CN219462073U - Automatic suction structure of gasbag - Google Patents

Abstract

The utility model discloses an automatic suction structure of an air bag, which belongs to the technical field of medical air bags and adopts the technical scheme that the automatic suction structure comprises a storage mechanism and a conveying mechanism, wherein the conveying mechanism is bolted to the top of the storage mechanism, the storage mechanism comprises a storage component and a peristaltic component, the conveying mechanism comprises an absorption component and an absorption component, the storage component can temporarily store sucked liquid by arranging the storage mechanism and the conveying mechanism, the peristaltic component can automatically provide sucking energy for the absorption component after being electrified and started, the absorption component deforms and peristaltically moves along with the peristaltic component, so that air and liquid at the absorption component can be continuously conveyed into the storage component, the absorption component can absorb the liquid and convey the liquid into the storage component, and the absorption component can be placed at the liquid part of an affected part of a patient to absorb the liquid.

Description

Automatic suction structure of gasbag

Technical Field

The utility model relates to the technical field of medical airbags, in particular to an automatic suction structure of an airbag.

Background

The air bag is a medical tool for adsorbing liquid flowing out of an affected part of a patient in medical operation, can be a medical air bag, is composed of an air bag, a straw, a glass bottle and other parts, is pressed to enable air in the glass bottle to flow out of the straw, and is inhaled from the straw when being restored due to self elasticity, so that the liquid can be adsorbed into the glass bottle for storage.

Currently, the publication number is: the utility model of CN202161608U discloses a medical air bag aspirator, which comprises an aspiration bottle, an aspiration tube and an air bag, wherein the aspiration tube is connected with the aspiration bottle, the air bag is also connected with the aspiration bottle through the aspiration tube, scales are arranged on the aspiration bottle, an aspiration valve is arranged at the joint of the air bag and the aspiration tube, and an exhaust valve is arranged at the rear end of the air bag.

When needs are collected the liquid that patient affected part flows out, can use the gasbag to adsorb the collection with liquid, and the gasbag automatic suction structure is one of them, but current gasbag lacks continuous automatic suction's structure, consequently can't carry out continuous automatic suction to liquid, has reduced the gasbag to the efficiency of liquid suction.

Disclosure of Invention

The utility model provides an automatic suction structure of an air bag, which aims to solve the problems that the existing air bag lacks a continuous automatic suction structure, so that continuous automatic suction cannot be carried out on liquid, and the efficiency of the air bag on liquid suction is reduced.

The utility model is realized in such a way that an automatic suction structure of an air bag comprises a storage mechanism and a conveying mechanism, wherein the conveying mechanism is bolted on the top of the storage mechanism, the storage mechanism comprises a storage component and a peristaltic component, and the conveying mechanism comprises an absorption component and a suction component;

the peristaltic component is bolted to the top of the storage component, the absorption component is clamped to the top of the inner wall of the storage component, the surface of the bottom of the peristaltic component is in contact with the inner wall of the absorption component, the absorption component is communicated to the front side of the absorption component, and the absorption component penetrates through the storage component and is movably connected with the storage component.

In order to achieve the effect of being convenient for storing liquid, the automatic air bag suction structure is preferable, and the storage assembly comprises a storage tank, a limiting ring and a limiting groove, wherein the limiting ring is bolted to the top of the storage tank, and the limiting groove is formed in the inner wall of the limiting ring.

In order to achieve the effect of being convenient for continuously providing the adsorption force for the absorption assembly, the automatic air bag suction structure is preferable, and the peristaltic assembly comprises a servo motor, a rotating rod and rotating wheels, wherein the servo motor is bolted to the top of a limiting ring, the rotating rod is bolted to the output end of the bottom of the servo motor, and the rotating wheels are bolted to the front side, the rear side and the two sides of the rotating rod.

In order to achieve the effect of providing the sucking capacity for the sucking component, the automatic sucking structure of the air bag is preferable, and the automatic sucking structure of the air bag comprises a limiting frame, an annular air bag and a liquid outlet pipe, wherein the limiting frame is clamped on the inner wall of a limiting groove, the annular air bag is bolted on the inner wall of the limiting frame, the inner wall of the annular air bag is in contact with the surface of a rotating wheel, the liquid outlet pipe is communicated with the bottom of the annular air bag, and the liquid outlet pipe penetrates through the bottom of the limiting frame and is movably connected with the limiting frame.

