CN115183313A

CN115183313A - A prevent blocking drainage device for building is warm to be led to

Info

Publication number: CN115183313A
Application number: CN202210836536.1A
Authority: CN
Inventors: 范怡明; 顾惠玉; 解旺阳; 丁国英; 高志良; 钱余; 丁利江; 黄万亮
Original assignee: Jiangsu Shunfeng Construction Co ltd
Current assignee: Jiangsu Shunfeng Construction Co ltd
Priority date: 2022-07-15
Filing date: 2022-07-15
Publication date: 2022-10-14

Abstract

The invention discloses an anti-blocking drainage device for building heating ventilation, which relates to the technical field of drainage and comprises a shell assembly, wherein the shell assembly is provided with a stirring assembly, a gap adjusting assembly and a waste discharge assembly; the clearance adjusting assembly comprises a waste discharge frame fixedly arranged on the shell assembly, and an adjusting assembly used for discharging blockages is arranged on the waste discharge frame; the waste discharge assembly comprises a waste discharge shell fixedly arranged on the shell assembly, and a drainage assembly for draining water is arranged on the waste discharge shell; adjust the clearance subassembly through setting up, can collect the processing to the debris after the breakage in the passageway, avoid long-term piling up in the passageway, influence drainage effect.

Description

A prevent blocking drainage device for building is warm to be led to

Technical Field

The invention relates to the technical field of drainage, in particular to an anti-blocking drainage device for building heating ventilation.

Background

The drainage system is an important infrastructure of a modern city, how to optimize and reconstruct and expand the drainage system of the city economically and technically is an important research subject, the drainage system usually occupies a large investment proportion in municipal construction and environmental management engineering construction, and after the building heating and ventilation drainage pipeline in the prior art is used for a long time, sundries are still easy to accumulate, and the accumulated sundries cannot be treated.

The application number is CN 202020731250.3's patent discloses a building is warm to be led to and is used prevents blocking drainage device, including handling the frame, the left side of handling the frame is provided with the water inlet, the right side of handling the frame is provided with the outlet, the water inlet has cup jointed the inlet tube, the outlet has cup jointed the drain pipe, the top of handling the frame is provided with power device, power device's below fixedly connected with agitating unit, agitating unit is corresponding with handling the frame, the top of handling the frame is fixed with the threaded rod, agitating unit cup joints with the threaded rod, the threaded rod is located agitating unit's top threaded connection has mounting nut, although this prior art can carry out the breakage to the debris of aquatic, nevertheless broken cutter adheres to debris easily to the easy accumulation of filter screen causes the equipment to damage, consequently needs a device that can avoid debris to adhere to, can regularly clear up the damage of equipment blocking.

Disclosure of Invention

Although sundries in water can be crushed in the prior art, the crushed cutters are easy to attach the sundries, and the filter screen is easy to accumulate the sundries to cause equipment damage, so that a device which can avoid the attachment of the sundries and can be cleaned regularly is needed to prevent the equipment from being blocked and damaged, and in order to achieve the purpose, the invention provides the following technical scheme: an anti-blocking drainage device for building heating ventilation comprises a shell assembly, wherein a stirring assembly, a gap adjusting assembly and a waste discharge assembly are mounted on the shell assembly, the stirring assembly comprises a crushing assembly mounted on the shell assembly and used for stirring and crushing a blockage, and the stirring assembly further comprises a separation assembly mounted on the shell assembly and used for separating the blockage;

the clearance adjusting assembly comprises a waste discharge frame, an adjusting assembly and a valve plate, wherein the waste discharge frame is fixedly arranged on the shell assembly, a recovery plate is arranged on the waste discharge frame in a sliding mode, and the recovery plate slides to enable the adjusting assembly to release the limit of the valve so that the valve plate can slide to discharge accumulated blocking objects;

the waste discharge assembly comprises a waste discharge shell fixedly mounted on the shell assembly, and a drainage assembly for draining water is mounted on the waste discharge shell.

