CN216350604U - Oxygen content detection system for anaerobic jar - Google Patents

Abstract

The utility model discloses an oxygen content detection system for an anaerobic tank, which comprises the anaerobic tank, an oxygen content detector inserted into a detection hole of the anaerobic tank, and a connecting pipe group positioned at the detection hole of the anaerobic tank, wherein the connecting pipe group comprises a connecting pipe and a control mechanism, the connecting pipe comprises a connecting pipe body and a closing plate positioned at the inner end of the connecting pipe body, the upper end of the closing plate is connected with the upper end of the connecting pipe body through a connecting shaft, a counter bore is formed in the edge of the outer end face of the connecting pipe body, the control mechanism comprises a connecting rod and a rotating mechanism positioned at the inner end of the connecting rod, the connecting rod is positioned in the counter bore, and the rotating mechanism is connected with the connecting shaft.

Description

Oxygen content detection system for anaerobic jar

Technical Field

The utility model relates to the technical field of an oxygen content detection system of an anaerobic tank, in particular to an oxygen content detection system of an anaerobic tank.

Background

The anaerobic tank is an efficient multistage internal circulation anaerobic reaction tank, has the characteristics of small occupied area, high organic load, stronger impact resistance, more stable performance and simpler operation and management, is suitable for treating organic high-concentration wastewater, and needs an oxygen content detection system to detect the change of the oxygen content inside the anaerobic tank in the working process of the anaerobic tank, wherein the anaerobic tank comprises an oxygen content detector and a pipeline for connecting the oxygen content detector and the anaerobic tank, but the existing pipeline cannot close a channel when the oxygen content detector is disassembled, so that the oxygen enters the anaerobic tank to normally complete the work, and if the anaerobic tank is closed before the oxygen content detector is disassembled, the working efficiency of the anaerobic tank is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an oxygen content detection system for an anaerobic tank, aiming at solving the problem that the existing pipeline cannot close a channel when an oxygen content detector is disassembled, so that oxygen cannot normally finish working when entering the anaerobic tank.

The utility model is realized by the following steps:

the utility model provides an oxygen content testing system for anaerobic jar, including anaerobic jar and the oxygen content testing appearance that inserts the anaerobic jar inspection hole, still including the connecting pipe group that is located anaerobic jar inspection hole position, connecting pipe group is including connecting pipe and control mechanism, the connecting pipe includes the connecting pipe body and is located the inner closure plate of connecting pipe body, the upper end of closure plate is passed through connecting axle and is connected with connecting pipe body upper end, the counter bore has been seted up at the edge of the outer terminal surface of connecting pipe body, control mechanism includes the connecting rod and is located the inner slewing mechanism of connecting rod, the connecting rod is located the counter bore, slewing mechanism is connected with the connecting axle.

Furthermore, the inner end face of the connecting pipe body is provided with a groove opposite to the position of the counter bore, the upper end of the inner end face of the connecting pipe body is opposite to the first connecting frame and the second connecting frame which are fixedly connected, the first connecting frame is located on the side edge of the groove, two connecting holes are vertically formed in the side face of the first connecting frame, and the inner side face of the connecting pipe body is fixedly connected with a plurality of sealing gaskets.

Furthermore, two ends of the connecting shaft are respectively inserted into the connecting hole of the second connecting frame and the lower side connecting hole of the first connecting frame, the connecting shaft and the closing plate are kept relatively static, one end of the side face of the connecting shaft is provided with a plurality of tooth sockets, and the tooth sockets are uniformly distributed along the circumferential direction of the connecting shaft.

Furthermore, the outer end of the connecting rod is fixedly connected with a baffle, the control mechanism further comprises a spring sleeved on the connecting rod, and two ends of the spring respectively abut against the baffle and the counter bore.

