CN113414207B

CN113414207B - Medical waste dust removal deodorizing device

Info

Publication number: CN113414207B
Application number: CN202110559170.3A
Authority: CN
Inventors: 张冰; 梁宜杰; 石伟
Original assignee: Individual
Current assignee: Cecep Clean Tech Development Co ltd
Priority date: 2021-05-21
Filing date: 2021-05-21
Publication date: 2022-11-22
Anticipated expiration: 2041-05-21
Also published as: CN113414207A

Abstract

The invention discloses a medical waste dust removal and deodorization device which is structurally provided with a deodorization and dust removal column, a housing, an absorption device and an operating button, wherein the deodorization and dust removal column is fixedly embedded above the housing, the operating button and the housing are of an integrated structure and are positioned on the front end surface of the housing, the upper end of the absorption device is embedded in the housing and is arranged in a penetrating manner, the absorption device is provided with an air suction cavity, an absorption port and a rotating body, a swing and folding power is generated through a connecting plate to enable a transverse plate to transversely stretch and retract, so that an arc rod can drive a deformation ring to change in position and size, a hinge rod extends to assist a pressure block to change in the downward position, the downward pulling force of the arc rod on the deformation ring is increased, the transverse plate is convenient to pull back, the arc rod is driven to fold, the arc block is driven to fold reversely, and accordingly, a movable body can generate a deformation movable force, a touch head continuously collides at the inner side of the absorption port and generates different attacking forces to the absorption port repeatedly, and a small amount of medical cotton materials are prevented from being attached to the outer side surface of the absorption port due to the absorption force.

Description

Medical waste dust removal deodorizing device

Technical Field

The invention belongs to the field of medical treatment, and particularly relates to a dust removal and deodorization device for medical waste.

Background

The medical waste is common garbage in hospitals, is waste with properties of infectivity, harmfulness and the like generated in medical activities, has threats to physical and psychological safety, health, environment and air of personnel, can be subjected to waste treatment by applying the dust removal and deodorization device, has gas adsorption capacity under the control of the device, and can be subjected to dust removal and deodorization treatment in time after being used, so that the diffusion and the propagation of pollutants are reduced.

Based on the discovery of the inventor, the prior medical waste dust removal and deodorization device has the following defects:

when the hemostatic cotton used in medical activities is treated, as the hemostatic cotton is fluffy, part of the cotton material which is not completely used exists in a light volume form, when the adsorption force during the dust removal and deodorization treatment acts on the upper part of the hemostatic cotton, the hemostatic cotton is easy to loosen, flocculent fine substances are sucked to an adsorption port along with airflow force, the blockage phenomenon is caused on the outer end surface of the adsorption port, the airflow is not smooth when the airflow is inwards adsorbed, and the dust removal and deodorization operation effect is poor.

Therefore, a dust-removing and deodorizing device for medical wastes needs to be provided.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a medical waste dedusting and deodorizing device to solve the problems in the prior art.

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a medical waste dust removal deodorizing device, its structure is equipped with deodorization dust removal post, housing, absorbing device, controls the button, deodorization dust removal post inlays solid the installation in the housing top, it is integrated structure and is located its front end terminal surface to control button and housing, the absorbing device upper end is embedded in the housing and inside link up the setting.

The absorption device is provided with an air suction cavity, an adsorption port and a rotating body, the air suction cavity is communicated with and positioned above the adsorption port, the adsorption port and the absorption device are of an integrated structure and are arranged at the position of a bottom port of the absorption port, and the rotating body is movable at the inner side end of the adsorption port.

As a further improvement of the invention, the rotating body is provided with a rotating shaft and four movable bodies, the tail end of the movable body is connected with the peripheral surface of the rotating shaft in a sliding way and is movably matched with the peripheral surface of the rotating shaft, the rotating shaft can rotate, and the four movable bodies are arranged outside the rotating shaft in a staggered way.

As a further improvement of the invention, the movable body is provided with a connecting plate, a transverse plate, an auxiliary frame and a touch head, two side ends of the transverse plate are respectively connected with the inner side of the connecting plate and are movably matched, two ends of the auxiliary frame are hinged to the transverse plate and move below the transverse plate, the touch head is connected with one end of the connecting plate and is movably matched, the connecting plate is of a splayed structure and can be folded angularly, the transverse plate is telescopic and transversely arranged, the auxiliary frame is arc-shaped and can generate position change, and the touch head has certain deformation force.

