CN212467631U

CN212467631U - Anesthesia waste gas rapid treatment device

Info

Publication number: CN212467631U
Application number: CN202020074549.6U
Authority: CN
Inventors: 陈建颜; 王茜; 涂平花
Original assignee: First Affiliated Hospital of Guangdong Pharmaceutical University
Current assignee: First Affiliated Hospital of Guangdong Pharmaceutical University
Priority date: 2020-01-14
Filing date: 2020-01-14
Publication date: 2021-02-05
Anticipated expiration: 2030-01-14

Abstract

The utility model provides a quick treatment device for anesthetic waste gas. The device for quickly treating the anesthetic waste gas comprises a device shell, an air pump, an air inlet pipe, supporting legs, a water pump and a water outlet pipe, wherein the number of the supporting legs is two, the two supporting legs are symmetrically and fixedly arranged on the lower end face of the device shell, the air inlet pipe is fixedly arranged at the left end of the device shell, the water outlet pipe is fixedly arranged at the right end of the bottom of the device shell, the air pump is fixedly arranged on the air inlet pipe, and the water pump is fixedly arranged on the water outlet pipe; first processing structure, first processing structure fixed mounting is in device shell inner wall, first processing structure left end with intake pipe fixed mounting and intercommunication, the utility model discloses degree of automation is high, can realize multiple clearance, and the clearance is effectual, and easy operation, and the practicality is high.

Description

Anesthesia waste gas rapid treatment device

Technical Field

The utility model relates to the field of medical treatment, especially, relate to a anesthesia waste gas rapid treatment device.

Background

The anesthesia department is an important part in the medical field at present, before almost all operations, patients need to be subjected to general or local anesthesia by isoflurane group, bifluorane group and the like commonly used in the anesthesia department, the boiling point of the isoflurane group and the bifluorane group is low, the isoflurane group and the bifluorane group are evaporated into gaseous state through an evaporator and are conveyed to the patients along with oxygen, so that the pain of the patients in the operations is relieved, but the gases are inhaled into the bodies of the patients through a breathing mask, the anesthetic gases cannot be completely absorbed, and the mixed gases of carbon dioxide and the anesthetic gases exhaled by the patients can be diffused to an operating room, so that the health of medical personnel is. However, the traditional anesthesia waste gas rapid treatment device has the advantages of simple structure, low treatment efficiency, low automation degree, incapability of realizing multiple treatment and poor treatment effect.

Therefore, there is a need to provide a new device for rapidly treating anesthetic waste gas to solve the above-mentioned technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automation degree is high, can realize multiple clearance, and the clearance is effectual, and easy operation, the high anesthesia waste gas rapid processing device of practicality.

In order to solve the technical problem, the utility model provides an anesthesia waste gas rapid processing device includes: the device comprises a device shell, an air pump, an air inlet pipe, two supporting legs, a water pump and a water outlet pipe, wherein the two supporting legs are symmetrically and fixedly arranged on the lower end face of the device shell; the first processing structure is fixedly arranged on the inner wall of a device shell, the left end of the first processing structure is fixedly arranged and communicated with the air inlet pipe, the first processing structure comprises a motor, an output shaft, a first bevel gear, a driving shaft, a second bevel gear, a first activated carbon adsorption plate and a first shell, the first shell is fixedly arranged on the inner wall of the device shell, the motor is fixedly arranged at the top end in the first shell, one end of the output shaft is fixedly connected with the motor spindle, the other end of the output shaft is fixedly provided with the first bevel gear, the right end of the first bevel gear is meshed with the second bevel gear, the second bevel gear is fixedly arranged on the driving shaft, the first activated carbon adsorption plate is provided with two first activated carbon adsorption plates, and the two first activated carbon adsorption plates are symmetrically and fixedly arranged at the left end and the right end of the driving shaft, the two first activated carbon adsorption plates are connected with the inner wall of the first shell in a sliding mode, the two second activated carbon adsorption plates are fixedly installed on the inner wall of the first shell, and the two first activated carbon adsorption plates are located between the two second activated carbon adsorption plates; and the second processing structure is fixedly arranged on the inner wall of the device shell.

