Disclosure of Invention
In order to overcome the defect that impurities cannot be discharged for recycling after precipitation, and further the efficiency of post-treatment of waste gas is reduced, the invention has the following technical problems: the energy-saving and environment-friendly water circulation waste gas treatment device can recycle liquid medicine and treat impurities.
The technical scheme is as follows: an energy-saving and environment-friendly water circulation waste gas treatment device comprises: a mounting frame; the cylinder is positioned on the mounting frame; the frame body is positioned on the cylinder body; the discharging pipe with the one-way valve is positioned on the frame body; the bulkhead is positioned on the cylinder body and connected with the mounting frame; the air inlet pipe is positioned on the partition frame; the shaking assembly is positioned on the mounting frame; and the spraying component is positioned between the mounting frame and the shaking component.
Furthermore, it is particularly preferred that the wobble assembly comprises: the fixed circular plate is positioned at two sides of the mounting frame; the first rotary drum is rotationally positioned between the fixed circular plates; a gear ring positioned on the first rotary drum; the gear motor is positioned on the mounting frame; the pinion is positioned on the output shaft of the gear motor and meshed with the gear ring.
Furthermore, it is particularly preferred that the spray assembly comprises: the cylinder body is positioned on the mounting frame; the sliding sleeve is slidably arranged on the cylinder body; the piston rod is slidably arranged on the cylinder body and connected with the sliding sleeve; the first spring is positioned between the piston rod and the cylinder body; the first connecting pipe is provided with a one-way valve and is positioned between the fixed circular plate at one side and the cylinder body; the second connecting pipe is provided with a one-way valve and is positioned between the bulkhead and the cylinder body; the second connecting pipe is provided with a plurality of discharging holes, at least two protruding blocks are evenly spaced and positioned on the first rotary drum, and the protruding blocks are matched with the sliding sleeve.
Furthermore, it is particularly preferred that an opening assembly is also included, the opening assembly comprising: the L-shaped guide rod is provided with a first straight hole, and the L-shaped guide rod is slidably arranged at two sides of the cylinder; the second spring is positioned between the L-shaped guide rod and the cylinder body; the trapezoid block is positioned between the L-shaped guide rods and matched with the first straight hole.
In addition, it is particularly preferred that the blanking device further comprises an insulation blanking assembly, wherein the insulation blanking assembly comprises: the rotating rod is rotatably arranged on the mounting frame; the second rotary drum is positioned on the rotary rod; the arc-shaped plate is positioned on the frame body, a second straight hole is formed in the second rotary drum, and the second straight hole is matched with the arc-shaped plate.
Furthermore, it is particularly preferred that a push-out assembly is also included, the push-out assembly comprising: the screw rods are rotatably positioned at two sides of the frame body; the push plate is positioned between the screw rods; the first common gears are positioned on the frame body in a rotating mode, and the two first common gears are respectively connected with the screw rod; the rotary disc is positioned on one of the first common gears; the third connecting pipe with the one-way valve is positioned between the frame body and the right fixed circular plate; the trapezoid block is provided with a concave groove, the bulge is positioned on the push plate, and the bulge is matched with the concave groove; the wedge block is positioned on the push plate and matched with the L-shaped guide rod.
Furthermore, it is particularly preferred that an automatic closing assembly is also included, comprising: the push rod is positioned on the push plate; the second common gear is positioned on the rotating rod; the rack is slidably arranged on the mounting frame; the third spring is positioned between the rack and the mounting frame; the vertical rod is positioned on the rack; the connecting rod is rotatably arranged between the vertical rod and the push rod.
In addition, it is particularly preferable that the upper side of the cylinder is provided with an air outlet.
The beneficial effects are that: 1. the invention is provided with an opening assembly, and the trapezoid block can be matched with the first straight hole by controlling the L-shaped guide rod to move, so that the liquid medicine can be discharged and recycled.
2. The invention has the advantages that the blanking component is isolated, the second rotary drum is enabled to rotate by controlling the rotation of the rotary rod, and then the second rotary drum is enabled to block the liquid medicine in the frame body, so that impurities and the liquid medicine can be isolated.
