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CN-224212551-U - Filter mechanism and tire capsule high-temperature steam condensate water treatment system

CN224212551UCN 224212551 UCN224212551 UCN 224212551UCN-224212551-U

Abstract

The utility model discloses a filtering mechanism and a tire capsule high-temperature steam condensate water treatment system, which relate to the technical field of water treatment, wherein the filtering mechanism comprises a filtering shell provided with a filtering water inlet pipe, a water outlet pipe and a waste liquid pipe, the inside of the shell is provided with a filtering inner core containing a titanium rod, and is also provided with a filtering and cleaning mechanism which comprises an ultrasonic cleaning structure capable of transmitting ultrasonic waves to the titanium rod and a recoil cleaning structure capable of forming a passage to convey flushing medium. The filtering mechanism realizes automatic operation by combining ultrasonic cleaning and steam backflushing cleaning, solves the problem of complex cleaning of the titanium rod filter, reduces the cost of labor, labor and time, has good cleaning effect and less time consumption, improves the filtering efficiency, and saves manpower, material resources and investment cost.

Inventors

  • CHEN FENG
  • LIU WEI
  • Xiang Yuanquan
  • LIU ZONGLI
  • CHEN LINGLING

Assignees

  • 青岛万源环境科技有限公司

Dates

Publication Date
20260508
Application Date
20250605

Claims (10)

  1. 1. A filter mechanism, comprising: A filtering shell, on which a filtering water inlet pipe, a filtering water outlet pipe and a filtering waste liquid pipe are arranged; The filter inner core is arranged in the filter shell and comprises a plurality of titanium rods for filtering, and the filter water outlet pipe is communicated with the inside of the filter inner core; A filter cleaning mechanism for cleaning the filter core, the filter cleaning mechanism comprising: The ultrasonic cleaning structure comprises an ultrasonic generator, wherein the ultrasonic generator can transmit ultrasonic waves into the titanium rod of the filter inner core; The backflushing cleaning structure forms a passageway between the interior of the filter core and the filter outlet tube through which an external supply of flushing medium may deliver flushing medium to the interior of the filter core.
  2. 2. The filter mechanism of claim 1, wherein the filter housing is internally hollow, the hollow inside the filter housing comprising: The filter comprises a first filter cavity, a filter inner core, a filter water inlet pipe, a filter water outlet pipe, a filter shell and a filter water outlet pipe, wherein the filter inner core is positioned in the first filter cavity, the filter water inlet pipe is communicated with the lower part of the first filter cavity, the filter water outlet pipe is communicated with the upper part of the first filter cavity, and the filter water inlet pipe and the filter water outlet pipe are respectively positioned at two sides of the filter shell.
  3. 3. The filter mechanism of claim 2, wherein the cavity within the filter housing further comprises: The second filter cavity is positioned below the first filter cavity, the upper part of the second filter cavity is communicated with the first filter cavity, the cavity of the second filter cavity is a structure body which is gradually reduced downwards, and the waste liquid filtering pipe is arranged on the cavity wall of the second filter cavity.
  4. 4. The filter mechanism of claim 1, wherein the filter core comprises, The titanium rod group is formed by distributing a plurality of titanium rods in a linear array, and at least two titanium rod groups are arranged; the inside of the flow dividing piece is a cavity, the titanium rod end part of the titanium rod group is communicated with the cavity inside the flow dividing piece, and the filtering water outlet pipe is positioned at one end inside the filtering shell and is communicated with the cavity inside the flow dividing piece.
  5. 5. The filter mechanism of claim 4, wherein the ultrasonic generator is coupled to the shunt, and an ultrasonic emitting end of the ultrasonic generator is positioned within the shunt and toward the titanium rod.
  6. 6. The filter mechanism of claim 5, wherein the flushing medium output by the external flushing medium supply to which the backflushing cleaning structure is in communication is steam.
  7. 7. A tire bladder high temperature steam condensate water treatment system employing the filtration mechanism of any one of claims 1-6.
  8. 8. The tire bladder high temperature steam condensate treatment system of claim 7, comprising: the water supply unit can receive and output high-temperature steam condensate water to be filtered; The precipitation unit is arranged at the water output side of the water supply unit and can carry out precipitation treatment on the high-temperature steam condensate water; the air floatation unit is arranged at the water output side of the precipitation unit and can perform air floatation treatment on impurities in the high-temperature steam condensate water; A filtering unit, which uses the filtering mechanism as set forth in any one of claims 1-6, wherein the filtering inlet pipe of the filtering mechanism is communicated with the water output end of the air floatation unit; The storage unit is communicated with the filtering water outlet pipe of the filtering mechanism.
  9. 9. The tire bladder high temperature steam condensate water treatment system of claim 8, wherein the precipitation unit comprises: The lower part of the upper sedimentation tank is provided with a sedimentation structure, the sedimentation structure comprises a plurality of sedimentation pipes which are obliquely arranged, and the sedimentation pipes are distributed in an array; The lower sedimentation tank is provided with a plurality of bottom parts, a bucket-shaped space with a big upper part and a small lower part is arranged in the lower sedimentation tank, and the upper part of the lower sedimentation tank is communicated with the upper sedimentation tank; the sedimentation filter screen is arranged in the upper sedimentation tank.
  10. 10. The tire bladder high temperature steam condensate water treatment system of claim 9, wherein the air floatation unit comprises: The water inlet end of the air floatation tank is communicated with the water outlet end of the upper sedimentation tank, and the clear water outlet is communicated with the filtering water inlet pipe of the filtering mechanism; The scraping assembly is arranged at the upper part of the air floatation tank; the air floatation sedimentation tank is arranged at the bottom of the air floatation tank.

