CN212504201U - Assembled membrane frame for membrane bioreactor - Google Patents

Abstract

The utility model aims at providing an equipment membrane frame for membrane bioreactor which is characterized in that: the water seepage device comprises a bottom frame, a top frame and a plurality of transition frames, wherein the transition frames are positioned between the bottom frame and the top frame according to a superposition structure, the bottom frame is provided with a first bottom frame water delivery pipe, a bottom frame supporting structure, a second bottom frame water delivery pipe and a water seepage plate, the top frame is provided with a first top frame water delivery pipe, a top frame supporting structure and a second top frame water delivery pipe, and each transition frame is provided with a first transition frame water delivery pipe and a second transition frame water delivery pipe; whole support body simple structure, dismouting make things convenient for fast, nimble changeable for membrane bioreactor's equipment membrane frame adopts split module formula package assembly structure design, is furnished with inside and outside double-circuit and is used for the transport of sewage, guarantees support body structure interior every membrane bioreactor's make full use of, can increase and decrease transition support body structure according to the condition that the user appears increaseing sewage treatment capacity, improves work efficiency, has reduced user's use cost.

Description

Assembled membrane frame for membrane bioreactor

Technical Field

The utility model relates to a sewage and wastewater treatment field especially relates to an equipment membrane frame for membrane bioreactor.

Background

A membrane bioreactor, referred to as MBR for short, is a new technology combining membrane technology and biochemical reaction in sewage treatment, also referred to as membrane separation activated sludge method, which utilizes a membrane to filter sludge-containing sewage in a biochemical reaction tank to realize sludge-water separation, on one hand, the membrane intercepts microorganisms in the reaction tank to greatly increase the concentration of activated sludge in the tank to a high level so as to enable the biochemical reaction for degrading pollutants to be carried out more rapidly and thoroughly, and on the other hand, because of the high filtering precision of the membrane, the clear and transparent effluent is ensured to obtain high-quality produced water, therefore, the installation and fixation of the membrane components in the membrane bioreactor are very important, and the construction is basically completed through an assembled membrane frame of the membrane components, but the existing membrane components are all in a fixed mode, when the sewage treatment capacity needs to be increased, the membrane components built through the fixed mode and the structure can not meet the treatment operation of a large amount of sewage, the working efficiency of sewage treatment is not high, and the sewage treatment device also needs to be matched with other membrane bioreactors for use, thereby increasing the use cost of users invisibly.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an adopt split module formula package assembly structure design, can appear increasing sewage treatment capacity's the condition according to the user, increase and decrease transition support body structure, the equipment that is used for satisfying membrane bioreactor, it is nimble changeable more, convenient and fast, and a whole set of support body structure is furnished with interior, outer double-pipe way is used for the transport of sewage, guarantee the make full use of every membrane bioreactor in the support body structure, improve work efficiency, quick assembly disassembly membrane frame has been realized, the equipment membrane frame that is used for membrane bioreactor who has reduced user use cost.

The technical scheme of the utility model is that: an assembled membrane frame for a membrane bioreactor, comprising: the water-seepage-prevention bottom frame is characterized by comprising a bottom frame, a top frame and a plurality of transition frames, wherein the bottom frame is positioned at the lower part of the top frame, the bottom frame is movably connected with the top frame, the transition frames are positioned between the bottom frame and the top frame according to a superposition structure, the transition frames are fixedly connected with the bottom frame and the top frame by bolts, the bottom frame is also provided with a first bottom frame water delivery pipe, a bottom frame supporting structure, a second bottom frame water delivery pipe and a water seepage plate, the first bottom frame water delivery pipe is positioned at one side of the bottom frame, the first bottom frame water delivery pipe is fixedly connected with the bottom frame, the bottom frame supporting structure is positioned at the middle part of the inner side of the bottom frame, the bottom frame supporting structure is fixedly connected with the bottom frame, and the second bottom frame water delivery pipe is positioned at the central position inside the bottom frame supporting structure, the bottom frame second water pipe is fixedly connected with the bottom frame supporting structure, the water seepage plate is positioned at the bottom of the bottom frame, the water seepage plate is fixedly connected with the bottom frame, the top frame is also provided with a top frame first water pipe, a top frame supporting structure and a top frame second water pipe, the top frame first water pipe is positioned at one side of the top frame, the top frame first water pipe is fixedly connected with the top frame, the top frame supporting structure is positioned at the middle part of the inner side of the top frame, the top frame supporting structure is fixedly connected with the top frame, the top frame second water pipe is positioned at the central position inside the top frame supporting structure, the top frame second water pipe is fixedly connected with the top frame supporting structure, any transition frame is also provided with a transition frame first water pipe and a transition frame second water pipe, and the transition frame first water pipe is positioned at one side of the transition frame, the first water pipe of the transition frame is fixedly connected with the transition frame, the second water pipe of the transition frame is positioned at the center inside the transition frame, and the second water pipe of the transition frame is movably connected with the transition frame.

