CN214552417U - Industrial organic waste gas VOC low-temperature plasma purification equipment - Google Patents

Abstract

The utility model discloses an industrial organic waste gas VOC low temperature plasma clarification plant belongs to exhaust-gas treatment technical field, and it includes the equipment main part, the below of equipment main part is provided with the equipment base, equipment main part sliding connection is in the inside of equipment base, the lower surface of equipment main part has two first hinge bars through round pin axle swing joint. This industry organic waste gas VOC low temperature plasma clarification plant, through being provided with first buffering slider and buffering mainboard, the equipment main part takes place to rock and pushes down, the first hinge bar of both sides can drive the first elastic telescopic link of third buffering slider extrusion that corresponds, first hinge bar rotation can drive first buffering slider to slide to both sides through buffer spring, buffering mainboard rises when first buffering slider can extrude the second gyro wheel, the second elastic telescopic link at tensile middle part carries out the buffering of second time, thereby reduce the damage that vibrations caused this low temperature plasma clarification plant, thereby guarantee this low temperature plasma clarification plant's normal use.

Description

Industrial organic waste gas VOC low-temperature plasma purification equipment

Technical Field

The utility model belongs to the technical field of exhaust-gas treatment, specifically be industrial organic waste gas VOC low temperature plasma clarification plant.

Background

The basic principle of the industrial organic waste gas VOC low-temperature plasma purification equipment is as follows: under the action of an external electric field, a large amount of energy-carrying electrons generated by medium discharge bombard pollutant molecules to ionize, dissociate and excite the pollutant molecules, and then a series of complex physical and oxidation reactions are initiated to convert complex macromolecular air pollutants into simple micromolecular substances or convert toxic and harmful substances into substances which are nontoxic, harmless or low in toxicity and harm, so that the pollutants are degraded and removed sufficiently. With its mean energy of electrons formed after ionization at 10ev, proper control of the reaction criteria also keeps the chemical reactions, which are normally difficult to achieve or relatively slow, increasingly very fast.

Traditional low temperature plasma clarification plant is precision device and does not possess buffering protective structure, receives the influence of vibrations when removing and leads to inside part not hard up even damage easily to influence this low temperature plasma clarification plant's normal use.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome prior art's above-mentioned defect, the utility model provides an industry organic waste gas VOC low temperature plasma clarification plant has solved traditional low temperature plasma clarification plant and has just not possessed buffering protective structure for precision device, receives the influence of vibrations when removing and leads to inside part not hard up damage even easily to influence this low temperature plasma clarification plant's the problem of normal use.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the industrial organic waste gas VOC low-temperature plasma purification equipment comprises an equipment main body, wherein an equipment base is arranged below the equipment main body, the equipment main body is connected inside the equipment base in a sliding manner, the lower surface of the equipment main body is movably connected with two first hinged rods through a pin shaft, two first buffer sliding chutes are formed in the front surface of the inner wall of the equipment base, two third buffer sliding blocks are connected to the inner wall of each first buffer sliding chute in a sliding manner, the back surfaces of the first hinged rods are movably connected with the front surfaces of the corresponding third buffer sliding blocks through pin shafts, the right side surfaces of the third buffer sliding blocks and the right side surface arc tops of the inner walls of the first buffer sliding chutes are connected with the same first elastic telescopic rod, two second buffer sliding chutes are formed in the lower surface of the inner wall of the equipment base, the inner walls of the second buffer sliding chutes are connected with first buffer sliding blocks in a sliding manner, and the right ends of the first buffer sliding blocks and the bottom ends of the first buffer sliding chutes are movably connected with hinged blocks through pin shafts, correspond two articulated one end fixedly connected with same buffer spring that the piece is close to each other.

The upper surface of first buffering slider is the slope form, the third buffering spout has been seted up in the front of equipment base inner wall, the inner wall sliding connection of third buffering spout has the buffering mainboard, there are two second gyro wheels in the bottom of buffering mainboard through bearing swing joint, the surface of second gyro wheel closely laminates with the upper surface that corresponds first buffering slider, the upper surface sliding connection of buffering mainboard has two second buffering sliders, the upper surface of second buffering slider has the second hinge bar through round pin axle swing joint, the one end that second buffering slider was kept away from to the second hinge bar is through round pin axle swing joint at the lower surface of equipment main part, and the same second elastic telescopic link of one side fixedly connected with that two second buffering sliders are close to each other, the left and right sides face of equipment main part all is provided with the pipe connection frame.

As a further aspect of the present invention: the inside joint of pipe connection frame has the connecting pipe, spacing hole has all been seted up with the back in the front of pipe connection frame and connecting pipe.

