CN111442524A

CN111442524A - Gas wall-mounted furnace and waste gas treatment equipment thereof

Info

Publication number: CN111442524A
Application number: CN202010289315.8A
Authority: CN
Inventors: 高恺
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-14
Filing date: 2020-04-14
Publication date: 2020-07-24

Abstract

The invention relates to waste gas treatment equipment, in particular to a wall-mounted gas furnace and waste gas treatment equipment thereof.

Description

Gas wall-mounted furnace and waste gas treatment equipment thereof

Technical Field

Background

When the wall-mounted gas boiler is used, the treatment of waste gas is crucial, the pollution is caused by the direct discharge in the traditional mode, and meanwhile, the wall-mounted gas boiler is damaged if the gas is not discharged smoothly or the gas flows reversely, so the waste gas treatment equipment for the wall-mounted gas boiler is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the waste gas treatment equipment for the wall-mounted gas boiler, the equipment can provide negative pressure to treat waste gas, the equipment can prevent a wind wheel from providing positive pressure, the equipment can clean a filter plate, the equipment can assist the wind wheel, and the equipment can be safely installed without sinking.

In order to solve the technical problem, the invention relates to waste gas treatment equipment, in particular to waste gas treatment equipment for a wall-mounted gas furnace.

The negative pressure wheel mechanism is connected with the machine body mechanism, and the machine body mechanism is connected with the anti-sinking mechanism.

As a further optimization of the technical scheme, the negative pressure wheel mechanism of the waste gas treatment equipment of the gas wall-hanging furnace comprises a negative pressure wind wheel, a driving hole, a driving rod, a driving disk, a shaft, a rotating disk, a driven wedge block, a driving disk, a driving shaft, a special-shaped shaft, a spring, a limiting disk, a belt wheel, a boosting wheel shaft, a motor belt wheel, a motor, a special-shaped hole and a belt, wherein the negative pressure wind wheel is provided with the driving hole, the driving hole is in transition fit with the driving rod, the driving rod is connected with the driving disk, the driving disk is connected with the shaft, the shaft is connected with the rotating disk, the rotating disk is connected with the driven wedge block, the driven wedge block is in contact with the driving disk, the driving disk is connected with the driving shaft, the special-shaped hole is formed in the driving shaft, the special-, the limiting disc is connected with the special-shaped shaft, the belt pulley is connected with the power-assisted wheel shaft, the power-assisted wheel shaft is connected with the power-assisted wheel, the motor belt pulley is in friction connection with the belt, the belt is in friction connection with the belt pulley, and the motor belt pulley is connected with the motor.

As a further optimization of the technical scheme, the machine body mechanism of the waste gas treatment equipment of the wall-mounted gas furnace comprises a triangular block seat, a bolt hole, a machine body, an inlet port, a bolt hole I, a perforated plate, a stepped square column, a perforated connecting seat, a stepped round rod, a compression spring, a toothed rack pressing seat, a toothed rack seat, a reversing gear, a bearing seat, an air outlet, a three-filter plate, a hinged plate, an inner stepped square groove, a filter plate embedded groove, a negative pressure cavity, a transmission cavity, an auxiliary cavity and a threaded rod knocking seat, wherein the triangular block seat is connected with the machine body, the bolt hole is tapped on the triangular block seat, the inlet port is arranged on the machine body, the perforated plate is hinged with the machine body, the stepped square column is connected with the machine body, the perforated connecting seat is connected with the stepped round rod in a sliding manner, the stepped round rod is connected with the machine body, the compression spring is sleeved on the stepped, the compression spring is abutted against the stepped round rod and the connecting seat with the hole, the pressing seat with the rack is provided with an inner stepped square groove which is connected with the stepped square column in a sliding way, the pressing seat with the rack is meshed with the reversing gear, the reversing gear is connected with the bearing seat in a bearing way, the bearing seat is connected with the machine body, the rack seat is meshed with the reversing gear, the rack seat is connected with the connecting seat with the hole, the connecting seat with the hole is connected with three filter plates, the three filter plates are connected with the filter plate embedded grooves in a sliding way, the filter plate embedded grooves are formed in the machine body, the air outlet is communicated with the negative pressure cavity, the transmission cavity is arranged in the machine body, the auxiliary cavity is arranged in the machine body, the negative pressure wind wheel is connected with the machine body in a bearing way, the negative pressure wind wheel is arranged in the negative pressure cavity, the shaft is connected with the machine body, the boosting wheel is arranged in the auxiliary cavity, the hinged plate is hinged with the machine body, the perforated plate is connected with the machine body, and the threaded rod knocking seat is in threaded connection with the machine body.