Preferably, the second processing structure comprises an air outlet pipe, a second shell, a connecting pipe, cleaning water, a spray head, an air outlet pipe, third activated carbon adsorption plates, a water tank and a water feeding pipe, the second shell is fixedly connected with the inner wall of the device shell, the left end of the second shell is communicated with the first shell through a communicating pipe, the right end of the second shell is fixedly installed and communicated with the air outlet pipe, the right end of the air outlet pipe penetrates through the device shell, two third activated carbon adsorption plates are fixedly installed on the inner wall of the second shell, the air outlet pipe and the air inlet pipe are both positioned above the third activated carbon adsorption plates, the right end of the device shell is fixedly installed and communicated with the water outlet pipe, the water outlet pipe is positioned below the third activated carbon adsorption plates, the water tank is fixedly installed at the upper end of the device shell, and the cleaning water is arranged in the water tank, the water tank lower extreme fixed mounting and intercommunication have three connecting pipe, three the connecting pipe lower extreme passes device shell and second shell in proper order to inside extending to the second shell, and the equal fixed mounting of lower extreme has the shower nozzle.

Preferably, the driving shaft is fixedly sleeved with a mounting bearing, and the mounting bearing is fixedly connected with the inner wall of the device shell through a fixing rod.

Preferably, a sealing rubber ring is arranged between the two first activated carbon adsorption plates and the inner wall of the first shell.

Preferably, the upper end of the water tank is fixedly provided with a water adding pipe.

Compared with the prior art, the utility model provides an anesthesia waste gas rapid treatment device has following beneficial effect:

the utility model provides a device for rapidly treating anesthetic waste gas, which can realize preliminary cleaning treatment of waste gas by arranging a first treatment structure, and has high automation degree and good cleaning effect; through being provided with the second and handling the structure, can realize carrying out secondary treatment to waste gas, further handle waste gas, the treatment effect is better. The utility model discloses degree of automation is high, can realize multiple clearance, and the clearance is effectual, and easy operation, and the practicality is high.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of a device for rapidly treating anesthetic waste gas according to the present invention;

FIG. 2 is a schematic diagram of the first processing structure shown in FIG. 1;

FIG. 3 is a schematic diagram of a second processing structure shown in FIG. 1.

Reference numbers in the figures: 1. device shell, 2, first processing structure, 21, motor, 22, output shaft, 23, first conical gear, 24, drive shaft, 25, second conical gear, 26, installation bearing, 27, first active carbon adsorption board, 28, second active carbon adsorption board, 29, first shell, 3, air pump, 4, intake pipe, 5, communicating pipe, 6, supporting leg, 7, water pump, 8, outlet pipe, 9, second processing structure, 91, outlet pipe, 92, second shell, 93, connecting pipe, 94, water for cleaning, 95, shower nozzle, 96, third active carbon adsorption board, 97, water tank, 98, filler pipe.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2 and fig. 3 in combination, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of the device for rapidly treating anesthetic waste gas according to the present invention; FIG. 2 is a schematic diagram of the first processing structure shown in FIG. 1; FIG. 3 is a schematic diagram of a second processing structure shown in FIG. 1. Anesthesia waste gas rapid processing apparatus includes: device shell 1, air pump 3, intake pipe 4, supporting leg 6, water pump 7, outlet pipe 8, first processing structure 2 and second processing structure 9, supporting leg 6 is equipped with two, two 6 symmetry fixed mounting of supporting leg are on the terminal surface under the device shell 1, 4 fixed mounting in intake pipe 4 the 1 left end of device shell, 8 fixed mounting in outlet pipe 8 the right-hand member in 1 bottom of device shell, fixed mounting is in on the intake pipe 4 air pump 3, fixed mounting is in on the outlet pipe 8

water pump

7, 2 fixed mounting in 1 inner wall of device shell of first processing structure, 2 left ends of first processing structure with 4 fixed mounting of intake pipe and intercommunication, 9 fixed mounting of second processing structure in 1 inner wall of device shell.

