CN113230969A

CN113230969A - Modularized biological deodorant processing equipment

Info

Publication number: CN113230969A
Application number: CN202110521584.7A
Authority: CN
Inventors: 周国庆; 朱福新; 梅亚宏; 王均林; 王夕方
Original assignee: Jiangsu Shengjiu Environmental Technology Co ltd
Current assignee: Jiangsu Shengjiu Environmental Technology Co ltd
Priority date: 2021-05-13
Filing date: 2021-05-13
Publication date: 2021-08-10
Anticipated expiration: 2041-05-13
Also published as: CN113230969B

Abstract

The invention relates to the technical field of biological deodorant processing and production, in particular to modular biological deodorant processing equipment which comprises a main reaction kettle and an adjusting motor. According to the modular biological deodorant processing equipment, the front side wall of the main reaction kettle is provided with the built-in front storage box, the built-in front guide assembly mechanism and the front assembly groove of the lateral linkage assembly, and by adopting a modular design, the loading and unloading operation is simple and convenient, the cleaning and maintenance difficulty is low, and the production efficiency is greatly enhanced; the gravity guide is adopted to conduct the assembled materials away from the interior, the raw material filling mode can be freely sequenced, frequent plugging and unplugging caused by filling of different raw materials are not needed, the operation is simple, and the processing efficiency is greatly improved; leading storage box cooperation vertical inside assembly groove inside with inside water conservancy diversion assembly devices intercommunication each other, make it can freely change according to the assembled state and open and close and the tandem state, it is very convenient to use.

Description

Modularized biological deodorant processing equipment

Technical Field

The invention relates to the technical field of biological deodorant processing and production, in particular to modular biological deodorant processing equipment.

Background

The malodorous gas not only has serious influence on the ecological environment, but also has great harm to the health of human bodies, and can cause central nerves to generate obstacles and pathological changes to cause chronic diseases and acute diseases. The heterocyclic perfume has low threshold value, high odor intensity and unpleasant odor, and a large amount of odor is easy to escape in the production and packaging processes, so that the heterocyclic perfume is easily unpleasant to internal and peripheral people of a company. The concentration of the waste gas generated by the plant is low, the components are complex, the monitoring difficulty is high, and the treatment is difficult.

The method for treating various malodorous gases aims at changing the material structure of the malodorous gases through the actions of physics, chemistry and biology and eliminating the malodorous gases. Common processing methods of the conventional malodorous gas include a combustion method, an oxidation method, an absorption method, an adsorption method, a neutralization method, a biological method and the like.

Biological deodorization is a biological waste gas treatment technology for deodorizing waste odor molecules by a biological method through a microbial film which is specially cultured on biological fillers in a biological filter.

When toxic, harmful and malodorous waste gas containing gas, liquid and solid is introduced into the system through a collecting pipeline, pollutants in the waste gas are purified and degraded by a biological membrane formed by culturing efficient microbial strains growing on the biological filler.

Processing response device simple structure of present biological deodorant, stirring position is fixed, and unable dismantlement leads to the later stage to wash to maintain very trouble, and the rabbling mechanism through single position only carries out the compounding stirring moreover, and operating means is single, and the guide mode is simple only from the input of top passage, and guide efficiency is not high, needs frequently to change the passage, wastes time and energy, and production efficiency is not high, and function expansibility is not strong moreover.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problem that exists among the above-mentioned background art, a modified modularization biological deodorant processing equipment and hybrid mode thereof is provided, solve present biological deodorant's processing response equipment simple structure, stirring position is fixed, can't dismantle, it is very troublesome to lead to later stage washing to maintain, and the operation is single moreover, the guide mode is only simple from the input of top passage, guide efficiency is not high, need frequently change the passage, waste time and energy, production efficiency is not high, and the not strong problem of function expansibility moreover.

The technical scheme adopted by the invention for solving the technical problems is as follows: a modularized biological deodorant processing device comprises a main reaction kettle and an adjusting motor, wherein a front assembly groove is formed in the front side wall of the main reaction kettle, a front storage box capable of being pulled and detached is mounted inside the front assembly groove, a plurality of transverse internal assembly grooves parallel to each other and a longitudinal internal assembly groove used for communicating the transverse internal assembly grooves are formed in the inner side surface of the front assembly groove, a detachable internal flow guide assembly mechanism is fixed in the transverse internal assembly groove through bolts, a rear inlet pipe and a rear discharge pipe matched with the internal flow guide assembly mechanism are fixedly connected to the outer wall of the inner side of the front storage box, the top ends of the two sides of the front storage box are provided with an outward-protruding integrated structure assembly inserting strip, an internal stirring mechanism is movably assembled inside the front storage box, lateral assembly grooves matched with the assembly inserting strip are formed in the inner walls of the two sides of the front assembly groove, the lateral assembling groove is provided with a vertex angle transmission groove internally provided with a lateral linkage assembly at the vertex angle position, and the inner bottom surface of the main reaction kettle is provided with a bottom power cavity for installing an adjusting motor.