In order to achieve the effect of liquid suction on affected parts of patients, the automatic suction structure of the air bag is preferable, and the suction assembly comprises a hose, a hollow grab handle and a porous suction head, wherein the hose is communicated with the front side of the annular air bag, the hose penetrates through the front side of the limiting ring and is movably connected with the limiting ring, the hollow grab handle is communicated with the front side of the hose, and the porous suction head is communicated with the front side of the hollow grab handle.

In order to achieve the effect of being convenient for observing the liquid storage amount in the storage tank, the automatic air bag suction structure is preferably used, the surface of the storage tank is clamped with a protection plate, the protection plate is made of glass materials, and the protection plate is matched with the storage tank for use.

In order to achieve the effect of increasing the stability of the runner in moving, the automatic air bag suction structure is preferable in the utility model, the surface of the runner is sleeved with a stable sleeve, the surface of the stable sleeve is carved with anti-skid lines, and the stable sleeve is matched with the runner for use.

In order to achieve the effect of protecting the porous sucking head, the automatic suction structure of the air bag is preferable, a protecting sleeve is sleeved on the surface of the porous sucking head, the protecting sleeve is supported by a silica gel material, and the protecting sleeve is matched with the porous sucking head for use.

Compared with the prior art, the utility model has the beneficial effects that:

this gasbag automatic suction structure, through setting up storage mechanism and conveying mechanism, deposit the subassembly and can temporarily store the liquid of attraction, peristaltic subassembly can be after the circular telegram and start automatic sucking the ability to the absorption subassembly that provides, let the absorption subassembly take place deformation, and follow peristaltic subassembly and carry out peristaltic, thereby can with the air and the liquid of absorbing subassembly department constantly carry to deposit in the subassembly, the absorption subassembly can attract the liquid, and with liquid transport deposit in the subassembly, the absorption subassembly can be placed in the liquid part of patient affected part, adsorb liquid.

Drawings

FIG. 1 is a general construction view of an automatic suction structure of an airbag of the present utility model;

FIG. 2 is a schematic view of a storage assembly according to the present utility model;

FIG. 3 is a schematic view of the peristaltic assembly of the present utility model;

FIG. 4 is a schematic view of the structure of an absorbent assembly according to the present utility model;

fig. 5 is a schematic structural view of the suction module according to the present utility model.

In the figure, 1, a storage mechanism; 101. a storage assembly; 1011. a storage tank; 1012. a limiting ring; 1013. a limit groove; 102. a peristaltic assembly; 1021. a servo motor; 1022. a rotating rod; 1023. a rotating wheel; 2. a conveying mechanism; 201. an absorbent assembly; 2011. a limit frame; 2012. an annular air bag; 2013. a liquid outlet pipe; 202. a suction assembly; 2021. a hose; 2022. a hollow handle; 2023. a porous suction head; 3. a protection plate; 4. a stabilizing sleeve; 5. and (5) a protective sleeve.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, in the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1-5, the present utility model provides the following technical solutions: an automatic suction structure of an air bag comprises a storage mechanism 1 and a conveying mechanism 2, wherein the conveying mechanism 2 is bolted to the top of the storage mechanism 1, the storage mechanism 1 comprises a storage component 101 and a peristaltic component 102, and the conveying mechanism 2 comprises an absorption component 201 and a suction component 202;

the peristaltic component 102 is bolted to the top of the storage component 101, the absorption component 201 is clamped to the top of the inner wall of the storage component 101, the surface of the bottom of the peristaltic component 102 is in contact with the inner wall of the absorption component 201, the absorption component 202 is communicated to the front side of the absorption component 201, and the absorption component 202 penetrates through the storage component 101 and is movably connected with the storage component 101.

In this embodiment: by arranging the storage mechanism 1 and the conveying mechanism 2, the storage component 101 can temporarily store the sucked liquid, the peristaltic component 102 can automatically provide sucking capacity for the absorption component 201 after being electrified and started, the absorption component 201 deforms and peristaltically moves along with the peristaltic component 102, so that air and liquid at the suction component 202 can be continuously conveyed into the storage component 101, the absorption component 201 can suck the liquid and convey the liquid into the storage component 101, the suction component 202 can be placed on the liquid part of an affected part of a patient, and the liquid is adsorbed.

As a technical optimization scheme of the present utility model, the storage assembly 101 includes a storage tank 1011, a limiting ring 1012 and a limiting groove 1013, wherein the limiting ring 1012 is bolted to the top of the storage tank 1011, and the limiting groove 1013 is formed on the inner wall of the limiting ring 1012.

