CN106644444A - Automatic testing method for performance of door closer through computer - Google Patents

Abstract

The invention discloses an automatic testing method for performance of a door closer through a computer. The method comprises the following steps of A, setting a testing angle on a testing host computer, inputting width and weight of a testing door into the testing host computer, and mounting a to-be-tested door closer on the testing door; B, establishing a remote control connection between the testing host computer and a client so that the client can perform operation on the testing host computer; C, making a servo motor open the testing door in a speed of 1 DEG/second by the testing host computer, acquiring a door opening torque by the testing host computer and forming a door opening torque curve; and D, after the door opening angle of the testing door reaches a preset value, making the servo motor close the testing door in a speed of 1 DEG/second by the testing host computer, acquiring a door closing torque by the testing host computer, and forming a door closing torque curve. The testing host computer established the remote control connection with the client and the client can control the testing process, thereby facilitating comprehensive understanding of performance of the door closer by the client, and improving testing reliability.

Description

Door closer performance computer automatic test approach

Technical field

The present invention relates to door closer performance test, more particularly to a kind of door closer performance computer automatic test approach.

Background technology

Its spring and floor spring are referred to as door closer.The automatic day spring of hydraulic pressure, floor spring be by hydraulic oil, body, spring, A kind of hydraulic damping device of the compositions such as tooth bar (or cam), piston, needs to be determined its switch gate torque, to guarantee it It is great little that product is applied to switch gate.Producer is tested product before shipment, test report is attached on product and is shipped for Client, so that client understands the quality of the bulk article.

At present, all it is producer's technical staff's self testing during product test, client is not engaged in product test, therefore, visitor Family sometimes can hold the suspicious attitude to the reliability of test result.Client generally holds the suspicious attitude to the reliability tested, therefore It is necessary to provide a kind of method of testing of high reliability.

The content of the invention

It is an object of the invention to provide a kind of door closer performance computer automatic test approach, at least can solve the problem that the problems referred to above One of.

For achieving the above object, according to an aspect of the invention, there is provided a kind of door closer performance computer is tested automatically Method, comprises the following steps：

A, set test angle in test main frame, will test gate-width and test gate weight input test main frame, will be to be tested Door closer is arranged on test gate；

B, test main frame and client set up remotely control connection, client is operated to test main frame；

C, test main frame control servomotor are made test gate and are opened with 1 °/sec of speed, test main frame collection enabling torque, shape Into enabling M curve；

D, the open angle of test gate are reached after setting value, and test main frame control servomotor makes test gate with 1 °/sec of pass Door, test main frame gathers torque of closing the door, and forms M curve of closing the door.

Thus, test main frame is set up remotely control and is connected with client, client controllable testing process, is conducive to client The performance of door closer is fully understanded, the degree of reliability of test is improved.

In some embodiments, test main frame is set up remotely control and is connected with client by remote control software.From And ensure that client is operable to test main frame.

In some embodiments, test main frame gathers close the door torque and enabling torque by force cell, described to watch Take motor to be connected with test gate by force cell.Thus, force cell obtains accurate enabling torque degree, so as to obtain To accurate switch gate torque test data.

In some embodiments, test main frame gathers open angle and controls servomotor speed by angular encoder Degree, angular encoder is arranged at the door-hinge of test gate.Angular encoder is obtained in that the accurate open angle of test gate, so as to Accurate switch gate torque test data is obtained.

In some embodiments, enabling M curve and M curve of closing the door are displayed in the display being connected with test main frame On screen.

In some embodiments, test main frame is closed the door torque according to the maximum of 0 °～4 ° of the Calculating Torque during Rotary of closing the door of collection, Maximum torque of closing the door is displayed on display, and test main frame is opened the door according to the maximum of 0 °～60 ° of the enabling Calculating Torque during Rotary of collection Torque, the maximum enabling torque shows over the display, and test main frame is closed the door torque and maximum enabling Calculating Torque during Rotary according to maximum The effect of door closer, the effect of door closer shows over the display.The performance of the higher door closer of effect is better, closes so as to would know that The performance of door device.

In some embodiments, average door closing force of the test main frame according to 88 °～92 ° of the Calculating Torque during Rotary of closing the door of collection Square, torque of averagely closing the door is displayed on display.In order to test delocalization floor spring.

In some embodiments, test main frame is according to the minimum torque of closing the door of Calculating Torque during Rotary of closing the door for gathering, the minimum Torque of closing the door is displayed on display.Consequently facilitating knowing the performance of door closer.

Beneficial effects of the present invention are：Test main frame is set up remotely control and is connected with client, client controllable testing Process, is conducive to client to fully understand the performance of door closer, improves the degree of reliability of test.Angular encoder is obtained in that test The accurate open angle of door, force cell obtains accurate enabling dynamics, so as to accurate switch gate torque test number is obtained According to the reliability of raising test.

Description of the drawings

Fig. 1 is the test equipment of the door closer performance computer automatic test approach of an embodiment of the present invention；

Fig. 2 is the test main frame and client of the door closer performance computer automatic test approach of an embodiment of the present invention Annexation.

Specific embodiment

Below in conjunction with the accompanying drawings the present invention is further detailed explanation.

See figures.1.and.2, the door closer performance computer automatic test approach of present embodiment, including step A～D, step A and step B are in no particular order.

Step A, test main frame 1 set test angle, the width of test gate 2 and weight input test main frame 1 will be treated Test door closer is arranged on test gate 2.Meanwhile, also need test temperature, name of product/model input test main frame.

