CN205562292U - Power consumption information acquisition equipment pushes away tensile test device - Google Patents

Abstract

The utility model provides a power consumption information acquisition equipment pushes away tensile test device, the cabinet body (1) that has the host computer including internally mounted, support body (2) are installed at the cabinet body (1) top, support body (2) have the place ahead open -ended operating chamber, the operating chamber bottom has place (3) of level setting, it has fixed anchor clamps (4) of being surveyed power consumption information acquisition equipment (5) on (3) to place the platform, still have the level setting in the operating chamber and charging floor (6) that be used for placing afterburning subassembly, afterburning subassembly includes that the X axle removes subassembly (7), the Y axle removes subassembly (8) and Z axle loading subassembly (9), install the loading head on the Z axle loading subassembly (9), install pressure sensor on the loading head. The utility model has the advantages of measurement accuracy height, easy operation, efficient, degree of automation is high and the security good.

Description

Power information collecting device device for testing push-pull force

Technical field

This utility model relates to a kind of power information collecting device test device, a kind of test device testing power information collecting device binding post push-pull effort, belongs to electrical equipment.

Background technology

The push-pull effort of power information collecting device binding post has to comply with the technical standard of country and industry, and therefore power information collecting device needs to carry out push-pull effort test before using.During detection, pair of wire connection terminals applies the push-pull effort preset, and then observes whether binding post deforms upon.

The test of existing push-pull effort is to complete by the way of loading manually and observing by the naked eye deformation situation, and certainty of measurement is low, complex operation, inefficiency.

Utility model content

In order to improve the certainty of measurement of power information collecting device binding post push-pull effort test, simplify operation, improve efficiency, the utility model proposes a kind of power information collecting device device for testing push-pull force.

Technical solutions of the utility model are as follows:

Power information collecting device device for testing push-pull force, including the internally installed cabinet having host computer, described cabinet top is provided with support body, described support body has the operating cavity of front openings, there is bottom described operating cavity horizontally disposed mounting table, having the fixture of fixing tested power information collecting device on described mounting table, also have horizontally disposed charging floor and the afterburning assembly being positioned on charging floor in described operating cavity, described charging floor is higher than described mounting table and is positioned at the rear side of mounting table；

Described afterburning assembly includes the X-axis moving assembly being arranged on charging floor and moving direction is left and right directions, described X-axis moving assembly includes the X-axis body being arranged on charging floor, be arranged on by bearing on X-axis body X-axis leading screw, it is arranged on X-axis body and X-axis nut that X-axis servomotor that output shaft is connected with X-axis leading screw matches with X-axis leading screw and the X-axis slide unit that is connected with X-axis nut, described X-axis body is also equipped with the X-axis guide rail matched with X-axis slide unit；Described X-axis servomotor is connected with host computer by X-axis servo-driver；

Described afterburning assembly also includes the Y-axis moving assembly being arranged on X-axis slide unit and moving direction is fore-and-aft direction, described Y-axis moving assembly includes the Y-axis body being arranged on X-axis slide unit, be arranged on by bearing on Y-axis body Y-axis leading screw, it is arranged on Y-axis body and Y-axis nut that Y-axis servomotor that output shaft is connected with Y-axis leading screw matches with Y-axis leading screw and the Y-axis slide unit that is connected with Y-axis nut, described Y-axis body is also equipped with the Y-axis guide rail matched with Y-axis slide unit；Described Y-axis servomotor is connected with host computer by Y-axis servo-driver；

Described afterburning assembly also includes the Z axis charging assembly being arranged on Y-axis slide unit and moving direction is above-below direction, described Z axis charging assembly includes the Z axis body being arranged on Y-axis slide unit, be arranged on by bearing on Z axis body Z axis leading screw, it is arranged on Z axis body and Z axis nut that Z axis servomotor that output shaft is connected with Z axis leading screw matches with Z axis leading screw and the Z axis slide unit that is connected with Z axis nut, described Z axis body is also equipped with the Z axis guide rail matched with Z axis slide unit；The loading head matched with tested power information collecting device binding post is installed on described Z axis slide unit, described loading head is provided with pressure transducer；Described Z axis servomotor is connected with host computer by Z axis servo-driver；

Display device and operation device it is also equipped with on described support body；

Described display device, operation device are connected with host computer respectively with pressure transducer；

Being also equipped with the photographic head being connected with host computer on described Z axis slide unit, described cam lens is downward.

As further improvement of the utility model: described power information collecting device device for testing push-pull force also includes the safe grating being connected with host computer, described safe grating includes transmitting terminal and the receiving terminal of mounted in pairs, and described transmitting terminal and receiving terminal are separately mounted to the left side at the front openings of operating cavity and right side.

As further improvement of the utility model: described display device is for touching display screen.

Relative to prior art, this utility model has a following good effect:

(1) this utility model includes the device such as host computer and servomotor, it is capable of the automatic force of power information collecting device binding post, can detect whether the push-pull effort that tested power information collecting device binding post is subject to reaches setting value by pressure transducer when force, the rotation situation of the servomotor of host computer monitoring simultaneously, thus calculate the deformation values of binding post, there is the advantage that certainty of measurement is high, simple to operate and efficiency is high；

(2) this utility model also has safe grating, it is possible to prevents afterburning component movement from damaging staff outside operating cavity, has the advantage that safety is good；

(3) this utility model has photographic head, PC control X-axis moving assembly and Y-axis moving assembly action before testing, the image recognition that host computer can photograph by analyzing photographic head simultaneously goes out the position of the initial binding post of tested power information collecting device, completing the original position before automatically testing to demarcate, automaticity is high.