As a further optimization of the technical scheme, the anti-sinking mechanism of the waste gas treatment equipment of the gas wall-hanging furnace comprises a bolt hole seat, a seat body, a reinforcing support, a rubber seat rod, a triangular block rod, a rack with a stepped seat, a stepped groove I, a stepped groove II, a rack with a stepped seat I and a reversing gear A, wherein the bolt hole seat is connected with the seat body, the seat body is connected with the reinforcing support, the rubber seat is connected with the rubber seat rod, the rubber seat rod is connected with the rack with the stepped seat, the rack with the stepped seat is connected with the stepped groove I in a sliding manner, the stepped groove I is arranged on the seat body, the stepped groove II is connected with the rack I with the stepped seat in a sliding manner, the rack I with the stepped seat is connected with the triangular block rod, the triangular block is connected with the triangular block, the reversing gear A is connected with the seat body in a bearing manner, the reversing gear A is meshed with a rack with a stepped seat, and the reversing gear A is meshed with a rack I with a stepped seat.

As a further optimization of the technical scheme, the waste gas treatment equipment for the wall-mounted gas boiler is characterized in that a square hole communicated with the negative pressure cavity is formed in the contact surface of the machine body and the perforated plate, a square hole communicated with the negative pressure cavity is formed in the contact surface of the machine body and the hinged plate, air can enter the hole in the perforated plate, and the hinged plate can be blown up after the air enters the negative pressure cavity and then blown to the outside.

As a further optimization of the technical scheme, the triangular blocks of the waste gas treatment equipment for the wall-mounted gas furnace are made of high manganese steel.

The invention also relates to a wall-mounted gas furnace, which comprises the wall-mounted gas furnace waste gas treatment equipment.

The waste gas treatment equipment for the wall-mounted gas boiler has the beneficial effects that:

according to the waste gas treatment equipment for the wall-mounted gas boiler, negative pressure can be provided by the equipment to treat waste gas, positive pressure can be prevented from being provided by the wind wheel, the equipment can clean the filter plate, the equipment can assist the wind wheel, and the equipment can be safely installed without sinking.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a first schematic structural diagram of a waste gas treatment device of a wall-mounted gas boiler according to the present invention.

Fig. 2 is a schematic structural diagram of a waste gas treatment device of a wall-mounted gas boiler according to the present invention.

Fig. 3 is a first schematic structural diagram of the negative pressure wheel mechanism 1 of the waste gas treatment equipment of the wall-mounted gas boiler of the present invention.

Fig. 4 is a second schematic structural diagram of the negative pressure wheel mechanism 1 of the waste gas treatment equipment of the gas wall-hanging furnace of the invention.

Fig. 5 is a third schematic structural diagram of the negative pressure wheel mechanism 1 of the waste gas treatment equipment of the gas wall-hanging furnace of the invention.

Fig. 6 is a fourth schematic structural diagram of the negative pressure wheel mechanism 1 of the waste gas treatment equipment of the gas wall-hanging furnace of the invention.

Fig. 7 is a first structural schematic diagram of the body mechanism 2 of the waste gas treatment equipment of the wall-mounted gas boiler of the invention.

Fig. 8 is a second schematic structural diagram of the body mechanism 2 of the waste gas treatment device of the wall-mounted gas boiler according to the present invention.

Fig. 9 is a third schematic structural diagram of the body mechanism 2 of the waste gas treatment equipment for the wall-mounted gas boiler of the present invention.

Fig. 10 is a fourth schematic structural view of the body mechanism 2 of the waste gas treatment device of the wall-mounted gas boiler of the present invention.

Fig. 11 is a fifth structural schematic diagram of the body mechanism 2 of the waste gas treatment equipment of the wall-mounted gas boiler of the invention.

Fig. 12 is a first schematic structural view of a sinking prevention mechanism 3 of a waste gas treatment device of a wall-mounted gas boiler according to the present invention.