Further, the first water pipe of the bottom frame, the first water pipe of the top frame and the first water pipe of the transition frame are respectively distributed on the same side of the bottom frame, the top frame and the transition frame.

Further, the water seepage plate is of a fence type structure.

Further, the bottom frame first water delivery pipe, the bottom frame second water delivery pipe, the top frame first water delivery pipe, the top frame second water delivery pipe, the transition frame first water delivery pipe and the transition frame second water delivery pipe are all flange type connecting pipes with rubber cushions.

The beneficial effects of the utility model reside in that: the frame body is an assembled film frame for the film bioreactor, and adopts a split modular assembled structure design, so that the structure of the transition frame body can be increased or decreased according to the condition that the sewage treatment capacity is increased by a user, and the assembly of the film bioreactor is met; when the membrane assembly is used, the plurality of transition frames are arranged between the bottom frame and the top frame in a stacked structure mode, each transition frame is fixedly connected through a bolt, the assembled transition frames are fixedly connected with the bottom frame and the top frame through the bolts to form a whole body, the whole body is convenient to build and disassemble, a water seepage plate is arranged at the bottom of the bottom frame and adopts a fence type structure to facilitate the drainage of accumulated water, after the whole frame is fixedly connected, a membrane assembly for treating sewage is inserted and arranged into the whole frame structure built by the bottom frame, the top frame and the transition frames, and the sewage is conveyed for the membrane assembly through a pipeline system built by the first water pipe of the bottom frame, the second water pipe of the bottom frame, the first water pipe of the top frame, the second water pipe of the top frame, the first water pipe of the transition frames and the second water pipe of the transition frames, therefore, the degradation treatment of the sewage is completed, and the number of the transition frames can be increased or decreased by users according to the actual sewage treatment condition so as to improve the treatment performance and efficiency; whole support body simple structure, dismouting are convenient fast, and are nimble changeable, convenient and fast more to whole support body structure is furnished with inside and outside double-circuit and is used for the transport of sewage, guarantees the make full use of every membrane bioreactor in the support body structure, improves work efficiency, has realized quick assembly disassembly membrane frame, has reduced user's use cost.

Drawings

Fig. 1 is a front view of the present invention.

Wherein: 1. bottom frame 2, first raceway 3 of bottom frame, bottom frame bearing structure

4. A second water delivery pipe 5 of the bottom frame, a water seepage plate 6 and a top frame

7. A top frame first water pipe 8, a top frame supporting structure 9 and a top frame second water pipe

10. Transition frame 11, first water pipe 12 of transition frame, second water pipe of transition frame

Detailed Description

The following provides a brief description of the embodiments of the present invention with reference to the accompanying drawings.

