CN209326728U - A device for automatically detecting and recording the amount of condensed water produced by a temperature-sensitive air conditioner - Google Patents

Abstract

The utility model provides a kind of temp sensing type air conditioner condensate water yield and detects automatically and recording device, including water collector, container, amount bucket, temperature-sensing probe and thermograph；The water collector is located above container, for collecting air conditioner condensate water；It is connected between the water collector and container by a water service pipe；The amount bucket is provided in container, the amount bucket is for collecting the condensed water flowed down from water collector；Automatic detection and the record of air conditioner condensate water yield can be realized using the technical program.

Description

A device for automatically detecting and recording the amount of condensed water produced by a temperature-sensitive air conditioner

technical field

The utility model relates to the field of measurement of air-conditioning condensed water production, in particular to a temperature-sensitive air-conditioning condensed water production automatic detection and recording device.

Background technique

Air conditioner condensate is liquid water that condenses when the humid air is cooled below the dew point temperature during the cooling operation of the air conditioner. Recycling is important for water conservation. The climate in southern my country is hot and humid in summer, and air conditioners are widely used and run for a long time, resulting in a huge amount of condensed water. However, since the amount of air-conditioning condensate is related to many factors, the calculated value of the existing theoretical formula often has a large deviation from the actual value. And because the amount of condensed water generated by the air conditioner is sometimes very small, or even accumulated in drops, it is difficult to sense, measure and record hourly with flow meters on the market. Although the weighing method can be used to weigh the air-conditioning condensate at regular intervals, this measurement method is time-consuming, laborious and extremely inconvenient.

Utility model content

The purpose of the utility model is to provide an automatic detection and recording device for the condensed water production of a temperature-sensitive air conditioner, so as to realize the automatic detection and recording of the condensed water production of the air conditioner.

In order to solve the above technical problems, the utility model provides an automatic detection and recording device for the condensed water production of a temperature-sensitive air conditioner, including a water collector, a storage box, a water measuring bucket, a temperature-sensing probe and a temperature self-recorder; The water collector is located above the storage box and is used to collect the condensed water of the air conditioner; the water collector and the storage box are connected through a water pipe; the storage box is provided with the water measuring bucket, and the water measuring bucket Used to collect condensed water flowing down from the water collector;

The two ends of the water measuring bucket are respectively the pouring end and the counterweight end; the water pipe is specifically a cross-shaped water pipe, which specifically includes a horizontal pipe and a vertical pipe; the vertical pipe is used to communicate with the water collecting device and accommodating box; a movable plug is arranged in the horizontal pipeline, a spring is connected to one end of the movable plug, and a pull rope is connected to the other end of the movable plug; the spring is not connected to the movable plug One end connected to the head is fixedly connected to one end of the horizontal pipe; the end of the pull cord not connected to the movable plug is connected to the pouring end of the water measuring bucket; the counterweight end is connected to a counterweight;

The water measuring bucket is also rotatably connected to a rotating shaft, and the pouring end and the counterweight end are respectively arranged on both sides of the rotating shaft; both ends of the rotating shaft are fixedly connected to the inner wall of the containing box; The bottom of the storage box is also provided with a drainage pipe; the temperature sensing probe is arranged in the drainage pipe; the temperature sensing probe is connected to the temperature self-recorder;

When the water measuring bucket is placed horizontally, it is in the water storage state, the spring is in the initial state, and the movable plug is located at the end of the horizontal pipe close to the spring; the vertical pipe is in a connected state, and the water measuring bucket The bucket collects the condensed water flowing down from the water collector; after the water measuring bucket is full of condensed water, pull the pull cord downward to move the moving plug away from the spring, and the spring The initial state turns into a stretched state, and the vertical pipe is blocked by the moving plug; the water measuring bucket rotates with the rotating shaft as the central axis, and the pouring end of the water measuring bucket moves downward, The condensed water in the water measuring bucket is poured out to the storage box, and the condensed water is discharged from the drain pipe; when the condensed water is discharged from the drain pipe, it passes through the temperature sensing probe, and the temperature sensing probe senses The temperature of the condensed water and send the condensed water temperature signal to the temperature self-recorder; after all the condensed water in the water measuring bucket is discharged, the pull rope is released, and the spring returns to the initial state, and the The moving plug is pulled back to the end of the horizontal pipe close to the spring, and the vertical pipe is restored to the connected state; the counterweight pulls the water measuring bucket so that the water measuring bucket is As the central axis rotates, the water measuring bucket returns to the horizontal state; the temperature sensing probe senses the temperature of the air and sends the air temperature signal to the temperature self-recorder.

