CN204086421U - A kind of four axle orthogonal robotic shielding proving installations - Google Patents

Abstract

The utility model discloses a kind of four axle orthogonal robotic shielding proving installations, for carrying out the test jobs under shielding environment to telecommunications product, comprise rack, feeding mechanism, four axle orthogonal mechanical arms, at least one shielding test cell, discharging mechanism and testing and control mechanism; Described feeding mechanism one end puts in described rack, by tested product from outside the assigned address delivered in rack wait to get; Described shielding test cell is parallel to be connected electrically in described testing and control mechanism; Described four axle orthogonal mechanical arms capture tested product that described feeding mechanism is transported to assigned address and send into described shielding test cell and carry out electromagnetic screen test; After shielding test completes, tested product takes out in the desired location of the described discharging mechanism of feeding according to test result by four axle orthogonal mechanical arms from shielding test cell; Described discharging mechanism is arranged on the opposite side relative with described feeding mechanism, and the tested product completing test is sent rack by described discharging mechanism.

Description

A kind of four axle orthogonal robotic shielding proving installations

Technical field

The utility model relates to telecommunications product test equipment, concrete, relates to a kind of telecommunications product automation shielding testing apparatus.

Background technology

Electromagnetic interference (EMI) (EMI) develops with electronics, electrical technology and occur, every electronics, technical field of electricity all can have electromagnetic interference (EMI).The electromagnetic interference (EMI) that electronics in a large amount of use, electrical system or equipment etc. produce can affect health, also can have an impact to the safety and reliability etc. that electronics, electrical system or equipment are mutual and endanger simultaneously.Severe electromagnetic environment often makes electronics, electrical system or equipment cisco unity malfunction, even causes fault and accident, or affects data when electronic product is tested.

But along with wireless communications products is for the raising of the accuracy requirement of Signal transmissions, electromagnetism interference performance requirement for product is more and more higher, current mobile phone, PDA and associated host circuit board complete the stage in exploitation, all need the test carrying out relevant electromagnetic property, and there is extremely complicated and serious electromagnetic interference (EMI) in general open environment, the degree of accuracy of easily impact test.Therefore, above-mentioned most test all must implement test, to reaching preferably testing precision in the environment of low EMI (or even without Electromagnetic Interference).

Current tradition provides the device of low EMI (without electromagnetic interference (EMI)) test environment to be the shielded box of a tool signal shielding function, its basic structure coordinates an openable lid with a casing, the accommodation space that can hold electronic product to be measured or electronic module so as to providing one, casing and the lid permeance that all tool is splendid, fully can isolate the interference of extraneous various electromagnetic wave noises.

But, general shielded box conventional is on a production line substantially all separate unit manual operation, make to carry out by hand feeding, the taking-up of test products and carry out sorting according to test result, easily make mistakes in assorting room or cause secondary damage to product, integrated testability work efficiency is extremely low and the artificial interference factor of test result is larger.For improving test job efficiency, simultaneously method conventional is at present put together by multiple stage shielded box to test, but the shielded box limited amount that single tester can take into account, when testing requirement is great time, this mode of manually carrying out testing needs to expend great manpower and materials, is a very large cost payout to enterprise.

Utility model content

The purpose of this utility model is that low for the existing testing efficiency manually carrying out occurring in the shielding test process of telecommunications product, that plant factor is not high and manpower, equipment cost are high problem proposes a kind of four axle orthogonal robotic shielding proving installations that effectively can provide testing efficiency and plant factor, reduce artificial, equipment cost, and improve plant factor and production efficiency, the security of guarantee product in test process, realize the robotization of test process.

