CN113101777B

CN113101777B - Intelligent air treatment device for biological laboratory

Info

Publication number: CN113101777B
Application number: CN202010073035.3A
Authority: CN
Inventors: 张克兵; 李晓慧
Original assignee: Shandong Oupu Branch Trade Co ltd
Current assignee: Shandong Oupu Branch Trade Co ltd
Priority date: 2020-01-12
Filing date: 2020-01-12
Publication date: 2023-04-11
Anticipated expiration: 2040-01-12
Also published as: CN113101777A

Abstract

The invention discloses an intelligent air treatment device for a biological laboratory, which comprises a quadrangular base, wherein the inside of the quadrangular base is of a hollow structure, a purification barrel is arranged inside the quadrangular base, a first air duct is arranged in the purification barrel, and air outlets communicated with the inside of the purification barrel are formed in two sides of the top of the quadrangular base; the first air duct penetrates through the side wall of the quadrangular base to be connected with an air outlet of an air pump, the air pump is fixed on a motor fixing plate, the motor fixing plate is connected with the side wall of the quadrangular base, and an air inlet of the air pump is connected with a second air duct; the top of the quadrangular base is coaxially provided with a first supporting guide rod, the top of the first supporting guide rod is horizontally connected with a strip-shaped connecting seat, and the other end of the strip-shaped connecting seat is provided with a mounting hole. The waste gas treatment device can be used for collecting and storing the skin cloth, does not occupy space, is convenient to move, and can be moved to a place where an experiment is carried out.

Description

Intelligent air treatment device for biological laboratory

Technical Field

The invention relates to the technical field of waste gas treatment, in particular to an intelligent air treatment device for a biological laboratory.

Background

When doing biological assay, can produce waste gas sometimes, if biological assay is going on at indoor, waste gas will get into the room, influences operator's health, and the most fairly simple of traditional exhaust-gas treatment inhales can not be strong, inconvenient removal, for this reason, we propose a biological laboratory with intelligent air treatment device.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides an intelligent air treatment device for a biological laboratory.

In order to achieve the purpose, the invention adopts the following technical scheme: an intelligent air treatment device for a biological laboratory comprises a quadrangular base, wherein the inside of the quadrangular base is of a hollow structure, a purification barrel is arranged inside the quadrangular base, a first air guide pipe is arranged in the purification barrel, and air outlets communicated with the inside of the purification barrel are formed in two sides of the top of the quadrangular base; the first air duct penetrates through the side wall of the quadrangular base to be connected with an air outlet of an air pump, the air pump is fixed on a motor fixing plate, the motor fixing plate is connected with the side wall of the quadrangular base, and an air inlet of the air pump is connected with a second air duct;

the top of the quadrangular base is coaxially provided with a first supporting guide rod, the top of the first supporting guide rod is horizontally connected with a strip-shaped connecting seat, the other end of the strip-shaped connecting seat is provided with an installation opening, the installation opening is connected with a rotating seat through a rotating shaft, the other side of the rotating seat is connected with a strip-shaped installation seat, the top of the strip-shaped installation seat is provided with an oil cylinder fixing seat, and the oil cylinder fixing seat is connected with a first driving oil cylinder;

the lower end of the strip-shaped mounting seat is coaxially connected with a second supporting guide rod, a guide ring is sleeved on the second supporting guide rod, the upper end of the guide ring is connected with the bottom of the first driving oil cylinder, the bottom of the guide ring is coaxially connected with a second mounting disc, and the second mounting disc penetrates through the second supporting guide rod;

the bottom of each second supporting guide rod is coaxially connected with a first mounting disc, a plurality of rotating grooves which are arranged at equal intervals are formed in the surfaces, away from the second supporting guide rods, of the first mounting disc and the surfaces, away from the second supporting guide rods, of the first mounting disc, rotating connectors are connected with the rotating grooves on the first mounting disc through rotating shafts, the top surfaces of the bottoms of the rotating connectors are connected with first U-shaped connecting pieces, the lower ends of the rotating connectors are connected with arc-shaped supporting tubes, the concave surfaces of the arc-shaped supporting tubes are arranged towards a quadrangular base, the bottom of the concave surface of each arc-shaped supporting tube is connected with a plurality of air inlets which are arranged at equal intervals, and the top of each arc-shaped supporting tube is connected with an air inlet connector; the air inlet connecting heads are connected with third guide pipes, and the third guide pipes are connected with a second air guide pipe through a multi-tap;

connecting arms are arranged in the rotating grooves on the second mounting disc through rotating shafts, and the other ends of the connecting arms are respectively arranged in the first U-shaped connecting pieces and are mounted together through the rotating shafts;

all the top surface of arc stay tube is covered with one deck skin cloth, is connected between skin cloth and the arc stay tube, the gas connector runs through and goes out from skin cloth.