As a further improvement of the invention, the auxiliary frame is provided with an arc rod, a tough block and a deformation ring, the tough block and the arc rod are of an integrated structure and are positioned at the position of the middle section of the arc rod, the deformation ring is hinged at the tail end of the arc rod and is movably matched with the tail end of the arc rod, the arc rod is made of hard resin, the tough block is made of butadiene rubber, the tough block has excellent dragging deformation degree, and the deformation ring is in a spherical state and can be subjected to expansion and contraction deformation.

As a further improvement of the invention, the deformation ring is provided with arc blocks, a connecting frame, a hinged rod and a pressure block, the connecting frame is connected between the arc blocks, the upper end of the hinged rod is hinged to the arc blocks and moves in the arc blocks, the pressure block is fixedly connected to the tail end of the hinged rod, the arc blocks are arc blocks in a fixed shape, the connecting frame and the hinged rod are both telescopic, and the pressure block is a hemisphere block with weight.

As a further improvement of the invention, the touch head is provided with two spring blocks and two swinging blocks, the spring blocks are connected between the swinging blocks and are movably matched, the swinging blocks and the touch head are of an integrated structure and are positioned at the positions of two side ends of the swinging blocks, the spring blocks are rubber block-shaped objects and have certain flexibility, and the spring blocks are in a petal-shaped shape and are distributed in a central symmetry manner.

As a further improvement of the invention, the swing block is provided with a solid block, a groove cavity, a rolling ball and five vibrating rings, the groove cavity is positioned inside the solid block, the rolling ball is embedded and movable in the groove cavity, the vibrating rings are connected on the outer end face of the side end of the solid block in a penetrating mode and movably clamped, the groove cavity is of a hollow groove structure with different inner diameter widths, the rolling ball is a ball-shaped object with variable size, and the vibrating rings are of a circular ring structure and are provided with five vibrating rings.

As a further improvement of the present invention, the rolling ball is provided with an outer ring block, a through rod and a heavy ball, one end of the through rod is fixedly connected to the inner side end of the outer ring block, one end of the through rod is connected and movably matched with the heavy ball, the heavy ball moves inside the outer ring block, the outer ring block is in a circular ring structure and has annular flexibility, the through rod has a certain length limit and can be stretched, and the heavy ball is a ball block object with the heavy pressure property.

Compared with the prior art, the invention has the following beneficial effects:

1. produce pendulum through the connecting plate and roll over power, make the diaphragm transversely flexible, the arc pole of being convenient for drives deformation ring position change, do benefit to simultaneously that the deformation ring is the size change, extend the downward position change of auxiliary pressure piece by the hinge bar, make the arc pole receive the downward pull increase of deformation ring, be convenient for pull back the diaphragm, make its retraction, reverse drive arc piece rolls over, thereby do benefit to the movable body and produce the deformation activity, make and touch first constantly bump at the absorption opening inboard, and reciprocal produce different power of hitting to it, avoid a small amount of medical cotton material to receive the adsorption affinity and attach to on the absorption opening lateral surface.

2. Through the supplementary swing piece of bullet piece when folding along with the connecting plate pendulum and the swing direction that receives, the internal diameter of vallecular cavity is not uniform, the outer ring piece of being convenient for is the activity of expanding and contracting under the flexible cooperation that runs through the pole, its roll makes the bias ball can roll along with the outer ring piece and exert pressure to its bottom, make the roll ball when the real piece tends to transversely put, it is the biggest to its weight pressure, make real side end face and the interior side clearance fit of absorption mouth, the tremble power that the ring of being convenient for produced in the activity constantly acts on absorption mouth, the little material that further auxiliary air current carried attached to on absorption mouth outer terminal surface or opening footpath wall is under trembleing, produce inertia and can break away from the adhesion to absorption mouth, effectively prevent the jam problem, improve dust removal deodorization efficiency.

Drawings

FIG. 1 is a schematic structural view of a medical waste dust-removing and deodorizing device according to the present invention.

Fig. 2 is a schematic view of the internal cross-sectional structure of an absorbent device of the present invention.

Fig. 3 is a schematic view showing an internal sectional structure of a swivel according to the present invention.

