CN219284687U - Comprehensive detection platform for ice maker - Google Patents

Abstract

The utility model provides an ice maker comprehensive detection platform, which comprises a power source, the microcomputer, a display, the basin, pick-up plate and ice maker, be equipped with temperature sensor and weight sensor on the pick-up plate, install condenser and evaporimeter on the ice maker, temperature sensor and weight sensor all link with the microcomputer between the electricity, the microcomputer links with the electricity between condenser and the evaporimeter, the electricity links between microcomputer and the power and the display, the frid is installed to pick-up plate top, the fixed plate is installed in the below rotation of pick-up plate, be fixed with the pneumatic cylinder on the fixed plate, the pneumatic cylinder is kept away from between one end of fixed plate and the pick-up plate and is connected. The automatic data acquisition reduces the work of monitoring personnel greatly, saves labor cost, automatically monitors various data of the ice machine during working, and is comprehensive and accurate in data acquisition.

Description

Comprehensive detection platform for ice maker

Technical Field

The utility model relates to the technical field of sensor equipment, in particular to a comprehensive detection platform of an ice machine.

Background

The ice maker is a refrigeration machine that generates ice by cooling water by a refrigerant of a refrigeration system through an evaporator 17, and uses the refrigeration system to make ice by passing water through a certain device in an energized state. The shape of the ice cubes produced is different according to the principle and production mode of the evaporator 17; ice machines are generally classified into particle ice machines, flake ice machines, plate ice machines, pipe ice machines, shell ice machines, and the like in the shape of ice. With the development of modern economic life and the change of consumer concepts, especially when people enjoy life-diversified entertainment and leisure, ice machines are already a device which is necessary to be configured in a plurality of places, and the yield of the ice machines is steadily improved. In order to ensure complete quality control, the ice maker is generally required to be detected in the production process, but with the continuous increase of the production quantity, if a fully manual detection mode is adopted, the operation is heavy, the time is quite wasted, the existing ice maker is required to detect the weight of ice cubes, and the residual liquid on the weighing table possibly exists on the weighing table due to temperature and collision, so that the next weighing inaccuracy is caused, and the normal use of the ice maker is affected.

Disclosure of Invention

Aiming at the situation, the utility model aims to overcome the defects of the prior art, and the utility model aims to provide the comprehensive detection platform for the ice machine, which can automatically detect, reduce the number of workers, further reduce the labor cost, improve the detection efficiency and monitor and observe the detection at any time.

The solution is that an ice maker comprehensive detection platform comprises a power supply, a microcomputer, a display, a water tank, a detection plate and an ice maker, wherein a temperature sensor and a weight sensor are arranged on the detection plate, a condenser and an evaporator are arranged on the ice maker, the temperature sensor and the weight sensor are electrically connected with the microcomputer, the microcomputer is electrically connected with the condenser and the evaporator, the microcomputer is electrically connected with the power supply and the display, the trough plate is arranged above the detection plate, a fixing plate is rotatably arranged below the detection plate, a hydraulic cylinder is fixed on the fixing plate, and one end of the hydraulic cylinder away from the fixing plate is connected with the detection plate.

Preferably, the baffle is rotatably mounted on the groove plate, and the rotation direction of the baffle is towards the direction of the groove plate.

Preferably, a torsion spring is arranged at the rotation connection part of the groove plate and the baffle plate, and the driving direction of the torsion spring drives the baffle plate to rotate in the direction deviating from the groove plate

Preferably, a stop block is fixed on the groove plate, and the stop block can block the baffle.

Preferably, a blanking plate is obliquely arranged on one side, away from the baffle, of the groove plate, and a plurality of groove holes are formed in the blanking plate.

Preferably, a sliding groove is formed in the detection plate, a sliding block is slidably matched in the sliding groove, and the hydraulic cylinder is rotationally connected with the sliding block.

Preferably, the fixing plate is fixed with a receiving groove.

Preferably, the water draining pipe is communicated with the receiving groove.

The utility model has the beneficial effects that: all ice machine data are automatically collected, the work of monitoring personnel is greatly reduced, labor cost is saved, various data of the ice machines during work are automatically monitored, the data collection is comprehensive and accurate, the ice machine data report automatic generation function and the historical production record inquiring function are realized, the accuracy of detecting data is further improved when the ice weight is detected.