The utility model solves the problems of the technologies described above adopted technical scheme: a kind of four axle orthogonal robotic shielding proving installations, for carrying out the test jobs under shielding environment to telecommunications product, comprise rack, feeding mechanism, four axle orthogonal mechanical arms, at least one shields test cell, discharging mechanism and testing and control mechanism, wherein: described four axle orthogonal mechanical arms, shielding test cell and testing and control mechanism are arranged in described rack, and described shielding test cell is parallel is connected electrically in described testing and control mechanism, each described shielding test cell works alone, do not interfere with each other each other,

Described feeding mechanism one end puts in described rack, and for by tested product from outside the assigned address delivered in rack wait to get;

Described discharging mechanism is arranged on the opposite side relative with described feeding mechanism, and for the tested product completing test is sent rack;

Described four axle orthogonal mechanical arms capture tested product that described feeding mechanism is transported to assigned address and send into described shielding test cell and carry out electromagnetic screen test and after shielding test completes, tested product takes out in the diverse location of the described discharging mechanism of feeding according to test result by four axle orthogonal mechanical arms from shielding test cell, completes test process; Wherein, the tested product by test is sent, not by the tested product indwelling of test by described discharging mechanism.

Described shielding test cell comprises one for carrying out testing the shielded box providing shielding environment, and be the elementary cell of test, described shielded box is direct or be fixedly installed in rack by erecting frame.

In the utility model, described shielded box is drawer-type structure.

In the utility model, described feeding mechanism comprises support, is arranged on the slide unit of cradle top and is arranged on the material frame on slide unit, described slide unit comprises linear slide rail, the screw mandrel be axially disposed within described linear slide rail, the servomotor that drives described screw mandrel to rotate, described material frame is set on described screw mandrel and along described linear slide rail to-and-fro movement under the driving of described screw mandrel, the assigned address delivered to by tested product in rack is waited to get.

In the utility model, described discharging mechanism comprises for collecting not by the NG disposable box of the tested product of test and the travelling belt for the tested product by test being sent four axle orthogonal robotic shielding proving installations; Described travelling belt is arranged on support body top, and described NG disposable box is arranged on the bottom of described support body, and described support body surface thereof is provided with for the slideway by not imported described NG disposable box by the tested product of test.

In the utility model, described four axle orthogonal mechanical arms comprise the first slide unit, the second slide unit of arranging with described first slide unit horizontal vertical, and described second slide unit vertically vertically disposed 3rd slide unit, be arranged on the turning axle on described 3rd slide unit and the handgrip of described turning axle end be installed.

In the utility model, described handgrip comprises two groups of vacuum cups be arranged symmetrically with, form two and capture position, by described turning axle rotational transform station, two tested products can be captured simultaneously and complete the charging action of two shielded boxes or input and output material action completed to a shielded box simultaneously.

In the utility model, described shielding test cell also comprises the test machine be simultaneously electrically connected with shielded box and testing and control mechanism, and the test signal gathered in described shielded box compares and test result sent to described testing and control mechanism by described test machine.

In the utility model, described four axle orthogonal robotic shielding proving installations are also provided with industrial camera, and the test event high to some status requirements carries out auxiliary positioning by described industrial camera, ensures the accurate crawl of tested product.

In the utility model, each testing factor of the shielding test carrying out telecommunications product is integrated formation automatic test device, by the whole testing process of testing and control mechanism controls, only need that tested product is sent into automatic test device by feeding mechanism and can automatically complete whole test process, middle without the need to manual intervention, testing efficiency is high; Adopt four axle orthogonal mechanical arms to carry out the feeding of tested product and taking-up go-no-go, control simple, action is quick, and travel position is accurate; Parallel join between each test cell and testing and control mechanism, the test action of each test cell independently carries out, do not interfere with each other, even if the test cell wherein had breaks down also do not affect the normal operation of other test cells, ensure that the continuity of test to the full extent.

Accompanying drawing explanation

Fig. 1 is the one-piece construction schematic diagram in the utility model one embodiment;

Fig. 2 is the inner structure schematic diagram in the utility model one embodiment;

Fig. 3 is that cabinet and four axle orthogonal robot manipulator structure schematic diagram are tested in the shielding in the utility model one embodiment;

Fig. 4 is four axle orthogonal robot manipulator structure schematic diagram in the utility model one embodiment;

Fig. 5 is the feeding mechanism structural representation in the utility model one embodiment;

Fig. 6 is the discharging mechanism structural representation in the utility model one embodiment;

Fig. 7 is the gripping structure schematic diagram in the utility model one embodiment.