Preferably, crushing unit includes motor, ring gear of fixed mounting on casing subassembly, fixed mounting has planet support one, stirs garrulous sword two on the motor output shaft, fixed mounting has the gear on the stirring sword two, rotate on the ring gear and install planet support two, it installs a plurality of stirring garrulous sword one to rotate on the planet support two, and is a plurality of equal fixed mounting has the gear on the stirring sword one, stir garrulous sword one go up the gear respectively with stir garrulous sword two go up gear engagement, just stir garrulous sword one go up the gear respectively with ring gear on the inner gearing.

Preferably, the separating component comprises a rotating shaft rotatably mounted on the shell component, a rotating wheel and an impeller are fixedly mounted on the rotating shaft, and the rotating wheel and the stirring component are in belt transmission through a transmission belt.

Preferably, the adjusting part includes the outlet pipe of fixed mounting on the casing subassembly, fixed mounting has support one, support two on the frame of wasting discharge, slidable mounting has gangbar, rack on the support one, rotate on the gangbar and install the cardboard, fixed mounting has the reed on the gangbar, fixed mounting has the board of wasting discharge, spring one, driving rack on the recovery board, a first end of spring and a support fixed mounting, a spring second end and recovery board fixed mounting, the slidable mounting has drive gear on the support one, drive gear and driving rack meshing, rack and driving gear meshing, valve board fixed mounting is at the rack, the pivoted mounting has poker rod one on the support one, the slidable mounting has the lifting support on the support two, the slidable mounting has poker rod two on the lifting support, poker rod two and rack one slidable mounting, fixed mounting has spring three on the lifting support, spring three first end and lifting support fixed mounting, lifting support second end and support two fixed mounting, the fixed mounting has spring two on the support two, spring second end and support fixed mounting, the lifting is installed on the rack and the lifting support two fixed mounting the reed, the lifting is rotated on the rack.

Preferably, the drainage subassembly includes valve collar, drain pipe, the fixed plate of fixed mounting on the waste discharge casing, valve collar and adjusting part fixed mounting, waste discharge subassembly drainage subassembly still includes movable mounting the dismantlement door plant on the waste discharge casing, be equipped with the check valve on the drain pipe, slidable mounting has the holding down plate on the fixed plate, fixed mounting has the rack board on the holding down plate, rotate on the fixed plate and install gear one, rack board and gear one meshing, fixed mounting has the guide way board on the fixed plate, guide way board and gangbar slidable mounting.

Preferably, the two ends of the transmission gear are provided with large gears which are respectively meshed with the rack on the rack frame, and the middle of the transmission gear is provided with a small gear which is meshed with the transmission rack.

Preferably, a plurality of supports are arranged on the first support, the first poking rod and the transmission gear are respectively rotatably installed on the supports, a spring is fixedly installed on the linkage rod, a first end of the spring is fixedly installed on the linkage rod, and a second end of the spring is fixedly installed on the support arranged on the first support.

Preferably, be equipped with the support on the fixed plate, the first gear is installed on the support that the fixed plate was established through the center pin rotation, the first gear is equipped with a plurality ofly, fixed mounting has a plurality of sliding shafts on the holding down plate, sliding shaft and fixed plate fixed mounting, be equipped with the spring on the sliding shaft, the first end of spring and holding down plate fixed mounting, spring second end and fixed plate fixed mounting, be equipped with a plurality of racks on the rack board, the rack is gone up the rack and is engaged with a gear respectively.

The invention provides an anti-blocking drainage device for building heating ventilation, which has the following beneficial effects:

(1) According to the invention, the multi-station crushing cutter is arranged, so that the crushing effect on sundries is better, and the cutters are mutually cut, so that the sundries are prevented from being attached to the cutters; (2) The gap adjusting assembly is arranged, so that sundries crushed in the channel can be collected and treated, and the influence on the drainage effect caused by long-term accumulation in the channel is avoided.

Drawings

FIG. 1 is a schematic front view of the present invention.

FIG. 2 is a schematic view of the overall structure of the back side of the present invention.