Preferably, the V-shaped supports are installed at the bottoms of four edges and corners of the quadrangular base, the opening angle of each V-shaped support is not smaller than that of each V-shaped support, the bottoms of the V-shaped supports are located below the bottom surface of the quadrangular base, and the tail ends of the V-shaped supports are provided with brake universal wheels.

Preferably, a baffle is arranged at the position, close to the opening, of the bottom of the inner cavity of the quadrangular base, the baffle is used for blocking the purification barrel, a sealing door is hinged to the opening of the inner cavity of the quadrangular base, and the other side of the sealing door is connected with the quadrangular base through a built-in lock.

Preferably, a sound insulation shell for covering the air suction pump is mounted on the motor fixing plate.

Preferably, the first supporting guide rod is inserted into the supporting guide pipe, a third driving oil cylinder is installed at the bottom in the supporting guide pipe, the supporting guide pipe and the third driving oil cylinder are fixed, the supporting guide pipe is fixedly connected to the top surface of the quadrangular base, an oil inlet of the third driving oil cylinder is connected to a corresponding position and penetrates through the supporting guide pipe, and the top of the third driving oil cylinder is fixedly connected with the first supporting guide rod.

Preferably, the surface of the second support guide rod is connected with a bar key parallel to the axis of the second support guide rod, and the inner surface of the guide ring is provided with a key groove matched with the bar key.

Preferably, a second driving oil cylinder is arranged between the bottom of the bar-shaped mounting seat and the first supporting guide rod, two ends of the second driving oil cylinder are respectively arranged on the second U-shaped connecting piece, one of the second U-shaped connecting pieces is connected to the first supporting guide rod, and the other second U-shaped connecting piece is connected with the bottom of the bar-shaped mounting seat.

Preferably, the top position of purifying barrel is equipped with scale prompt line.

Preferably, the bottom of the quadrangular base is fixedly connected with a weight.

When a first driving oil cylinder is shortened, a second mounting disc drives a connecting arm to lift upwards, the connecting arm pulls a first U-shaped connecting piece to move upwards, an arc-shaped supporting tube is pulled to a horizontal position, skin cloth is unfolded, an air pump is started, air flow in the skin cloth enters the air pump along a third guide pipe and a second air guide pipe, waste gas is fed into a purification barrel through the air pump, the purification barrel is filled with a washing liquid for purifying the waste gas, the waste gas is cleaned, and the purified waste gas directly flows out through an air outlet; when the device is not used, the first driving oil cylinder is only required to be controlled to extend, the connecting arm and the arc-shaped supporting tube are made to descend, the arc-shaped supporting tube is gathered together, and the device is convenient to store. The waste gas treatment device can be used for collecting and storing the skin cloth, does not occupy space, is convenient to move, and can be moved to a place where an experiment is carried out.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of an intelligent air treatment device for a biological laboratory according to the present invention.

Fig. 2 is a schematic partial structural diagram of an intelligent air treatment device for a biological laboratory according to the present invention.

Fig. 3 is a schematic structural diagram of the skin cloth installed on the intelligent air treatment device for the biological laboratory.

Labeled as: the air suction device comprises a quadrangular base 1, a purification barrel 2, a V-shaped support 3, a baffle 4, a brake universal wheel 5, an air suction pump 6, a sound insulation shell 7, an air outlet 8, a first air duct 9, a support guide pipe 10, a second air duct 11, a first support guide rod 12, a strip-shaped connecting seat 13, a mounting port 14, a strip-shaped mounting seat 15, an oil cylinder fixing seat 16, a first driving oil cylinder 17, a strip-shaped key 18, a guide ring 19, an air inlet connecting head 20, a scale prompt line 21, an air inlet 22, a heavy block 23, a first mounting disc 24, a third guide pipe 25, a second mounting disc 26, a second support guide rod 27, a second driving oil cylinder 28, a sealing door 29, a first U-shaped connecting piece 30, a skin cloth 31, a rotating groove 32, a motor fixing plate 33, a rotating seat 34, a rotating connecting head 35, an arc-shaped support pipe 36, a connecting arm 37 and a second U-shaped connecting piece 38.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

The structural features of the present invention will now be described in detail with reference to the accompanying drawings.