Fig. 13 is a second schematic structural view of the sinking prevention mechanism 3 of the waste gas treatment equipment for the wall-mounted gas boiler of the present invention.

Fig. 14 is a third schematic structural view of the sinking prevention mechanism 3 of the waste gas treatment equipment for the wall-mounted gas boiler of the present invention.

FIG. 15 is a schematic view of a connection structure between a wall-hanging stove and a waste gas treatment device of a wall-hanging gas stove according to the present invention

In the figure: a negative pressure wheel mechanism 1; 1-1 of negative pressure wind wheel; a drive aperture 1-2; a drive rod 1-3; a drive disc 1-4; 1-5 of a shaft; 1-6 of a rotating disc; 1-7 parts of a passive wedge block; 1-8 parts of a driving wedge block; 1-9 of a driving disc; 1-10 parts of a driving shaft; a profile shaft 1-11; 1-12 parts of a spring; 1-13 of a limiting disc; 1-14 of belt pulleys; 1-15 parts of a power-assisted wheel; 1-16 parts of a booster wheel shaft; 1-17 of a motor belt pulley; motors 1-18; special-shaped holes 1-19; 1-20 parts of a belt; a body mechanism 2; 2-1 with a triangular block seat; bolt holes 2-2; a body 2-3; an inlet 2-4; bolt hole I2-5; 2-6 parts of a perforated plate; 2-7 of stepped square column; 2-8 parts of a connecting seat with holes; 2-9 parts of a stepped round rod; 2-10 parts of a compression spring; 2-11 parts of a pressing seat with a rack; 2-12 of rack seats; 2-13 of a reversing gear; bearing seats 2-14; 2-15 of air outlet; 2-16 parts of three filter plates; hinge plates 2-17; 2-18 parts of inner stepped square groove; the filter plate is embedded into the groove 2-19; 2-20 parts of a negative pressure cavity; 2-21 of a transmission cavity; auxiliary chambers 2-22; knocking seats with threaded rods 2-23; a sinking prevention mechanism 3; a bolt hole seat 3-1; 3-2 parts of a seat body; 3-3 of a reinforcing support; 3-4 parts of a rubber seat; 3-5 parts of a rubber seat post; 3-6 parts of triangular blocks; 3-7 parts of triangular block rods; 3-8 of a rack with a step seat; a stepped groove I3-9; step groove II 3-10; a rack I3-11 with a stepped seat; reversing gear a 3-12.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, the invention relates to an exhaust gas treatment device, and more specifically, to an exhaust gas treatment device for a gas wall-hanging stove, which includes a negative pressure wheel mechanism 1, a machine body mechanism 2, and a sinking prevention mechanism 3, and the device can provide negative pressure to treat exhaust gas, prevent a wind wheel from providing positive pressure, clean a filter plate, assist the device with the wind wheel, and safely install the device without sinking.

