CN217141236U - Automatic discharging mechanism of multifunctional fan testing machine - Google Patents

Abstract

Automatic unloading mechanism of fan multifunctional test machine, the utility model relates to an automatic test equipment of fan. The automatic PIN removing device mainly comprises a rotary table, a feeding station, a PIN removing station and a discharging station, wherein the feeding station clockwise surrounds the rotary table to the PIN removing station, a testing station of PWM 1-PWM 5 for testing a fan F is arranged on the periphery of the rotary table, an operator places the fan F in a clamp of the feeding station and inserts a PIN head of a connector of the fan F into a socket on a lug on one side of the clamp, after the fan F gradually passes through the testing stations of the PWM 1-PWM 5 on the periphery of the rotary table along with the rotation of the rotary table, the PIN removing station automatically removes the PIN from the PIN head inserted in the socket on one side of the clamp and rotates to the discharging station along with the rotation of the rotary table, the discharging station discharges the fan F placed in the clamp of the feeding station, and the fan F is transferred into a finished product box according to a testing result obtained by the testing stations of the PWM 1-PWM 5.

Description

Automatic discharging mechanism of multifunctional fan testing machine

Technical Field

The utility model relates to an automatic test equipment of fan especially indicates an automatic unloading mechanism of multi-functional test machine of fan.

Background

The fan is a conventional facility for reducing the temperature of equipment and the ambient temperature in industry and life. Through the simple rotary motion of the blades, air convection is formed in local areas, so that hot air is dissipated, and the purpose of cooling is achieved.

However, while the fan provides the cool wind in the past, since the fan itself is an electromechanical product, and its own electronic device and mechanical component, when the product is processed and formed, it is necessary to detect multiple technical performance indexes after the combination of the fan and the electromechanical product, so as to prevent the occurrence of safety accidents or the quality problems of the product in the use process in the future. Therefore, the fan detects a plurality of technical performance indexes on the fan multifunctional testing machine. In order to achieve a better detection effect, detection equipment is generally placed at the periphery of the rotary table machine, so that the detection efficiency can be improved, and the work place and the operation labor are reduced. However, in the operation of the inlet end and the outlet end of the existing rotary table machine, the conductive terminals are inserted and the fans are put into the clamp cavity by manual operation, the conductive terminals are pulled out and the fans are taken out from the clamp cavity by manual operation, so that the production efficiency is low, and the labor cost is high, so that the processing mode of the rotary table machine can not be matched with the current development environment.

Disclosure of Invention

An object of the utility model is to overcome prior art's defect, provide an automatic unloading mechanism of multi-functional test machine of fan.

The utility model adopts the following technical scheme:

an automatic blanking mechanism of a multifunctional fan testing machine mainly comprises a rotary table, a feeding station, a PIN removing station and a blanking station, the loading station clockwise surrounds the turntable to the PIN removing station, the periphery of the turntable is provided with PWM 1-PWM 5 testing stations for testing the fan F, an operator places the fan F in a clamp of the loading station and inserts a PIN head of a connector of the fan F into a socket on a lug on one side of the clamp, when the fan F rotates along with the rotating disc and tests through the PWM 1-PWM 5 test stations on the periphery of the rotating disc step by step, the PIN removing station automatically removes the PIN of the PIN head inserted in the socket on one side of the clamp, and the fan F placed in the clamp of the feeding station is fed by the feeding station along with the rotation of the turntable to the feeding station, and the fan F is moved to a finished product box according to the test results obtained by the test stations of PWM 1-PWM 5.

The PIN removing station is composed of a PIN removing cylinder and a jacking block, the PIN removing cylinder is fixed on a machine table on the periphery of the turntable, the movable end of the PIN removing cylinder protrudes and extends to the bottom of the jacking block sleeved on a fixing screw rod on a lug outside the clamp, a PIN removing head is fixed on the upper portion of the jacking block, and the top of the PIN removing head can be pushed into a socket hole in the lug from the bottom of the lug.