In a specific implementation process, as shown in fig. 1 and fig. 2, the first processing structure 2 includes a motor 21, an output shaft 22, a first bevel gear 23, a driving shaft 24, a second bevel gear 25, a first activated carbon adsorption plate 27, and a first housing 29, the first housing 29 is fixedly mounted on an inner wall of the device housing 1, the motor 21 is fixedly mounted at a top end inside the first housing 29, one end of the output shaft 22 is fixedly connected with a main shaft of the motor 21, the other end of the output shaft 22 is fixedly mounted with the first bevel gear 23, a right end of the first bevel gear 23 is engaged with the second bevel gear 25, the second bevel gear 25 is fixedly mounted on the driving shaft 24, the first activated carbon adsorption plate 27 is provided with two, the two first activated carbon adsorption plates 27 are symmetrically and fixedly mounted at left and right ends of the driving shaft 24, two first active carbon adsorption board 27 all with first shell 29 inner wall sliding connection, first shell 29 inner wall fixed mounting has two second active carbon adsorption board 28, and two first active carbon adsorption board 27 all is located two between the second active carbon adsorption board 28.

Referring to fig. 1 and 3, the second treatment structure 9 includes an air outlet pipe 91, a second housing 92, a connecting pipe 93, cleaning water 94, a spray head 95, an air outlet pipe 91, a third activated carbon adsorption plate 96, a water tank 97 and a water feeding pipe 98, the second housing 92 is fixedly connected with the inner wall of the device housing 1, the left end of the second housing 92 is communicated with the first housing 29 through a communicating pipe 5, the air outlet pipe 91 is fixedly installed and communicated at the right end of the second housing 92, the right end of the air outlet pipe 91 penetrates through the device housing 1, the inner wall of the second housing 92 is fixedly installed with two third activated carbon adsorption plates 96, the air outlet pipe 91 and the air inlet pipe 4 are both located above the third activated carbon adsorption plates 96, the right end of the device housing 1 is fixedly installed and communicated with the water outlet pipe 8, the water outlet pipe 8 is located below the third activated carbon adsorption plates 96, the water tank 97 is fixedly installed at the upper end of the device shell 1, the cleaning water 94 is arranged in the water tank 97, the lower end of the water tank 97 is fixedly installed and communicated with three connecting pipes 93, the lower ends of the connecting pipes 93 sequentially penetrate through the device shell 1 and the second shell 92 and extend into the second shell 92, and the lower ends of the connecting pipes are all fixedly installed with spray heads 95.

Referring to fig. 2, the driving shaft 24 is fixedly sleeved with a mounting bearing 26, and the mounting bearing 26 is fixedly connected with the inner wall of the device housing 1 through a fixing rod.

Referring to fig. 2, a sealing rubber ring is arranged between two first activated carbon adsorption plates 27 and the inner wall of the first housing 29.

Referring to fig. 1, a water feeding pipe 98 is fixedly installed at the upper end of the water tank 97.

The utility model provides an anesthesia waste gas rapid processing device's theory of operation as follows:

when the device is used, firstly, the air pump 3 is started, the air pump 3 sucks waste gas into the first shell 29 through an air pipe during work, and a worker starts the motor 21, the motor 21 drives the output shaft 22 to rotate during work, the rotating output shaft 22 drives the first bevel gear 23 to rotate, the rotating first bevel gear 23 drives the second bevel gear 25 to rotate, the rotating second bevel gear 25 drives the driving shaft 24 to rotate, the rotating driving shaft 24 drives the first activated carbon adsorption plate 27 to rotate, further the first activated carbon adsorption plate 27 and the second activated carbon adsorption plate 28 can fully absorb and purify the waste gas, the waste gas enters the second shell 92 through the communicating pipe 5, the worker starts the spray head 95, the spray head 95 works to spray cleaning water 94 in the water tank 97 through the spray head 95, the sprayed cleaning water 94 can realize spraying treatment of the waste gas, and the sprayed sewage falls into the bottom end inside the second shell 92 after being purified through the third activated carbon adsorption plate 96 The purified waste gas is discharged through the gas outlet pipe 91, and the water pump 7 is started to discharge the sewage through the water outlet pipe 8.

the utility model provides a device for rapidly treating anesthetic waste gas, which can realize preliminary cleaning treatment of waste gas by arranging a first treatment structure 2, and has high automation degree and good cleaning effect; through being provided with second processing structure 9, can realize carrying out secondary treatment to waste gas, further handle waste gas, the treatment effect is better. The utility model discloses degree of automation is high, can realize multiple clearance, and the clearance is effectual, and easy operation, and the practicality is high.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims

