CN-121974478-A - Safety auxiliary mechanism for industrial wastewater treatment

Abstract

The invention belongs to the technical field of sewage treatment, and particularly relates to a safety auxiliary mechanism for industrial wastewater treatment, which comprises an industrial wastewater tank and a plurality of groups of filler components, wherein the bottom end of the inner wall of the industrial wastewater tank is horizontally provided with a self-locking telescopic rod, the end parts of the self-locking telescopic rod are horizontally in abutting connection with the two sides of the inner wall of the industrial wastewater tank, the two ends of the self-locking telescopic rod are in self-adaptive adjustment according to the width of the industrial wastewater tank, the end parts of the self-locking telescopic rod after adjustment are in abutting connection with the bottom end of the inner wall of the industrial wastewater tank, the driving components at the two ends of a fixing rod are utilized to carry out climbing after being in abutting connection with the inner wall of the industrial wastewater tank, in the process, the plurality of groups of filler components are stretched, the stretched filler components are unfolded to automatically generate aerobic respiration for activated sludge in the industrial wastewater tank, organic matters are decomposed into inorganic matters, the state of pollutants is removed, and the assembly difficulty of microbial fiber fillers is reduced.

Inventors

• HUANG GUOCHEN

Assignees

• 江西巴顿环保科技有限公司

Dates

Publication Date

20260505

Application Date

20260326

Claims (10)