In a preferred embodiment, a limit block is respectively provided under the pouring end and the counterweight end of the water measuring bucket; one end of the limit block is fixedly connected to the bottom of the storage box; the limit block The blocks are used to limit the rotation range of the water measuring bucket.

In a preferred embodiment, an elastic pad is provided at the end of the limiting block close to the water measuring bucket to reduce the impact and noise received during the rotation of the water measuring bucket.

In a preferred embodiment, two ends of the bottom of the water measuring bucket are provided with a rotating shaft connecting piece, and the rotating shaft connecting piece is fixedly connected with the rotating shaft.

In a preferred embodiment, the surface of the temperature-sensing probe is coated with a waterproof and water-repellent agent.

In a preferred embodiment, the temperature self-recorder is arranged outside the storage box.

Compared with the prior art, the technical solution of the utility model has the following beneficial effects:

The utility model provides an automatic detection and recording device for the amount of condensed water produced by a temperature-sensitive air conditioner. Since the capacity of the water measuring bucket can be measured in advance, water pouring and water storage can be repeated, and the generation of condensed water can be measured only by recording the times of pouring water. quantity. And because there is a difference between the temperature of the condensed water and the temperature of the air, when the water bucket is filled with water, the condensed water flows through the temperature probe, and the temperature probe senses the temperature of the condensed water; Know the number of times the water is poured by the water measuring bucket, so as to realize the automatic detection and recording of the air-conditioning condensate, and realize accurate measurement.

Description of drawings

Fig. 1 is a schematic diagram of the use state of the water measuring bucket of the automatic detection and recording device for the condensed water production of a temperature-sensitive air conditioner in a preferred embodiment of the present invention;

Fig. 2 is a schematic diagram of the use state of the water measuring bucket of a temperature-sensitive air-conditioning condensate generation automatic detection and recording device in a preferred embodiment of the present invention;

Fig. 3 is a schematic diagram of the internal structure of a temperature-sensitive air-conditioning condensate production automatic detection and recording device in a preferred embodiment of the present invention;

Fig. 4 is a schematic diagram of the internal structure of a storage box of a device for automatically detecting and recording the amount of condensed water produced by a temperature-sensitive air conditioner in a preferred embodiment of the present invention.

Detailed ways

The utility model will be further described below in conjunction with the accompanying drawings and specific embodiments.

A temperature-sensitive air-conditioning condensate production automatic detection and recording device, referring to Figures 1 to 4, comprising a water collector 1, a storage box 2, a water measuring bucket 8, a temperature-sensing probe 14, and a temperature self-recorder 3; The water collector 1 is located above the storage box 2 and is used to collect the condensed water of the air conditioner; the water collector 1 and the storage box 2 are connected through a water pipe 4; the storage box 2 is provided with the water measuring bucket 8. The water measuring bucket 8 is used to collect the condensed water flowing down from the water collector 1;

The two ends of the water measuring bucket 8 are respectively the pouring end and the counterweight end; the water pipe 4 is specifically a cross-shaped water pipe 4, which specifically includes a horizontal pipe and a vertical pipe; the vertical pipe is used to communicate with all The water collector 1 and the storage box 2; a movable plug 5 is arranged in the horizontal pipeline, a spring 6 is connected to one end of the movable plug 5, and a pull rope 7 is connected to the other end of the movable plug 5 The end of the spring 6 that is not connected to the movable plug 5 is fixedly connected to the end of the horizontal pipeline; The water end; the counterweight end is connected with a counterweight 11;

The water measuring bucket 8 is also rotatably connected to a rotating shaft 9, and the pouring end and the counterweight end are respectively arranged on both sides of the rotating shaft 9; the two ends of the rotating shaft 9 are fixedly connected to the container The inner wall of the box 2; the bottom of the containing box 2 is also provided with a drainage pipe 13; the temperature sensing probe 14 is arranged in the drainage pipe 13; the temperature sensing probe 14 is connected to the temperature by a probe connection line 15 Self-reporter 3; the surface of the temperature-sensing probe 14 is coated with water-repellent agent. The temperature self-recorder 3 is arranged outside the storage box 2 .