Fig. 4 is a schematic sectional view showing the inside of a movable body according to the present invention.

Fig. 5 is a schematic view of an internal cross-sectional structure of an auxiliary frame according to the present invention.

FIG. 6 is a schematic view of the inner cross-sectional structure of a shape-changing ring according to the present invention.

Fig. 7 is a schematic view of an internal cross-sectional structure of a touch head according to the present invention.

FIG. 8 is a schematic diagram of the internal cross-sectional structure of a swing block of the present invention.

Figure 9 is a schematic view of the internal cross-section of a rolled ball of the present invention.

In the figure: the device comprises a deodorization and dust removal column-1, a housing-2, an absorption device-3, a control button-4, a suction cavity-31, an adsorption port-32, a rotating body-33, a rotating shaft-331, a movable body-332, a connecting plate-a 1, a transverse plate-a 2, an auxiliary frame-a 3, a touch head-a 4, an arc rod-a 31, a tough block-a 32, a deformation ring-a 33, an arc block-c 1, a connecting frame-c 2, a hinge rod-c 3, a pressure block-c 4, an elastic block-a 41, a swinging block-a 42, a solid block-q 1, a groove cavity-q 2, a rolling ball-q 3, a vibrating ring-q 4, an outer ring block-q 31, a penetrating rod-q 32 and a heavy ball-q 33.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a medical waste dust removal and deodorization device which is structurally provided with a deodorization and dust removal column 1, a housing 2, an absorption device 3 and an operation button 4, wherein the deodorization and dust removal column 1 is fixedly embedded above the housing 2, the operation button 4 and the housing 2 are of an integrated structure and are positioned on the front end face of the operation button, and the upper end of the absorption device 3 is embedded in the housing 2 and is arranged in a penetrating manner.

The absorption device 3 is provided with an air suction cavity 31, an adsorption port 32 and a rotator 33, the air suction cavity 31 is communicated with and positioned above the adsorption port 32, the adsorption port 32 and the absorption device 3 are of an integrated structure and are arranged at the position of the bottom port of the absorption device, and the rotator 33 is movable at the inner side end of the adsorption port 32.

The rotating body 33 is provided with a rotating shaft 331 and four movable bodies 332, the tail ends of the movable bodies 332 are slidably connected and movably matched with the outer peripheral surface of the rotating shaft 331, the rotating shaft 331 can rotate, the number of the movable bodies 332 is four, the movable bodies 332 are arranged outside the rotating shaft 331 in a staggered manner, the movable bodies 332 generate driving force due to airflow force, and are matched with the rotating shaft 331 to rotate, so that the wind power suction effect can be further generated, the shape can be changed in the movement, the better effect is achieved at the position below the movable bodies, and the collision force is generated below the movable bodies.

Wherein, the activity body 332 is equipped with connecting plate an 1, diaphragm a2, auxiliary frame a3, touches head a4, diaphragm a2 both sides end is connected and clearance fit with connecting plate a1 inboard respectively, auxiliary frame a3 both ends are articulated to be connected on diaphragm a2 and move about in its below position, touch contact a4 and connecting plate a1 one end are connected and clearance fit, connecting plate a1 is the splayed structure and can do the angle pendulum and roll over, diaphragm a2 has the elasticity, and is horizontal setting, auxiliary frame a3 is the arcuation, and can produce the position change, touch contact a4 and have certain deformation power, swing and roll over the motion is done to connecting plate a1 under the flexible cooperation of diaphragm a2, makes auxiliary frame a3 activity space change, is convenient for the effort that produces behind its deformation, and reverse produces certain power of dragging to diaphragm a2 for diaphragm a2 can order to the connecting plate a2 constantly to swing and roll over, does benefit to the activity body 332 whole more have more power, can better drive the air current in the change, and can be better with the below, and produce the effect of hitting more to its below.

Wherein, auxiliary frame a3 is equipped with arc pole a31, tough block a32, deformation ring a33, tough block a32 just is located its middle district's position department with arc pole a31 for the integral structure, deformation ring a33 articulates in arc pole a31 terminal and clearance fit, arc pole a31 is the hard resin material, tough block a32 is the butadiene rubber material, has good tractive deformability, deformation ring a33 is the ball state, can do the deformation that contracts of expanding, arc pole a31 and tough block a32 assist the position change of cooperation deformation ring a33 when the size is different for deformation ring a33 can exert different gravity downwards and ascending back pressure simultaneously, and auxiliary frame a3 of being convenient for produces certain moving force.