The negative pressure wheel mechanism 1 is connected with the machine body mechanism 2, and the machine body mechanism 2 is connected with the anti-sinking mechanism 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the present embodiment further describes the present embodiment, where the negative pressure wheel mechanism 1 includes a negative pressure wind wheel 1-1, a driving hole 1-2, a driving rod 1-3, a driving disk 1-4, a shaft 1-5, a rotating disk 1-6, a driven wedge 1-7, a driving wedge 1-8, a driving disk 1-9, a driving shaft 1-10, a profile shaft 1-11, a spring 1-12, a limiting disk 1-13, a belt pulley 1-14, a booster wheel 1-15, a booster wheel shaft 1-16, a motor belt pulley 1-17, a motor 1-18, a profile hole 1-19, a profile hole 1-12, a belt 1-20, a negative pressure wind wheel 1-1 is provided with a driving hole 1-2, the driving hole 1-2 is in transition fit with a driving rod 1-3, the driving rod 1-3 is connected with a driving disk 1-4, the driving disk 1-4 is connected with a shaft 1-5, the shaft 1-5 is connected with a rotating disk 1-6, the rotating disk 1-6 is connected with a driven wedge block 1-7, the driven wedge block 1-7 is contacted with a driving wedge block 1-8, the driving wedge block 1-8 is connected with a driving disk 1-9, the driving disk 1-9 is connected with a driving shaft 1-10, a special-shaped hole 1-19 is arranged on the driving shaft 1-10, the special-shaped hole 1-19 is in sliding connection with a special-11 shaft 1-11, a spring 1-12 is sleeved on the special-shaped shaft 1-11, the spring 1-12 is abutted against the driving, On the limiting disc 1-13, the limiting disc 1-13 is connected with a special-shaped shaft 1-11, the belt pulley 1-14 is connected with the special-shaped shaft 1-11, the belt pulley 1-14 is connected with a boosting wheel shaft 1-16, the boosting wheel shaft 1-16 is connected with a boosting wheel 1-15, the motor belt pulley 1-17 is in friction connection with the belt 1-20, the belt 1-20 is in friction connection with the belt pulley 1-14, the motor belt pulley 1-17 is connected with a motor 1-18, the motor belt pulley 1-17 is driven by the operation of the motor 1-18 to rotate anticlockwise from the motor belt pulley 1-17 to the motor 1-18, the motor belt pulley 1-17 drives the belt pulley 1-14 to rotate through the belt 1-20, the belt pulley 1-14 rotates to drive the special-shaped shaft 1-11 to rotate, the special-shaped shaft 1-11 rotates to drive the driving shaft 1-10 to rotate, the driving shaft 1-10 rotates to drive the driving disc 1-9 to rotate, the driving disc 1-9 rotates to drive the rotating disc 1-6 to rotate anticlockwise through the driving wedge blocks 1-8 and the driven wedge blocks 1-7, the rotating disc 1-6 rotates anticlockwise to drive the negative pressure wind wheel 1-1 to rotate through the transmission of the shaft 1-5, the driving disc 1-4 and the driving rod 1-3, the negative pressure wind wheel 1-1 rotates anticlockwise to form negative pressure, a smoke pipe of the gas wall-mounted furnace is inserted from an inlet 2-4 before use, so that smoke of the gas wall-mounted furnace is sucked into a negative pressure cavity 2-20 under the condition of negative pressure and then is discharged from an outlet 2-15 after being filtered by the three filter plates 2-16, when the negative pressure wind wheel 1-1 is blocked and can not rotate, firstly the belt 1-20 slips or the driving rod 1-3 is broken, so that the safety of the motor 1-18 can be ensured, if the power supply of the motor is reversely connected, the driving wedge block 1-8 rotates clockwise, so that power can not be transmitted to the driven wedge block 1-7, but the driving wedge block 1-8 can drive the driving shaft 1-10 to reversely compress the spring 1-12, and thus, the positive pressure can be prevented from being formed and the wall-mounted furnace is prevented from being damaged.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the present embodiment further describes the present embodiment, where the machine body mechanism 2 includes a triangular block seat 2-1, a bolt hole 2-2, a machine body 2-3, an inlet 2-4, a bolt hole I2-5, a perforated plate 2-6, a stepped square column 2-7, a perforated connecting seat 2-8, a stepped round bar 2-9, a compression spring 2-10, a toothed rack pressing seat 2-11, a toothed rack seat 2-12, a reversing gear 2-13, a bearing seat 2-14, an air outlet 2-15, a triple filter plate 2-16, a hinged plate 2-17, an inner stepped square groove 2-18, a stepped square groove 2-11, a, A filter plate embedded groove 2-19, a negative pressure cavity 2-20, a transmission cavity 2-21, an auxiliary cavity 2-22, a knocking seat 2-23 with a threaded rod, a seat 2-1 with a triangular block connected with a machine body 2-3, a bolt hole 2-2 tapped on the seat 2-1 with the triangular block, an inlet 2-4 arranged on the machine body 2-3, a bolt hole I2-5 tapped on the machine body 2-3, a hole plate 2-6 hinged with the machine body 2-3, a step square column 2-7 connected with the machine body 2-3, a connecting seat 2-8 with a hole connected with a step round rod 2-9 in a sliding way, a step round rod 2-9 connected with the machine body 2-3, a compression spring 2-10 sleeved on the step round rod 2-9, a compression spring 2-10 abutted against the step round rod 2-9, The perforated connecting seat 2-8 is provided with an inner step square groove 2-18 on a pressing seat 2-11 with a rack, the inner step square groove 2-18 is connected with a step square column 2-7 in a sliding way, the pressing seat 2-11 with the rack is meshed with a reversing gear 2-13, the reversing gear 2-13 is connected with a bearing seat 2-14 in a bearing way, the bearing seat 2-14 is connected with a machine body 2-3, the rack seat 2-12 is meshed with the reversing gear 2-13, the rack seat 2-12 is connected with a perforated connecting seat 2-8, the perforated connecting seat 2-8 is connected with a three-filter plate 2-16, the three-filter plate 2-16 is connected with a filter plate embedding groove 2-19 in a sliding way, the filter plate embedding groove 2-19 is opened on the machine body 2-3, an air outlet 2-15 is opened on the machine body 2-3, the air outlet 2-15 is communicated with a negative pressure cavity 2-20, a transmission cavity 2-21 is arranged in a machine body 2-3, an auxiliary cavity 2-22 is arranged in the machine body 2-3, the negative pressure wind wheel 1-1 is connected with the machine body 2-3 by a bearing, the negative pressure wind wheel 1-1 is arranged in the negative pressure cavity 2-20, a shaft 1-5 is connected with the machine body 2-3 by a bearing, a power-assisted wheel shaft 1-16 is connected with the machine body 2-3 by a bearing, a power-assisted wheel 1-15 is arranged in the auxiliary cavity 2-22, a hinged plate 2-17 is hinged with the machine body 2-3, a perforated plate 2-6 is connected with the machine body 2-3, a knocking seat 2-23 with a threaded rod is connected with the machine body 2-3 by a thread, the pressing seat 2-11 with the rack is pressed downwards, the pressing seat 2-11 with the rack drives the rack seat 2-12 to move upwards through the reversing gear 2-13, the rack seat 2-12 moves upwards to drive the three filter plates 2-16 to move upwards, in the process that the three filter plates 2-16 move upwards, the knocking seat 2-23 with the threaded rod knocks the connecting seat 2-8 with the hole, the connecting seat 2-8 with the hole transmits vibration to the three filter plates 2-16, so that the silting resistance vibration of the three filter plates 2-16 is cleaned, outside wind can be blown into the auxiliary cavity 2-22 from the hole plate 2-6 and then blows off the hinged plates 2-17, and the assisting wheel 1-15 can be assisted in rotation in the process.

