CN209821331U - Plugging service life experimental device of electric kettle connector - Google Patents

Abstract

The utility model relates to a plug life experimental device of an electric kettle connector, which comprises a frame, the electric kettle connector, a lifting structure and a display control assembly; the electric kettle connector, the lifting structure and the display control assembly are respectively installed on the rack, the electric kettle is detachably installed on the lifting structure, the lifting structure can drive the electric kettle to longitudinally move and enable the electric kettle to be electrically connected with the electric kettle connector, the electric kettle connector and the lifting structure are both electrically connected with the display control assembly, and the display control assembly controls the lifting of the lifting structure and records the power-on times of the electric kettle and the electric kettle connector. The advantages are that: the plugging and unplugging service life of the electric kettle connector can be automatically tested, the cost is low, the labor intensity is reduced, the electric kettle connector is not influenced by human factors, and the experimental data are accurate and objective.

Description

Plugging service life experimental device of electric kettle connector

Technical Field

The utility model relates to a plug life-span experimental apparatus of insulating pot connector.

Background

At present, manual operation is adopted in the test of electric kettle connector plug life-span in the trade, its operating procedure is at first to place electric kettle body on electric kettle connector, then fill up water in towards the kettle, press the switch of connector again for electric kettle connector switch on and time are 3 seconds, mention the kettle at last and leave electric kettle connector, power disconnection and time are 3 seconds, regard this as a circulation, this circulation need carry out 5000 times and is used for detecting the plug life-span of electric kettle connector. The labor intensity of the experimenter in the experiment steps is high, huge labor cost is consumed, and the experiment data has more human factors which can influence the experiment result, and the experiment result is inaccurate and not objective.

Disclosure of Invention

The utility model aims at overcoming the not enough and providing a plug life-span experimental apparatus of insulating pot connector of prior art, the plug life-span of test insulating pot connector that can be automatic, it is with low costs, reduced intensity of labour, not influenced by human factor, experimental data is accurate and objective.

In order to achieve the purpose, the utility model is realized in such a way, and is a plugging service life experimental device of an electric kettle connector, which comprises a frame, the electric kettle connector, a lifting structure and a display control assembly; the electric kettle connector, the lifting structure and the display control assembly are respectively installed on the rack, the electric kettle is detachably installed on the lifting structure, the lifting structure can drive the electric kettle to longitudinally move and enable the electric kettle to be electrically connected with the electric kettle connector, the electric kettle connector and the lifting structure are both electrically connected with the display control assembly, and the display control assembly controls the lifting of the lifting structure and records the power-on times of the electric kettle and the electric kettle connector.

In the technical scheme, the lifting structure comprises a driving device, a fixing structure and an installation block for installing the power supply kettle; the fixing structure and the driving device are both installed on the rack, the installation block is installed on the fixing structure and can move longitudinally, and the driving device drives the installation block to move longitudinally or be positioned on the fixing structure.

In the technical scheme, the fixing structure comprises a fixing plate and more than two longitudinal guide columns; the fixed plate is installed on the frame, the guide post is installed on the fixed plate, and the installation block is installed on the guide post and can move longitudinally.

In the technical scheme, the driving device is an air cylinder, and a driving rod of the air cylinder drives the mounting block to longitudinally move or position on the longitudinal guide column.

In the technical scheme, the mounting block is provided with a power supply kettle which is mounted in the plug hole.

In the technical scheme, the display control assembly comprises a starting button SB, a fuse link FU, a socket X, LED lamp D, a buzzer HA, an electromagnetic valve YV and a single-chip microcomputer MCU; a pin 1 of the single chip microcomputer MCU is electrically connected with one end of a fuse link FU, the other end of the fuse link FU is electrically connected with one end of a start button SB, and the other end of the start button SB is electrically connected with a live wire L of external alternating current; a pin 2 of the single chip microcomputer MCU is electrically connected with a zero line N of external alternating current; the 3 pins of the single chip microcomputer MCU are electrically connected with the anode of the LED lamp D, and the cathode of the LED lamp D is electrically connected with the 4 pins of the single chip microcomputer MCU; the 5 pins of the single chip microcomputer MCU are connected with a fire wire end of the socket X, the 6 pins of the single chip microcomputer MCU are electrically connected with a zero wire end of the socket X, and a bottom wire end of the socket X is grounded; a pin 7 of the single chip microcomputer MCU is electrically connected with one end of a buzzer HA, and the other end of the buzzer HA is electrically connected with a pin 8 of the single chip microcomputer MCU; and a pin 9 of the singlechip MCU is electrically connected with the electromagnetic valve YV.