As a further aspect of the present invention: the left side of pipeline linking frame inner wall is provided with the rubber pad, corresponds two spacing downthehole sliding connection and has same slip locking lever, corresponds the one end that two slip locking levers are close to each other and is the slope form.

As a further aspect of the present invention: the outer surface of the sliding locking rod is sleeved with a return spring, two ends of the return spring are respectively and fixedly connected to the outer surface of the pipeline connecting frame and the outer surface of the sliding locking rod, and the ends, which are far away from each other, of the two corresponding sliding locking rods are respectively movably connected with a first roller through a bearing.

As a further aspect of the present invention: the lower surface of the pipeline connecting frame is movably connected with an adjusting screw rod through a bearing, and the outer surface of the adjusting screw rod is in threaded connection with a U-shaped adjusting rod.

As a further aspect of the present invention: the lower fixed surface of pipeline connection frame is connected with two spacing telescopic links, the bottom fixed connection of spacing telescopic link is at the inner wall that corresponds U type regulation pole.

(III) advantageous effects

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. this industry organic waste gas VOC low temperature plasma clarification plant, through being provided with first hinge bar, first buffering slider and buffering mainboard, equipment main part takes place to rock and pushes down when this low temperature plasma clarification plant removes, the first hinge bar of both sides can drive the first elastic telescopic link of third buffering slider extrusion that corresponds and cushion for the first time, first hinge bar is rotatory can drive first buffering slider to slide to both sides through buffer spring, the buffering mainboard rises when first buffering slider can extrude the second gyro wheel, the second hinge bar of both sides drives second buffering slider and slides to both sides, the second elastic telescopic link at tensile middle part cushions for the second time, thereby reduce the damage that vibrations caused this low temperature plasma clarification plant, thereby guarantee this low temperature plasma clarification plant's normal use.

2. This industry organic waste gas VOC low temperature plasma clarification plant, through being provided with the slip locking pole, U type regulation pole and adjusting screw, through rotatory adjusting screw, the slip locking pole that the extrusion corresponds can rise to U type regulation pole under two spacing telescopic links spacing, the slip locking pole that makes both sides removes to the middle part, because the one end that two slip locking poles are close to each other can promote the connecting pipe for the slope form and remove the inside rubber pad of extrusion pipeline link frame to equipment main part direction, the staff of being convenient for connects the connecting pipe, improve the leakproofness between this low temperature plasma clarification plant and the connecting pipe.

3. This industry organic waste gas VOC low temperature plasma clarification plant, through being provided with first gyro wheel and reset spring, the slip locking pole that U type was adjusted the pole decline both sides can drive the slip locking pole under reset spring's reaction force and remove the fixed to the connecting pipe to both sides removal when the counter-rotating adjusting screw, through utilizing the inner wall contact reduction slip locking pole of first gyro wheel and U type to adjust the pole inner wall friction between pole inner wall with the U type, thereby the staff of being convenient for adjusts.

Drawings

Fig. 1 is a schematic structural view of a front view section of the present invention;

FIG. 2 is a schematic structural diagram of a right-side section of the pipe connection frame of the present invention;

FIG. 3 is a schematic structural view of a front section of the apparatus base of the present invention;

fig. 4 is a schematic three-dimensional structure view of the sliding locking lever of the present invention;

in the figure: 1 equipment main part, 2 equipment bases, 3 first articulated rods, 4 first buffering chutes, 5 first elastic telescopic rods, 6 articulated blocks, 7 second buffering chutes, 8 first buffering sliding blocks, 9 buffering springs, 10 third buffering chutes, 11 buffering mainboards, 12 second buffering sliding blocks, 13 second articulated rods, 14 second elastic telescopic rods, 15 pipeline connecting frames, 16 connecting pipes, 17 sliding locking rods, 18 first idler wheels, 19 reset springs, 20U-shaped adjusting rods, 21 limiting telescopic rods, 22 adjusting screw rods, 23 limiting holes, 24 third buffering sliding blocks, 25 second idler wheels.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

As shown in fig. 1-4, the utility model provides a technical scheme: industrial organic waste gas VOC low temperature plasma clarification plant, including equipment main part 1, equipment main part 1's below is provided with equipment base 2, equipment main part 1 sliding connection is in equipment base 2's inside, equipment main part 1's lower surface has two first articulated arms 3 through round pin axle swing joint, two first buffering spout 4 have been seted up in the front of equipment base 2 inner wall, the inner wall sliding connection of first buffering spout 4 has two third buffering sliders 24, the back of first articulated arm 3 is through round pin axle swing joint in the front that corresponds third buffering slider 24, the right flank of third buffering slider 24 and the right flank arc top of first buffering spout 4 inner wall are connected with same first elastic telescopic link 5, two second buffering spouts 7 have been seted up to the lower surface of equipment base 2 inner wall, the inner wall sliding connection of second buffering spout 7 has first buffering slider 8, the right-hand member of first buffering slider 8 and the bottom of first articulated arm 3 all have a piece swing joint through round pin axle swing joint 6, correspond two articulated piece 6 one end fixedly connected with same buffer spring 9 that are close to each other.