Fig. 3 is a schematic cross-sectional view of the overall structure of the present invention.

FIG. 4 is a schematic cross-sectional view of the crutcher assembly of the present invention.

FIG. 5 is a schematic view of the structure at A in FIG. 4 according to the present invention.

FIG. 6 is a schematic cross-sectional view of a gap adjustment assembly of the present invention.

FIG. 7 is a schematic view of the structure of FIG. 6 at B according to the present invention.

FIG. 8 is a partial cross-sectional view at C of FIG. 7 according to the present invention.

Figure 9 is a schematic cross-sectional view of the waste assembly of the present invention.

In the figure: 1-a housing assembly; 2-a mincing component; 3-a gap adjusting component; 4-a waste discharge assembly; 101-a water inlet pipe; 102-a first shell; 103-shell two; 201-a motor; 202-a transmission belt; 203-a rotating shaft; 204-an impeller; 205-planet carrier one; 206-toothed ring; 207-crushing knife I; 208-planet carrier two; 209-mincing knife II; 301-water outlet pipe; 302-a waste discharge frame; 303-waste plate discharge; 304-bracket one; 305-a linkage bar; 306-spring one; 307-recovery plate; 308-card board; 309-reed; 310-a drive rack; 311-a rack; 312-a poker bar one; 313-lifting the support; 314-spring two; 315-bracket two; 316-valve plate; 317-poke rod two; 318-a drive gear; 319-spring three; 401-a valve annulus; 402-disassembling the door panel; 403-a filter plate; 404-a drain pipe; 405-waste enclosure; 406-a lower platen; 407-a fixing plate; 408-gear one; 409-a guide groove plate; 410-rack plate.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, and fig. 9, the present invention provides a technical solution: an anti-blocking drainage device for building heating ventilation comprises a shell assembly 1, wherein a stirring assembly 2, a gap adjusting assembly 3 and a waste discharge assembly 4 are mounted on the shell assembly 1, the stirring assembly 2 comprises a crushing assembly which is mounted on the shell assembly 1 and used for stirring blockages, and the stirring assembly 2 further comprises a separating assembly which is mounted on the shell assembly 1 and used for separating the blockages; the gap adjusting assembly 3 comprises a waste discharge frame 302 fixedly arranged on the shell assembly 1, and an adjusting assembly for discharging the blockage is arranged on the waste discharge frame 302; the waste discharge unit 4 includes a waste discharge housing 405 fixedly mounted to the housing unit 1, and a drain unit for draining water is mounted to the waste discharge housing 405.

The housing assembly 1 comprises a water inlet pipe 101, a first housing 102 and a second housing 103, wherein the water inlet pipe 101 and the first housing 102 are fixedly installed.

The stirring assembly 2 comprises a motor 201 and a toothed ring 206 which are fixedly mounted on a first shell 102, a rotating wheel, a second stirring blade 209, a first planet support 205 and a second planet support 208 are fixedly mounted on an output shaft of the motor 201, the first stirring blade 207 is rotatably mounted on the second planet support 208 and is uniformly distributed, a gear is fixedly mounted on the first stirring blade 207, a gear is also fixedly mounted on the second stirring blade 209, the gear on the second stirring blade 209 is respectively meshed with the gear on the first stirring blade 207, the gear on the first stirring blade 207 is respectively meshed with the toothed ring 206, the first stirring blade 207 and the second stirring blade 209 are rotatably mounted on the first shell 102, the stirring assembly 2 further comprises a rotating shaft 203 rotatably mounted on the first shell 102, an impeller 204 and a rotating wheel are fixedly mounted on the rotating shaft 203, the rotating wheel on the rotating shaft 203 is in belt transmission with the rotating wheel on the output shaft of the motor 201 through a transmission belt 202, water is introduced into the water inlet pipe 101 during operation, the rotating of the second stirring blade 209 through the motor 201, the first rotating shaft 207 is driven to rotate through the rotation of the first stirring blade 207, and the rotating shaft 203 is driven to rotate through the rotation of the rotation belt 202, and the rotating shaft 202.

