CN209820024U - Drying system for residual disinfectant liquid of air duct of central air conditioner - Google Patents

Abstract

The utility model relates to a drying system that is used for central air conditioning tuber pipe antiseptic solution to remain liquid, place the oral siphon board including two gas cells, the suction cleaner that absorbs water, drying robot and robot: two gas cell set up in the tuber pipe and are used for forming confined dry pipeline section with the tuber pipe, and the suction cleaner that absorbs water passes through the straw and is connected with the extraction mouth of seting up in dry pipeline section one end department, and during dry robot placed the mouth from the robot of seting up in dry pipeline section other end department and put into the tuber pipe to through cable connection has a controller, dry robot include the robot body, be equipped with the hot wave tube of first infrared ray that shines the direction forward and shine the hot wave tube of second infrared ray that the direction faces backward on the robot body, the robot is placed a mouthful apron and is used for covering and places a mouthful department at the robot to be equipped with the guide hole that the cable was worn to establish. Compared with the prior art, the utility model discloses simple structure, drying effect is good, can effectively utilize current equipment, greatly reduced cost.

Description

Drying system for residual disinfectant liquid of air duct of central air conditioner

Technical Field

The utility model belongs to the technical field of central air conditioning tuber pipe washs technique and specifically relates to a drying system that is used for central air conditioning tuber pipe antiseptic solution to remain liquid is related to.

Background

The central air conditioner needs to be maintained regularly, and the main content is cleaning and disinfection, dust and other sundries are removed through cleaning, and disinfection is carried out on the inner wall of the air pipe through spraying disinfectant. The disinfection robot is mainly placed in an air pipe in the prior art, disinfection liquid is sprayed while the disinfection robot travels, for example, the novel air pipe disinfection robot disclosed by Chinese patent CN103405796A comprises a disinfection device and a traveling mechanism, has a chemical disinfection function, and although the disinfection liquid can kill bacteria, the residual liquid can also become harmful bacteria to provide a favorable environment for survival.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a drying system for central air conditioning tuber pipe antiseptic solution residual liquid in order to overcome the defect that above-mentioned prior art exists.

The purpose of the utility model can be realized through the following technical scheme:

a drying system for a residual liquid of a disinfectant of an air duct of a central air conditioner comprises:

two air-filled bags which are arranged in the air pipe and are used for forming the air pipe into a closed drying pipe section,

a water and dust suction machine which is connected with a suction opening arranged at one end of the drying pipe section through a suction pipe,

the drying robot is placed into the air pipe from a robot placing opening arranged at the other end of the drying pipe section and is connected with a controller through a cable, the drying robot comprises a robot body, a first infrared thermal wave tube with a forward irradiation direction and a second infrared thermal wave tube with a backward irradiation direction are arranged on the robot body,

the robot placing opening cover plate is used for covering the robot placing opening and is provided with a guide hole for the cable to penetrate through.

The drying robot carries out radiation drying while moving, and through two infrared ray heat wave pipes, makes the tuber pipe inner wall can receive twice radiation, and drying effect is better, can avoid dry dead angle moreover.

Preferably, the surface of the inflatable bag is provided with a plurality of annular flexible rubber rings arranged transversely. Due to the arrangement of the flexible rubber ring, the inflatable bag can be tightly attached to the air pipe after being inflated, and multiple sealing can be formed. The sealing effect is improved.

Preferably, the first infrared thermal wave tube is arranged in the front of the robot body, the second infrared thermal wave tube is arranged in the rear of the robot body, and the first infrared thermal wave tube and the second infrared thermal wave tube are detachably connected with the robot body in a plug-in manner. The arrangement of the detachable connection enables only the socket to be reserved on the robot. The cleaning robot and the disinfection robot can be conveniently used, and a separate robot is not required to be additionally purchased, so that the cost can be effectively reduced.

Preferably, the robot body is provided with a camera. The operability is improved.