Furthermore, the rotating mechanism comprises a gear, a telescopic plate located on the side edge of the gear and a rotating plate located below the telescopic plate, a slot is vertically formed in the upper end face of the rotating plate, a sliding hole is formed in the side wall of the slot along the height direction of the slot, and the lower end of the side face of the rotating plate is connected with the inner end of the connecting rod through a connecting shaft.

Further, the expansion plate includes that the lower extreme inserts the expansion plate body in the slot and is located the connecting plate of expansion plate body upper end, and the perpendicular fixedly connected with slide bar of lower extreme of expansion plate body side, the slide bar is installed in the slide hole, and the polygon jack has been seted up perpendicularly to the side of connecting plate.

Further, the gear includes gear body and the connecting rod that perpendicular gear body fixed connection has, and the one end fixedly connected with polygon pole of gear body is kept away from to the connecting rod, and the one end fixedly connected with screw rod of gear body is kept away from to the polygon pole, and the connecting rod passes the upside connecting hole of first link, and the polygon pole inserts in the polygon jack and fixed with the nut cooperation simultaneously, and the gear body is connected with the tooth socket meshing.

Compared with the prior art, the utility model has the beneficial effects that: the device is convenient to provide an adjustable installation pipeline for the oxygen content detector of the anaerobic tank, so that the installation pipeline is closed in time when the oxygen content detector needs to be disassembled, external gas is prevented from entering the anaerobic tank, the anaerobic tank is prevented from stopping working due to the disassembly of the oxygen content detector, the control mechanism is convenient to control the closing plate to work through the work of the control mechanism, the channel of the connecting pipe is quickly closed after the oxygen content detector is disassembled, the closing plate is convenient to control whether the channel of the connecting pipe body is smooth or not through the rotation of the closing plate, the tooth sockets are convenient to be meshed and connected with the gear body, the connecting shaft is driven to rotate through the rotation of the gear body, the rotating angle of the connecting shaft is larger than the rotating angle of the gear body in the same time, and the large-angle rotation of the closing plate is realized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the connection tube set of the present invention;

FIG. 3 is a schematic view of the connection tube of the present invention;

FIG. 4 is a schematic view of the control mechanism of the present invention;

FIG. 5 is a schematic view of the gear configuration of the present invention;

FIG. 6 is a schematic diagram of the construction of the telescoping plate of the present invention;

FIG. 7 is a schematic view of the construction of the rotating plate of the present invention;

in the figure: 1. an anaerobic jar; 2. an oxygen content detector; 3. a connecting pipe group; 31. a connecting pipe; 311. a connecting pipe body; 3111. a counter bore; 3112. a first connecting frame; 3113. a gasket; 3114. a second link frame; 312. a connecting shaft; 3121. a tooth socket; 313. a closing plate; 32. a control mechanism; 321. a connecting rod; 3211. a baffle plate; 322. a spring; 323. a rotating plate; 3231. a slot; 3232. a slide hole; 324. a retractable plate; 3241. a connecting plate; 3242. a polygonal jack; 3243. a retractable plate body; 3244. a slide bar; 325. a gear; 3251. a gear body; 3252. a connecting rod; 3253. a polygonal rod; 3254. a screw.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model.