The internal flow guide assembling mechanism comprises an external assembling box fixedly installed in the transverse internal assembling groove through bolts, a transverse flow guide pipe fixed inside the external assembling box, a first three-way valve fixed on the left side of the transverse flow guide pipe, a second three-way valve fixed on the right side of the transverse flow guide pipe and an elastic reset sealing cover plate installed in the first three-way valve and the second three-way valve.

And a longitudinal guide pipe matched with the first three-way valve and the second three-way valve is arranged in the longitudinal internal assembly groove.

The height of the rear feeding pipe is higher than that of the rear discharging pipe.

Leading storage box upper surface seted up the transverse transmission and accomodate the groove, leading storage box outside apex angle position seted up and accomodate the side direction transmission that the groove is linked together with the transverse transmission and accomodate the groove, inside rabbling mechanism including vertically install at the inside transmission shaft of leading storage box, fix side direction stirring vane, the movable assembly of taking in the groove at the transverse transmission top universal driving shaft and the side direction universal driving shaft of movable assembly in the side direction transmission and accomodate the inslot at the transverse transmission, top universal driving shaft and inside transmission shaft between and all be connected through integrative structure conical gear transmission between top universal driving shaft and the side direction universal driving shaft.

The lateral linkage assembly comprises a longitudinal transmission box fixed inside the vertex angle transmission groove through a bolt, a main transmission shaft rod movably installed inside the longitudinal transmission box, a transmission gear sleeve fixed on the outer side surface of the main transmission shaft rod and a bottom transmission gear installed inside the bottom power cavity, and a lateral transmission opening is formed in the position, corresponding to the transmission gear sleeve, of the longitudinal transmission box.

The top feed inlet of built-in sealed apron is seted up to leading storage box upper surface.

The invention has the beneficial effects that:

(1) according to the modular biological deodorant processing equipment, the front assembly groove with the built-in front storage box, the internal guide assembly mechanism and the lateral linkage assembly is formed in the side wall of the front side of the main reaction kettle, and by adopting a modular design, the front storage box can be quickly assembled and disassembled in the front assembly groove, so that the assembling and disassembling operation is simple and convenient, the cleaning and maintenance difficulty is low, the normal processing production cannot be influenced during the assembling and disassembling, the raw materials can be freely replaced according to the requirements, and the production efficiency is greatly enhanced;

(2) the gravity guide is adopted to conduct the assembled materials away from the interior, the raw material filling mode can be freely sequenced, frequent plugging and unplugging caused by filling of different raw materials are not needed, the operation is simple, and the processing efficiency is greatly improved;

(3) the preposed material storage box is respectively inserted into three-way valves at different positions through a postposition material inlet pipe and a postposition material outlet pipe with different heights, and is matched with the inside of the longitudinal internal assembly groove to be mutually communicated with the internal flow guide assembly mechanism, so that the opening and closing state and the series connection state can be freely changed according to the assembly state, and the use is very convenient;

(4) the adjusting motor adopts the design of putting at the bottom, when promoting whole equipment stability, makes things convenient for the later stage maintenance to change, can drive the inside rabbling mechanism in the leading storage box through the side direction linkage subassembly simultaneously and move, and transmission efficiency and mixing efficiency promote greatly.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a sectional view of the leading cartridge of the present invention.

FIG. 3 is a structural cross-sectional view of the lateral linkage assembly of the present invention.

FIG. 4 is a sectional view of the inside of the main reactor in the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

FIG. 1, FIG. 2, FIG. 3 and FIG. 4 show a modularized biological deodorant processing device, comprising a main reaction vessel 1 and an adjusting motor 2, wherein a front assembling groove 3 is provided on the front side wall of the main reaction vessel 1, a front storage box 4 capable of being pulled and disassembled is installed inside the

front assembling groove

3, 8 mutually parallel transverse inner assembling grooves 5 and a longitudinal inner assembling groove 6 for communicating the transverse inner assembling groove 5 are provided on the inner side surface of the front assembling groove 3, a detachable inner flow guide assembling mechanism is fixed inside the transverse inner assembling groove 5 by bolts, a rear feeding pipe 7 and a rear discharging pipe 8 matched with the inner flow guide assembling mechanism are fixedly connected on the inner outer wall of the front storage box 4, an integral structure assembling insert 9 protruding outwards is provided on the top end of both sides of the front storage box 4, an internal stirring mechanism is movably assembled inside the front storage box 4, lateral assembling grooves 10 matched with the assembling insert 9 are provided on the inner walls of both sides of the front assembling groove 3, the lateral assembling groove 10 is positioned at the vertex angle and is provided with a vertex angle transmission groove 11 internally provided with a lateral linkage assembly, and the inner bottom surface of the main reaction kettle 1 is provided with a bottom power cavity 12 for installing the adjusting motor 2.