Referring to fig. 1-3, an intelligent air treatment device for a biological laboratory comprises a quadrangular base 1, wherein the quadrangular base 1 is of a hollow structure, a purification barrel 2 is arranged inside the quadrangular base 1, a first air duct 9 is arranged in the purification barrel 2, and air outlets 8 communicated with the inside are formed in two sides of the top of the quadrangular base 1; the first air duct 9 penetrates through the side wall of the quadrangular base 1 and is connected with an air outlet of the air extracting pump 6, the air extracting pump 6 is fixed on a motor fixing plate 33, the motor fixing plate 33 is connected with the side wall of the quadrangular base 1, and an air inlet of the air extracting pump 6 is connected with a second air duct 11;

the top of the quadrangular base 1 is coaxially provided with a first supporting guide rod 12, the top of the first supporting guide rod 12 is horizontally connected with a strip-shaped connecting seat 13, the other end of the strip-shaped connecting seat 13 is provided with an installation opening 14, the installation opening 14 is internally connected with a rotating seat 34 through a rotating shaft, the other side of the rotating seat 34 is connected with a strip-shaped installation seat 15, the top of the strip-shaped installation seat 15 is provided with an oil cylinder fixing seat 16, and the oil cylinder fixing seat 16 is connected with a first driving oil cylinder 17;

a second supporting guide rod 27 is coaxially connected to the lower end of the bar-shaped mounting seat 15, a guide ring 19 is sleeved on the second supporting guide rod 27, the upper end of the guide ring 19 is connected with the bottom of the first driving oil cylinder 17, the bottom of the guide ring 19 is coaxially connected with a second mounting disc 26, and the second mounting disc 26 penetrates through the second supporting guide rod 27; specifically, when the first driving cylinder 17 extends or shortens, the second mounting plate 26 can be driven to slide up and down along the second supporting guide rod 27;

the bottom of the second supporting guide rod 27 is coaxially connected with a first mounting disc 24, a plurality of rotating grooves 32 which are arranged at equal intervals are formed in 180-degree surfaces, far away from the second supporting guide rod 27, of the first mounting disc 24 and the first mounting disc 24, rotating connectors 35 are connected in the rotating grooves 32 on the first mounting disc 24 through rotating shafts, the top surfaces of the bottoms of the rotating connectors 35 are connected with first U-shaped connecting pieces 30, the lower ends of the rotating connectors 35 are connected with arc-shaped supporting tubes 36, concave surfaces of the arc-shaped supporting tubes 36 are arranged towards the quadrangular base 1, the bottoms of the concave surfaces of the arc-shaped supporting tubes 36 are connected with a plurality of air inlets 22 which are arranged at equal intervals, and the tops of the arc-shaped supporting tubes 36 are connected with air inlet connectors 20; the air inlet connectors 20 are all connected with third guide pipes 25, and the third guide pipes 25 are connected with the second air guide pipes 11 through multi-tap joints;

connecting arms 37 are respectively arranged in the rotating grooves 32 on the second mounting plate 26 through rotating shafts, and the other ends of the connecting arms 37 are respectively arranged in the first U-shaped connecting piece 30 and are arranged together through the rotating shafts;

the top surfaces of all the arc-shaped supporting pipes 36 are covered with a layer of covering cloth 31, the covering cloth 31 is connected with the arc-shaped supporting pipes 36, and the air connectors 20 penetrate through the covering cloth 31 and then are led out.

Specifically, when the first driving oil cylinder 17 extends or shortens, the second mounting plate 26 slides up and down along the second supporting guide rod 27, when the first driving oil cylinder 17 shortens, the second mounting plate 26 drives the connecting arm 37 to lift up, the connecting arm 37 pulls the first U-shaped connecting piece 30 and moves upwards, so that the arc-shaped supporting tube 36 is pulled to a horizontal position, so that the cover cloth is unfolded, as shown in fig. 3, the whole exhaust gas treatment device can be placed in front of a workbench surface for an experiment, the cover cloth 31 is just placed above the workbench, the air suction pump 6 is started, air flow in the cover cloth can enter the air suction pump 6 along the third conduit 25 and the second air duct 11, the exhaust gas is fed into the purification barrel 2 through the air suction pump 6, the purification barrel 2 is provided with a cleaning solution for purifying the exhaust gas, the exhaust gas is cleaned, and the purified exhaust gas directly flows out through the air outlet 8;

when the device is not used, the first driving oil cylinder 17 is only required to be controlled to extend, the connecting arm 37 and the arc-shaped supporting tube 36 are lowered, and the arc-shaped supporting tube 36 is gathered together, so that the device is convenient to store.