The fourth concrete implementation mode:

referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, the present embodiment further illustrates the present embodiment, wherein the anti-sinking mechanism 3 includes a seat with bolt holes 3-1, a seat body 3-2, a reinforcing support 3-3, a rubber seat 3-4, a rubber seat rod 3-5, a triangular block 3-6, a triangular block rod 3-7, a rack with ladder 3-8, a ladder groove I3-9, a ladder groove II3-10, a rack with ladder I3-11, and a reversing gear A3-12, the seat with bolt holes 3-1 is connected with the seat body 3-2, the rubber seat 3-4 is connected with the rubber seat rod 3-5, the rubber seat rod 3-5 is connected with the rack with the stepped seat 3-8, the rack with the stepped seat 3-8 is connected with the stepped groove I3-9 in a sliding way, the stepped groove I3-9 is arranged on the seat body 3-2, the stepped groove II3-10 is arranged on the seat body 3-2, the stepped groove II3-10 is connected with the rack with the stepped seat I3-11 in a sliding way, the rack with the stepped seat I3-11 is connected with the triangular block rod 3-7, the triangular block rod 3-7 is connected with the triangular block 3-6, the triangular block 3-6 is contacted with the seat 2-1 with the triangular block, the reversing gear A3-12 is connected with the seat body 3-2 in a bearing way, the reversing gear A3-12 is meshed with the rack with the stepped seat 3-8, the reversing gear A3-12 is meshed with the rack with the stepped seat I3-11, the bolt holes 2-2, the bolt holes I2-5 and the seat with the bolt holes 3-1 are fixed by expansion bolts, the anti-sinking mechanism 3 is ensured to be horizontal when being installed, and the triangular block 3-6 is contacted with the seat with the triangular block 2-1, therefore, in the practical use of the equipment, when the seat with the triangular block 2-1 moves downwards, the triangular block 3-6 can drive the triangular block rod 3-7 to move, the triangular block rod 3-7 can drive the rack with the stepped seat I3-11 to move, the rack with the stepped seat I3-11 can drive the racks with the stepped seats 3-8 at two sides to move inwards through the reversing gear A3-12, the rack with the stepped seat 3-8 can drive the rubber seat 3-4 to be pressed on the seat with the triangular block 2-1, this prevents sinking under the influence of friction.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the present embodiment, a square hole communicated with the negative pressure chamber 2-20 is provided on the contact surface of the body 2-3 with the perforated plate 2-6, a square hole communicated with the negative pressure chamber 2-20 is provided on the contact surface of the body 2-3 with the hinged plate 2-17, and the hole on the perforated plate 2-6 can be used for air intake, and air enters the negative pressure chamber 2-20 and blows up the hinged plate 2-17, and then blows to the outside.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15, and the present embodiment further describes the first embodiment in which the triangular blocks 3 to 6 are made of high manganese steel.