The gap adjusting component 3 comprises a water outlet pipe 301 and a waste discharging frame 302 which are fixedly arranged on a first shell 102, a filter screen is arranged on the water outlet pipe 301 for filtering blockages, the filter screen is scraped through an impeller 204 to prevent the filter screen from being blocked, a first support 304 and a second support 315 are fixedly arranged on the waste discharging frame 302, a return plate 307 is slidably arranged on the waste discharging frame 302, the return plate 307 is slidably arranged with the first support 304 through a sliding shaft, a waste discharging plate 303 and a first spring 306 are fixedly arranged on the sliding shaft of the return plate 307, the first spring 306 is fixedly arranged with the first support 304, a linkage rod 305 is slidably arranged on the first support 304, a spring is fixedly arranged on the linkage rod 305, the spring is fixedly arranged on the first support 304 and is used for returning the linkage rod 305, a clamping plate 308 is rotatably arranged on the linkage rod 305, reeds 309 are fixedly arranged on the linkage rod 305, a transmission rack 310 is fixedly arranged on the return plate 307, a transmission gear 315 is rotatably arranged on the first support 304, a transmission gear 318 is meshed with a middle gear rack 310, two racks 311 are rotatably arranged on the first support 304, two racks 317 are respectively rotatably arranged on the linkage rod, a rack 311, a rack 313 is fixedly arranged on the first support 316 is arranged on the transmission rod 304, a rack 313, two rack supports 313 are fixedly arranged on the rack 313, a rack 313 and two rack 313 fixed with a rack 313, a rack 313 fixed support 313 for lifting rack 313, two lifting rack 313 for lifting rack 313 and a rack 313 are arranged on the rack 313, two lifting rack 313, a rack 313 fixed support 313 arranged on the rack 313, two lifting rack 313 arranged on the rack 313, a rack 313 for lifting rack 313 fixed support 313 for lifting rack 313, two lifting rack 313 arranged on the rack 313, a rack 313 arranged on the rack 313, two lifting rack 313 fixed support 313 for lifting rack 313 arranged on the rack 313, two lifting rack 313 arranged on the rack 313, the first poking rod 312 is rotatably installed on the first support 304 and the second support, the first poking rod 312 and the second poking rod 317 are slidably installed, the impeller 204 rotates during work, a blockage is moved to the position of the waste discharge frame 302 through centrifugal force, when the blockage is increased, the waste discharge plate 303 is pushed to enable the recovery plate 307 to move, the transmission rack 310 is pushed to drive the transmission gear 318 to rotate, the rack 311 is stressed, the recovery plate 307 pushes the second poking rod 317 to rotate, the first poking rod 312 is driven to rotate, the lifting support 313 is lifted, when the lifting support 313 is lifted, the clamping plate 308 is separated from the rack 311, the rack 311 is driven by the second spring 314 to pop out, the valve plate 316 is driven to move, meanwhile, the clamping plate 308 on the linkage rod 305 clamps the recovery plate 307, the waste discharge plate 303 is fixed with the valve plate 316, opening of the valve is completed, and after waste discharge is completed, the device is reset through the first spring 306 and the lifting support 313.