Further, as shown in fig. 1 to 3, V-shaped brackets 3 are mounted at the bottoms of four edges of the quadrangular base 1, the opening angle of each V-shaped bracket 3 is not less than 110 °, the bottom of each V-shaped bracket 3 is located below the bottom surface of the quadrangular base 1, and a brake universal wheel 5 is mounted at the tail end of each V-shaped bracket 3.

Further, as shown in fig. 1, a baffle 4 is installed at a position close to an opening at the bottom of an inner cavity of the quadrangular base 1, the baffle 4 is used for blocking the purification barrel 2, a sealing door 29 is hinged at the opening of the inner cavity of the quadrangular base 1, and the other side of the sealing door 29 is connected with the quadrangular base 1 through a built-in lock.

Specifically, baffle 4 can block purification bucket 2, prevents that purification bucket 2 from taking place to rock at the in-process that removes.

Further, as shown in fig. 1, the motor fixing plate 33 is provided with a sound insulation casing 7 covering the air pump 6, and the sound insulation casing 7 can insulate the sound emitted by the air pump 6, thereby reducing noise interference.

Further, the first supporting guide rod 12 is inserted into the supporting guide pipe 10, a third driving oil cylinder is installed at the bottom in the supporting guide pipe 10, the supporting guide pipe 10 and the third driving oil cylinder are fixed, the supporting guide pipe 10 is fixedly connected to the top surface of the quadrangular base 1, an oil inlet of the third driving oil cylinder is connected to the supporting guide pipe 10 in a penetrating mode, and the top of the third driving oil cylinder is fixedly connected with the first supporting guide rod 12. The third driving oil cylinder is drawn in the drawing, the third driving oil cylinder is installed inside the supporting guide pipe 10, no influence is drawn on the scheme, and the third driving oil cylinder can drive the first supporting guide rod 12 to lift, so that the height of the covering cloth is adjusted.

Further, as shown in fig. 1, a bar key 18 parallel to the axis of the second support guide rod 27 is connected to the surface of the second support guide rod 27, and a key groove matching with the bar key 18 is formed on the inner surface of the guide ring 19, so that the guide ring 19 can move more stably.

Further, a second driving oil cylinder 28 is arranged between the bottom of the bar-shaped mounting seat 15 and the first supporting guide rod 12, two ends of the second driving oil cylinder 28 are respectively arranged on the second U-shaped connecting pieces 38, one of the second U-shaped connecting pieces 38 is connected to the first supporting guide rod 12, and the other second U-shaped connecting piece 38 is connected to the bottom of the bar-shaped mounting seat 15. The inclination of the cover cloth 31 can be adjusted by the extension and contraction of the second driving cylinder 28.

Further, a scale indication line 21 is provided at the top position of the purification barrel 2, and the scale indication line 21 is the maximum value of the purified liquid in the purification barrel 2.

Furthermore, the weight 23 is fixedly connected to the bottom of the quadrangular base 1, so that the quadrangular base 1 is stable and cannot fall back.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. An intelligent air treatment device for a biological laboratory comprises a quadrangular base (1), and is characterized in that the quadrangular base (1) is of a hollow structure, a purification barrel (2) is arranged in the quadrangular base (1), a first air duct (9) is arranged in the purification barrel (2), and air outlets (8) communicated with the inside of the quadrangular base (1) are formed in two sides of the top of the quadrangular base; the first air duct (9) penetrates through the side wall of the quadrangular base (1) and is connected with an air outlet of the air extracting pump (6), the air extracting pump (6) is fixed on a motor fixing plate (33), the motor fixing plate (33) is connected with the side wall of the quadrangular base (1), and an air inlet of the air extracting pump (6) is connected with a second air duct (11);

a first supporting guide rod (12) is coaxially arranged at the top of the quadrangular base (1), the top of the first supporting guide rod (12) is horizontally connected with a strip-shaped connecting seat (13), the other end of the strip-shaped connecting seat (13) is provided with a mounting port (14), the inside of the mounting port (14) is connected with a rotating seat (34) through a rotating shaft, the other side of the rotating seat (34) is connected with a strip-shaped mounting seat (15), an oil cylinder fixing seat (16) is arranged at the top of the strip-shaped mounting seat (15), and a first driving oil cylinder (17) is connected onto the oil cylinder fixing seat (16);