The seventh embodiment:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15, and the first embodiment will be further described with reference to the present embodiment, where the wall-hanging gas furnace includes the above-described exhaust gas treatment device for a wall-hanging gas furnace.

The working principle of the device is as follows: the equipment can provide negative pressure to treat waste gas, the motor belt pulleys 1-17 are driven by the operation of the motors 1-18 to rotate anticlockwise from the motor belt pulleys 1-17 to the motors 1-18, the motor belt pulleys 1-17 can drive the belt pulleys 1-14 to rotate through the belts 1-20, the belt pulleys 1-14 can drive the special-shaped shafts 1-11 to rotate, the special-shaped shafts 1-11 can drive the driving shafts 1-10 to rotate, the driving shafts 1-10 can drive the driving discs 1-9 to rotate, the driving discs 1-9 can drive the rotating discs 1-6 to rotate anticlockwise through the driving wedge blocks 1-8 and the driven wedge blocks 1-7, the rotating discs 1-6 can rotate anticlockwise through the shafts 1-5, The driving disc 1-4 and the driving rod 1-3 drive the negative pressure wind wheel 1-1 to rotate, the negative pressure wind wheel 1-1 rotates anticlockwise to form negative pressure, a smoke tube of the gas wall-mounted furnace is inserted from the inlet 2-4 before use, so that under the condition of negative pressure, smoke of the gas wall-mounted furnace is sucked into the negative pressure cavity 2-20, then is filtered by the three filter plates 2-16 and then is discharged from the air outlet 2-15, when the negative pressure wind wheel 1-1 is added and is blocked and cannot rotate, firstly, the belt 1-20 slips or the driving rod 1-3 is broken, and therefore the safety of the motor 1-18 can be guaranteed; the device can prevent the wind wheel from providing positive pressure, if the power supply of the motor is reversely connected, the driving wedge blocks 1-8 rotate clockwise, so that power cannot be transmitted to the driven wedge blocks 1-7, but the driving wedge blocks move along the inclined surfaces of the driven wedge blocks 1-7, the driving wedge blocks 1-8 can drive the driving shafts 1-10 to reversely compress the springs 1-12, and thus positive pressure can be prevented from being formed and damage to the wall-mounted furnace can be prevented; the equipment can clean the filter plates, the rack pressing seats 2-11 are pressed downwards, the rack pressing seats 2-11 can drive the rack seats 2-12 to move upwards through the reversing gears 2-13, the rack seats 2-12 can drive the three filter plates 2-16 to move upwards through the upward movement, in the driving process of the upward movement of the three filter plates 2-16, the threaded rod knocking seats 2-23 can knock the perforated connecting seats 2-8, and the perforated connecting seats 2-8 can transmit the vibration to the three filter plates 2-16, so that the sludge resistance of the three filter plates 2-16 is cleaned through vibration; the device can assist the wind wheel, external wind can be blown into the auxiliary cavities 2-22 from the perforated plates 2-6 and then blown out by opening the hinged plates 2-17, and the device can play a role of rotating and assisting the assisting wheels 1-15 in the process; when the equipment is installed, the bolt holes 2-2, the bolt holes I2-5 and the bolt hole seats 3-1 are fixed by expansion bolts, the anti-sinking mechanism 3 is ensured to be horizontal when the equipment is installed, the triangular blocks 3-6 are in contact with the triangular block seats 2-1, therefore, when the equipment is in practical use and sinks under the conditions of vibration or long service life and the like, the triangular blocks 3-6 can be pushed to two sides when the triangular block seats 2-1 move downwards, the triangular blocks 3-6 can drive the triangular block rods 3-7 to move, the triangular block rods 3-7 can drive the rack I3-11 with the stepped seat to move, the rack I3-11 with the stepped seat can drive the racks 3-8 with the stepped seat to move inwards through the reversing gears A3-12, the rack 3-8 with the stepped seat can drive the rubber seats 3-4 to press the triangular block seats 2-1, this prevents sinking under the influence of friction.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a gas hanging stove exhaust-gas treatment equipment, includes negative pressure wheel mechanism (1), fuselage mechanism (2), prevents sinking mechanism (3), its characterized in that: the negative pressure wheel mechanism (1) is connected with the machine body mechanism (2), and the machine body mechanism (2) is connected with the anti-sinking mechanism (3).