1. A device for rapidly treating anesthetic waste gas, comprising:

the device comprises a device shell (1), an air pump (3), an air inlet pipe (4), supporting legs (6), a water pump (7) and a water outlet pipe (8), wherein the number of the supporting legs (6) is two, the two supporting legs (6) are symmetrically and fixedly arranged on the lower end face of the device shell (1), the air inlet pipe (4) is fixedly arranged at the left end of the device shell (1), the water outlet pipe (8) is fixedly arranged at the right end of the bottom of the device shell (1), the air pump (3) is fixedly arranged on the air inlet pipe (4), and the water pump (7) is fixedly arranged on the water outlet pipe (8);

a first processing structure (2), the first processing structure (2) is fixedly installed on the inner wall of the device shell (1), the left end of the first processing structure (2) is fixedly installed and communicated with the air inlet pipe (4), the first processing structure (2) comprises a motor (21), an output shaft (22), a first bevel gear (23), a driving shaft (24), a second bevel gear (25), a first activated carbon adsorption plate (27) and a first shell (29), the first shell (29) is fixedly installed on the inner wall of the device shell (1), the motor (21) is fixedly installed at the top end inside the first shell (29), one end of the output shaft (22) is fixedly connected with a main shaft of the motor (21), the other end of the output shaft (22) is fixedly installed with the first bevel gear (23), the right end of the first bevel gear (23) is meshed with the second bevel gear (25), the second bevel gear (25) is fixedly mounted on the driving shaft (24), two first activated carbon adsorption plates (27) are arranged, the two first activated carbon adsorption plates (27) are symmetrically and fixedly mounted at the left end and the right end of the driving shaft (24), the two first activated carbon adsorption plates (27) are in sliding connection with the inner wall of the first shell (29), two second activated carbon adsorption plates (28) are fixedly mounted on the inner wall of the first shell (29), and the two first activated carbon adsorption plates (27) are located between the two second activated carbon adsorption plates (28);

and the second processing structure (9), wherein the second processing structure (9) is fixedly arranged on the inner wall of the device shell (1).

2. The anesthesia waste gas rapid treatment device according to claim 1, wherein the second treatment structure (9) comprises an air outlet pipe (91), a second shell (92), a connecting pipe (93), cleaning water (94), a spray head (95), an air outlet pipe (91), third activated carbon adsorption plates (96), a water tank (97) and a water feeding pipe (98), the second shell (92) is fixedly connected with the inner wall of the device shell (1), the left end of the second shell (92) is communicated with the first shell (29) through a communicating pipe (5), the right end of the second shell (92) is fixedly installed and communicated with the air outlet pipe (91), the right end of the air outlet pipe (91) penetrates through the device shell (1), the inner wall of the second shell (92) is fixedly installed with the two third activated carbon adsorption plates (96), and the air outlet pipe (91) and the air inlet pipe (4) are both located above the third activated carbon adsorption plates (96), device shell (1) right-hand member with outlet pipe (8) fixed mounting and intercommunication, outlet pipe (8) are located third activated carbon adsorption board (96) below, water tank (97) fixed mounting in device shell (1) upper end, be provided with in water tank (97) clearance water (94), water tank (97) lower extreme fixed mounting and intercommunication have three connecting pipe (93), and are three connecting pipe (93) lower extreme passes device shell (1) and second shell (92) in proper order to extend to inside second shell (92), and the equal fixed mounting of lower extreme has shower nozzle (95).

3. The device for rapidly treating the anesthetic waste gas as claimed in claim 1, wherein the driving shaft (24) is fixedly sleeved with a mounting bearing (26), and the mounting bearing (26) is fixedly connected with the inner wall of the device housing (1) through a fixing rod.

4. The device for rapidly processing the anesthetic waste gas as claimed in claim 1, characterized in that a sealing rubber ring is arranged between the two first activated carbon adsorption plates (27) and the inner wall of the first housing (29).

5. The device for rapidly treating the anesthetic waste gas as claimed in claim 2, wherein a water adding pipe (98) is fixedly installed at the upper end of the water tank (97).