 1141-a first stop ring; 115-ejection channel; 1151-a second stop ring; 116-a first connection electrode; 117-threaded connection holes; 120-lancing mechanism; 121-puncturing the block; 122-a first drive rod; 1221-buttons; 1222-a protective sheath; 123-a first compression spring; 130-an atomization mechanism; 131-heating rod; 132-adsorbing cotton; 140-a shell removing mechanism; 141-pushing blocks; 142-a second drive rod; 1421-baffle; 143-a second compression spring; 200-battery assembly; 210-a battery compartment; 211-a second connection electrode; 212-control a switch; 213-guide holes; 214-ejector pins; 2141—a push arm; 215-guide slots; 216-threaded joint; 220-battery.

Detailed Description

Embodiments of the technical scheme of the present utility model will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and thus are merely examples, and are not intended to limit the scope of the present utility model.

It is noted that unless otherwise indicated, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model pertains.

As shown in fig. 1 and 2, an embodiment of the present utility model provides an atomizing device for soft capsule medical fluid, including an atomizing assembly 100 and a battery assembly 200.

The atomizing assembly 100 includes a base 110, a lancing mechanism 120, and an atomizing mechanism 130.

The base 110 is provided with a puncture cavity 111 for accommodating the soft capsule and an atomization cavity 112, and a connecting channel 113 which is inclined downwards from the puncture cavity 111 to the atomization cavity 112 is arranged between the puncture cavity 111 and the atomization cavity 112.

The puncturing mechanism 120 is used for puncturing the soft capsule in the puncturing cavity 111, so that atomized liquid medicine in the soft capsule can flow out and flow into the atomizing cavity 112 through the connecting channel 113.

Referring specifically to fig. 2, the puncture chamber 111 is vertically disposed, the upper end of the puncture chamber 111 extends to the top surface of the base 110, one end of the connection channel 113 connected to the puncture chamber 111 is provided with a mesh plate 1111, and a side of the puncture chamber 111 opposite to the mesh plate 1111 is provided with a puncture channel 114; the lancing mechanism 120 includes a crush lancing block 121 and a first drive rod 122, the crush lancing block 121 being adapted to pierce the passageway 114, the first drive rod 122 being connected to the crush lancing block 121 for driving the crush lancing block 121 into the atomizing chamber 112 or back into the passageway 114.

In use, the soft capsule is put into the puncture cavity 111 from the top of the puncture cavity 111, the soft capsule is positioned between the extrusion puncture block 121 and the mesh plate 1111, then the extrusion puncture block 121 is pushed to one side of the mesh plate 1111 by the first driving rod 122, the extrusion puncture block 121 punctures the soft capsule, and the liquid medicine in the soft capsule is extruded by the extrusion puncture block 121 and enters the connecting channel 113 through the mesh plate 1111 and then flows into the atomizing cavity 112 through the connecting channel 113.

Preferably, a first baffle ring 1141 is disposed in the puncturing channel 114, the squeezing puncturing block 121 is disposed on a side of the first baffle ring 1141 adjacent to the puncturing cavity 111, one end of the first driving rod 122 extends through the base 110 from the first baffle ring 1141 and is connected to a button 1221, and a first compression spring 123 is disposed on the first driving rod 122 and supported between the first baffle ring 1141 and the button 1221. In this embodiment, the first driving rod 122 can be controlled to push the extrusion piercing block 121 to extrude and pierce the soft capsule by pressing the button 1221, and after extrusion piercing is completed, the button 1221 is released, and the extrusion piercing block 121 automatically returns to the piercing channel 114 under the action of the first compression spring 123, so that the operation is convenient.

Preferably, the button 1221 is provided with a protecting sleeve 1222 covering the outside of the first compression spring 123 and extending into the penetrating channel 114, and the protecting sleeve 1222 shields the first compression spring 123, so that the appearance is more attractive.

The atomizing mechanism 130 is provided with an atomizing chamber 112 for heating and atomizing the atomized liquid medicine flowing into the atomizing chamber 112, and the bottom of the base 110 is provided with a first connecting electrode 116 electrically connected with the atomizing mechanism 130.

Specifically, the atomizing mechanism 130 includes a heating rod 131, the lower end of the heating rod 131 is fixedly installed at the bottom of the atomizing cavity 112, the heating rod 131 is covered with absorbent cotton 132, the upper end of the atomizing cavity 112 is provided with a mist outlet 1121, and the inside of the mist outlet 1121 is provided with a tapered opening which gradually reduces from bottom to top. The chemical solution flowing into the atomizing chamber 112 is absorbed and stored by the absorbent cotton 132, the heating rod 131 heats and atomizes the chemical solution absorbed in the absorbent cotton 132, and the atomized chemical solution is discharged through the mist outlet 1121.