The waste discharge assembly 4 comprises a waste discharge shell 405 fixedly mounted with a second shell 103, a valve collar 401, a filter plate 403, a fixing plate 407 and a drain pipe 404 are fixedly mounted on the waste discharge shell 405, the valve collar 401 and the first shell 102 are fixedly mounted, a detachable door plate 402 is movably mounted on the waste discharge shell 405, a one-way valve is arranged on the drain pipe 404, a lower pressing plate 406 is slidably mounted on the fixing plate 407, four sliding shafts are uniformly distributed on the lower pressing plate 406 and slidably mounted with the fixing plate 407, a rack plate 410 is fixedly mounted on the sliding shafts, two racks are arranged on the rack plate 410, a spring is mounted on the sliding shafts, the spring and the fixing plate 407 are fixedly mounted for resetting the lower pressing plate 406, a bracket is arranged on the fixing plate 407, two first gears 408 are rotatably mounted on the bracket through a central shaft, the two first gears 408 are respectively meshed with the two racks on the rack plate 410, a guide groove plate 409 is fixedly mounted on the fixing plate 407, a linkage rod 305 and a guide groove plate 409 are slidably mounted, the linkage rod 305 and the waste discharge shell 405 are slidably mounted, two racks are arranged on the linkage rod 305, the linkage rod 305 and respectively meshed with the two gears 408, the sewage dropped in the waste discharge housing 405 is filtered by the filter plate 403, the filtered water flows to the lower press plate 406, the accumulated water increases, the lower press plate 406 moves downward to drive the rack plate 410 to move downward, thereby rotating the first gear 408, which drives the linkage rod 305 to move upward, and further causes the clamping plate 308 on the linkage rod 305 to move upward, and the return plate 307 is reset under the action of the first spring 306, so that the gap adjusting assembly 3 is reset, filtered water is discharged into the water outlet pipe 301 through the water discharge pipe 404, and filtered blockage can be taken out by taking down the detachable door plate 402.

The invention discloses an anti-blocking drainage device for building heating ventilation, which has the following working principle: when using, water enters into inlet tube 101, stir garrulous sword 207 through motor 201 drive, stir garrulous sword two 209 and stir the bits of broken glass, flow into impeller 204 department after accomplishing the bits of broken glass, rotate through impeller 204 and carry out the centrifugation, the plug accumulation after the centrifugation is in the frame 302 department of wasting discharge, the accumulation increases, make waste discharge board 303 take place to remove, and then drive and transfer clearance subassembly 3 and adjust the discharge, discharge water through outlet pipe 301, be equipped with the filter screen on outlet pipe 301 simultaneously, strike off the filter screen when centrifuging through impeller 204 and prevent blockking up, the exhaust sewage of valve plate 316 department enters into waste discharge subassembly 4, filter through waste discharge subassembly 4, accomplish water after the filtration and discharge in outlet pipe 301 through drain pipe 404, accomplish work.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An anti-blocking drain device for building heating ventilation, comprising a shell assembly (1), characterized in that: the device comprises a shell assembly (1), and is characterized in that a stirring assembly (2), a gap adjusting assembly (3) and a waste discharging assembly (4) are arranged on the shell assembly (1), the stirring assembly (2) comprises a crushing assembly which is arranged on the shell assembly (1) and used for stirring and crushing the blockage, and the stirring assembly (2) further comprises a separating assembly which is arranged on the shell assembly (1) and used for separating the blockage;

the clearance adjusting assembly (3) comprises a waste discharge frame (302) fixedly mounted on the shell assembly (1), an adjusting assembly and a valve plate (316), wherein a return plate (307) is mounted on the waste discharge frame (302) in a sliding manner, and the return plate (307) slides to enable the adjusting assembly to release the limit of the valve plate (316) so that the valve plate (316) slides to discharge accumulated blockage;

the waste discharge assembly (4) comprises a waste discharge shell (405) fixedly mounted on the shell assembly (1), and a drainage assembly for draining water is mounted on the waste discharge shell (405).

2. An anti-clogging drainage device for building heating ventilation according to claim 1, characterized in that: crushing unit includes motor (201), ring gear (206) of fixed mounting on casing subassembly (1), fixed mounting has planet carrier (205), stirring sword two (209) on motor (201) output shaft, fixed mounting has the gear on stirring sword two (209), it installs planet carrier two (208) to rotate on ring gear (206), it installs a plurality of stirring sword (207) to rotate on planet carrier two (208), and is a plurality of stirring sword is gone up equal fixed mounting has the gear on stirring sword (207), stirring sword (207) go up the gear respectively with stir crushing sword two (209) go up the gear meshing, just it goes up the gear respectively with ring gear (206) to stir crushing sword (207) go up the gear.