the lower end of the strip-shaped mounting seat (15) is coaxially connected with a second supporting guide rod (27), a guide ring (19) is sleeved on the second supporting guide rod (27), the upper end of the guide ring (19) is connected with the bottom of the first driving oil cylinder (17), the bottom of the guide ring (19) is coaxially connected with a second mounting disc (26), and the second mounting disc (26) penetrates through the second supporting guide rod (27);

the bottom of each second supporting guide rod (27) is coaxially connected with a first mounting disc (24), a plurality of rotating grooves (32) which are arranged at equal intervals are formed in the surfaces of the first mounting disc (24) and the first mounting disc (24) which are away from 180 degrees of the second supporting guide rod (27), rotating connectors (35) are connected in the rotating grooves (32) on the first mounting disc (24) through rotating shafts, the top surfaces of the bottoms of the rotating connectors (35) are connected with first U-shaped connecting pieces (30), the lower ends of the rotating connectors (35) are connected with arc-shaped supporting tubes (36), the concave surfaces of the arc-shaped supporting tubes (36) are arranged towards the quadrangular base (1), the bottoms of the concave surfaces of the arc-shaped supporting tubes (36) are connected with a plurality of air inlets (22) which are arranged at equal intervals, and the top of each arc-shaped supporting tube (36) is connected with an air inlet connector (20); the air inlet connectors (20) are connected with third guide pipes (25), and the third guide pipes (25) are connected with the second air guide pipes (11) through multi-tap joints;

connecting arms (37) are arranged in the rotating grooves (32) on the second mounting disc (26) through rotating shafts, and the other ends of the connecting arms (37) are respectively arranged in the first U-shaped connecting pieces (30) and are mounted together through the rotating shafts;

the top surfaces of all the arc-shaped supporting pipes (36) are covered with a layer of skin cloth (31), the skin cloth (31) is connected with the arc-shaped supporting pipes (36), and the air connectors (20) penetrate through the skin cloth (31) to be discharged;

the bottom of four edges of the quadrangular base (1) is provided with a V-shaped support (3), the opening angle of the V-shaped support (3) is not less than 110 degrees, the bottom of the V-shaped support (3) is positioned below the bottom surface of the quadrangular base (1), and the tail end of each V-shaped support (3) is provided with a brake universal wheel (5); the oil filter is characterized in that the first supporting guide rod (12) is inserted inside the supporting guide pipe (10), a third driving oil cylinder is installed at the bottom inside the supporting guide pipe (10), the supporting guide pipe (10) and the third driving oil cylinder are fixed, the supporting guide pipe (10) is fixedly connected to the top surface of the quadrangular base (1), the oil inlet of the third driving oil cylinder is connected to the top surface of the quadrangular base and penetrates through the supporting guide pipe (10), and the top of the third driving oil cylinder is fixedly connected with the first supporting guide rod (12).

2. The intelligent air treatment device for the biological laboratory according to claim 1, wherein a baffle (4) is installed at a position close to the opening at the bottom of the inner cavity of the quadrangular base (1), the baffle (4) is used for blocking the purification barrel (2), a sealing door (29) is hinged at the opening of the inner cavity of the quadrangular base (1), and the other side of the sealing door (29) is connected with the quadrangular base (1) through a built-in lock.

3. An intelligent air treatment device for a biological laboratory according to claim 1, wherein a sound insulation housing (7) for housing the air pump (6) is mounted on the motor fixing plate (33).

4. An intelligent air treatment device for a biological laboratory, according to claim 1, wherein a strip key (18) is connected to the surface of the second supporting guide rod (27) and is parallel to the axis of the second supporting guide rod, and a key groove matched with the strip key (18) is formed in the inner surface of the guide ring (19).

5. The intelligent air treatment device for the biological laboratory according to claim 1, wherein a second driving oil cylinder (28) is arranged between the bottom of the strip-shaped mounting seat (15) and the first supporting guide rod (12), two ends of the second driving oil cylinder (28) are respectively arranged on second U-shaped connecting pieces (38), one second U-shaped connecting piece (38) is connected to the first supporting guide rod (12), and the other second U-shaped connecting piece (38) is connected to the bottom of the strip-shaped mounting seat (15).

6. The intelligent air treatment device for the biological laboratory according to claim 1, wherein a scale prompt line (21) is arranged at the top position of the purification barrel (2).

7. The intelligent air treatment device for the biological laboratory according to claim 1, wherein a weight (23) is fixedly connected to the bottom of the quadrangular base (1).