Example (b): referring to fig. 1-7: an oxygen content detection system for an anaerobic tank comprises the anaerobic tank 1 and an oxygen content detector 2 inserted into a detection hole of the anaerobic tank 1, and further comprises a connecting pipe group 3 positioned at the position of the detection hole of the anaerobic tank 1, the connecting pipe group 3 comprises a connecting pipe 31 and a control mechanism 32, the connecting pipe 31 comprises a connecting pipe body 311 and a closing plate 313 positioned at the inner end of the connecting pipe body 311, the upper end of the closing plate 313 is connected with the upper end of the connecting pipe body 311 through a connecting shaft 312, the connecting shaft 312 and the closing plate 313 keep relatively static, a counter bore 3111 is arranged at the edge of the outer end face of the connecting pipe body 311, a groove is arranged at the position of the inner end face of the connecting pipe body 311, a first connecting frame 3112 and a second connecting frame 3114 are fixedly connected at the upper end of the inner end face of the connecting pipe body 311, the first connecting frame 3112 is positioned at the side edge of the groove, two connecting holes are vertically arranged on the side face of the first connecting frame 3112, the inner side surface of the connecting pipe body 311 is fixedly connected with a plurality of sealing gaskets 3113, two ends of the connecting shaft 312 are respectively inserted into a connecting hole of the second connecting frame 3114 and a connecting hole at the lower side of the first connecting frame 3112, the connecting shaft 312 and the closing plate 313 are kept relatively static, one end of the side surface of the connecting shaft 312 is provided with a plurality of tooth sockets 3121, the tooth sockets 3121 are uniformly distributed along the perimeter direction of the connecting shaft 312, the control mechanism 32 comprises a connecting rod 321 and a rotating mechanism positioned at the inner end of the connecting rod 321, the connecting rod 321 is positioned in a counter bore 3111, the outer end of the connecting rod 321 is fixedly connected with a baffle 3211, the control mechanism 32 further comprises a spring 322 sleeved on the connecting rod 321, two ends of the spring 322 respectively press against the baffle 3111 and the counter bore 3111, the rotating mechanism 321323 comprises a gear 325, an expansion plate 324 positioned at the side of the gear 325 and a rotating plate 323 positioned below the expansion plate 324, the upper end surface of the rotating plate 323 is vertically provided with a slot 3231, the side wall of the slot 3231 is provided with a sliding hole 3232 along the height direction thereof, the lower end of the side surface of the rotating plate 323 is connected with the inner end of the connecting rod 321 through a connecting shaft, the telescopic plate 324 comprises a telescopic plate body 3243 with the lower end inserted into the slot 3231 and a connecting plate 3241 positioned at the upper end of the telescopic plate body 3243, the lower end of the side surface of the telescopic plate body 3243 is vertically and fixedly connected with a slide rod 3244, the slide rod 3244 is installed in a slide hole 3232, the side surface of the connecting plate 3241 is vertically provided with a polygonal insertion hole 3242, the gear 325 comprises a gear body 3251 and a connecting rod 3252 fixedly connected with the vertical gear body 3251, one end of the connecting rod 3252 far away from the gear body 3251 is fixedly connected with a polygonal rod 3253, one end of the polygonal rod 3253 far away from the gear body 3251 is fixedly connected with a screw rod 3254, the connecting rod 3252 penetrates through an upper connecting hole of the first connecting frame 3112, meanwhile, the polygonal rod 3253 is inserted into the polygonal insertion hole 3242 and is matched and fixed with a nut, and the gear body 3251 is meshed with the tooth groove 3121.

The arrangement of the utility model is convenient for providing an adjustable installation pipeline for the oxygen content detector 2 of the anaerobic tank 1, so that when the oxygen content detector 2 needs to be disassembled, the installation pipeline is closed in time, external air is prevented from entering the anaerobic tank 1, and the anaerobic tank 1 is prevented from stopping working due to the disassembly of the oxygen content detector 2, the arrangement of the connecting pipe group 3 is convenient for the oxygen content detector 2 to pass through in a sealing way through the work of the connecting pipe group, and is convenient for the oxygen content detector 2 to close the channel in time when the oxygen content detector 2 is disassembled, so that the external air is prevented from entering the anaerobic tank 1, the arrangement of the connecting pipe 31 is convenient for the passing channel of the oxygen content detector 2, the arrangement of the control mechanism 32 is convenient for controlling the connecting pipe 31 to work through the work of the control mechanism, the channel of the connecting pipe 31 is closed quickly after the oxygen content detector 2 is disassembled, the arrangement of the closing plate 313 is convenient for controlling whether the channel of the connecting pipe body 311 to be smooth through the rotation of the connecting pipe, in order to facilitate the closing of the channel of the connecting pipe body 311, the connecting shaft 312 is arranged to movably connect the closing plate 313 and the connecting pipe body 311 through the operation thereof, and the closing plate 313 is driven to rotate by the rotation of the connecting shaft 312, and the counter bore 3111 is arranged to provide a space for the installation and movement of the connecting rod 321 and the spring 322, so that the connecting rod 321 is moved by the external force, and the rotating mechanism is driven to rotate, thereby controlling the rotation of the closing plate 313.