Embodiment

In order to be illustrated more clearly in the technical solution of the utility model, below in conjunction with drawings and Examples, the technical solution of the utility model is further elaborated, apparently, the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other embodiment can also be obtained according to these embodiments.

Shielding field tests for current telecommunications product (electronic chip) is also in the situation of manual operation test substantially, the present embodiment provides a kind of four axle orthogonal robotic shielding proving installations, for carrying out the test jobs under shielding environment to telecommunications product, by the various testing factor centralized integration of test process a to test equipment arranging corresponding motion control mechanism, realize automatic test, increase substantially test jobs efficiency, this four axles orthogonal robotic shielding proving installation comprises rack 1, feeding mechanism 2, four axle orthogonal mechanical arms 5, at least one shields test cell 6, discharging mechanism 3 and testing and control mechanism 4.

The universal wheel 7 of being convenient to movement is equiped with and for auxiliary fixed support and adjustable for height spike 8, rack 1 front end is provided with the transparent safety door 11 that can split bottom rack 1, can the function situation of the inner each mechanism of real time inspection rack 1 by safety door 11; In addition, rack 1 is also provided with multiple access door 12, conveniently the later maintenance of each mechanism is overhauled.

Feeding mechanism 2 one end puts in rack 1, and the other end of feeding mechanism 2 is located at the outside of rack 1, is waited to get by tested product by transfer structure from the outside assigned address delivered in rack 1; During test, tested product is placed in the corresponding position of feeding mechanism 2, the tested product assigned address delivered in rack 1 is waited to get by feeding mechanism 2 under the control of testing and control mechanism 4, and whole process staff need not enter into the stroke range of four axle orthogonal mechanical arms 5, ensures to be perfectly safe; Automatic discharging device also can be set and carry out automatic discharging, or dock with product line, form an automated production p-wire.

Four axle orthogonal mechanical arms 5, at least one group screen cover test cell 6 and testing and control mechanism 4 is arranged in rack 1; Every group screen covers test cell 6 and comprises a shielded box 61, and be the elementary cell of shielding test, shielded box 61 is direct or be fixedly installed in rack 1 by erecting frame 62; Preferably, shielded box 61 adopts drawer-type structure, facilitates the operation of mechanical arm.Shielded box 61 is generally stacked side by side to be arranged in rack 1, can carry out flexible configuration according to actual needs, and can arrange by one-sided individual layer, one-sided multiple-level stack is arranged, also can arrange by bilateral individual layer, bilateral multiple-level stack is arranged; When multiple-level stack is arranged, the shielded box 61 of last layer descends the shielded box 61 of one deck to step back layout relatively; When carrying out bilateral and arranging, the distance between both sides shielded box 61 with the stroke range of four axle orthogonal mechanical arms 5 to supporting, otherwise will interfere with four axle orthogonal mechanical arms 5; Preferably, consider the size of rack 1 and the difficulty of testing and control, the general layout general layout adopting 8 one-sided double stacked of shielded box 61, at most can not more than 24 shielded boxes 61.

As long as occur when carrying out test jobs for multiple working cells that a lot of automatic test is equipped at present breaking down just must overallly shut down in one of them working cell could continue test jobs by after the maintenance recovery of the working cell of breaking down simultaneously; fault-resistant interference is weak; make utilization factor and the operation poor continuity of whole test equipment, overall efficiency is low.For head it off, in the utility model, each shielding test cell 6 is mutually parallel to be arranged, each shielding test cell 6 is parallel to be each other connected electrically in testing and control mechanism 4, the test jobs of each shielding test cell 6 independently carries out, do not interfere with each other each other, even if some shielding test cell 6 wherein breaks down and cannot proceed test jobs, the shielding test cell 6 broken down can stop operation by testing and control mechanism 4, and remaining normal shielding test cell 6 continues normal operation, until complete corresponding test assignment.