The battery assembly 200 includes a battery compartment 210 and a battery 220 disposed in the battery compartment 210, the battery compartment 210 is detachably connected to the lower side of the base 110, a second connection electrode 211 electrically connected to the battery 220 is disposed on the top of the battery compartment 210, the first connection electrode 116 is electrically contacted with the second connection electrode 211, and a control switch 212 for controlling the on-off of the second connection electrode 211 and the battery 220 is disposed outside the battery compartment 210.

In order to facilitate assembly and disassembly between the battery pack 200 and the atomizing pack 100, the bottom of the base 110 is provided with a screw connection hole 117, the top of the battery compartment 210 is provided with a screw connector 216 adapted to the screw connection hole 117, and when the screw connector 216 is screwed with the screw connection hole 117, the first connection electrode 116 is in contact with the second connection electrode 211.

The present embodiment further includes a shell removing mechanism 140, where the shell removing mechanism 140 includes a push block 141 and a second driving rod 142, where the push block 141 is adapted to the bottom of the puncture cavity 111 and is located at the lower side of the puncture channel 114, and the second driving rod 142 is connected to the push block 141 and is used to drive the push block 141 to move up and down along the puncture cavity 111. After the liquid medicine in the soft capsule is pressed out, the pushing block 141 can be pushed upwards by the second driving rod 142, and then the capsule shell in the puncture cavity 111 is ejected out of the upper end of the puncture cavity 111 by the pushing block 141, so that the cleaning of the capsule shell is realized.

Preferably, an ejection channel 115 coaxial with the puncture cavity 111 is formed at the bottom of the base 110, a second baffle ring 1151 is disposed between the puncture cavity 111 and the ejection channel 115, a baffle plate 1421 is connected to the lower end of the second driving rod 142 through the second baffle ring 1151, the baffle plate 1421 is disposed in the ejection channel 115, and a second compression spring 143 supported between the second baffle ring 1151 and the baffle plate 1421 is sleeved on the second driving rod 142. The battery compartment 210 is provided with a guide hole 213 positioned below the ejection channel 115, the guide hole 213 is internally provided with a push rod 214, the upper end of the push rod 214 is propped against the lower side of the second baffle ring 1151, the side part of the battery compartment 210 is vertically provided with a guide groove 215 connected with the lower part of the guide hole 213, and the lower end of the push rod 214 is connected with a pushing arm 2141 extending out of the guide groove 215. When the atomizing assembly 100 and the battery assembly 200 are assembled together, the upper end of the ejector rod 214 in the battery assembly 200 is aligned with the lower end of the ejection channel 115, the ejector rod 214 is pushed upwards by the pushing arm 2141, the ejector rod 214 pushes the baffle 1421 upwards, and then the second driving rod 142 is controlled to push the pushing block 141 upwards, so that the capsule shell in the puncture cavity 111 can be ejected by the pushing block 141, after the capsule shell is ejected, the pushing arm 2141 is released, and the pushing block 141 automatically moves downwards to reset under the action of the second compression spring 143, so that the ejector rod 214 is pushed to move downwards to reset.

Preferably, the upper end of the puncture chamber 111 is provided with an openable or closable top cover 1112, and the top cover 1112 is opened when the soft capsule is put in and the capsule shell is withdrawn, and the top cover 1112 is closed at other times.

When the atomizing assembly 100 and the battery assembly 200 are assembled together, the first connecting electrode 116 is in contact with the second connecting motor, the battery 220 in the battery assembly 200 supplies power to the atomizing mechanism 130, the atomizing mechanism 130 is controlled by the control switch 212 outside the battery compartment 210, the atomizing assembly 100 and the battery assembly 200 are in a detachable modularized design, multiple groups of battery assemblies 200 can be arranged, and the battery assemblies 200 can be directly detached and replaced.

During the use, directly throw into the soft capsule liquid medicine puncture chamber 111 to puncture the mechanism 120 with the soft capsule, make the liquid medicine in the soft capsule flow out, and flow into atomizing chamber 112 through the connecting channel 113 that the slope set up, atomizing mechanism 130 in the rethread atomizing chamber 112 heats the atomizing liquid medicine that flows in, can realize the atomizing dosing of liquid medicine, compared with prior art, this application is when adding the soft capsule liquid medicine, directly throw into the soft capsule liquid medicine puncture chamber 111 can, need not open the soft capsule earlier, add the liquid medicine again, it is more convenient to add the soft capsule liquid medicine, and can not cause the liquid medicine loss basically.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model, and are intended to be included within the scope of the appended claims and description.