In the technical scheme, the model of the MCU is SN8F5703 SG.

Compared with the prior art, the utility model the advantage do: the plugging and unplugging service life of the electric kettle connector can be automatically tested, the cost is low, the labor intensity is reduced, the electric kettle connector is not influenced by human factors, and the experimental data are accurate and objective.

Drawings

FIG. 1 is a perspective view of the present invention

Fig. 2 is a perspective view of the lifting structure of the present invention;

FIG. 3 is an exploded view of FIG. 2;

fig. 4 is a circuit diagram showing the control component.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. Furthermore, the technical features mentioned in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 4, the device for testing the plugging and unplugging life of an electric kettle connector comprises a frame 1, an electric kettle connector 2, a lifting structure 3 and a display control assembly 4; insulating pot connector 2, elevation structure 3 and display control subassembly 4 are installed respectively in frame 1, and insulating pot detachably installs on elevation structure 3, elevation structure 3 can drive insulating pot longitudinal movement and make insulating pot and insulating pot connector 2 electricity be connected, insulating pot connector 2 and elevation structure 3 all are connected with display control subassembly 4 electricity, and display control subassembly 4 controls the lift of elevation structure 3 and takes notes insulating pot and insulating pot connector 2 circular telegram number of times. The device can automatically drive the electric kettle to move longitudinally and be electrically connected with the electric kettle connector 2 in an inserting and closing manner, can automatically record the power-on times, and is convenient and fast, accurate in experimental data and low in labor intensity of experimenters.

In this embodiment, the lifting structure 3 includes a driving device 21, a fixing structure 22 and a mounting block 23 for mounting the power supply kettle; the fixing structure 22 and the driving device 21 are both installed on the frame 1, the installation block 23 is installed on the fixing structure 22 and can move longitudinally, and the driving device 21 drives the installation block 23 to move longitudinally or position on the fixing structure 22. The lifting structure 3 can keep stable when lifting, and the kettle can not shake.

In this embodiment, the fixing structure 22 includes a fixing plate 221 and two or more longitudinal guiding columns 222; the fixing plate 221 is mounted on the frame 1, the guide post 222 is mounted on the fixing plate 221, and the mounting block 23 is mounted on the guide post 222 and can move longitudinally. The longitudinal guiding column 222 may be two, three, four or several, and the mounting block 23 can stably move longitudinally on the longitudinal guiding column 222 according to practical situations.

In this embodiment, the driving device 21 is an air cylinder, and a driving rod of the air cylinder drives the mounting block 23 to move or position longitudinally on the longitudinal guiding column 222. The driving device 21 may also be a motor, and the motor drives the mounting block 23 to actively move or position longitudinally on the longitudinal guide column 222 through a screw rod.

In this embodiment, the mounting block 23 is provided with a power supply kettle mounted in the insertion hole 231. The handle of the electric kettle can be inserted into the insertion hole 231 to be fixed.

In this embodiment, the display control component 4 includes a start button SB, a fuse FU, a socket X, LED light D, a buzzer HA, an electromagnetic valve YV and a single-chip microcomputer MCU; a pin 1 of the single chip microcomputer MCU is electrically connected with one end of a fuse link FU, the other end of the fuse link FU is electrically connected with one end of a start button SB, and the other end of the start button SB is electrically connected with a live wire L of external alternating current; a pin 2 of the single chip microcomputer MCU is electrically connected with a zero line N of external alternating current; the 3 pins of the single chip microcomputer MCU are electrically connected with the anode of the LED lamp D, and the cathode of the LED lamp D is electrically connected with the 4 pins of the single chip microcomputer MCU; the 5 pins of the single chip microcomputer MCU are connected with a fire wire end of the socket X, the 6 pins of the single chip microcomputer MCU are electrically connected with a zero wire end of the socket X, and a bottom wire end of the socket X is grounded; a pin 7 of the single chip microcomputer MCU is electrically connected with one end of a buzzer HA, and the other end of the buzzer HA is electrically connected with a pin 8 of the single chip microcomputer MCU; and a pin 9 of the singlechip MCU is electrically connected with the electromagnetic valve YV. The electromagnetic valve YV is electrically connected with the electric kettle connector 2, when the electric kettle is electrified with the electric kettle connector 2, the electromagnetic valve YV transmits a signal to the single chip microcomputer MCU, and the single chip microcomputer MCU records the times and transmits the signal to the LED lamp D for displaying the electrification times.