3. An anti-clogging drainage device for building heating ventilation according to claim 1, characterized in that: the separating assembly comprises a rotating shaft (203) rotatably mounted on the shell assembly (1), a rotating wheel and an impeller (204) are fixedly mounted on the rotating shaft (203), and the rotating wheel is in belt transmission with the stirring assembly through a transmission belt (202).

4. An anti-clogging drainage device for building heating ventilation according to claim 1, characterized in that: the adjusting component comprises a water outlet pipe (301) fixedly installed on a shell component (1), a first support (304) and a second support (315) are fixedly installed on a waste discharge frame (302), a first linkage rod (305) and a rack (311) are installed on the first support (304) in a sliding mode, a clamping plate (308) is installed on the linkage rod (305) in a rotating mode, a reed (309) is installed on the linkage rod (305) in a fixed mode, a first waste discharge plate (303), a first spring (306) and a transmission rack (310) are installed on the transmission plate (307) in a sliding mode, a first spring (306) first end and a first support (304) are fixedly installed, a first spring (306) second end and a return plate (307) are fixedly installed, a transmission rod (318) is installed on the first support (304) in a rotating mode, the transmission gear (318) is meshed with the transmission rack (310), the rack (311) is meshed with the transmission gear (318), a valve plate (316) is fixedly installed on the rack (311), a first support (304) is provided with a first pull rod (312) in a sliding mode, a second support (313) is installed on the second support (317) in a sliding mode, and a lifting support (317) is installed on the second support (317), fixed mounting has spring three (319) on lifting support (313), spring three (319) first end and lifting support (313) fixed mounting, lifting support (313) second end and support two (315) fixed mounting, fixed mounting has spring two (314) on support two (315), spring two (314) first end and support two (315) fixed mounting, spring two (314) second end and rack (311) fixed mounting, it installs cardboard (308) to rotate on lifting support (313), fixed mounting has reed (309) on lifting support (313).

5. An anti-clogging drainage device for building heating ventilation according to claim 1, characterized in that: drainage subassembly includes valve collar (401), drain pipe (404), fixed plate (407) on fixed mounting wastes discharge casing (405), valve collar (401) and adjusting part fixed mounting, waste discharge subassembly (4) drainage subassembly still includes movable mounting dismantlement door plant (402) on waste discharge casing (405), be equipped with the check valve on drain pipe (404), slidable mounting has holding down plate (406) on fixed plate (407), fixed mounting has rack plate (410) on holding down plate (406), rotatable mounting has gear (408) on fixed plate (407), rack plate (410) and gear (408) meshing, fixed mounting has guide way board (409) on fixed plate (407), guide way board (409) and gangbar (305) slidable mounting.

6. An anti-clogging drainage device for building heating ventilation according to claim 4, characterized in that: the two ends of the transmission gear (318) are provided with large gears which are respectively meshed with the rack (311) and the middle of the transmission gear (318) is provided with a small gear which is meshed with the transmission rack (310).

7. An anti-clogging drainage device for building heating ventilation according to claim 4, characterized in that: the device is characterized in that a plurality of supports are arranged on the first support (304), the first poking rod (312) and the transmission gear (318) are respectively rotatably installed on the supports, a spring is fixedly installed on the linkage rod (305), a first end of the spring is fixedly installed on the linkage rod (305), and a second end of the spring is fixedly installed on the support arranged on the first support (304).

8. An anti-clogging drainage device for building heating ventilation according to claim 5, characterized in that: be equipped with the support on fixed plate (407), gear (408) are installed on the support that fixed plate (407) were established through the center pin rotation, gear (408) are equipped with a plurality ofly, fixed mounting has a plurality of sliding shafts on holding down plate (406), sliding shaft and fixed plate (407) fixed mounting, be equipped with the spring on the sliding shaft, the first end of spring and holding down plate (406) fixed mounting, spring second end and fixed plate (407) fixed mounting, be equipped with a plurality of racks on rack plate (410), rack plate (410) go up the rack respectively with gear (408) meshing.