Claims (10)

1. An atomizing device for soft capsule liquid medicine, which is characterized in that:

comprises an atomization assembly and a battery assembly;

the atomizing assembly comprises a base, a piercing mechanism and an atomizing mechanism; the base is internally provided with a puncture cavity and an atomization cavity for accommodating the soft capsule, and a connecting channel which is inclined downwards from the puncture cavity to the atomization cavity is arranged between the puncture cavity and the atomization cavity; the puncturing mechanism is used for puncturing the soft capsule in the puncturing cavity, so that atomized liquid medicine in the soft capsule can flow out and flow into the atomizing cavity through the connecting channel; the atomizing mechanism is provided with the atomizing cavity and is used for heating and atomizing atomized liquid medicine flowing into the atomizing cavity, and the bottom of the base is provided with a first connecting electrode electrically connected with the atomizing mechanism;

the battery assembly comprises a battery compartment and a battery arranged in the battery compartment, the battery compartment is detachably connected to the lower side of the base, a second connecting electrode electrically connected with the battery is arranged at the top of the battery compartment, the first connecting electrode is electrically contacted with the second connecting electrode, and a control switch for controlling the on-off of the second connecting electrode and the battery is arranged outside the battery compartment.

2. An atomizing device for soft capsule medical fluid according to claim 1, wherein:

the puncture cavity is vertically arranged, the upper end of the puncture cavity extends to the top surface of the base, a mesh plate is arranged at one end of the connecting channel connected with the puncture cavity, and a puncture channel is arranged at one side of the side part of the puncture cavity opposite to the mesh plate;

the puncturing mechanism comprises an extrusion puncturing block and a first driving rod, wherein the extrusion puncturing block is matched in the puncturing channel, and the first driving rod is connected with the extrusion puncturing block and is used for driving the extrusion puncturing block to be pressed into the atomizing cavity or to retract into the puncturing channel.

3. An atomizing device for soft capsule medical fluid according to claim 2, wherein:

the device is characterized in that a first baffle ring is arranged in the penetrating channel, the extrusion penetrating block is arranged on one side, close to the penetrating cavity, of the first baffle ring, one end of the first driving rod penetrates through the first baffle ring, extends out of the base and is connected with a button, and a first compression spring supported between the first baffle ring and the button is sleeved on the first driving rod.

4. An aerosolization device for soft capsule medical fluid according to claim 3 wherein:

the button is provided with a protective sleeve which covers the first compression spring and stretches into the penetrating channel.

5. An atomizing device for soft capsule medical fluid according to claim 2, wherein:

the shell removing mechanism comprises a push block and a second driving rod, wherein the push block is adapted to the bottom of the puncture cavity and positioned at the lower side of the puncture channel, and the second driving rod is connected with the push block and used for driving the push block to move up and down along the puncture cavity.

6. The atomizing device for soft capsule medical fluid according to claim 5, wherein:

an ejection channel coaxial with the puncture cavity is formed in the bottom of the base, a second baffle ring is arranged between the puncture cavity and the ejection channel, the lower end of the second driving rod penetrates through the second baffle ring and is connected with a baffle plate, the baffle plate is arranged in the ejection channel, and a second compression spring supported between the second baffle ring and the baffle plate is sleeved on the second driving rod;

the battery compartment is internally provided with a guide hole below the ejection channel, the guide hole is internally provided with a push rod, the upper end of the push rod is propped against the lower side of the second baffle ring, the side part of the battery compartment is vertically provided with a guide groove connected with the lower part of the guide hole, and the lower end of the push rod is connected with a pushing arm extending out of the guide groove.

7. An atomizing device for soft capsule medical fluid according to claim 2, wherein:

the upper end of the puncture cavity is provided with a top cover which can be opened or closed.

8. An atomizing device for soft capsule medical fluid according to claim 1, wherein:

the atomizing mechanism comprises a heating rod, the lower end of the heating rod is fixedly arranged at the bottom of the atomizing cavity, and adsorption cotton is coated outside the heating rod.

9. The atomizing device for soft capsule medical fluid of claim 8, wherein:

the upper end of the atomizing cavity is provided with a fog outlet, and the interior of the fog outlet is provided with a conical opening which gradually reduces from bottom to top.

10. An atomizing device for soft capsule medical fluid according to claim 1, wherein:

the bottom of base is equipped with the screwed connection hole, the top of battery compartment be equipped with screwed joint of screwed connection hole adaptation, when screwed joint and screwed connection hole are screwed tightly, first connecting electrode and second connecting electrode contact.

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