In this embodiment, the model of the single chip microcomputer MCU is SN8F5703 SG.

The embodiments of the present invention are described in detail with reference to the drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention.

Claims (7)

1. A plugging and unplugging life experiment device of an electric kettle connector is characterized by comprising a rack (1), the electric kettle connector (2), a lifting structure (3) and a display control assembly (4); insulating pot connector (2), elevation structure (3) and display control subassembly (4) are installed respectively in frame (1), and insulating pot detachably installs on elevation structure (3), elevation structure (3) can drive insulating pot longitudinal movement and make insulating pot and insulating pot connector (2) electricity be connected, insulating pot connector (2) and elevation structure (3) all are connected with display control subassembly (4) electricity, and display control subassembly (4) control elevation structure (3) go up and down and take notes the circular telegram number of times of insulating pot and insulating pot connector (2).

2. The plugging life test device of an electric kettle connector according to claim 1, wherein the lifting structure (3) comprises a driving device (21), a fixing structure (22) and a mounting block (23) for mounting an electric kettle; the fixing structure (22) and the driving device (21) are both installed on the rack (1), the installation block (23) is installed on the fixing structure (22) and can move longitudinally, and the driving device (21) drives the installation block (23) to move longitudinally or be positioned on the fixing structure (22).

3. The plugging life test device of an electric kettle connector according to claim 2, characterized in that the fixing structure (22) comprises a fixing plate (221) and more than two longitudinal guide posts (222); the fixing plate (221) is installed on the frame (1), the guide column (222) is installed on the fixing plate (221), and the installation block (23) is installed on the guide column (222) and can move longitudinally.

4. The plugging life test device of an electric kettle connector according to claim 3, characterized in that the driving device (21) is a cylinder, and a driving rod of the cylinder drives the mounting block (23) to move or position longitudinally on the longitudinal guide column (222).

5. The plugging life test device of the electric kettle connector according to claim 2, wherein the mounting block (23) is provided with a power supply kettle mounted in the plugging hole (231).

6. The plugging and unplugging life experiment device of the electric kettle connector according to claim 1, wherein the display control component (4) comprises a Start Button (SB), a fuse link (FU), a socket (X), an LED lamp (D), a buzzer (HA), an electromagnetic valve (YV) and a single chip Microcomputer (MCU); a pin 1 of the single chip Microcomputer (MCU) is electrically connected with one end of a fuse link (FU), the other end of the fuse link (FU) is electrically connected with one end of a Start Button (SB), and the other end of the Start Button (SB) is electrically connected with a live wire L of external alternating current; a pin 2 of the single chip Microcomputer (MCU) is electrically connected with a zero line N of external alternating current; the 3 pins of the single chip Microcomputer (MCU) are electrically connected with the anode of the LED lamp (D), and the cathode of the LED lamp (D) is electrically connected with the 4 pins of the single chip Microcomputer (MCU); 5 pins of the single chip Microcomputer (MCU) are connected with a live wire end of the socket (X), 6 pins of the single chip Microcomputer (MCU) are electrically connected with a zero wire end of the socket (X), and a bottom wire end of the socket (X) is grounded; the 7 pins of the single chip Microcomputer (MCU) are electrically connected with one end of a buzzer (HA), and the other end of the buzzer (HA) is electrically connected with the 8 pins of the single chip Microcomputer (MCU); and a pin 9 of the single chip Microcomputer (MCU) is electrically connected with the electromagnetic valve (YV).

7. The plugging life test device of the electric kettle connector according to claim 6, wherein the type of the single chip Microcomputer (MCU) is SN8F5703 SG.