In this embodiment: by providing the storage assembly 101, the storage tank 1011 can temporarily store liquid, the stop collar 1012 can support and stop the peristaltic assembly 102, and the stop slot 1013 can support and stop the conveyor 2, thereby increasing the stability of the overall structure.

As a technical optimization scheme of the utility model, the peristaltic assembly 102 comprises a servo motor 1021, a rotating rod 1022 and rotating wheels 1023, wherein the servo motor 1021 is bolted to the top of a limiting ring 1012, the rotating rod 1022 is bolted to the output end of the bottom of the servo motor 1021, and the rotating wheels 1023 are bolted to the front side, the rear side and the two sides of the rotating rod 1022.

In this embodiment: through setting up peristaltic subassembly 102, servo motor 1021 can be after the circular telegram and start, turns into rotatory mechanical energy with the electric energy, gives bull stick 1022 with rotatory mechanical energy transfer again, bull stick 1022 will drive runner 1023 along with rotatory mechanical energy, and runner 1023 will remove along the inner wall of absorption subassembly 201, presses the inner wall of absorption subassembly 201 to drive the inside removal of absorption subassembly 201, thereby be convenient for carry out peristaltic movement with absorption subassembly 201, let absorption subassembly 201 produce the appeal.

As a technical optimization scheme of the utility model, the absorption assembly 201 comprises a limit frame 2011, an annular air bag 2012 and a liquid outlet pipe 2013, wherein the limit frame 2011 is clamped on the inner wall of a limit groove 1013, the annular air bag 2012 is bolted on the inner wall of the limit frame 2011, the inner wall of the annular air bag 2012 is in contact with the surface of a rotating wheel 1023, the liquid outlet pipe 2013 is communicated with the bottom of the annular air bag 2012, and the liquid outlet pipe 2013 penetrates through the bottom of the limit frame 2011 and is movably connected with the limit frame 2011.

In this embodiment: through setting up the subassembly 201, spacing frame 2011 can support and spacing annular gasbag 2012, increases the stability when annular gasbag 2012 is placed in spacing groove 1013, and annular gasbag 2012 can be after with runner 1023 contact, along with runner 1023 carries out peristaltic movement to can attract the air and the liquid that suck subassembly 202 contacted, drain pipe 2013 can carry the inspired liquid to the holding vessel 1011 in store.

As a technical optimization scheme of the utility model, the suction assembly 202 comprises a hose 2021, a hollow handle 2022 and a porous sucking head 2023, wherein the hose 2021 is communicated with the front side of the annular air bag 2012, the hose 2021 penetrates through the front side of the limiting ring 1012 and is movably connected with the limiting ring 1012, the hollow handle 2022 is communicated with the front side of the hose 2021, and the porous sucking head 2023 is communicated with the front side of the hollow handle 2022.

In this embodiment: through setting up the suction component 202, hose 2021 can carry the annular gasbag 2012 in to the liquid of suction to can be according to self compliance and remove along with the hollow grab handle 2022 that the user held, hollow grab handle 2022 can be convenient for the user with porous suction head 2023 remove required suction liquid department, porous suction head 2023 can adsorb the liquid of patient affected part different positions because of self porous design, has increased the scope to liquid adsorption.

As a technical optimization scheme of the utility model, the surface of the storage tank 1011 is clamped with the protection plate 3, the protection plate 3 is made of glass material, and the protection plate 3 is matched with the storage tank 1011 for use.

In this embodiment: by providing the protection plate 3, the storage tank 1011 can be protected, and the glass material has transparency, so that the user can observe the liquid reserve in the storage tank 1011 in real time.

As a technical optimization scheme of the utility model, a stabilizing sleeve 4 is sleeved on the surface of the rotating wheel 1023, anti-slip lines are engraved on the surface of the stabilizing sleeve 4, and the stabilizing sleeve 4 is matched with the rotating wheel 1023 for use.

In this embodiment: through setting up firm cover 4, can consolidate runner 1023 and annular gasbag 2012's contact to the stability when runner 1023 and annular gasbag 2012 contact can further be increased to the non-slip texture.

As a technical optimization scheme of the utility model, a protecting sleeve 5 is sleeved on the surface of the porous sucking head 2023, the protecting sleeve 5 is supported by a silica gel material, and the protecting sleeve 5 is matched with the porous sucking head 2023.