When the water measuring bucket 8 is placed horizontally, it is in the state of water storage, the spring 6 is in the initial state, and the moving plug 5 is located at the end of the horizontal pipeline close to the spring 6; the vertical pipeline is in a connected state, The water measuring bucket 8 collects the condensed water flowing down from the water collector 1; after the water measuring bucket 8 is full of condensed water, pull the pull rope 7 downward to make the moving plug 5 move away from the The direction of the spring 6 moves, the spring 6 has an initial state and turns into a stretched state, and the vertical pipe is blocked by the moving plug 5; the water measuring bucket 8 rotates with the rotating shaft 9 as the central axis , the pouring end of the water measuring bucket 8 moves downward, the condensed water in the water measuring bucket 8 is poured out to the storage box 2, and the condensed water is discharged by the drain pipe 13; the condensed water When it is discharged from the drain pipe 13, it passes through the temperature-sensitive probe 14, which senses the temperature of the condensed water and sends the condensed water temperature signal to the temperature self-recorder 3; After all the condensed water is discharged, the pull cord 7 is released, the spring 6 returns to its initial state, the movable plug 5 is pulled back to the end of the horizontal pipe close to the spring 6, and the vertical pipe Restore the connected state; the counterweight 11 pulls the water measuring bucket 8 to make the water measuring bucket 8 rotate with the rotating shaft 9 as the central axis, and the water measuring bucket 8 returns to a horizontal state; the sensor The temperature probe 14 senses the temperature of the air and sends the air temperature signal to the temperature self-recorder 3; according to the number of changes of the condensed water temperature signal and the air temperature signal recorded by the temperature self-recorder 3, the drainage of the water measuring bucket 8 is judged times, the number of drain times multiplied by the volume of the water measuring bucket 8 is the amount of condensed water produced.

In order to limit the rotation range of the water measuring bucket 8, a limit block 12 is respectively provided under the pouring end and the counterweight end of the water measuring bucket 8; one end of the limit block 12 is fixedly connected to the accommodating box 2 bottom of. The range of the water measuring bucket 8 is not too large when it is rotated, and when the pouring end and the counterweight end of the water measuring bucket 8 abut against the limit block 12, the water measuring bucket 8 is in the level state. Specifically, the limit block 12 is provided with four pieces, and two pieces are arranged as a group under the water pouring end and the counterweight end; in order to reduce the impact and noise received during the rotation of the measuring bucket 8 An elastic pad 10 is provided at the end of the limiting block 12 close to the water measuring bucket 8 .

Specifically, two ends of the bottom of the water measuring bucket 8 are provided with rotating shaft connectors 16 , and the rotating shaft connecting members 16 are fixedly connected with the rotating shaft 9 to limit the axial movement of the water measuring bucket 8 along the rotating shaft 9 .

The utility model provides an automatic detection and recording device for the amount of condensed water produced by a temperature-sensitive air conditioner. Since the capacity of the water measuring bucket 3 can be measured in advance, water pouring and storage are repeated, and the generation of condensed water can be measured only by recording the number of pouring water quantity. And because there is a difference between the condensed water temperature and the air temperature, when the equivalent water bucket 3 pours water, the condensed water flows through the temperature probe, and the temperature probe 14 senses the temperature of the condensed water; The number of times the water is poured by the water measuring bucket 3 can be known by changing the data, thereby realizing automatic detection and recording of air-conditioning condensate, and realizing relatively accurate measurement.

The above is only a preferred embodiment of the present utility model, but the design concept of the present utility model is not limited thereto. Anyone familiar with the technical field can use this concept Any insubstantial modification to the utility model is an act of violating the protection scope of the utility model.