Preferably, the robot place the size of flap board be greater than the robot and place the size of mouthful, and the edge that the mouth apron was placed to the robot is equipped with the flexible sealing washer of round. Through this flexible sealing washer for this system during operation, the robot is placed mouthful apron and under the effect of the inside low pressure of tuber pipe, can hug closely on the tuber pipe outer wall, plays better sealed effect.

Preferably, the robot placing opening cover plate is made of plastic. The mass is reduced, and the adsorption on the air pipe is facilitated.

Preferably, the inner diameter of the guide hole is larger than the diameter of the cable, a circle of elastic annular rubber sheet capable of being turned over up and down is arranged in the guide hole, and a polytetrafluoroethylene coating is coated on the surface of the elastic annular rubber sheet in a natural state. Through setting up elasticity annular rubber piece, promoted the leakproofness between cable and the guide hole. In addition, in the using process, the elastic annular rubber sheet automatically turns upwards along with the forward movement of the cable towards the inside of the air pipe, and the robot placing opening cover plate can be favorably adsorbed on the air pipe.

The utility model discloses a theory of operation is:

the infrared thermal wave tube is installed on the robot, and the liquid on the inner wall of the air pipe is evaporated by utilizing thermal radiation for drying. And sealing the drying pipe section by utilizing the inflatable bag and the robot placing opening cover plate. The water absorption dust collector is utilized to keep the drying pipe section in a vacuum (low pressure) environment, so that the evaporation of liquid is greatly accelerated, and the evaporated liquid is sucked out of the air pipe along with the vacuum pumping, thereby drying the air pipe.

Compared with the prior art, the utility model discloses simple structure, drying effect is good, can effectively utilize current equipment, greatly reduced cost.

Drawings

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

fig. 2 is a schematic view of the drying robot of the present invention;

FIG. 3 is a schematic view of the robot placing flap of the present invention;

fig. 4 is a schematic view of the inflatable bag of the present invention.

In the figure, 1 is the tuber pipe, 2 is the gas cell, 21 is the flexible rubber circle of annular, 3 is the aspiration channel, 4 is the suction cleaner, 5 is cleaning machines people, 51 is the robot body, 511 is the frame, 512 is crawler-type running gear, 513 is load-bearing platform, 514 is the camera, 521 is first infrared ray heat wave pipe, 522 is second infrared ray heat wave pipe, 6 is the cable, 7 is the controller, 8 places the oral cavity apron for the robot, 81 is flexible sealing washer, 82 is elasticity annular sheet rubber.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

A drying system for residual liquid of a central air-conditioning air duct disinfectant, as shown in figure 1, comprises a water absorption dust collector 4, a drying robot 5, a robot placing mouth cover plate 8 and two air-filled bags 2, wherein: the two inflatable bags 2 are arranged in the air pipe 1 and are used for forming the air pipe 1 into a closed drying pipe section; the water and dust suction machine 4 is connected with a suction port 11 arranged at one end of the drying pipe section through a suction pipe 3; the drying robot 5 is placed into the air duct 1 from a robot placing port 12 arranged at the other end of the drying duct section, and is connected with a controller 7 through a cable 6, the drying robot 5 comprises a robot body 51, and a first infrared thermal wave tube 521 with a forward irradiation direction and a second infrared thermal wave tube 522 with a backward irradiation direction are arranged on the robot body 51; the robot placing opening cover plate 8 is used for covering the robot placing opening 12 and is provided with a guide hole through which the cable 6 passes.

In this embodiment, as shown in fig. 2, the robot body 51 is composed of a frame 511 and a crawler-type traveling mechanism 512 disposed on the frame 511, and a bearing platform 513 is disposed at a top end of the frame 511. The loading platform 513 is further provided with a camera 514. The camera is matched with the infrared heat wave tube, so that manual control can be facilitated. In this embodiment, the first infrared thermal wave tube 521 is disposed at the front portion of the robot body 51, the second infrared thermal wave tube 522 is disposed at the rear portion of the robot body 51, and both the first infrared thermal wave tube 521 and the second infrared thermal wave tube 522 are detachably connected to the robot body 51 in a plug-in manner. So that only the socket needs to be reserved on the robot. The cleaning robot and the disinfection robot can be conveniently used, and a separate robot is not required to be additionally purchased, so that the cost can be effectively reduced.