The blanking station consists of a Z-axis lifting mechanism and an X-axis moving mechanism, the Z-axis lifting mechanism comprises a Z-axis upright post, a Z-axis sliding block, a grabbing cylinder, grabbing claws, a Z-axis motor and an X-axis sliding block, the Z-axis motor is fixed at the top of the Z-axis upright post, the Z-axis upright post is movably arranged on the X-axis moving mechanism through the X-axis sliding block, a groove at one side of the Z-axis sliding block is movably arranged on a guide rail of the Z-axis upright post, and the output end of the Z-axis motor is connected into a screw hole of the Z-axis sliding block through a screw; a grabbing cylinder is fixedly arranged on a boss arranged on the other side of the groove on one side, away from the Z-axis sliding block, a grabbing jaw is fixed at the moving end of the grabbing cylinder, and the grabbing jaw is hung above the clamp; the X-axis moving mechanism comprises an X-axis motor, an X-axis transmission belt and an X-axis cross column, the X-axis cross column is fixedly arranged on the upper portion of the machine table, the X-axis motor is fixedly arranged at one end of the X-axis cross column, the output end of the X-axis motor is connected with the X-axis transmission belt through a belt pulley, a guide rail groove is formed in the X-axis cross column, an X-axis sliding block of the Z-axis lifting mechanism is movably clamped in the guide rail groove, and the X-axis transmission belt is connected with the X-axis sliding block.

And a compression spring is sleeved on the fixing screw on the lug outside the clamp.

The finished product box comprises a defective product storage box and a finished product blanking conveying line.

The length of the guide rail groove on the X-axis transverse column is larger than the distance between the defective product storage box and the finished product blanking conveying line.

The utility model discloses owing to through carousel test mode to the use takes off PIN mechanism, backs up the fan terminal automatically. Save and pull out the terminal time, adopt automatic unloading, expect finished product unloading transfer chain and defective products receiver respectively with yields and defective products fan. Prevent that staff's maloperation from leading to the defective products outflow.

Description of the drawings:

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

FIG. 2 is a perspective view of a PIN removing station;

FIG. 3 is a perspective view of a blanking station and a finished product box;

FIG. 4 is an enlarged view of FIG. 3 at A;

fig. 5 is an enlarged view of fig. 3 at B.

The specific implementation mode is as follows:

referring to the attached drawings 1-5, an automatic blanking mechanism of a multifunctional fan testing machine mainly comprises a rotary table 1, a feeding station 2, a PIN removing station 3 and a blanking station 5, wherein the feeding station 2 surrounds the rotary table 1 to the PIN removing station 3 clockwise, PWM 1-PWM 5 testing stations for testing a fan F are arranged on the periphery of the rotary table 1, an operator places the fan F in a clamp 4 of the feeding station 2 and inserts a PIN head of a connector of the fan F into a socket on a lug 41 on one side of the clamp 4, after the fan F gradually tests through the PWM 1-PWM 5 testing stations on the periphery of the rotary table 1 along with the rotation of the rotary table 1, the PIN removing station 3 automatically removes the PIN of the PIN head inserted into the socket on one side of the clamp 4, and the blanking station 5 performs blanking on the fan F placed in the clamp 4 of the feeding station 2 along with the rotation of the rotary table 1 to the blanking station 5, and the fan F is moved into the finished product box 6 according to the test results obtained by the test stations of PWM 1-PWM 5.

The PIN removing station 3 is composed of a PIN removing cylinder 31 and a jacking block 32, the PIN removing cylinder 31 is fixed on a machine table on the periphery of the turntable 1, the movable end 311 of the PIN removing cylinder 31 protrudes out of the bottom of the jacking block 32 sleeved on a fixing screw rod 42 on a lug 41 on the outer side of the clamp 4, a PIN removing head 321 is fixed on the upper part of the jacking block 32, and the top of the PIN removing head 321 can be jacked into a socket hole on the lug 41 from the bottom of the lug 41.