In this embodiment: by providing the protective sheath 5, liquid on the surface of the porous suction head 2023 can be blocked, so that the porous suction head 2023 is protected, and the service life of the porous suction head 2023 is prolonged.

Working principle: firstly, the storage mechanism 1 and the conveying mechanism 2 are started after being electrified, the servo motor 1021 is started after being electrified, the servo motor 1021 continuously drives the rotating rod 1022 to drive the rotating wheel 1023, the rotating wheel 1023 moves on the annular air bag 2012, the annular air bag 2012 moves along with the pressing and moving of the rotating wheel 1023, so that attractive force is generated, at the moment, a user holds the hollow handle 2022 to move the porous sucking head 2023 to a position where liquid is required to be sucked, the liquid automatically enters the hollow handle 2022 due to the attractive force, flows into the hose 2021 through the inside of the gap handle, flows into the annular air bag 2012, finally flows into the storage tank 1011 from the liquid outlet pipe 2013, and thus liquid collection is completed.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. The utility model provides an automatic suction structure of gasbag, includes storage mechanism (1) and conveying mechanism (2), its characterized in that: the conveying mechanism (2) is bolted to the top of the storage mechanism (1), the storage mechanism (1) comprises a storage assembly (101) and a peristaltic assembly (102), and the conveying mechanism (2) comprises an absorption assembly (201) and a suction assembly (202);

the peristaltic assembly (102) is bolted to the top of the storage assembly (101), the absorption assembly (201) is clamped to the top of the inner wall of the storage assembly (101), the surface of the bottom of the peristaltic assembly (102) is in contact with the inner wall of the absorption assembly (201), the absorption assembly (202) is communicated to the front side of the absorption assembly (201), and the absorption assembly (202) penetrates through the storage assembly (101) to be movably connected with the storage assembly (101).

2. An automatic suction structure for an air bag according to claim 1, wherein: the storage assembly (101) comprises a storage tank (1011), a limiting ring (1012) and a limiting groove (1013), wherein the limiting ring (1012) is bolted to the top of the storage tank (1011), and the limiting groove (1013) is formed in the inner wall of the limiting ring (1012).

3. An automatic suction structure for an air bag according to claim 2, wherein: peristaltic subassembly (102) include servo motor (1021), bull stick (1022) and runner (1023), servo motor (1021) bolt is at the top of spacing ring (1012), bull stick (1022) bolt is at the output of servo motor (1021) bottom, runner (1023) bolt is in front side, rear side and both sides of bull stick (1022).

4. An automatic suction structure for an air bag according to claim 3, wherein: the absorption assembly (201) comprises a limiting frame (2011), an annular air bag (2012) and a liquid outlet pipe (2013), wherein the limiting frame (2011) is clamped on the inner wall of a limiting groove (1013), the annular air bag (2012) is bolted on the inner wall of the limiting frame (2011), the inner wall of the annular air bag (2012) is in contact with the surface of a rotating wheel (1023), the liquid outlet pipe (2013) is communicated with the bottom of the annular air bag (2012), and the liquid outlet pipe (2013) penetrates through the bottom of the limiting frame (2011) and is movably connected with the limiting frame (2011).

5. The automatic suction structure for an airbag according to claim 4, wherein: the suction assembly (202) comprises a hose (2021), a hollow grab handle (2022) and a porous suction head (2023), wherein the hose (2021) is communicated with the front side of the annular air bag (2012), the hose (2021) penetrates through the front side of the limiting ring (1012) and is movably connected with the limiting ring (1012), the hollow grab handle (2022) is communicated with the front side of the hose (2021), and the porous suction head (2023) is communicated with the front side of the hollow grab handle (2022).

6. An automatic suction structure for an air bag according to claim 2, wherein: the surface joint of holding vessel (1011) has guard plate (3), guard plate (3) are made by glass material, guard plate (3) are used with holding vessel (1011) cooperation.

7. An automatic suction structure for an air bag according to claim 3, wherein: the surface cover of runner (1023) is equipped with firm cover (4), the surface of firm cover (4) is carved with anti-skidding line, firm cover (4) and runner (1023) cooperation use.

8. The automatic suction structure of an airbag according to claim 5, wherein: the surface of the porous sucking head (2023) is sleeved with a protective sleeve (5), the protective sleeve (5) is supported by a silica gel material, and the protective sleeve (5) is matched with the porous sucking head (2023).