Drawings

Fig. 1 is a schematic structural diagram of the overall flow of the present utility model.

Fig. 2 is a schematic structural diagram of the whole front face of the present utility model.

Fig. 3 is a schematic view of the overall shaft side structure of the present utility model.

Fig. 4 is a schematic view of the structure of the bearing groove shaft side of the present utility model.

Fig. 5 is a schematic view of the overall structure of the present utility model on the top view axis side.

Detailed Description

The following describes the embodiments of the present utility model in further detail with reference to the drawings.

The comprehensive detection platform for the ice maker is characterized in that a temperature sensor 4 and a weight sensor 6 are arranged on the detection plate 1, a condenser 16 and an evaporator 17 are arranged on the ice maker 15, the temperature sensor 4 and the weight sensor 6 are electrically connected with the microcomputer 13, the microcomputer 13 is electrically connected with the condenser 16 and the evaporator 17, the microcomputer 13 is electrically connected with the power supply 14 and the display 19, a groove plate 7 is arranged above the detection plate 1, a fixed plate 2 is rotatably arranged below the detection plate 1, a hydraulic cylinder 3 is fixed on the fixed plate 2, and one end, far away from the fixed plate 2, of the hydraulic cylinder 3 is connected with the fixed plate 1.

When the device is used, the device is firstly connected with a power supply 14, a switch is turned on, the display 19 is used for controlling, the display 19 transmits signals to the microcomputer 13, the microcomputer 13 controls all components, an automatic detection technology and a data processing system are recorded in the microcomputer 13, the data processing system has the main functions of processing, arranging, calculating and analyzing information acquired by the inspection device, the acquired data is changed into a more visual information form, the quality of the inspected machine is intelligently judged, the processed information is stored in a cloud, the inspection can be invoked and checked anytime and anywhere, the automatic detection technology is the basis of the whole system, the detection technology is a generic term of a series of technologies for acquiring, transmitting and processing the information, the basic task of the system is to acquire the information through special instruments and equipment, the sensor and the like collect the information of voltage, current, temperature and the like of the detected machine, the collected information is sent to the cloud end through a communication module of the detection device, the microcomputer 13 controls the ice maker 15 to make ice and remove ice, the ice enters the detection plate 1 to be detected, the temperature on the detection plate 1 is controlled through the temperature sensor 4, the condition that ice cubes melt too quickly during detection is avoided, the integrity of the ice is improved, the weight of the ice cubes is detected through the weight sensor 6, the data are transmitted to the microcomputer 13, the microcomputer 13 analyzes and records the data, the microcomputer 13 comprehensively analyzes and processes the collected information (the power supply voltage of the ice maker, the frequency, the current of the whole machine of the ice maker, the current of a hot valve, the temperature of the environment, the temperature of the condenser 16, the temperature of the evaporator 17, the single ice making time, the ice removing time, the ice making weight and the like), the method comprises the steps of acquiring information of ice making time and ice removing time for a single time to obtain ice forming time, supplying voltage and frequency of an ice making machine, acquiring current of the whole ice making machine, detecting stability of the whole ice making machine, detecting ambient temperature, detecting temperature of a condenser 16, detecting ice forming effect of an evaporator 17, detecting weight of ice, detecting integrity of ice forming, detecting ice, fixing detected ice through the groove plate 7, detecting the ice conveniently, improving using effect of the device further, controlling the hydraulic cylinder 3 to start after detecting, enabling the detecting plate 1 to incline, discharging the ice conveniently, detecting the next ice conveniently, detecting the ice making machine on a production line through a PC end or a mobile end in real time, and automatically judging working state of the ice making machine and rapidly processing various abnormal data. The detection data is automatically stored, the detection report is automatically generated, the data is automatically uploaded to the cloud server, and various information during the production of the ice machine can be inquired at any time.

The baffle plate 12 is rotatably arranged on the groove plate 7, and the rotation direction of the baffle plate 12 is the direction of rotating towards the groove plate 7.

By providing the baffle 12, when ice pieces enter the chute plate 7, the baffle 12 is pushed by the ice pieces, so that the ice pieces enter the interior of the chute plate 7, thereby detecting the ice pieces.

The torsional spring is installed to the rotation junction of frid 7 and baffle 12, the drive direction of torsional spring drives baffle 12 to deviating from frid 7 direction rotation.