Claims (6)

1. A temperature-sensitive type air-conditioning condensed water generation automatic detection and recording device is characterized in that it includes a water collector, a storage box, a water measuring bucket, a temperature-sensitive probe and a temperature self-recorder; the water collector is located in the container Above the storage box, it is used to collect the condensed water of the air conditioner; the water collector and the storage box are connected through a water pipe; the storage box is provided with the water measuring bucket, and the water measuring bucket is used to collect the Condensed water flowing down the device; The two ends of the water measuring bucket are respectively the pouring end and the counterweight end; the water pipe is specifically a cross-shaped water pipe, which specifically includes a horizontal pipe and a vertical pipe; the vertical pipe is used to communicate with the water collecting device and accommodating box; a movable plug is arranged in the horizontal pipeline, a spring is connected to one end of the movable plug, and a pull rope is connected to the other end of the movable plug; the spring is not connected to the movable plug One end connected to the head is fixedly connected to one end of the horizontal pipe; the end of the pull cord not connected to the movable plug is connected to the pouring end of the water measuring bucket; the counterweight end is connected to a counterweight; The water measuring bucket is also rotatably connected to a rotating shaft, and the pouring end and the counterweight end are respectively arranged on both sides of the rotating shaft; both ends of the rotating shaft are fixedly connected to the inner wall of the containing box; The bottom of the storage box is also provided with a drainage pipe; the temperature sensing probe is arranged in the drainage pipe; the temperature sensing probe is connected to the temperature self-recorder; When the water measuring bucket is placed horizontally, it is in the water storage state, the spring is in the initial state, and the movable plug is located at the end of the horizontal pipe close to the spring; the vertical pipe is in a connected state, and the water measuring bucket The bucket collects the condensed water flowing down from the water collector; after the water measuring bucket is full of condensed water, pull the pull cord downward to move the moving plug away from the spring, and the spring The initial state turns into a stretched state, and the vertical pipe is blocked by the moving plug; the water measuring bucket rotates with the rotating shaft as the central axis, and the pouring end of the water measuring bucket moves downward, The condensed water in the water measuring bucket is poured out to the storage box, and the condensed water is discharged from the drain pipe; when the condensed water is discharged from the drain pipe, it passes through the temperature sensing probe, and the temperature sensing probe senses The temperature of the condensed water and send the condensed water temperature signal to the temperature self-recorder; after all the condensed water in the water measuring bucket is discharged, the pull rope is released, and the spring returns to the initial state, and the The moving plug is pulled back to the end of the horizontal pipe close to the spring, and the vertical pipe is restored to the connected state; the counterweight pulls the water measuring bucket so that the water measuring bucket is As the central axis rotates, the water measuring bucket returns to the horizontal state; the temperature sensing probe senses the temperature of the air and sends the air temperature signal to the temperature self-recorder. 2. The device for automatically detecting and recording the amount of condensed water produced by a temperature-sensitive air conditioner according to claim 1, wherein a limit block is respectively arranged under the pouring end and the counterweight end of the water measuring bucket; One end of the limiting block is fixedly connected to the bottom of the accommodating box; the limiting block is used to limit the rotation range of the water measuring bucket. 3. A device for automatically detecting and recording the amount of condensed water produced by a temperature-sensitive air conditioner according to claim 1, wherein an elastic pad is provided at the end of the limit block close to the water measuring bucket to reduce the amount of condensed water produced. The impact and noise received during the rotation of the bucket. 4. The device for automatically detecting and recording the amount of condensed water produced by a temperature-sensitive air conditioner according to claim 1, wherein the two ends of the bottom of the water measuring bucket are provided with rotating shaft connectors, and the rotating shaft connectors It is fixedly connected with the rotating shaft. 5 . The device for automatically detecting and recording the amount of condensed water produced by a temperature-sensitive air conditioner according to claim 1 , wherein the surface of the temperature-sensing probe is coated with a water-repellent agent. 6 . The device for automatically detecting and recording the amount of condensed water produced by a temperature-sensitive air conditioner according to claim 1 , wherein the temperature self-recorder is arranged outside the storage box. 7 .