The deformation ring a33 is provided with an arc block c1, a connecting frame c2, a hinge rod c3 and a pressure block c4, the connecting frame c2 is connected between the arc blocks c1, the upper end of the hinge rod c3 is hinged to the arc block c1 and moves inside the arc block c1, the pressure block c4 is fixedly connected to the tail end of the hinge rod c3, the arc block c1 is an arc block in a fixed shape, the connecting frame c2 and the hinge rod c3 both have elasticity, the pressure block c4 is a hemisphere block with weight, the arc block c1 flexibly performs annular expansion and contraction deformation under the telescopic connection of the connecting frame c2, so that the size of the inner space of the arc block c1 is changed, the hinge rod c3 can flex and stretch, the position of the pressure block c4 is changed, downward gravity applied to the deformation ring a33 is better, and collision with a lower object is guaranteed.

The specific use mode and function of the embodiment are as follows: personnel can adjust and control the control button 4 to control the deodorizing and dedusting column 1 to generate an adsorption effect, so that dust and odor generated in external medical waste can be adsorbed inwards through the through hole structure of the adsorption hole 32, and then the air suction cavity 31 is communicated with the inside of the deodorizing and dedusting column 1 to achieve the effects of dust removal and deodorization, after the external medical waste flows into the inside of the adsorption hole 32 under the effect of the inward adsorption force, the air flow force can have a certain effect on the movable body 332 due to the air flow activity, so that the movable body can be matched with the rotation shaft 331 to rotate autonomously, further assist the inward guidance of the air flow, facilitate the auxiliary dust and odor to be adsorbed through the adsorption hole 32, and when the movable body 332 is actuated, the connecting plate a1 in a splay arrangement can generate a folding power to enable the transverse plate a2 to transversely stretch and retract, the arc rod a31 changes along with the change of the arc rod a31, and changes the space degree between the connecting plate a1 and the transverse plate a2, so that the arc rod a31 drives the deformation ring a33 to change in position and is beneficial to size change of the deformation ring a33, the expansion and contraction of the arc block c1 are matched by the expansion and contraction of the connecting frame c2, the extension of the hinge rod c3 is convenient, the downward position of the auxiliary pressure block c4 changes, and the lower pressure is better applied to the bottom of the deformation ring a33, so that the downward tearing force of the deformation ring a33 on the arc rod a31 is increased, the transverse plate a2 is convenient to be pulled back and drawn back, the arc block c1 is reversely driven to fold, and therefore, the movable body 332 is beneficial to generating deformation activity while rotating, the collision head a4 continuously collides with the inner side of the adsorption port 32 and generates different reciprocating impact forces on the adsorption port, and the problem that a small amount of medical cotton material is attached to the outer side of the adsorption port 32 due to the adsorption force is avoided, and the blockage of the through-flow port occurs.

Example 2:

as shown in figures 7 to 9:

wherein, it is equipped with bullet piece a41, swing piece a42 to bump contact a4, bullet piece a41 links up and clearance fit between swing piece a42, swing piece a42 with touch head a4 and just be located its both sides end position department as an organic whole structure, bullet piece a41 is the block of rubber material, has certain pliability, 42 is lamella form, is equipped with two, and is central symmetric distribution about bullet piece a41, swing piece a42 form is fixed, and it extrudees along with the top, under the toughness cooperation of bullet piece a41, can produce the position change, is convenient for its and the contact of below object.

The swing block a42 is provided with a solid block q1, a groove cavity q2, a rolling ball q3 and a vibrating ring q4, the groove cavity q2 is located inside the solid block q1, the rolling ball q3 is embedded and movable in the groove cavity q2, the vibrating ring q4 penetrates the outer end face of the side end of the solid block q1 and is movably clamped, the groove cavity q2 is of a hollow groove structure with different inner diameter widths, the rolling ball q3 is a spherical object with variable size, the vibrating ring q4 is of a circular ring structure and is provided with five, the rolling ball q3 swings along with the solid block q1 to roll, heavy pressure is applied to the vibrating ball q3 in the opposite direction, and the vibrating ring q4 penetrates the outer end face of the solid block q1 to continuously rotate so as to generate a small vibration amplitude effect on the vibrating ball q when contacting with a foreign object.