As shown in figure 1, the assembled membrane frame for the membrane bioreactor is characterized in that: the solar energy water heater is characterized by comprising a bottom frame 1, a top frame 6 and a plurality of transition frames 10, wherein the bottom frame 1 is positioned at the lower part of the top frame 6, the bottom frame 1 and the top frame 6 are movably connected, the transition frames 10 are positioned between the bottom frame 1 and the top frame 6 according to an overlapped structure, bolt fixed connection is utilized between the transition frames 10, in addition, the transition frames 10 are fixedly connected with the bottom frame 1 and the top frame 6 by utilizing bolts, a first bottom frame water delivery pipe 2, a bottom frame supporting structure 3, a second bottom frame water delivery pipe 4 and a water seepage plate 5 are further arranged on the bottom frame 1, the first bottom frame water delivery pipe 2 is positioned at one side of the bottom frame 1, the first bottom frame water delivery pipe 2 and the bottom frame 1 are fixedly connected, the bottom frame supporting structure 3 is positioned at the middle part of the inner side of the bottom frame 1, and the bottom frame supporting structure 3 and the bottom frame 1 are fixedly connected, the bottom frame second water pipe 4 is positioned at the central position inside the bottom frame supporting structure 3, the bottom frame second water pipe 4 is fixedly connected with the bottom frame supporting structure 3, the water seepage plate 5 is positioned at the bottom of the bottom frame 1, the water seepage plate 5 is fixedly connected with the bottom frame 1, the top frame 6 is further provided with a top frame first water pipe 7, a top frame supporting structure 8 and a top frame second water pipe 9, the top frame first water pipe 7 is positioned at one side of the top frame 6, the top frame first water pipe 7 is fixedly connected with the top frame 6, the top frame supporting structure 8 is positioned at the middle part inside the top frame 6, the top frame supporting structure 8 is fixedly connected with the top frame 6, the top frame second water pipe 9 is positioned at the central position inside the top frame supporting structure 8, and the top frame second water pipe 9 is fixedly connected with the top frame supporting structure 8, a first transition frame water pipe 11 and a second transition frame water pipe 12 are further arranged on any transition frame 10, the first transition frame water pipe 11 is located on one side of the transition frame 10, the first transition frame water pipe 11 is fixedly connected with the transition frame 10, the second transition frame water pipe 12 is located in the center of the inside of the transition frame 10, and the second transition frame water pipe 12 is movably connected with the transition frame 10. The bottom frame first water pipe 2, the top frame first water pipe 7 and the transition frame first water pipe 11 are respectively distributed on the same side of the bottom frame 1, the top frame 6 and the transition frame 10. The water seepage plate 5 is of a fence type structure. The first bottom frame water delivery pipe 2, the second bottom frame water delivery pipe 4, the first top frame water delivery pipe 7, the second top frame water delivery pipe 9, the first transition frame water delivery pipe 11 and the second transition frame water delivery pipe 12 are all flange type connecting pipes with rubber cushions.

The working mode is as follows: the frame body is an assembled film frame for the film bioreactor, and adopts a split modular assembled structure design, so that the structure of the transition frame body can be increased or decreased according to the condition that the sewage treatment capacity is increased by a user, and the assembly of the film bioreactor is met; the whole body mainly comprises a bottom frame 1, a top frame 6 and a plurality of transition frames 10, when in use, the transition frames 10 are arranged between the bottom frame 1 and the top frame 6 according to a form of a superposition structure, each transition frame 10 is fixedly connected by a bolt, and the assembled transition frames 10 are also fixedly connected with the bottom frame 1 and the top frame 6 by the bolts so as to form a whole body, one side of the bottom frame 1 is provided with a bottom frame first water pipe 2, one side of the top frame 6 is provided with a top frame first water pipe 7, one side of each transition frame 10 is provided with a transition frame first water pipe 11, the bottom frame first water pipe 2, the top frame first water pipe 7 and the transition frame first water pipe 11 are respectively distributed on the same side of the bottom frame 1, the top frame 6 and the transition frames 10, when a user assembles the bottom frame 1, the top frame 6 and the plurality of transition frames 10, the first water pipe 2 of the bottom frame, the first water pipe 7 of the top frame and the first water pipe 11 of the transition frame are correspondingly connected with each other, in addition, the bottom frame supporting structure 3 and the top frame supporting structure 8 are respectively arranged in the bottom frame 1 and the top frame 6, the bottom frame supporting structure 3 and the top frame supporting structure 8 can respectively play a role of supporting the bottom frame 1 and the top frame 6, the integral structure is more stable and firm along with the increase of the number of the transition frames 10, in addition, the central position of the inner side of the bottom frame supporting structure 3 is provided with the second water pipe 4 of the bottom frame, the central position of the inner side of the top frame supporting structure 8 is also provided with the second water pipe 9 of the top frame, the central position of the inner side of each transition frame 10 is provided with the second water pipe 12 of the transition frame, and the first water pipe 2 of the bottom frame, the second water pipe 9 of the top frame and the transition frame are connected with the first, The top frame first water pipe 7 and the transition frame first water pipe 11 are connected with each other, the bottom frame second water pipe 4, the top frame second water pipe 9 and the transition frame second water pipe 12 are connected with each other, the bottom frame first water pipe 2, the bottom frame second water pipe 4, the top frame first water pipe 7, the top frame second water pipe 9, the transition frame first water pipe 11 and the transition frame second water pipe 12 are all flange type connecting pipes with rubber cushions, the building and the dismounting are convenient, the rubber cushions in the bottom frame can effectively inhibit the water seepage of the pipelines, in addition, a water seepage plate 5 is arranged at the bottom of the bottom frame 1, the water seepage plate 5 adopts a fence type structure, the drainage of accumulated water is convenient, after the whole frame body is fixedly connected, a membrane assembly for treating sewage is inserted and installed in the whole frame body structure built by the bottom frame 1, the top frame 6 and the transition frames 10, a pipeline system built by the bottom frame first water delivery pipe 2, the bottom frame second water delivery pipe 4, the top frame first water delivery pipe 7, the top frame second water delivery pipe 9, the transition frame first water delivery pipe 11 and the transition frame second water delivery pipe 12 is used for delivering sewage to the membrane module, so that the degradation treatment of the sewage is completed, and a user can increase or decrease the number of the transition frames 10 according to the actual sewage treatment condition so as to improve the treatment performance and efficiency; whole support body simple structure, dismouting are convenient fast, and are nimble changeable, convenient and fast more to whole support body structure is furnished with inside and outside double-circuit and is used for the transport of sewage, guarantees the make full use of every membrane bioreactor in the support body structure, improves work efficiency, has realized quick assembly disassembly membrane frame, has reduced user's use cost.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", "end", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (4)