1. 1. The safety auxiliary mechanism for industrial wastewater treatment is characterized by comprising an industrial wastewater tank (1) and a plurality of groups of filler assemblies (5), wherein the bottom end of the inner wall of the industrial wastewater tank (1) is horizontally provided with a self-locking telescopic rod (2), the end parts of the self-locking telescopic rod (2) are horizontally in abutting connection with two sides of the inner wall of the industrial wastewater tank (1), the top of the self-locking telescopic rod (2) is provided with a fixed rod (3), two ends of the fixed rod (3) are respectively provided with a driving assembly (4) for climbing along the inner wall of the industrial wastewater tank (1), one ends of the groups of filler assemblies (5) are rotatably connected between the two groups of driving assemblies (4), and the other ends of the groups of filler assemblies (5) are fixedly connected to the outer side wall of the self-locking telescopic rod (2).
2. 2. The safety auxiliary mechanism for industrial wastewater treatment according to claim 1, wherein the driving assembly (4) comprises a moving mechanism (41), an adsorption mechanism (42) is rotatably connected to the outer wall of the moving mechanism (41), the central axis of the adsorption mechanism (42) coincides with the central axis of the moving mechanism (41), a vacuum mechanism (43) is fixedly connected to one side of the outer wall of the moving mechanism (41), the vacuum mechanism (43) is communicated with the moving mechanism (41) and the adsorption mechanism (42), an air cylinder (44) is fixedly connected to the other side of the outer wall of the moving mechanism (41), and the output end of the air cylinder (44) is connected to the inside of the moving mechanism (41) and the vacuum mechanism (43) in a penetrating manner and extends to one end of the vacuum mechanism (43) to be in transmission connection with the linkage plate (45).
3. 3. The safety auxiliary mechanism for industrial wastewater treatment according to claim 2, wherein the moving mechanism (41) comprises two groups of positioning rings (411), inner walls of the two groups of positioning rings (411) are fixedly connected with inner lining rings (412), the central axis center of each inner lining ring (412) coincides with the central axis center of each of the two groups of positioning rings (411), a first mounting hole (413) is formed in the top end of the outer wall of each inner lining ring (412), and a second mounting hole (414) is formed in one side of the outer wall of each inner lining ring (412).
4. 4. The safety auxiliary mechanism for industrial wastewater treatment according to claim 3, wherein two groups of third mounting holes (415) are formed in the outer walls of the positioning rings (411), the two groups of third mounting holes (415) are symmetrically arranged with the central axis of the lining ring (412) as the center, linkage arms (418) are rotatably connected in the third mounting holes (415), climbing wheels (419) are rotatably connected in the linkage arms (418), and a second motor (4110) for driving the climbing wheels (419) to rotate is embedded in the outer walls of the linkage arms (418).
5. 5. The safety auxiliary mechanism for industrial wastewater treatment according to claim 4, wherein a plurality of groups of rubber anti-slip strips are arranged on the outer wall of the climbing wheel (419), one side of the outer wall of the climbing wheel (419) is connected to the inner wall of the industrial wastewater tank (1) in a fitting mode, torsion springs are arranged on the outer wall of the two groups of positioning rings (411), one ends of the torsion springs elastically abut against the linkage arms (418) to enable the linkage arms (418) to approach the direction of one side of the inner wall of the industrial wastewater tank (1) all the time, the two groups of gears (416) are further connected to the inner wall of the positioning rings (411) in a rotating mode, one ends of the two groups of gears (416) are connected with the output end of a first motor (417) in a transmission mode, and one side, far away from the output end, of the first motor (417) is embedded and installed on the positioning rings (411).
6. 6. The safety auxiliary mechanism for industrial wastewater treatment according to claim 2, wherein the adsorption mechanism (42) comprises an adsorption ring (421), a plurality of groups of adsorption holes (422) are formed in the outer wall of the adsorption ring (421), the adsorption holes (422) are communicated with the inner wall of the adsorption ring (421), two groups of annular gears (423) are fixedly connected to the inner wall of the adsorption ring (421), the two groups of annular gears (423) are symmetrically arranged with the central axis of the adsorption hole (422) as the center, the two groups of annular gears (423) are connected to the gear (416) in a meshed mode, and the adsorption ring (421) is connected between the two groups of positioning rings (411) in a fitting mode.
7. 7. The safety auxiliary mechanism for industrial wastewater treatment according to claim 2, wherein the vacuum mechanism (43) comprises a guide sleeve (431), the end part of the guide sleeve (431) is fixedly connected with one side of the outer wall of the positioning ring (411), the inner wall of the guide sleeve (431) is mutually communicated with the inner wall of the lining ring (412), the vacuum pump (432) is fixedly connected with one side of the outer wall of the guide sleeve (431), an adsorption pipe (433) is arranged on the inner wall of the guide sleeve (431), one end of the adsorption pipe (433) penetrates through the guide sleeve (431) and is mutually communicated with the vacuum pump (432), the other end of the adsorption pipe (433) extends into the second mounting hole (414), the end part of the adsorption pipe (433) is communicated with an extension pipe (434), the other end of the extension pipe (434) extends between the two groups of annular gears (423), the top of the adsorption pipe (433) is communicated with an additional pipe (435) at one side close to the extension pipe (434), and one end of the additional pipe (435) extends into the first mounting hole (413).
8. 8. The safety auxiliary mechanism for industrial wastewater treatment according to claim 1, wherein the filler assembly (5) comprises an adjusting rope (51), the adjusting rope (51) is annularly arranged, a plurality of groups of microorganism fiber filler blocks (52) are arranged on the outer wall of the adjusting rope (51), a first guide bearing (53) is connected to the bottom end of the adjusting rope (51) in a rolling mode, a first installation sleeve (54) is fixedly connected to the bottom end of the first guide bearing (53), and the first installation sleeve (54) is fixedly connected to the outer wall of the self-locking telescopic rod (2).
9. 9. The safety auxiliary mechanism for industrial wastewater treatment according to claim 8, wherein the top end of the adjusting rope (51) is connected with a second guide bearing (55) in a rolling manner, the top end of the second guide bearing (55) is fixedly connected with a second installation sleeve (56), the second installation sleeve (56) is fixedly connected with the outer wall of the air cylinder (44) and the fixing rod (3), a first traction block (57) is installed on one side of the outer wall of the adjusting rope (51), a first linkage rod (58) is arranged at the top of the first traction block (57), and a first traction rope (59) is connected between the outer wall of the first linkage rod (58) and the top of the first traction block (57).
10. 10. The safety auxiliary mechanism for industrial wastewater treatment according to claim 9, wherein a second traction block (510) is mounted on the other side of the outer wall of the adjusting rope (51), a second linkage rod (511) is arranged at the top of the second traction block (510), a second traction rope (512) is connected between the outer wall of the second linkage rod (511) and the top of the second traction block (510), the ends of the first linkage rod (58) and the second linkage rod (511) are both rotatably connected to the outer side wall of the positioning ring (411), and a motor for driving the first linkage rod (58) and the second linkage rod (511) to rotate is further arranged on the outer side wall of the positioning ring (411).