Four axle orthogonal mechanical arms 5 capture feeding mechanism 2 be transported to assigned address tested product send into shielding test cell 6 carry out electromagnetic screen test; Four axle orthogonal mechanical arms 5 are arranged on the top of shielding test cell 6;

Discharging mechanism 3 is arranged on the opposite side relative with feeding mechanism 2, and the tested product completing test is sent rack 1 by discharging mechanism 3; After shielding test completes, tested product takes out in the diverse location of feeding discharging mechanism 3 according to test result by four axle orthogonal mechanical arms 5 from shielding test cell 6, completes test process; Wherein, sent by discharging mechanism 3 by the tested product of test, be not retained in discharging mechanism 3 by the tested product of test;

Concrete, the second slide unit 52 that four axle orthogonal mechanical arms 5 comprise the first slide unit 51, arranges with the first slide unit 51 horizontal vertical, and the second slide unit 52 vertically vertically disposed 3rd slide unit 53, be arranged on the turning axle 55 on the 3rd slide unit 53 and the handgrip 56 of turning axle 55 end be installed, this handgrip 56 adopts vacuum cup 562 as the executive component of grasping movement.

First slide unit 51 of four axle orthogonal mechanical arms 5 uses bracing frame or directly installs on shielded box 61, fixed-direction is vertical with the long axis of shielded box 61, the motor be disposed on the first slide unit 51 drives the belt in the first slide unit 51 to rotate, and drives the second slide unit 52 to slide on the first slide unit 51;

One end of second slide unit 52 is fixed on the slide rail of the first slide unit 51, and move along slide rail, second slide unit 52 is provided with slide rail vertically, screw mandrel and drive motor is equipped in slide rail, 3rd slide unit 53 is vertically vertically connected on the second slide unit 52 and also can moves along slide rail, the drive motor of the second slide unit 52 drives screw mandrel to rotate, and drives the 3rd slide unit 53 to move along the slide rail of the second slide unit 52;

3rd slide unit 53 is provided with slide rail vertically, is equipped with screw mandrel and drive motor in slide rail, and turning axle 55 is connected in the slide rail of the 3rd slide unit 53 by stand 54, and drive motor drives screw mandrel to rotate, and driven rotary axle 55 moves along the slide rail of the 3rd slide unit 53;

The stand 54 installing turning axle 55 is equipped with the servomotor driving turning axle 55 rotary motion, makes the handgrip 56 being arranged on turning axle 55 end can by rotational transform position;

Because the first slide unit 51, second slide unit 52 and the 3rd slide unit 53 are vertically connected on together mutually, form a complete rectangular space coordinate, make the handgrip 56 be arranged on four axle orthogonal mechanical arms 5 to be positioned on the locus of setting accurately, complete corresponding location action.

Handgrip 56 comprises two groups of vacuum cups be arranged symmetrically with 562, form two and capture position 561, by turning axle 55 rotational transform station, two tested products can be captured simultaneously and complete the charging action of two shielded boxes 61 or input and output material action completed to a shielded box 61 simultaneously.

Handgrip 56 comprises two groups of vacuum cups be arranged symmetrically with centered by turning axle 55 562, form two and capture position 561, the quantity often organizing vacuum cup 562 can adjust as required, general often group establishes three vacuum cups 562, preferably, the keying of each vacuum cup 562 is control separately, can select the quantity of opening vacuum cup 562 flexibly according to the true form and weight capturing article; Because handgrip 56 has two groups of vacuum cups 562, namely there are two stations, two materials can be captured simultaneously, again by turning axle 55 rotational transform station, can realize capturing two tested products once complete the charging action of two shielded boxes 61 or complete input and output material action to a shielded box 61 simultaneously simultaneously, reduce the reciprocating action number of times of four each slide units of axle orthogonal mechanical arm 5, effectively improve the work efficiency of four axle orthogonal mechanical arms 5.