After the ice cubes enter the groove plate 7, the baffle 12 is reset under the action of the torsion spring, so that the ice cubes are blocked, and the stability of the device in detecting the ice cubes is further improved.

A stop block 8 is fixed on the groove plate 7, and the stop block 8 can block the baffle 12.

Through setting up dog 8, can block baffle 12 to avoid baffle 12 to appear turning excessive condition, further improvement device's result of use.

The blanking plate 20 is obliquely arranged on one side, away from the baffle 12, of the groove plate 7, and a plurality of groove holes 11 are formed in the blanking plate 20.

Through setting up flitch 20, can be convenient for the ice-cube to carry out the unloading, through setting up a plurality of slotted holes 11, can melt the water that produces and the broken ice that the collision produced to the ice-cube and discharge to avoid remaining of liquid to influence next detection, improve the result of use of device and the detection accuracy of device.

The detection plate 1 is provided with a chute 21, a slide block 5 is slidably matched in the chute 21, and the hydraulic cylinder 3 is rotationally connected with the slide block 5.

The slidably mounted slide 5 can improve the stability of the hydraulic cylinder 3 during use when it is started.

The fixing plate 2 is fixed with a receiving groove 9.

The receiving groove 9 can receive the liquid flowing down from the inclined groove plate 7, thereby improving the cleanliness of the device during use and further improving the use effect of the device.

The receiving groove 9 is communicated with a drain pipe 10.

The drain pipe 10 can facilitate the drainage of the liquid inside, thereby further improving the use effect of the device.

The utility model has the beneficial effects that: all ice machine data are automatically collected, the work of monitoring personnel is greatly reduced, labor cost is saved, various data of the ice machines during work are automatically monitored, the data collection is comprehensive and accurate, the ice machine data report automatic generation function and the historical production record inquiring function are realized, the accuracy of detecting data is further improved when the ice weight is detected.

The above-described embodiments are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solution of the present utility model should be included in the protection scope defined by the claims of the present utility model without departing from the design concept of the present utility model.

Claims (8)

1. The utility model provides an ice maker comprehensive detection platform, includes power (14), microcomputer (13), display (19), basin (18), pick-up plate (1) and ice maker (15), a serial communication port, be equipped with temperature sensor (4) and weight sensor (6) on pick-up plate (1), install condenser (16) and evaporimeter (17) on ice maker (15), temperature sensor (4) and weight sensor (6) all link with the microcomputer (13) between the electricity, the electricity links between microcomputer (13) and condenser (16) and evaporimeter (17), the electricity links between microcomputer (13) and power (14) and display (19), pick-up plate (7) are installed to pick-up plate (1) top, fixed plate (2) are installed in the below rotation of pick-up plate (1), be fixed with pneumatic cylinder (3) on fixed plate (2), be connected between one end that fixed plate (2) and plate (1) are kept away from to pneumatic cylinder (3).

2. The comprehensive detection platform for the ice maker according to claim 1, wherein a baffle plate (12) is rotatably mounted on the trough plate (7), and the rotation direction of the baffle plate (12) is a direction rotation toward the trough plate (7).

3. The comprehensive detection platform for the ice machine according to claim 2, wherein a torsion spring is arranged at the rotary connection part of the groove plate (7) and the baffle plate (12), and the baffle plate (12) is driven to rotate in the direction deviating from the groove plate (7) by the driving direction of the torsion spring.

4. The comprehensive detection platform for the ice maker according to claim 1, wherein a stop block (8) is fixed on the groove plate (7), and the stop block (8) can block the baffle plate (12).

5. The comprehensive detection platform for the ice maker according to claim 1, wherein a blanking plate (20) is obliquely arranged on one side of the groove plate (7) away from the baffle plate (12), and a plurality of slotted holes (11) are formed in the blanking plate (20).

6. The comprehensive detection platform for the ice machine according to claim 1, wherein a chute (21) is arranged on the detection plate (1), a sliding block (5) is slidably matched in the chute (21), and the hydraulic cylinder (3) is rotationally connected with the sliding block (5).

7. The comprehensive detection platform of the ice maker according to claim 1, wherein the fixing plate (2) is fixedly provided with a receiving groove (9).

8. The comprehensive detection platform of the ice machine according to claim 7, wherein the receiving groove (9) is communicated with a drain pipe (10).

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