Description

Safety auxiliary mechanism for industrial wastewater treatment Technical Field The invention belongs to the technical field of sewage treatment, and particularly relates to a safety auxiliary mechanism for industrial wastewater treatment. Background In the industrial wastewater treatment process, various regulating ponds, reaction ponds and reservoirs usually need to be manually subjected to water quality inspection, equipment maintenance or in-pond cleaning operation. However, during installation of microbial fiber filler blocks, it is common for construction personnel to perform climbing assemblies within an industrial wastewater pond. According to the application, through equidistant installation of the fixing mechanisms outside the auxiliary mechanisms, personnel penetrate through the through holes in the connecting plates, then the two ends of the connecting ropes are respectively fixed in the two groups of connecting plates, and at the moment, the personnel can directly clamp the two groups of fixing rings at the outer sides of the auxiliary mechanisms at equal intervals, so that labor expenditure of people can be reduced, work efficiency of the personnel can be improved, and the installation speed of the microbial fiber filler can be improved. However, the device has the following defects that although the installation speed of the microbial fiber filler can be improved, the installation mode of the auxiliary mechanism is time-consuming and labor-consuming, the microbial fiber filler blocks on the connecting ropes are required to be vertically connected with the fixing mechanism and the supporting plate, and when the height of the industrial wastewater tank is too high, the assembly of the safety auxiliary mechanism is inconvenient, so that the assembly difficulty of the microbial fiber filler is increased. Disclosure of Invention The invention provides a safety auxiliary mechanism for industrial wastewater treatment, which comprises an industrial wastewater tank and a plurality of groups of filler assemblies, wherein the bottom end of the inner wall of the industrial wastewater tank is horizontally provided with a self-locking telescopic rod, the end parts of the self-locking telescopic rod are horizontally in abutting connection with two sides of the inner wall of the industrial wastewater tank, the top of the self-locking telescopic rod is provided with a fixed rod, the two ends of the fixed rod are respectively provided with a driving assembly for climbing along the inner wall of the industrial wastewater tank, one ends of the plurality of groups of filler assemblies are rotatably connected between the two groups of driving assemblies, and the other ends of the plurality of groups of filler assemblies are fixedly connected to the outer side wall of the self-locking telescopic rod. Further, the driving assembly comprises a moving mechanism, wherein the outer wall of the moving mechanism is rotationally connected with an adsorption mechanism, the central axis of the adsorption mechanism coincides with the central axis of the moving mechanism, one side of the outer wall of the moving mechanism is fixedly connected with a vacuum mechanism, the vacuum mechanism is mutually communicated with the moving mechanism and the adsorption mechanism, the other side of the outer wall of the moving mechanism is fixedly connected with an air cylinder, and the output end of the air cylinder is connected inside the moving mechanism and the vacuum mechanism in a penetrating way and extends to one end of the vacuum mechanism to be in transmission connection with the linkage plate. Further, the moving mechanism comprises two groups of positioning rings, wherein the inner walls of the two groups of positioning rings are fixedly connected with inner lining rings, the central axis center of the inner lining rings is overlapped with the central axis center of the two groups of positioning rings, the top end of the outer wall of the inner lining rings is provided with a first mounting hole, and one side of the outer wall of the inner lining rings is provided with a second mounting hole. Further, two groups of third mounting holes are formed in the outer walls of the positioning rings, the two groups of third mounting holes are symmetrically arranged with the central axis of the inner lining ring as the center, linkage arms are rotationally connected in the third mounting holes, climbing wheels are rotationally connected in the linkage arms, and a second motor for driving the climbing wheels to rotate is embedded in the outer walls of the linkage arms. Further, the outer wall of wheel of climbing is provided with a plurality of groups of rubber antislip strips, just the outer wall one side laminating connection of wheel of climbing is at the inner wall of industry waste water pond, two sets of the outer wall of holding ring is provided with torsion spring, just torsion spring's one end is contradicted to the linking arm elas