The rolling ball q3 is provided with an outer ring block q31, a through rod q32 and a weight bias ball q33, one end of the through rod q32 is fixedly connected to the inner side end of the outer ring block q31, one end of the through rod q32 is connected with the weight bias ball q33 and movably matched with the same, the weight bias ball q33 moves on the inner side of the outer ring block q31, the outer ring block q31 is of a circular ring structure and has annular flexibility, the through rod q32 has a certain length limit and can stretch, the weight bias ball q33 is a ball block with the weight bias property, when the through rod q32 expands and contracts along with the outer ring block q31, the size of the inner space changes and stretches, so that the weight bias ball q33 can move through the through rod q33, gravity is further applied to the outer ring block q31, and the rolling ball q3 can generate the weight bias effect in rolling.

The specific use mode and function of the embodiment are as follows: through the good contraction and extrusion deformation force of the elastic block a41, the auxiliary swing block a42 swings in the direction along with the extrusion of the connecting plate a1 during folding, the solid block q1 swings to enable the rolling ball q3 to roll in the groove cavity q2, the inner diameter of the groove cavity q2 is different, the outer ring block q31 is convenient to be different in outside abutting pressure, expansion and contraction are performed under the telescopic matching of the penetrating rod q32, the rolling enables the eccentric ball q33 to penetrate through the penetrating rod q32 to displace, the vibration force generated by the vibration ring q4 under the action of the movement can be continuously applied to the bottom of the outer ring block q31, when the solid block q3 tends to be transversely placed, the gravity of the rolling ball q3 is the largest, the side end face of the solid block q1 is in clearance fit with the inner side edge of the adsorption port 32, the vibration force generated by the vibration ring q4 under the action can be continuously applied to the adsorption port 32, small substances carried by air flow can be generated to be separated from the adsorption port 32 under vibration, the problem of adhesion and blockage of the adsorption port 32 can be effectively prevented, and the dust removal efficiency can be effectively improved.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a medical waste dust removal deodorizing device, its structure is equipped with deodorization dust removal post (1), housing (2), absorbing device (3), controls button (4), deodorization dust removal post (1) is built in and is installed in housing (2) top, control button (4) and housing (2) structure as an organic whole and be located its front end terminal surface, absorbing device (3) upper end is embedded in housing (2) and inside link up the setting, its characterized in that:

the absorption device (3) is provided with an air suction cavity (31), an adsorption port (32) and a rotating body (33), the air suction cavity (31) is positioned above the adsorption port (32) in a penetrating manner, the adsorption port (32) and the absorption device (3) are of an integrated structure and are arranged at the position of a bottom port of the absorption device, and the rotating body (33) moves at the inner side end of the adsorption port (32);

the rotating body (33) is provided with a rotating shaft (331) and a movable body (332), and the tail end of the movable body (332) is in sliding connection and movably matched with the outer peripheral surface of the rotating shaft (331);

the movable body (332) is provided with a connecting plate (a 1), a transverse plate (a 2), an auxiliary frame (a 3) and a touch head (a 4), two side ends of the transverse plate (a 2) are respectively connected with the inner side of the connecting plate (a 1) and movably matched with the inner side of the connecting plate, two ends of the auxiliary frame (a 3) are hinged to the transverse plate (a 2) and move below the transverse plate, and the touch head (a 4) is connected with one end of the connecting plate (a 1) and movably matched with the connecting plate;

the auxiliary frame (a 3) is provided with an arc rod (a 31), a tough block (a 32) and a deformation ring (a 33), the tough block (a 32) and the arc rod (a 31) are of an integrated structure and are positioned at the middle section position of the tough block (a 32), and the deformation ring (a 33) is hinged to the tail end of the arc rod (a 31) and is movably matched with the arc rod (a 31);

the deformation ring (a 33) is provided with arc blocks (c 1), a connecting frame (c 2), a hinged rod (c 3) and a pressure block (c 4), the connecting frame (c 2) is connected between the arc blocks (c 1), the upper end of the hinged rod (c 3) is hinged to the arc blocks (c 1) and moves in the arc blocks, and the pressure block (c 4) is fixedly connected to the tail end of the hinged rod (c 3);