The upper surface of the first buffer slide block 8 is inclined, the first hinge rod 3 rotates to drive the first buffer slide block 8 to slide towards two sides through the buffer spring 9, the first buffer slide block 8 can extrude the second roller 25 to lift the buffer main board 11, the front surface of the inner wall of the equipment base 2 is provided with a third buffer chute 10, the inner wall of the third buffer chute 10 is slidably connected with the buffer main board 11, the bottom end of the buffer main board 11 is movably connected with two second roller 25 through a bearing, through the arrangement of the second roller 25, the friction force between the buffer main board 11 and the upper surface of the first buffer slide block 8 is reduced by utilizing the second roller 25 to improve the buffer effect, the outer surface of the second roller 25 is tightly attached to the upper surface of the corresponding first buffer slide block 8, the upper surface of the buffer main board 11 is slidably connected with two second buffer slide blocks 12, the upper surface of second buffering slider 12 has second articulated arm 13 through round pin axle swing joint, and the one end that second buffering slider 12 was kept away from to second articulated arm 13 is through round pin axle swing joint at the lower surface of equipment main part 1, and the same second elastic telescopic rod 14 of one side fixedly connected with that two second buffering sliders 12 are close to each other, and the left and right sides face of equipment main part 1 all is provided with pipeline connection frame 15.

Specifically, as shown in fig. 1, 2 and 4, a connecting pipe 16 is clamped inside a pipeline connecting frame 15, the front and back of the pipeline connecting frame 15 and the connecting pipe 16 are both provided with a limiting hole 23, a rubber pad is arranged on the left side of the inner wall of the pipeline connecting frame 15, the same sliding locking rod 17 is slidably connected in the corresponding two limiting holes 23, one end of the corresponding two sliding locking rods 17, which is close to each other, is inclined, a return spring 19 is sleeved on the outer surface of the sliding locking rod 17, by arranging the return spring 19, when an adjusting screw 22 is rotated reversely, the sliding locking rods 17 at two sides of the descending U-shaped adjusting rod 20 can drive the sliding locking rods 17 to move towards two sides under the reaction force of the return spring 19 to release the fixing of the connecting pipe 16, two ends of the return spring 19 are respectively and fixedly connected to the outer surface of the pipeline connecting frame 15 and the outer surface of the sliding locking rod 17, one end of the corresponding two sliding locking rods 17, which is far away from each other, is movably connected with a first roller 18 through a bearing, the friction between the sliding locking bar 17 and the inner wall of the U-shaped adjusting bar 20 is reduced by using the contact of the first roller 18 with the inner wall of the U-shaped adjusting bar 20, thereby facilitating the adjustment by the worker.

Specifically, as shown in fig. 1 and 2, the lower surface of the pipeline connecting frame 15 is movably connected with an adjusting screw 22 through a bearing, the outer surface thread of the adjusting screw 22 is connected with a U-shaped adjusting rod 20, the lower surface of the pipeline connecting frame 15 is fixedly connected with two limit telescopic rods 21, the bottom end of each limit telescopic rod 21 is fixedly connected to the inner wall of the corresponding U-shaped adjusting rod 20, the two limit telescopic rods 21 are arranged, the U-shaped adjusting rod 20 is limited by the aid of the two limit telescopic rods 21, the U-shaped adjusting rod 20 is prevented from rotating along with the adjusting screw 22, and therefore the worker can adjust the pipeline connecting frame conveniently.

The utility model discloses a theory of operation does:

s1, when the low-temperature plasma purification equipment moves, the equipment main body 1 shakes and presses down, the first hinge rods 3 on the two sides can drive the corresponding third buffer sliding blocks 24 to extrude the first elastic telescopic rods 5 to buffer for the first time, the first hinge rods 3 rotate to drive the first buffer sliding blocks 8 to slide towards the two sides through the buffer springs 9, the buffer main board 11 rises when the first buffer sliding blocks 8 extrude the second rollers 25, the second hinge rods 13 on the two sides drive the second buffer sliding blocks 12 to slide towards the two sides, and the second elastic telescopic rods 14 in the middle are stretched to buffer for the second time;

s2, when the connecting pipe 16 is installed, the U-shaped adjusting rods 20 can ascend and extrude the corresponding sliding locking rods 17 under the limit of the two limit telescopic rods 21 by rotating the adjusting screw rods 22, so that the sliding locking rods 17 on the two sides move towards the middle part, and because the ends, close to each other, of the two sliding locking rods 17 are inclined, the connecting pipe 16 can be pushed to move towards the equipment main body 1 to extrude the rubber pads inside the pipeline connecting frame 15;

s3, when the adjusting screw 22 is rotated reversely, the sliding locking rods 17 on both sides of the U-shaped adjusting rod 20 which is lowered will drive the sliding locking rods 17 to move to both sides under the reaction force of the return spring 19 to release the fixing of the connecting tube 16, and then the connecting tube 16 is pulled out to complete the disassembly.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (6)