3. The liquid medicine feeding device is provided with the push-out assembly, and the push-out assembly is matched with the bulge through the concave groove so as to clamp the trapezoid block, so that the trapezoid block is prevented from automatically moving upwards, and then liquid medicine in the frame body can enter the first rotary drum through the third connecting pipe, and the liquid medicine can be recycled.
4. The invention has the automatic closing component, so that the rotating rod automatically rotates, and the liquid medicine with impurities is isolated without manually controlling the rotating rod.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of a first part of the present invention.
Fig. 3 is a schematic perspective view of a second part of the present invention.
Fig. 4 is a schematic perspective view of a shaking assembly according to the present invention.
Fig. 5 is a schematic perspective view of the spraying component of the present invention.
Fig. 6 is a schematic perspective view of an opening assembly according to the present invention.
Fig. 7 is a schematic perspective view of an insulation blanking component according to the present invention.
Fig. 8 is a schematic perspective view of the push-out assembly of the present invention.
Fig. 9 is a schematic perspective view of the part a of the present invention.
Fig. 10 is a schematic perspective view of the automatic closing assembly of the present invention.
Wherein the above figures include the following reference numerals: 1. the device comprises a mounting rack, 2, a cylinder body, 3, a frame body, 4, a discharging pipe, 5, a partition frame, 6, an air inlet pipe, 7, a shaking component, 71, a fixed circular plate, 72, a first rotary drum, 73, a gear ring, 74, a gear motor, 75, a pinion, 8, a medicine spraying component, 81, a cylinder body, 82, a sliding sleeve, 83, a piston rod, 84, a first spring, 85, a first connecting pipe, 86, a second connecting pipe, 87, a discharging hole, 88, a lug, 9, an opening component, 91, a first straight hole, 92, an L-shaped guide rod, 93, a second spring, 94, a trapezoid block, 10, an isolated discharging component, 101, a rotary rod, 102, a second rotary drum, 103, an arc plate, 104, a second straight hole, 11, a push component, 111, a lead screw, 112, a push plate, 113, a first common gear, 114, a rotary disc, 115, a third connecting pipe, 116, a concave groove, 117, a bulge, 118, a wedge block, 12, an automatic closing component, 121, a push rod, 122, a second common gear, 123, a rack, 124, a third spring, a third vertical rod, 125, a vertical rod, and a spring.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Example 1
The utility model provides an energy-concerving and environment-protective hydrologic cycle exhaust-gas treatment device, as shown in fig. 1-5, including mounting bracket 1, barrel 2, framework 3, discharging pipe 4, bulkhead 5, intake pipe 6, rock subassembly 7 and spout medicine subassembly 8, the downside of mounting bracket 1 is equipped with barrel 2, the downside of barrel 2 is equipped with framework 3, the downside of framework 3 is connected with and takes check valve discharging pipe 4, the middle part side of barrel 2 is equipped with bulkhead 5, bulkhead 5 is connected with mounting bracket 1, the right side of bulkhead 5 is connected with intake pipe 6, the upside of mounting bracket 1 is equipped with and rocks subassembly 7, be equipped with between the left side of mounting bracket 1 and rocks subassembly 7 and spout medicine subassembly 8.
When waste gas needs to be treated, put into the liquid medicine and shake the subassembly 7, then start and shake the subassembly 7, shake the subassembly 7 and just can drive the liquid medicine and shake, prevent that liquid medicine from depositing and influence waste gas treatment effect, shake the subassembly 7 simultaneously and when operating, can drive and spout medicine subassembly 8 and operate, and then make the liquid medicine can get into in the bulkhead 5, and then stay in barrel 2, thereby make waste gas get into in the bulkhead 5 through intake pipe 6, and then make waste gas and liquid medicine contact each other, thereby handle waste gas, can spill over from barrel 2 upside after the waste gas treatment is accomplished, the liquid medicine after the waste gas of handling just can fall into framework 3, after waste gas treatment is accomplished, close and shake the subassembly 7, the device stops the operation, then control discharging pipe 4 take out liquid medicine in the framework 3 can.
The shaking assembly 7 comprises a fixed circular plate 71, a first rotary drum 72, a gear ring 73, a gear motor 74 and a pinion 75, wherein the left side and the right side of the upper portion of the mounting frame 1 are respectively connected with the fixed circular plate 71, the first rotary drum 72 is rotatably arranged between the fixed circular plates 71, the gear ring 73 is arranged on the right side of the first rotary drum 72, the gear motor 74 is arranged on the upper side of the mounting frame 1, the pinion 75 is connected to an output shaft of the gear motor 74, and the pinion 75 is meshed with the gear ring 73.