Floor spring installation position and day spring installation position are provided with test gate 2, are easy to two kinds of products to be tested respectively.

Step B, test main frame 1 are set up remotely control and are connected with client 3 by remote control software, make the client 3 can Test main frame 1 is operated.Every content in step A also can be input into by client.

Step C, the control servomotor 4 of test main frame 1 are made test gate 2 and are opened with 1 °/sec of speed, and the collection of test main frame 1 is opened Door torque, forms enabling M curve.Test main frame 1 gathers the enabling torque for often running 1 °.

Step D, test gate 2 open angle reach setting value after, test main frame 1 control servomotor 4 make test gate 2 with 1 °/sec is closed the door, and test main frame 1 gathers torque of closing the door, and forms M curve of closing the door.

Test main frame 1 gathers close the door torque and enabling torque by force cell, and servomotor 4 passes through force cell It is connected with test gate 2.Test main frame 1 gathers open angle and controls the speed of servomotor 4, angular coding by angular encoder Device is arranged at the door-hinge of test gate 2.

The output end of servomotor 4 is provided with bobbin, and steel wire rope is wound with bobbin.The doorframe of test gate 2 is provided with half Circular escapement frame.The center of circle of escapement frame is installed on the doorframe of test gate 2 by axle.Steel wire rope bypasses escapement frame, and and escapement The end connection of frame.Servomotor 4 pulls escapement frame by steel wire rope.One end of force cell is fixedly connected with escapement frame, The other end is connected with wire, and wire is connected with the enabling end of test gate 2.

Enabling M curve and M curve of closing the door are displayed on the display screen 6 being connected with test main frame 1.Test main frame 1 Test report is formed, the test report is displayed on display screen 6.Therefore, the width and weight of test gate 2 be defeated, test temperature, product The name of an article claims/and model, testing time be shown in test report.

Test main frame 1 is closed the door torque according to the maximum of 0 °～4 ° of the Calculating Torque during Rotary of closing the door of collection, and test main frame 1 is according to collection 0 °～60 ° of enabling Calculating Torque during Rotary maximum enabling torque, test main frame 1 closes the door torque and maximum enabling torque meter according to maximum Calculate the effect of door closer.When delocalization floor spring is tested, test main frame 1 is according to 88 °～92 ° of the Calculating Torque during Rotary of closing the door of collection Maximum is closed the door torque.Test main frame 1 is according to the minimum torque of closing the door of Calculating Torque during Rotary of closing the door for gathering, referred to as arbitrarily angled door closing force Square.

Close the door torque, maximum of above-mentioned maximum enabling torque, the effect of door closer, maximum is closed the door torque, arbitrarily angled pass Door torque is shown in test report.

Above-described is only some embodiments of the present invention.For the person of ordinary skill of the art, not On the premise of departing from the invention design, some deformations and improvement can also be made, these belong to the protection model of the present invention Enclose.

Claims (8)

1. door closer performance computer automatic test approach, it is characterised in that comprise the following steps：

A, test main frame (1) set test angle, by the width of test gate (2) and weight input test main frame (1), will be to be measured Examination door closer is arranged on test gate (2)；

B, test main frame (1) are set up remotely control and are connected with client (3), client (3) is grasped to test main frame (1) Make；

C, test main frame (1) control servomotor (4) make test gate (2) open with 1 °/sec of speed, and test main frame (1) collection is opened Door torque, forms enabling M curve；

D, test gate (2) open angle reach setting value after, test main frame (1) control servomotor (4) make test gate (2) with 1 °/sec is closed the door, and test main frame (1) gathers torque of closing the door, and forms M curve of closing the door.

2. door closer performance computer automatic test approach according to claim 1, it is characterised in that the test main frame (1) set up remotely control by remote control software (5) with client (3) to be connected.

3. door closer performance computer automatic test approach according to claim 1, it is characterised in that the test main frame (1) close the door torque and enabling torque are gathered by force cell, the servomotor (4) is by force cell and test gate (2) connect.

4. door closer performance computer automatic test approach according to claim 1, it is characterised in that the test main frame (1) open angle is gathered by angular encoder and controls servomotor (4) speed, angular encoder is arranged on test gate (2) Door-hinge at.

5. door closer performance computer automatic test approach according to claim 1, it is characterised in that the enabling torque is bent Line and M curve of closing the door are displayed on the display screen (6) being connected with test main frame (1).

6. door closer performance computer automatic test approach according to claim 5, it is characterised in that the test main frame (1) closed the door torque according to the maximum of 0 °～4 ° of the Calculating Torque during Rotary of closing the door of collection, maximum torque of closing the door is displayed in display (6) On, the test main frame (1) according to collection 0 °～60 ° of enabling Calculating Torque during Rotary maximum enabling torque, the maximum enabling torque It is displayed on display (6), the test main frame (1) is closed the door the effect of torque and maximum enabling Calculating Torque during Rotary door closer according to maximum Power, the effect of door closer is displayed on display (6).

7. door closer performance computer automatic test approach according to claim 5, it is characterised in that the test main frame (1) closed the door torque according to the maximum of 88 °～92 ° of the Calculating Torque during Rotary of closing the door of collection, maximum torque of closing the door is displayed in display (6) On.

8. door closer performance computer automatic test approach according to claim 5, it is characterised in that the test main frame (1) according to the torque of closing the door that the Calculating Torque during Rotary of closing the door of collection is minimum, minimum torque of closing the door is displayed on display (6).