the touch head (a 4) is provided with elastic blocks (a 41) and swinging blocks (a 42), the elastic blocks (a 41) are connected between the swinging blocks (a 42) and movably matched, and the swinging blocks (a 42) and the touch head (a 4) are of an integrated structure and are positioned at the positions of two side ends of the swinging blocks (a 42);

the swing block (a 42) is provided with a solid block (q 1), a groove cavity (q 2), a rolling ball (q 3) and a vibrating ring (q 4), the groove cavity (q 2) is located inside the solid block (q 1), the rolling ball (q 3) is embedded into the groove cavity (q 2) in a movable mode, and the vibrating ring (q 4) penetrates through the outer end face of the side end of the solid block (q 1) and is movably clamped;

the rolling ball (q 3) is provided with an outer ring block (q 31), a penetrating rod (q 32) and a weight biasing ball (q 33), one end of the penetrating rod (q 32) is fixedly connected to the inner side end of the outer ring block (q 31), one end of the penetrating rod (q 32) is connected with and movably matched with the weight biasing ball (q 33), and the weight biasing ball (q 33) moves on the inner side of the outer ring block (q 31);

through adjusting and controlling the control button (4), the deodorization and dust removal column (1) is controlled to generate adsorption, dust and odor generated in external medical waste are adsorbed inwards through a through hole structure of the adsorption hole (32), and then the air suction cavity (31) is communicated with the inside of the deodorization and dust removal column (1) to achieve the effects of dust removal and deodorization, after the external medical waste flows into the inside of the adsorption hole (32) under the action of the inwards adsorption force, the airflow force generates a certain action on the movable body (332) due to the airflow activity, so that the movable body is matched with the rotating shaft (331) to rotate autonomously, further assisting the inward guidance of the airflow, and facilitating the acceleration of the adsorption of the auxiliary dust and odor through the adsorption hole (32), the bottom of the connecting plate (a 1) is connected with the rotating shaft (331) in a sliding manner, when the movable body (332) is moved, the splayed connecting plate (a 1) generates a swinging and folding power, the transverse plate (a 2) generates transverse expansion and contraction, the arc rod (a 31) changes along with the change of the connecting plate, and the space degree between the connecting plate (a 1) and the transverse plate (a 2) changes, so that the arc rod (a 31) drives the deformation ring (a 33) to change the position and is beneficial to the size change of the deformation ring, the expansion and contraction of the arc block (c 1) are matched by the expansion and contraction of the linking frame (c 2), the extension of the hinge rod (c 3) is facilitated, the downward position of the auxiliary pressure block (c 4) changes, and the downward pressure is better applied to the bottom of the deformation ring (a 33), so that the downward pulling force of the arc rod (a 31) by the deformation ring (a 33) is increased, the transverse plate (a 2) is conveniently pulled back to be contracted, and the arc block (c 1) is reversely driven to fold, so that the movable body (332) can generate deformation activity while rotating, and the touch head (a 4) can continuously collide the inner side of the adsorption port (32);

through the good contraction and extrusion deformation force of the elastic block (a 41), the auxiliary swing block (a 42) swings along with the extrusion of the connecting plate (a 1) during folding, the solid block (q 1) swings to enable the rolling ball (q 3) to roll in the groove cavity (q 2), the inner diameters of the groove cavities (q 2) are different, the outer ring block (q 31) is convenient to be pressed against different outer side pressing forces, expansion and contraction activities are carried out under the telescopic matching of the penetrating rod (q 32), the eccentric ball (q 33) is enabled to penetrate through the penetrating rod (q 32) to displace through the rolling, the bottom of the outer ring block (q 31) can be pressed along with the rolling of the outer ring block (q 31), the gravity of the rolling ball (q 3) is the maximum when the solid block (q 1) tends to be horizontally arranged, the side end face of the solid block (q 1) is in clearance fit with the inner side face of the adsorption port (32), the vibration force generated by the vibration ring (q 4) under the action is enabled to continuously act on the adsorption port (32), the adsorption of substances, and the outer end face of the inertial gas flow is further enabled to be separated from the lower end face of the auxiliary orifice (32) and the adsorption port, and the attachment of the auxiliary gas flow port (32) can be carried on the attachment port.