The blanking station 5 consists of a Z-axis lifting mechanism 51 and an X-axis moving mechanism 52, wherein the Z-axis lifting mechanism 51 comprises a Z-axis upright column 511, a Z-axis sliding block 512, a grabbing cylinder 513, grabbing claws 514, a Z-axis motor 515 and an X-axis sliding block 516, the Z-axis motor 515 is fixed at the top of the Z-axis upright column 511, the Z-axis upright column 511 is movably arranged on the X-axis moving mechanism 52 through the X-axis sliding block 516, a groove at one side of the Z-axis sliding block 512 is movably arranged on a guide rail of the Z-axis upright column 511, and the output end of the Z-axis motor 515 is connected in a screw hole of the Z-axis sliding block 512 through a screw; a grabbing cylinder 513 is fixedly arranged on a boss arranged on the other side of the groove on the side, far away from the Z-axis sliding block 512, of the Z-axis sliding block, a grabbing jaw 514 is fixed at the moving end of the grabbing cylinder 513, and the grabbing jaw 514 is hung above the clamp 4; the X-axis moving mechanism 52 comprises an X-axis motor 521, an X-axis transmission belt 522 and an X-axis transverse column 523, the X-axis transverse column 523 is fixedly arranged at the upper part of the machine table, the X-axis motor 521 is fixedly arranged at one end of the X-axis transverse column 523, the output end of the X-axis motor 521 is connected with the X-axis transmission belt 522 through a belt wheel, a guide rail groove 5231 is formed in the X-axis transverse column 523, an X-axis sliding block 516 of the Z-axis lifting mechanism 51 is movably clamped in the guide rail groove 5231, and the X-axis transmission belt 522 is connected with the X-axis sliding block 516.

And a compression spring is sleeved on a fixing screw rod 42 on the lug 41 on the outer side of the clamp 4.

The finished product box 6 comprises a defective product storage box 61 and a finished product blanking conveying line 62.

The length of the guide rail groove 5231 on the X-axis transverse column 523 is greater than the distance between the defective product storage box 61 and the finished product blanking conveying line 62.

When the utility model is applied, an operator puts a fan F into the clamp 4 of the feeding station 2 on the turntable 1, and inserts the PIN head of the connector into the socket on the lug 41 on one side of the clamp 4, when the fan F follows the rotation of the turntable 1, the fan F gradually reaches the PIN removing station 3 after being tested through the testing stations of PWM 1-PWM 5 on the periphery of the turntable 1, the PIN removing cylinder 31 is started, because the movable end 311 of the PIN removing cylinder 31 protrudes out of the bottom of the jacking block 32 sleeved on the fixed screw rod 42 on the lug 41 on the outer side of the clamp 4, the jacking block 32 overcomes the elasticity of the compression spring sleeved on the fixed screw rod 42, the PIN removing head 321 on the upper part of the jacking block 32 is jacked into the socket hole on the lug 41 from the bottom of the lug 41, and the PIN head of the connector inserted into the socket on the lug 41 on one side of the clamp 4 by the operator is withdrawn; the fan F continues to reach the blanking station 5 along with the rotation of the turntable 1, the Z-axis motor 515 is started, the output end of the Z-axis motor is connected into a screw hole of the Z-axis sliding block 512 through a screw rod, the Z-axis sliding block 512 moves downwards, meanwhile, the grabbing cylinder 513 drives the grabbing claw 514 to open and close, the fan F placed in the clamp 4 of the blanking station 2 is taken out, and moves upwards along with the Z-axis sliding block 512; when the set height is reached, the X-axis motor 521 drives the X-axis transmission belt 522 through a belt wheel, the X-axis transmission belt 522 drives the X-axis sliding block 516 to slide in the guide rail groove 5231, so that the Z-axis lifting mechanism 51 is parallel and passes through the upper parts of the defective product storage box 61 and the finished product blanking transmission line 62 respectively; when the data of the detected fan F obtained in the computer is qualified or defective, the Z-axis lifting mechanism 51 drives the grabbing claws 514 to place corresponding products in different categories by the grabbing cylinder 513 above the defective product storage box 61 and the finished product blanking conveying line 62, so that the whole detection process is completed.