The arrangement of the groove is convenient for providing a space for the installation of the rotating mechanism, the arrangement of the first connecting frame 3112 and the second connecting frame 3114 is convenient for providing support for the installation of the connecting shaft 312 and the gear 325, and the arrangement of the sealing gasket 3113 is convenient for enabling the oxygen content detector 2 to be in sealing connection with the connecting pipe body 311 through the effect of the sealing gasket 3113.

The tooth socket 3121 is convenient for meshing connection with the gear body 3251, the rotation of the gear body 3251 drives the connecting shaft 312 to rotate, and the rotation angle of the connecting shaft 312 is larger than that of the gear body 3251 in the same time, so that the large-angle rotation of the closing plate 313 is realized.

The baffle 3211 is disposed to cooperate with the counterbore 3111 to limit the movement of the connecting rod 321, so as to prevent the connecting rod 321 from separating from the connecting tube body 311 due to external force, and the spring 322 is disposed to restore the connecting rod 321 to the original position under the action of the external force after the external force is removed, so that the closing plate 313 is tightly attached to the inner end surface of the connecting tube body 311 and blocks the channel of the connecting tube body 311.

Telescopic plate 324 and rotating plate 323 are arranged to rotate around a shaft under the movement of the inner end of connecting rod 321, so that gear 325 is driven to rotate, telescopic plate 324 and rotating plate 323 are arranged to cooperate to facilitate the rotation of gear 325 through relative movement, slot 3231 is arranged to provide a channel for the insertion and movement of the lower end of telescopic plate 324, slide hole 3232 is arranged to provide a channel for the installation and movement of slide rod 3244, and slide hole 3232 and slide rod 3244 cooperate to limit the relative movement of telescopic plate 324 and rotating plate 323.

Polygonal socket 3242 is provided to provide a channel for insertion of polygonal rod 3253, and polygonal rod 3253 and polygonal socket 3242 cooperate to keep retractor plate 324 and gear 325 relatively stationary.

Connecting rod 3252 is configured to cooperate with first connecting frame 3112 to provide support for mounting gear body 3251 without affecting rotation of gear body 3251, and screw 3254 is configured to cooperate with a nut to stably connect gear 325 and expansion plate 324.

Before use, the closing plate 313 is firstly installed at the inner end of the connecting pipe body 311 positioned at the anaerobic tank 1 through the connecting shaft 312, the gear 325, the expansion plate 324 and the rotating plate 323 form a rotating mechanism, the rotating mechanism is movably installed at the position of the groove, the connecting rod 321 is installed in the counter bore 3111, the inner end of the connecting rod 321 is connected with the lower end of the rotating mechanism, the connecting pipe body 311 is installed at the position of the detection hole of the anaerobic tank 1, the oxygen content detector 2 is inserted into the connecting pipe body 311 for oxygen content measurement, when the oxygen content detector 2 needs to be disassembled, the oxygen content detector 2 is pulled out by a distance, the inner end of the oxygen content detector 2 is immersed into the connecting pipe body 311, the closing plate 313 rotates in a vertical state under the action of self gravity and closes a channel of the connecting pipe body 311, when the oxygen content detector 2 is installed again, an acting force is firstly applied to the connecting rod 321 to move and drive the rotating mechanism to rotate, the closing plate 313 is forced to rotate to the horizontal state, and the oxygen content detector 2 is inserted into the connecting tube body 311, so that the closing plate 313 is prevented from rotating to damage the detection head due to the insertion of the oxygen content detector 2.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides an oxygen content testing system for anaerobic jar, includes anaerobic jar (1) and inserts oxygen content detector (2) of anaerobic jar (1) inspection hole, its characterized in that: still including being located anaerobic jar (1) and detecting the connecting tube group (3) of hole position, connecting tube group (3) are including connecting pipe (31) and control mechanism (32), connecting pipe (31) are including connecting pipe body (311) and be located connecting pipe body (311) inner closure plate (313), the upper end of closure plate (313) is passed through connecting axle (312) and is connected with connecting pipe body (311) upper end, counter bore (3111) have been seted up at the edge of the outer terminal surface of connecting pipe body (311), control mechanism (32) include connecting rod (321) and are located the inner slewing mechanism of connecting rod (321), connecting rod (321) are located counter bore (3111), slewing mechanism is connected with connecting axle (312).