In one embodiment, the material frame 23 that feeding mechanism 2 comprises support 21, is arranged on the slide unit at support 21 top and is arranged on slide unit 22, adjustable for height spike 8 is installed bottom support 21, the servomotor that slide unit 22 comprises linear slide rail, the screw mandrel be axially disposed within linear slide rail, driving screw mandrel rotate, material frame 23 to be set on screw mandrel along linear slide rail to-and-fro movement under the driving of screw mandrel, and the assigned address delivered to by tested product in rack 1 is waited to get.

In one embodiment, discharging mechanism 3 comprises for collecting not by the NG disposable box 34 of the tested product of test and the travelling belt 32 for the tested product by test being sent four axle orthogonal robotic shielding proving installations; Travelling belt 32 is arranged on support body 31 top, and NG disposable box 34 is arranged on the bottom of support body 31, is provided with adjustable for height spike 8 bottom support body 31, and support body 31 surface thereof is provided with the slideway 33 for the tested product not by test being imported NG disposable box 34.

In one embodiment, shielding test cell 6 also comprises the test machine be simultaneously electrically connected with shielded box 61 and testing and control mechanism 4, this test machine is built-in with corresponding testing software, the test signal gathered in shielded box 61 compared by testing software and test result is sent to testing and control mechanism 4, testing and control mechanism 4 sends corresponding steering order according to test result.

In one embodiment, the requirement that some product aligning puts precision is very high, the positioning precision of simple dependence four axle orthogonal mechanical arm 5 may not reach accuracy requirement, four axle orthogonal robotic shielding proving installations are also provided with the industrial camera (not shown) for machine vision location, industrial camera is utilized to carry out auxiliary positioning correction to four axle orthogonal mechanical arms, according to the characteristics of image that industrial camera gathers, compare with through pretreated image, analyze departure, thus obtain correct control information, testing and control mechanism 4 controls four axle orthogonal mechanical arms 5 according to control information and carries out position compensation, ensure the crawl precision of four axle orthogonal mechanical arms 5, meet the positioning requirements of the high test event of some status requirements, ensure the accurate crawl of tested product, concrete, this industrial camera is arranged on the stand 54 of four axle orthogonal mechanical arms, makes the camera lens of industrial camera can aim at handgrip 56 object to be crawled, is mainly used in correcting handgrip 56 when charging and discharging to the crawl position precision of tested product, during operation, testing and control mechanism 4 guides four axle orthogonal mechanical arms to be positioned at by handgrip 56 above the default crawl position of tested product by pre-set programs, the location drawing picture being returned by image transmitting in testing and control mechanism 4 that industrial camera opens shooting tested product is compared with pretreated image, analysis draws departure, thus obtain correct control information, testing and control mechanism 4 controls four positions of axle orthogonal mechanical arm to handgrip 56 according to control information and revises, and ensures the accurate crawl of handgrip 56 pairs of tested products.

The whole test job process of four axle orthogonal robotic shielding proving installations is that testing and control mechanism 4 controls after tested product delivers to and formulate position in rack 1 by feeding mechanism 2, four axle orthogonal mechanical arms 5 move under the control of testing and control mechanism 4 material frame 23 position and capture tested product be sent to comparation and assessment test box in carry out corresponding test event, after having tested, test control system controls on the travelling belt 32 that the tested product completing test to be sent to discharging mechanism 3 by four axle orthogonal mechanical arms 5 or in NG disposable box 34 according to test result, complete shielding test jobs.

In the utility model, each testing factor of the shielding test carrying out telecommunications product is integrated formation automatic test device, whole testing process is controlled by testing and control mechanism 4, only need that tested product is sent into automatic test device by feeding mechanism and can automatically complete whole test process, middle without the need to manual intervention, testing efficiency is high; Four axle orthogonal mechanical arms are adopted to carry out the feeding of tested product and taking-up go-no-go, control simple, action is quick, travel position is accurate, in addition, in identical stroke range, the space taken required for four axle orthogonal mechanical arms, much smaller than other forms of mechanical arm, can greatly reduce the machine volume of four axle orthogonal robotic shielding proving installations; Parallel join between each test cell and testing and control mechanism 4, the test action of each test cell independently carries out, do not interfere with each other, even if the test cell wherein had breaks down also do not affect the normal operation of other test cells, ensure that the continuity of test to the full extent.