Description

Filter mechanism and tire capsule high-temperature steam condensate water treatment system Technical Field The utility model relates to the technical field of water treatment, in particular to a filtering mechanism and a tire capsule high-temperature steam condensate water treatment system. Background In the field of industrial filtration and water treatment, efficient use of filters and treatment of specific industrial wastewater have been the technical directions of great interest. Titanium rod filters are widely used in many industrial fields because of their excellent corrosion resistance and mechanical strength. After the conventional titanium rod filter is used, the cleaning process is complicated, a large amount of labor, time and cleaning agents are required to be consumed, the operation cost is increased, the use efficiency of equipment is reduced, and the problem is particularly remarkable in industrial mass production. In addition, in the tire manufacturing industry, tire bladders are used as critical molds in the tire curing process, which are typically operated at temperatures of 180-200 ℃, and which produce significant amounts of high temperature steam condensate during the cooling stage. The water temperature of the condensed water reaches 80-90 ℃, the condensed water contains a large amount of rubber particles and colloid substances, the organic matter content is low, the TDS concentration is at a low level (TDS is less than or equal to 70 mg/L), the condensed water is not easy to treat until the condensed water meets the boiler water supply standard, the water cannot be effectively recycled, the resource waste is caused, and the water treatment cost and the environmental protection pressure of enterprises are increased. Disclosure of utility model Aiming at one of the defects of the prior art, the utility model provides a filtering mechanism and a tire capsule high-temperature steam condensate water treatment system, which solve the problem of treatment of tire capsule high-temperature steam condensate water. In order to achieve the above purpose, the utility model provides a filtering mechanism comprising: A filtering shell, on which a filtering water inlet pipe, a filtering water outlet pipe and a filtering waste liquid pipe are arranged; The filter inner core is arranged in the filter shell and comprises a plurality of titanium rods for filtering, and the filter water outlet pipe is communicated with the inside of the filter inner core; A filter cleaning mechanism for cleaning the filter core, the filter cleaning mechanism comprising: The ultrasonic cleaning structure comprises an ultrasonic generator, wherein the ultrasonic generator can transmit ultrasonic waves into the titanium rod of the filter inner core; The backflushing cleaning structure forms a passageway between the interior of the filter core and the filter outlet tube through which an external supply of flushing medium may deliver flushing medium to the interior of the filter core. Preferably, the inside of the filtering shell is a cavity, and the cavity inside the filtering shell comprises: The filter comprises a first filter cavity, a filter inner core, a filter water inlet pipe, a filter water outlet pipe, a filter shell and a filter water outlet pipe, wherein the filter inner core is positioned in the first filter cavity, the filter water inlet pipe is communicated with the lower part of the first filter cavity, the filter water outlet pipe is communicated with the upper part of the first filter cavity, and the filter water inlet pipe and the filter water outlet pipe are respectively positioned at two sides of the filter shell. Preferably, the cavity inside the filter housing further comprises: The second filter cavity is positioned below the first filter cavity, the upper part of the second filter cavity is communicated with the first filter cavity, the cavity of the second filter cavity is a structure body which is gradually reduced downwards, and the waste liquid filtering pipe is arranged on the cavity wall of the second filter cavity. Preferably, the filter core comprises, The titanium rod group is formed by distributing a plurality of titanium rods in a linear array, and at least two titanium rod groups are arranged; the inside of the flow dividing piece is a cavity, the titanium rod end part of the titanium rod group is communicated with the cavity inside the flow dividing piece, and the filtering water outlet pipe is positioned at one end inside the filtering shell and is communicated with the cavity inside the flow dividing piece. Preferably, the ultrasonic generator is connected with the shunt, and an ultrasonic transmitting end of the ultrasonic generator is located inside the shunt and faces the titanium rod. Preferably, the flushing medium output by the external flushing medium supply source communicated with the backflushing cleaning structure is steam. A tire bladder high temperature steam condensate treat