1. Industrial organic waste gas VOC low temperature plasma clarification plant, including equipment main part (1), its characterized in that: an equipment base (2) is arranged below the equipment main body (1), the equipment main body (1) is connected inside the equipment base (2) in a sliding manner, the lower surface of the equipment main body (1) is movably connected with two first hinged rods (3) through pin shafts, two first buffer sliding chutes (4) are formed in the front of the inner wall of the equipment base (2), two third buffer sliding blocks (24) are connected to the inner wall of the first buffer sliding chutes (4) in a sliding manner, the back surfaces of the first hinged rods (3) are movably connected to the front surfaces of the corresponding third buffer sliding blocks (24) through pin shafts, the right side surfaces of the third buffer sliding blocks (24) and the right side surface arc top of the inner wall of the first buffer sliding chute (4) are connected with the same first elastic telescopic rod (5), and two second buffer sliding chutes (7) are formed in the lower surface of the inner wall of the equipment base (2), the inner wall of the second buffer sliding chute (7) is connected with a first buffer sliding block (8) in a sliding mode, the right end of the first buffer sliding block (8) and the bottom end of the first hinge rod (3) are both movably connected with hinge blocks (6) through pin shafts, and one end, close to each other, of each of the two hinge blocks (6) is fixedly connected with the same buffer spring (9);

the upper surface of the first buffering slide block (8) is inclined, a third buffering slide groove (10) is formed in the front of the inner wall of the equipment base (2), a buffering main board (11) is connected to the inner wall of the third buffering slide groove (10) in a sliding manner, two second idler wheels (25) are movably connected to the bottom end of the buffering main board (11) through bearings, the outer surface of each second idler wheel (25) is tightly attached to the upper surface of the corresponding first buffering slide block (8), two second buffering slide blocks (12) are connected to the upper surface of the buffering main board (11) in a sliding manner, a second hinge rod (13) is movably connected to the upper surface of each second buffering slide block (12) through a pin shaft, one end, far away from the second buffering slide blocks (12), of each second hinge rod (13) is movably connected to the lower surface of the equipment main body (1) through a pin shaft, and the same second elastic telescopic rod (14) is fixedly connected to the side, close to each other, of the two second buffering slide blocks (12), the left side face and the right side face of the equipment main body (1) are provided with pipeline connecting frames (15).

2. The industrial organic waste gas VOC low-temperature plasma purification equipment according to claim 1, characterized in that: the inside joint of pipeline linking frame (15) has connecting pipe (16), spacing hole (23) have all been seted up with the back in the front of pipeline linking frame (15) and connecting pipe (16).

3. The industrial organic waste gas VOC low-temperature plasma purification equipment according to claim 2, characterized in that: the left side face of the inner wall of the pipeline connecting frame (15) is provided with a rubber pad, the same sliding locking rod (17) is connected in the two corresponding limiting holes (23) in a sliding mode, and one end, close to each other, of each corresponding sliding locking rod (17) is inclined.

4. The industrial organic waste gas VOC low-temperature plasma purification equipment according to claim 3, characterized in that: the outer surface of the sliding locking rod (17) is sleeved with a return spring (19), two ends of the return spring (19) are respectively and fixedly connected to the outer surface of the pipeline connecting frame (15) and the outer surface of the sliding locking rod (17), and one ends, which are far away from each other, of the two corresponding sliding locking rods (17) are respectively movably connected with a first roller (18) through bearings.

5. The industrial organic waste gas VOC low-temperature plasma purification equipment according to claim 4, characterized in that: the lower surface of the pipeline connecting frame (15) is movably connected with an adjusting screw rod (22) through a bearing, and the outer surface of the adjusting screw rod (22) is in threaded connection with a U-shaped adjusting rod (20).

6. The industrial organic waste gas VOC low-temperature plasma purification equipment according to claim 5, characterized in that: the lower fixed surface of pipeline connecting frame (15) is connected with two spacing telescopic links (21), the bottom fixed connection of spacing telescopic link (21) is at the inner wall that corresponds U type regulation pole (20).

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