The above is only preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (8)

1. an axle orthogonal robotic shielding proving installation, for carrying out the test jobs under shielding environment to telecommunications product, it is characterized in that, comprise rack (1), feeding mechanism (2), four axle orthogonal mechanical arms (5), at least one shielding test cell (6), discharging mechanism (3) and testing and control mechanism (4);

Wherein: described four axle orthogonal mechanical arms (5), shielding test cell (6) and testing and control mechanism (4) are arranged in described rack (1), and described shielding test cell (6) is parallel is connected electrically on described testing and control mechanism (4); Described feeding mechanism (2) one end puts in described rack (1), and waits to get for the assigned address delivered in rack (1) from outside by tested product; Described discharging mechanism (3) is arranged on the opposite side relative with described feeding mechanism (2), and for the tested product completing test is sent rack (1);

Described shielding test cell (6) comprises a shielded box (61), and described shielded box (61) is direct or be fixedly installed in rack (1) by erecting frame (62);

Described four axle orthogonal mechanical arms (5) capture tested product that described feeding mechanism (2) is transported to assigned address and send into described shielding test cell (6) and carry out electromagnetic screen test, and after shielding test completes, according to test result, tested product is taken out in the diverse location of the described discharging mechanism of feeding (3) from shielding test cell (6), and by described discharging mechanism (3), the tested product by test is sent, not by the tested product indwelling of test.

2. a kind of four axle orthogonal robotic shield proving installations as claimed in claim 1, it is characterized in that: described shielded box (61) is drawer-type structure.

3. a kind of four axle orthogonal robotic shield proving installations as claimed in claim 1, it is characterized in that: described feeding mechanism (2) comprises support (21), is arranged on the slide unit (22) at support (21) top and is arranged on the material frame (23) on slide unit (22), described slide unit (22) comprise linear slide rail, the screw mandrel be axially disposed within described linear slide rail, the servomotor that drives described screw mandrel to rotate.

4. a kind of four axle orthogonal robotic shield proving installations as claimed in claim 1, it is characterized in that: described discharging mechanism (3) comprises for collecting not by the NG disposable box (34) of the tested product of test and the travelling belt (32) for the tested product by test being sent four axle orthogonal robotic shielding proving installations; Described travelling belt (32) is arranged on support body (31) top, described NG disposable box (34) is arranged on the bottom of described support body (31), and described support body (31) surface thereof is provided with for the slideway (33) by not imported described NG disposable box (34) by the tested product of test.

5. a kind of four axle orthogonal robotic shielding proving installations as claimed in claim 1, is characterized in that: described four axle orthogonal mechanical arms (5) comprise the first slide unit (51), the second slide unit (52) of arranging with described first slide unit (51) horizontal vertical, and described second slide unit (52) vertically vertically disposed 3rd slide unit (53), be arranged on the turning axle (55) on described 3rd slide unit (53) and the handgrip (56) of described turning axle (55) end be installed.

6. a kind of four axle orthogonal robotic shield proving installations as claimed in claim 5, it is characterized in that: described handgrip (56) comprises two groups of vacuum cups be arranged symmetrically with (562), form two and capture position (561).

7. a kind of four axle orthogonal robotic shielding proving installations as claimed in claim 1, is characterized in that: described shielding test cell (6) also comprise be electrically connected with shielded box (61) and testing and control mechanism (4) simultaneously for the test signal gathered in described shielded box being compared and test result being sent to described testing and control mechanism test machine.

8. a kind of four axle orthogonal robotic shield proving installations as claimed in claim 1, it is characterized in that: be also provided with the industrial camera for carrying out auxiliary positioning correction to four axle orthogonal mechanical arms, described industrial camera is installed in the end of described four axle orthogonal mechanical arms and described four axle orthogonal mechanical arm synchronizing movings.