1. An assembled membrane frame for a membrane bioreactor, comprising: the water-seepage-prevention bottom frame is characterized by comprising a bottom frame, a top frame and a plurality of transition frames, wherein the bottom frame is positioned at the lower part of the top frame, the bottom frame is movably connected with the top frame, the transition frames are positioned between the bottom frame and the top frame according to a superposition structure, the transition frames are fixedly connected with the bottom frame and the top frame by bolts, the bottom frame is also provided with a first bottom frame water delivery pipe, a bottom frame supporting structure, a second bottom frame water delivery pipe and a water seepage plate, the first bottom frame water delivery pipe is positioned at one side of the bottom frame, the first bottom frame water delivery pipe is fixedly connected with the bottom frame, the bottom frame supporting structure is positioned at the middle part of the inner side of the bottom frame, the bottom frame supporting structure is fixedly connected with the bottom frame, and the second bottom frame water delivery pipe is positioned at the central position inside the bottom frame supporting structure, the bottom frame second water pipe is fixedly connected with the bottom frame supporting structure, the water seepage plate is positioned at the bottom of the bottom frame, the water seepage plate is fixedly connected with the bottom frame, the top frame is also provided with a top frame first water pipe, a top frame supporting structure and a top frame second water pipe, the top frame first water pipe is positioned at one side of the top frame, the top frame first water pipe is fixedly connected with the top frame, the top frame supporting structure is positioned at the middle part of the inner side of the top frame, the top frame supporting structure is fixedly connected with the top frame, the top frame second water pipe is positioned at the central position inside the top frame supporting structure, the top frame second water pipe is fixedly connected with the top frame supporting structure, any transition frame is also provided with a transition frame first water pipe and a transition frame second water pipe, and the transition frame first water pipe is positioned at one side of the transition frame, the first water pipe of the transition frame is fixedly connected with the transition frame, the second water pipe of the transition frame is positioned at the center inside the transition frame, and the second water pipe of the transition frame is movably connected with the transition frame.

2. The assembled membrane rack for a membrane bioreactor of claim 1, wherein: the first water delivery pipe of the bottom frame, the first water delivery pipe of the top frame and the first water delivery pipe of the transition frame are respectively distributed on the same side of the bottom frame, the top frame and the transition frame.

3. The assembled membrane rack for a membrane bioreactor of claim 1, wherein: the water seepage plate is of a fence type structure.

4. The assembled membrane rack for a membrane bioreactor of claim 1, wherein: the first bottom frame water delivery pipe, the second bottom frame water delivery pipe, the first top frame water delivery pipe, the second top frame water delivery pipe, the first transition frame water delivery pipe and the second transition frame water delivery pipe are all flange type connecting pipes with rubber cushions.

Images