Further, in order to cooperate with the front storage box 4 to serially connect the guide, the internal guide assembly mechanism includes an external assembly box 13 fixedly installed in the transverse internal assembly slot 5 through bolts, a transverse guide pipe 14 fixed inside the external assembly box 13, a first three-way valve 15 fixed on the left side of the transverse guide pipe 14, a second three-way valve 16 fixed on the right side of the transverse guide pipe 14, and an elastic reset sealing cover plate 17 installed in the first three-way valve 15 and the second three-way valve 16. Because the first three-way valve 15 and the second three-way valve 16 are arranged in a staggered manner, the rear feeding pipes 7 and the rear discharging pipes 8 on the back surfaces of the front storage boxes 4 at adjacent heights are also arranged in a staggered manner, as shown in fig. 4. The front storage box 4 is inserted into the first three-way valve 15 through the rear inlet pipe 7, the rear discharge pipe 8 is inserted into the second three-way valve 16, the elastic reset sealing cover plate 17 is driven to turn inwards, and the communication ports of the rear inlet pipe 7, the rear discharge pipe 8 and the transverse flow guide pipe 14 are closed, so that the transverse flow guide pipe 14 can be replaced by the front storage box 4, and the transverse flow guide pipe 14 is composed of horizontal sections on two sides and a middle inclined flow guide section. The elastic reset sealing cover plate 17 is composed of sealing cover plates arranged inside the first three-way valve 15 and the second three-way valve 16 and an internal extrusion elastic sheet used for elastically connecting the sealing cover plates.

Further, in order to cooperate with the series connection of the diversion mechanisms with different heights, a longitudinal diversion pipe 18 which is matched with a first three-way valve 15 and a second three-way valve 16 is arranged inside the longitudinal internal assembly groove 6, and further, in order to cooperate with the internal material guiding, the height of the post-feeding pipe 7 is higher than that of the post-discharging pipe 8.

Further, in order to cooperate with internal transmission stirring, the upper surface of the preposed storage box 4 is provided with a transverse transmission accommodating groove 19, the outer side vertex angle position of the preposed storage box 4 is provided with a lateral transmission accommodating groove 20 communicated with the transverse transmission accommodating groove 19, the internal stirring mechanism comprises an internal transmission shaft 21 longitudinally arranged in the preposed storage box 4, a lateral stirring blade 22 fixed on the outer side surface of the internal transmission shaft 21, a top linkage shaft 23 movably assembled in the transverse transmission accommodating groove 19 and a lateral linkage shaft 24 movably assembled in the lateral transmission accommodating groove 20, the top linkage shaft 23 and the internal transmission shaft 21 and the top linkage shaft 23 and the lateral linkage shaft 24 are in transmission connection through an integrated conical gear, and further, in order to cooperate with lateral transmission, the lateral linkage assembly comprises a longitudinal transmission box 25 fixed in the vertex angle transmission groove 11 through bolts, The main transmission shaft lever 26 is movably arranged in the longitudinal transmission box 25, the transmission gear sleeve 27 is fixed on the outer side surface of the main transmission shaft lever 26, and the bottom transmission gear 28 is arranged in the bottom power chamber 12, the bottom transmission gear 28 is used for being in transmission connection with the main transmission shaft lever 26 and the adjusting motor 2, and a lateral transmission port is formed in the position, corresponding to the transmission gear sleeve 27, of the longitudinal transmission box 25. The outer side surface of the lateral linkage shaft 24 is inserted into the longitudinal transmission box 25 through a lateral transmission opening to be meshed with the outer side surface of the transmission gear sleeve 27 for transmission.

Further, in order to match feeding and discharging, the top feed inlet 30 of the built-in sealing cover plate 29 is arranged on the upper surface of the front storage box 4.

The biological deodorant disclosed by the invention has the advantages of simplicity, convenience, high efficiency, flexibility, high cost performance, wide applicability, safety, effectiveness and the like.