2. The oxygen content detection system for the anaerobic tank according to claim 1, wherein a groove is formed in a position, facing the counter bore (3111), of the inner end surface of the connecting pipe body (311), a first connecting frame (3112) and a second connecting frame (3114) are fixedly connected to the upper end of the inner end surface of the connecting pipe body (311), the first connecting frame (3112) is located on the side of the groove, two connecting holes are vertically formed in the side surface of the first connecting frame (3112), and a plurality of sealing gaskets (3113) are fixedly connected to the inner side surface of the connecting pipe body (311).

3. The oxygen content detection system for the anaerobic jar according to claim 2, wherein both ends of the connecting shaft (312) are respectively inserted into the connecting hole of the second connecting frame (3114) and the lower side connecting hole of the first connecting frame (3112), the connecting shaft (312) and the closing plate (313) are kept relatively static, one end of the side surface of the connecting shaft (312) is provided with a plurality of tooth sockets (3121), and the tooth sockets (3121) are uniformly distributed along the circumferential direction of the connecting shaft (312).

4. The oxygen content detection system for the anaerobic tank as claimed in claim 3, wherein the outer end of the connecting rod (321) is fixedly connected with a baffle plate (3211), the control mechanism (32) further comprises a spring (322) sleeved on the connecting rod (321), and two ends of the spring (322) respectively press against the baffle plate (3211) and the counter bore (3111).

5. The oxygen content detection system for the anaerobic tank according to claim 4, wherein the rotating mechanism comprises a gear (325), an expansion plate (324) located at the side of the gear (325) and a rotating plate (323) located below the expansion plate (324), a slot (3231) is vertically formed in the upper end face of the rotating plate (323), a sliding hole (3232) is formed in the side wall of the slot (3231) in the height direction of the slot, and the lower end of the side face of the rotating plate (323) is connected with the inner end of the connecting rod (321) through a connecting shaft.

6. The oxygen content detection system for the anaerobic tank, according to claim 5, characterized in that the expansion plate (324) comprises an expansion plate body (3243) with a lower end inserted into the insertion groove (3231) and a connecting plate (3241) positioned at an upper end of the expansion plate body (3243), a sliding rod (3244) is vertically and fixedly connected to a lower end of a side surface of the expansion plate body (3243), the sliding rod (3244) is installed in the sliding hole (3232), and a polygonal insertion hole (3242) is vertically formed in a side surface of the connecting plate (3241).

7. The oxygen content detection system for the anaerobic jar according to claim 6, wherein the gear (325) comprises a gear body (3251) and a connecting rod (3252) fixedly connected with the vertical gear body (3251), one end of the connecting rod (3252) far away from the gear body (3251) is fixedly connected with a polygonal rod (3253), one end of the polygonal rod (3253) far away from the gear body (3251) is fixedly connected with a screw rod (3254), the connecting rod (3252) passes through an upper connecting hole of the first connecting frame (3112), the polygonal rod (3253) is inserted into a polygonal inserting hole (3242) and is matched and fixed with a nut, and the gear body (3251) is meshed and connected with the tooth groove (3121).

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