2. The waste gas treatment equipment for the wall-mounted gas boiler as claimed in claim 1, wherein: the negative pressure wheel mechanism (1) comprises a negative pressure wind wheel (1-1), a driving hole (1-2), a driving rod (1-3), a driving disc (1-4), a shaft (1-5), a rotating disc (1-6), a driven wedge block (1-7), a driving wedge block (1-8), a driving disc (1-9), a driving shaft (1-10), a special-shaped shaft (1-11), a spring (1-12), a limiting disc (1-13), a belt pulley (1-14), a booster wheel (1-15), a booster wheel shaft (1-16), a motor belt pulley (1-17), a motor (1-18), a special-shaped hole (1-19) and a belt (1-20), wherein the negative pressure wind wheel (1-1) is provided with the driving hole (1-2), the driving holes (1-2) are in transition fit with the driving rods (1-3), the driving rods (1-3) are connected with driving disks (1-4), the driving disks (1-4) are connected with shafts (1-5), the shafts (1-5) are connected with rotating disks (1-6), the rotating disks (1-6) are connected with driven wedge blocks (1-7), the driven wedge blocks (1-7) are contacted with driving wedge blocks (1-8), the driving wedge blocks (1-8) are connected with driving disks (1-9), the driving disks (1-9) are connected with driving shafts (1-10), the special-shaped holes (1-19) are formed in the driving shafts (1-10), the special-shaped holes (1-19) are in sliding connection with the special-shaped shafts (1-11), springs (1-12) are sleeved on the special-shaped shafts (1-11), the spring (1-12) is supported on the driving shaft (1-10) and the limiting disc (1-13), the limiting disc (1-13) is connected with the special-shaped shaft (1-11), the belt pulley (1-14) is connected with the boosting wheel shaft (1-16), the boosting wheel shaft (1-16) is connected with the boosting wheel (1-15), the motor belt pulley (1-17) is in friction connection with the belt (1-20), the belt (1-20) is in friction connection with the belt pulley (1-14), and the motor belt pulley (1-17) is connected with the motor (1-18).