According to the modular biological deodorant processing equipment, the front assembly groove with the built-in front storage box, the internal guide assembly mechanism and the lateral linkage assembly is formed in the side wall of the front side of the main reaction kettle, and by adopting a modular design, the front storage box can be quickly assembled and disassembled in the front assembly groove, so that the assembling and disassembling operation is simple and convenient, the cleaning and maintenance difficulty is low, the normal processing production cannot be influenced during the assembling and disassembling, the raw materials can be freely replaced according to the requirements, and the production efficiency is greatly enhanced; the gravity guide is adopted to conduct the assembled materials away from the interior, the raw material filling mode can be freely sequenced, frequent plugging and unplugging caused by filling of different raw materials are not needed, the operation is simple, and the processing efficiency is greatly improved; the preposed material storage box is respectively inserted into three-way valves at different positions through a postposition material inlet pipe and a postposition material outlet pipe with different heights, and is matched with the inside of the longitudinal internal assembly groove to be mutually communicated with the internal flow guide assembly mechanism, so that the opening and closing state and the series connection state can be freely changed according to the assembly state, and the use is very convenient; the adjusting motor adopts the design of putting at the bottom, when promoting whole equipment stability, makes things convenient for the later stage maintenance to change, can drive the inside rabbling mechanism in the leading storage box through the side direction linkage subassembly simultaneously and move, and transmission efficiency and mixing efficiency promote greatly.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a modularization biological deodorant processing equipment, includes main reation kettle (1) and accommodate motor (2), characterized by: the front side wall of the main reaction kettle (1) is provided with a front assembly groove (3), the front assembly groove (3) is internally provided with a front storage box (4) which can be pulled and disassembled, the inner side surface of the front assembly groove (3) is provided with a plurality of mutually parallel transverse internal assembly grooves (5) and a longitudinal internal assembly groove (6) for communicating the transverse internal assembly grooves (5), the inner side of the transverse internal assembly groove (5) is fixed with a detachable internal flow guide assembly mechanism by bolts, the inner outer wall of the front storage box (4) is fixedly connected with a rear inlet pipe (7) and a rear discharge pipe (8) which are matched with the internal flow guide assembly mechanism, the top ends of the two sides of the front storage box (4) are provided with an outward convex integrated structure assembly inserting strip (9), the inner part of the front storage box (4) is movably assembled with an internal stirring mechanism, the side assembling grooves (10) matched with the assembling inserting strips (9) are formed in the inner walls of the two sides of the front assembling groove (3), the side assembling grooves (10) are located at the vertex angles and provided with vertex angle transmission grooves (11) internally provided with side linkage assemblies, and a bottom power cavity (12) used for installing an adjusting motor (2) is formed in the inner bottom surface of the main reaction kettle (1).

2. The modular biological odor control agent processing apparatus of claim 1 wherein: the internal flow guide assembling mechanism comprises an external assembling box (13) fixedly installed in the transverse internal assembling groove (5) through bolts, a transverse flow guide pipe (14) fixed inside the external assembling box (13), a first three-way valve (15) fixed on the left side of the transverse flow guide pipe (14), a second three-way valve (16) fixed on the right side of the transverse flow guide pipe (14) and an elastic reset sealing cover plate (17) installed in the first three-way valve (15) and the second three-way valve (16).

3. A modular biological deodorant processing apparatus as set forth in claim 2, wherein: and a longitudinal guide pipe (18) matched with the first three-way valve (15) and the second three-way valve (16) is arranged in the longitudinal internal assembly groove (6).

4. The modular biological odor control agent processing apparatus of claim 1 wherein: the height of the rear feeding pipe (7) is higher than that of the rear discharging pipe (8).

5. The modular biological odor control agent processing apparatus of claim 1 wherein: leading storage box (4) upper surface seted up transverse transmission and accomodate groove (19), leading storage box (4) outside apex angle position seted up and accomodate side direction transmission that groove (19) are linked together with transverse transmission and accomodate groove (20), inside rabbling mechanism including vertically install inside transmission shaft (21) inside leading storage box (4), fix side direction stirring vane (22) on inside transmission shaft (21) lateral surface, top universal driving shaft (23) and the side direction universal driving shaft (24) of movable assembly in transverse transmission accomodate groove (19) in side direction transmission groove (20), top universal driving shaft (23) and inside transmission shaft (21) between and between top universal driving shaft (23) and side direction universal driving shaft (24) all be connected through integral structure conical gear transmission.

6. The modular biological odor control agent processing apparatus of claim 1 wherein: the lateral linkage assembly comprises a longitudinal transmission box (25) fixed inside the vertex angle transmission groove (11) through bolts, a main transmission shaft rod (26) movably installed inside the longitudinal transmission box (25), a transmission gear sleeve (27) fixed on the outer side surface of the main transmission shaft rod (26) and a bottom transmission gear (28) installed inside the bottom power chamber (12), and a lateral transmission port is formed in the position, corresponding to the transmission gear sleeve (27), of the longitudinal transmission box (25).

7. The modular biological odor control agent processing apparatus of claim 1 wherein: the upper surface of the front storage box (4) is provided with a top feed inlet (30) with a built-in sealing cover plate (29).