When waste gas is required to be treated, liquid medicine is put into the first rotary drum 72, then the gear motor 74 is started, the gear motor 74 drives the pinion 75 to rotate, and then the gear ring 73 rotates, and then the first rotary drum 72 is driven to rotate, and then the liquid medicine is driven to shake, so that the waste gas treatment effect is prevented from being influenced by precipitation of the liquid medicine, and meanwhile, when the first rotary drum 72 rotates, the medicine spraying component 8 is driven to operate, and then the liquid medicine can enter the partition frame 5, and then remains in the cylinder 2, and then the waste gas is connected with the air inlet pipe 6, so that the waste gas enters the partition frame 5, and then the waste gas and the liquid medicine are mutually contacted, so that the waste gas is treated, the liquid medicine overflows from the upper side of the cylinder 2 after the waste gas treatment is finished, and then the liquid medicine after the waste gas treatment falls into the frame 3, after the waste gas treatment is finished, the gear motor 74 is closed, the device stops operating, and then the discharging pipe 4 is controlled to take the liquid medicine out from the frame 3.
The medicine spraying assembly 8 comprises a cylinder 81, a sliding sleeve 82, a piston rod 83, a first spring 84, a first connecting pipe 85, a second connecting pipe 86 and a lug 88, wherein the cylinder 81 is arranged on the left side of the installation frame 1, the sliding sleeve 82 is arranged on the cylinder 81 in a sliding mode, the piston rod 83 is connected with the sliding sleeve 82, the first spring 84 is connected between the piston rod 83 and the cylinder 81, the first connecting pipe 85 with a one-way valve is connected between the left fixed circular plate 71 and the cylinder 81, the second connecting pipe 86 with the one-way valve is connected between the partition frame 5 and the cylinder 81, a plurality of discharging holes 87 are formed in the right side of the second connecting pipe 86, four lugs 88 are uniformly arranged on the outer side of the left part of the first rotary drum 72 at intervals, and the lugs 88 are matched with the sliding sleeve 82.
When the first rotary drum 72 rotates, the protruding block 88 rotates and contacts with the sliding sleeve 82, so that the sliding sleeve 82 moves downwards, the piston rod 83 moves downwards, the first spring 84 is compressed, liquid medicine in the cylinder 81 is ejected through the second connecting pipe 86 and the ejection hole 87, waste gas is further processed, when the protruding block 88 rotates to be no longer in contact with the sliding sleeve 82, the first spring 84 rebounds to drive the piston rod 83 and the sliding sleeve 82 to move upwards to reset, the liquid medicine in the first rotary drum 72 is extracted into the cylinder 81 through the first connecting pipe 85, the process is repeated, and the waste gas is further processed continuously.
Example 2
On the basis of embodiment 1, as shown in fig. 1, 2, 6, 7, 8, 9 and 10, the utility model further comprises an opening assembly 9, the opening assembly 9 comprises an L-shaped guide rod 92, a second spring 93 and a trapezoid block 94, a first straight hole 91 is formed in the lower side of the cylinder 2, the left side and the right side of the lower part of the cylinder 2 are both connected with the L-shaped guide rod 92 in a sliding mode, a second spring 93 is connected between the L-shaped guide rod 92 and the cylinder 2, the trapezoid block 94 is welded between the upper sides of the L-shaped guide rod 92, and the trapezoid block 94 is matched with the first straight hole 91.
After the waste gas is treated by the liquid medicine, impurities can be remained in the liquid medicine, and then the liquid medicine can be precipitated downwards due to gravity, and then the liquid medicine enters the frame body 3, the second spring 93 is in a compressed state when the device is in a normal state, after the waste gas treatment is completed, the L-shaped guide rod 92 is not controlled any more, the second spring 93 rebounds to drive the L-shaped guide rod 92 to move downwards, and then the trapezoid block 94 moves downwards, so that the trapezoid block 94 blocks the first straight hole 91, the liquid medicine in the frame body 3 can be taken out through the discharging pipe 4, the L-shaped guide rod 92 can be controlled to move upwards again after the liquid medicine is taken out, the second spring 93 is compressed, and then the trapezoid block 94 moves upwards to block the first straight hole 91 no longer.