In a repeated way, the detection work of the fan F can be continuously carried out.

Claims (6)

1. The utility model provides an automatic unloading mechanism of multi-functional test machine of fan, mainly include the carousel, the material loading station, take off PIN station and unloading station, clockwise encircle the carousel at the material loading station and take off between the PIN station, still be equipped with the test station of PWM1 ~ PWM5 that tests fan F in the periphery of carousel, the operator places fan F in the anchor clamps of material loading station, and plant the PIN head of its connector in the socket on the lug of anchor clamps one side, when fan F follows the rotation of carousel, test the back through the test station of the peripheral PWM1 ~ PWM5 of carousel gradually, its characterized in that: the PIN removing station automatically removes PIN from a PIN head inserted into a socket on one side of the clamp, the PIN head is rotated to the blanking station along with the rotation of the rotary table, the blanking station blanks the fan F placed in the clamp of the feeding station, and the fan F is transferred into a finished product box according to test results obtained by the test stations of PWM 1-PWM 5.

2. The automatic blanking mechanism of the multifunctional fan testing machine as claimed in claim 1, wherein: the PIN removing station is composed of a PIN removing cylinder and a jacking block, the PIN removing cylinder is fixed on a machine table on the periphery of the turntable, the movable end of the PIN removing cylinder protrudes and extends to the bottom of the jacking block sleeved on a fixing screw rod on a lug outside the clamp, a PIN removing head is fixed on the upper portion of the jacking block, and the top of the PIN removing head can be pushed into a socket hole in the lug from the bottom of the lug.

3. The automatic blanking mechanism of the multifunctional fan testing machine as claimed in claim 1, wherein: the blanking station consists of a Z-axis lifting mechanism and an X-axis moving mechanism, the Z-axis lifting mechanism comprises a Z-axis upright post, a Z-axis sliding block, a grabbing cylinder, grabbing claws, a Z-axis motor and an X-axis sliding block, the Z-axis motor is fixed at the top of the Z-axis upright post, the Z-axis upright post is movably arranged on the X-axis moving mechanism through the X-axis sliding block, a groove at one side of the Z-axis sliding block is movably arranged on a guide rail of the Z-axis upright post, and the output end of the Z-axis motor is connected into a screw hole of the Z-axis sliding block through a screw; a grabbing cylinder is fixedly arranged on a boss arranged on the other side of the groove on one side, away from the Z-axis sliding block, a grabbing jaw is fixed at the moving end of the grabbing cylinder, and the grabbing jaw is hung above the clamp; the X-axis moving mechanism comprises an X-axis motor, an X-axis transmission belt and an X-axis cross column, the X-axis cross column is fixedly arranged on the upper portion of the machine table, the X-axis motor is fixedly arranged at one end of the X-axis cross column, the output end of the X-axis motor is connected with the X-axis transmission belt through a belt pulley, a guide rail groove is formed in the X-axis cross column, an X-axis sliding block of the Z-axis lifting mechanism is movably clamped in the guide rail groove, and the X-axis transmission belt is connected with the X-axis sliding block.

4. The automatic blanking mechanism of the multifunctional fan testing machine as claimed in claim 1, wherein: and a compression spring is sleeved on the fixing screw on the lug outside the clamp.

5. The automatic blanking mechanism of the multifunctional fan testing machine as claimed in claim 1, wherein: the finished product box comprises a defective product storage box and a finished product blanking conveying line.

6. The automatic blanking mechanism of the multifunctional fan testing machine as claimed in claim 3, wherein: the length of the guide rail groove on the X-axis transverse column is larger than the distance between the defective product storage box and the finished product blanking conveying line.

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