3. The waste gas treatment equipment for the wall-mounted gas boiler as claimed in claim 1, wherein: the machine body mechanism (2) comprises a triangular block seat (2-1), bolt holes (2-2), a machine body (2-3), an inlet (2-4), bolt holes I (2-5), a perforated plate (2-6), a step square column (2-7), a perforated connecting seat (2-8), a step round rod (2-9), a compression spring (2-10), a rack pressing seat (2-11), a rack seat (2-12), a reversing gear (2-13), a bearing seat (2-14), an air outlet (2-15), a triple filter plate (2-16), a hinged plate (2-17), an inner step square groove filter plate (2-18), an embedded groove (2-19), a negative pressure cavity (2-20), a transmission cavity (2-21), An auxiliary cavity (2-22), a knocking seat (2-23) with a threaded rod, a seat with a triangular block (2-1) connected with a machine body (2-3), a bolt hole (2-2) tapping on the seat with the triangular block (2-1), an inlet port (2-4) arranged on the machine body (2-3), a bolt hole I (2-5) tapping on the machine body (2-3), a hole plate (2-6) hinged with the machine body (2-3), a stepped square column (2-7) connected with the machine body (2-3), a connecting seat with a hole (2-8) connected with a stepped round rod (2-9) in a sliding manner, a stepped round rod (2-9) connected with the machine body (2-3), a compression spring (2-10) sleeved on the stepped round rod (2-9), the compression spring (2-10) is abutted against the stepped round rod (2-9) and the perforated connecting seat (2-8), the pressing seat (2-11) with the rack is provided with an inner stepped square groove (2-18), the inner stepped square groove (2-18) is connected with the stepped square column (2-7) in a sliding way, the pressing seat (2-11) with the rack is meshed with the reversing gear (2-13), the reversing gear (2-13) is connected with the bearing seat (2-14) in a bearing way, the bearing seat (2-14) is connected with the machine body (2-3), the rack seat (2-12) is meshed with the reversing gear (2-13), the rack seat (2-12) is connected with the perforated connecting seat (2-8), the perforated connecting seat (2-8) is connected with the three filter plates (2-16), the three filter plates (2-16) are connected with the filter plate embedded grooves (2-19) in a sliding manner, the filter plate embedded grooves (2-19) are formed in the machine body (2-3), the air outlets (2-15) are communicated with the negative pressure cavity (2-20), the transmission cavity (2-21) is arranged in the machine body (2-3), the auxiliary cavity (2-22) is arranged in the machine body (2-3), the negative pressure wind wheel (1-1) is connected with the machine body (2-3) in a bearing manner, the negative pressure wind wheel (1-1) is arranged in the negative pressure cavity (2-20), the shaft (1-5) is connected with the machine body (2-3) in a bearing manner, the boosting wheel shaft (1-16) is connected with the machine body (2-3) in a bearing manner, the assisting wheels (1-15) are arranged in the assisting cavities (2-22), the hinged plates (2-17) are hinged with the machine body (2-3), the perforated plates (2-6) are connected with the machine body (2-3), and the threaded rod knocking seats (2-23) are in threaded connection with the machine body (2-3).

4. The waste gas treatment equipment for the wall-mounted gas boiler as claimed in claim 1, wherein: the anti-sinking mechanism (3) comprises a seat with bolt holes (3-1), a seat body (3-2), a reinforcing support (3-3), a rubber seat (3-4), a rubber seat rod (3-5), a triangular block (3-6), a triangular block rod (3-7), a rack with stepped seats (3-8), a stepped groove I (3-9), a stepped groove II (3-10), a rack with stepped seats I (3-11) and a reversing gear A (3-12), the seat body (3-1) with bolt holes is connected with the seat body (3-2), the seat body (3-2) is connected with the reinforcing support (3-3), the rubber seat (3-4) is connected with the rubber seat rod (3-5), the rubber seat rod (3-5) is connected with the rack with stepped seats (3-8), the rack (3-8) with the stepped seat is connected with the stepped groove I (3-9) in a sliding manner, the stepped groove I (3-9) is formed in the seat body (3-2), the stepped groove II (3-10) is connected with the rack I (3-11) with the stepped seat in a sliding manner, the rack I (3-11) with the stepped seat is connected with the triangular block rod (3-7), the triangular block rod (3-7) is connected with the triangular block (3-6), the triangular block (3-6) is contacted with the triangular block seat (2-1), the connection mode of the reversing gear A (3-12) and the seat body (3-2) is a bearing connection mode, the reversing gear A (3-12) is meshed with the rack (3-8) with the stepped seat, and the reversing gear A (3-12) is meshed with the rack I (3-11) with the stepped seat.

5. The waste gas treatment equipment for the wall-mounted gas boiler as claimed in claim 3, wherein: the machine body (2-3) is provided with a square hole communicated with the negative pressure cavity (2-20) on the contact surface with the perforated plate (2-6), the machine body (2-3) is provided with a square hole communicated with the negative pressure cavity (2-20) on the contact surface with the hinged plate (2-17), the hole on the perforated plate (2-6) can supply air, and the hinged plate (2-17) can be blown up after the air enters the negative pressure cavity (2-20) and then blown to the outside.

6. The waste gas treatment equipment for the wall-mounted gas boiler as claimed in claim 4, wherein: the triangular blocks (3-6) are made of high manganese steel.

7. A gas hanging stove which is characterized in that: the gas wall-hanging stove comprises the waste gas treatment equipment of the gas wall-hanging stove as claimed in any one of claims 1 to 6.