In this embodiment, as shown in fig. 4, the surface of the air bag 2 has a plurality of transversely arranged annular flexible rubber rings 21. Through this flexible sealing washer for this system during operation, the robot is placed mouthful apron and under the effect of the inside low pressure of tuber pipe, can hug closely on the tuber pipe outer wall, plays better sealed effect.

In this embodiment, as shown in fig. 3, the size of the robot placing port cover plate 8 is larger than that of the robot placing port 12, and a circle of flexible sealing ring 81 is provided at the edge of the robot placing port cover plate 8. The inner diameter of the guide hole is larger than the diameter of the cable 6, a circle of elastic annular rubber sheet 82 capable of being turned over up and down is arranged in the guide hole, and a polytetrafluoroethylene coating is coated on the surface of the elastic annular rubber sheet 82 in a natural state.

This embodiment is through installing infrared ray thermal wave pipe on the robot, utilizes the thermal radiation to carry out the drying, makes the liquid evaporation on the tuber pipe inner wall. And sealing the drying pipe section by utilizing the inflatable bag and the robot placing opening cover plate. The water absorption dust collector is utilized to keep the drying pipe section in a vacuum (low pressure) environment, so that the evaporation of liquid is greatly accelerated, and the evaporated liquid is sucked out of the air pipe along with the vacuum pumping, thereby drying the air pipe. The robot placing opening cover plate 8 is made of plastic. The mass is reduced, and the adsorption on the air pipe is facilitated.

The embodiments described above are intended to facilitate the understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention according to the disclosure of the present invention.

Claims (6)

1. The utility model provides a drying system that is used for residual liquid of central air conditioning tuber pipe antiseptic solution which characterized in that includes:

two air-filled bags (2) which are arranged in the air pipe (1) and are used for forming the air pipe (1) into a closed drying pipe section,

a water and dust suction machine (4) which is connected with a suction opening (11) arranged at one end of the drying pipe section through a suction pipe (3),

the drying robot (5) is placed in the air pipe (1) from a robot placing opening (12) arranged at the other end of the drying pipe section and is connected with a controller (7) through a cable (6), the drying robot (5) comprises a robot body (51), a first infrared thermal wave tube (521) with the irradiation direction facing forwards and a second infrared thermal wave tube (522) with the irradiation direction facing backwards are arranged on the robot body (51),

the robot placing opening cover plate (8) is used for covering the robot placing opening (12) and is provided with a guide hole for the cable (6) to penetrate through.

2. The drying system for the disinfectant residual liquid of the air duct of the central air conditioner as claimed in claim 1, wherein the surface of said air-filled bag (2) has a plurality of annular flexible rubber rings (21) arranged transversely.

3. The drying system for the residual liquid of the air duct disinfectant of the central air conditioner as claimed in claim 1, wherein said first infrared thermal wave tube (521) is disposed at the front portion of the robot body (51), said second infrared thermal wave tube (522) is disposed at the rear portion of the robot body (51), and both the first infrared thermal wave tube (521) and the second infrared thermal wave tube (522) are detachably connected to the robot body (51) in a plug-in manner.

4. The drying system for the residual liquid of the air duct disinfectant of the central air conditioner as claimed in claim 1, wherein a camera (514) is arranged on the robot body (51).

5. The drying system for the residual liquid of the air duct disinfectant of the central air conditioner as claimed in claim 1, wherein the size of the robot placing port cover plate (8) is larger than that of the robot placing port (12), and a circle of flexible sealing ring (81) is arranged on the edge of the robot placing port cover plate (8).

6. The drying system for the disinfectant residual liquid of the air duct of the central air conditioner as claimed in claim 1 or 5, wherein the inner diameter of the guiding hole is larger than the diameter of the cable (6), a ring of elastic annular rubber sheet (82) capable of being folded up and down is arranged in the guiding hole, and the surface of the elastic annular rubber sheet (82) is coated with a polytetrafluoroethylene coating in a natural state.