The blanking machine is characterized by further comprising an isolation blanking assembly 10, wherein the isolation blanking assembly 10 comprises a rotating rod 101, a second rotating cylinder 102 and an arc-shaped plate 103, the rotating rod 101 is rotatably connected to the lower side of the mounting frame 1, the second rotating cylinder 102 is arranged on the rotating rod 101, the arc-shaped plate 103 is arranged on the lower side of the frame body 3, a second straight-line hole 104 is formed in the upper side of the second rotating cylinder 102, and the second straight-line hole 104 is matched with the arc-shaped plate 103.
When the impurity deposits downwards, and then can get into second rotary drum 102 through the first word hole 104, when the impurity of needs clearance, control bull stick 101 rotates, and then make second rotary drum 102 rotate, when the first word hole 104 of second rotates to the downside, impurity in the second rotary drum 102 just can pour through first word hole 104 of second and arc 103, second rotary drum 102 can block the liquid medicine in the framework 3 simultaneously, thereby can isolate impurity and liquid medicine, after impurity in the second rotary drum 102 pours out, control bull stick 101 counter-rotating resets, and then make second rotary drum 102 counter-rotating reset.
The push-out device comprises a frame body 3, a push plate 111, a push plate 112, first common gears 113, a turntable 114, a third connecting pipe 115, protrusions 117 and wedge-shaped blocks 118, wherein the front side and the rear side of the inside of the frame body 3 are respectively connected with the screw rod 111 in a rotating mode, the screw rods 111 are connected with the push plate 112 through threads, the right side of the frame body 3 is respectively connected with the two first common gears 113, the outer two first common gears 113 are respectively connected with the screw rod 111, the first common gears 113 in the middle are connected with the turntable 114, a third connecting pipe 115 with a one-way valve is connected between the frame body 3 and a right fixed circular plate 71, concave grooves 116 are formed in the lower side of the trapezoid blocks 94, protrusions 117 are arranged on the push plate 112, the protrusions 117 are matched with the concave grooves 116, wedge-shaped blocks 118 are arranged on the left side of the push plate 112, and the wedge-shaped blocks 118 are matched with L-shaped guide rods 92.
When the liquid medicine in the frame body 3 needs to be recycled, the control turntable 114 rotates, the lead screws 111 on two sides are rotated through the first common gear 113, the push plate 112 is driven to move to the right side, the wedge block 118 is not contacted with the L-shaped guide rod 92 any more, the second spring 93 rebounds to drive the L-shaped guide rod 92 and the trapezoid block 94 to move downwards, the concave groove 116 is matched with the boss 117, the trapezoid block 94 is clamped, the trapezoid block 94 is prevented from automatically moving upwards, the liquid medicine in the frame body 3 enters the first rotary drum 72 through the third connecting pipe 115, the liquid medicine can be recycled, and when the liquid medicine in the frame body 3 is completely discharged into the first rotary drum 72, the control turntable 114 rotates reversely, and all parts are reset.
Still including self-closing subassembly 12, self-closing subassembly 12 is including push rod 121, second ordinary gear 122, rack 123, third spring 124, montant 125 and connecting rod 126, the left side of push pedal 112 is connected with push rod 121, the left side key-type of bull stick 101 is connected with second ordinary gear 122, the left side slip of mounting bracket 1 is equipped with rack 123, be connected with third spring 124 between rack 123 and the mounting bracket 1, the rear portion upside welding of rack 123 has montant 125, the rotation is connected with connecting rod 126 between montant 125 and the push rod 121.
When the push plate 112 moves to the right side, the push rod 121 is driven to move to the right side, the vertical rod 125 and the rack 123 are further moved to the rear side through the connecting rod 126, the third spring 124 is stretched, the second common gear 122 is further rotated, the rotary rod 101 is further rotated automatically, the liquid medicine with impurities is further isolated without manually controlling the rotary rod 101, and when the push plate 112 moves to the left side for resetting, the parts are reversely operated for resetting.
Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted equally without departing from the spirit and scope of the technical solution of the present invention.