Accompanying drawing explanation

Fig. 1 is population structure schematic diagram of the present utility model.

Fig. 2 is the plan structure schematic diagram of this utility model reinforcing components.

Detailed description of the invention

Describe the technical solution of the utility model below in conjunction with the accompanying drawings in detail:

Such as Fig. 1, a kind of power information collecting device device for testing push-pull force, including the internally installed cabinet 1 having host computer, described cabinet 1 top is provided with support body 2, described support body 2 has the operating cavity of front openings, there is bottom described operating cavity horizontally disposed mounting table 3, there is on described mounting table 3 fixture 4 of fixing tested power information collecting device 5, also having horizontally disposed charging floor 6 and the afterburning assembly being positioned on charging floor 6 in described operating cavity, described charging floor 6 is higher than described mounting table 3 and is positioned at the rear side of mounting table 3；

Described afterburning assembly includes the X-axis moving assembly 7 being arranged on charging floor 6 and moving direction is left and right directions, such as Fig. 2, described X-axis moving assembly 7 includes the X-axis body 7-1 being arranged on charging floor 6, the X-axis leading screw being arranged on X-axis body 7-1 by bearing, be arranged on X-axis body 7-1 and X-axis nut that X-axis servomotor 7-2 that output shaft is connected with X-axis leading screw matches with X-axis leading screw and the X-axis slide unit 7-3 that is connected with X-axis nut, and described X-axis body 7-1 is also equipped with the X-axis guide rail matched with X-axis slide unit 7-3；Described X-axis servomotor 7-2 is connected with host computer by X-axis servo-driver；The repetitive positioning accuracy of described X-axis moving assembly 7 is ± 0.02mm.

Described afterburning assembly also includes the Y-axis moving assembly 8 being arranged on X-axis slide unit 7-3 and moving direction is fore-and-aft direction, such as Fig. 2, described Y-axis moving assembly 8 includes the Y-axis body 8-1 being arranged on X-axis slide unit 7-3, the Y-axis leading screw being arranged on Y-axis body 8-1 by bearing, be arranged on Y-axis body 8-1 and Y-axis nut that Y-axis servomotor 8-2 that output shaft is connected with Y-axis leading screw matches with Y-axis leading screw and the Y-axis slide unit 8-3 that is connected with Y-axis nut, and described Y-axis body 8-1 is also equipped with the Y-axis guide rail matched with Y-axis slide unit 8-3；Described Y-axis servomotor 8-2 is connected with host computer by Y-axis servo-driver；The repetitive positioning accuracy of described Y-axis moving assembly 8 is ± 0.02mm.

Described afterburning assembly also includes the Z axis charging assembly 9 being arranged on Y-axis slide unit 8-3 and moving direction is above-below direction, such as Fig. 2, described Z axis charging assembly 9 includes the Z axis body 9-1 being arranged on Y-axis slide unit 8-3, the Z axis leading screw being arranged on Z axis body 9-1 by bearing, be arranged on Z axis body 9-1 and Z axis nut that Z axis servomotor 9-2 that output shaft is connected with Z axis leading screw matches with Z axis leading screw and the Z axis slide unit 9-3 that is connected with Z axis nut, and described Z axis body 9-1 is also equipped with the Z axis guide rail matched with Z axis slide unit 9-3；The loading head 9-4 matched with tested power information collecting device 5 binding post is installed on described Z axis slide unit 9-3, described loading head 9-4 is provided with pressure transducer；Described Z axis servomotor 9-2 is connected with host computer by Z axis servo-driver；The repetitive positioning accuracy of described Z axis charging assembly 9 is ± 0.02mm.The power output error of described pressure transducer is ± 20%, uses temperature range to be 5-40 DEG C, and use humidity range is 90%RH.

Display device and operation device it is also equipped with on described support body 2；Described display device is for touching display screen 13.

Described display device, operation device are connected with host computer respectively with pressure transducer.

Being also equipped with the photographic head 11 being connected with host computer on described Z axis slide unit 9-3, described photographic head 11 camera lens is downward；Before testing, PC control X-axis moving assembly 7 and Y-axis moving assembly 8 action, the image recognition that host computer can photograph by analyzing photographic head 11 simultaneously goes out the position of the initial binding post of tested power information collecting device 5, completing the original position before automatically testing to demarcate, automaticity is high.

During detection, PC control X-axis moving assembly 7 and Y-axis moving assembly 8 action, loading head 9-4 is made to be positioned at the surface of binding post, then Z axis charging assembly 9 action completes the force of loading head 9-4 pair of wire connection terminals, detect whether the push-pull effort that tested power information collecting device 5 binding post is subject to reaches setting value by pressure transducer during force, the rotation situation of the servomotor of host computer monitoring simultaneously, thus calculate the deformation values of binding post；Afterburning assembly is sequentially completed the test of the push-pull effort to the tested each binding post of power information collecting device 5 under the control of host computer.

Described power information collecting device device for testing push-pull force also includes the safe grating being connected with host computer, described safe grating includes the transmitting terminal 12-1 and receiving terminal 12-2 of mounted in pairs, described transmitting terminal 12-1 and receiving terminal 12-2 is separately mounted to the left side at the front openings of operating cavity and right side, it is prevented from afterburning component movement outside operating cavity, staff to be damaged, there is the advantage that safety is good.

Claims (3)

1. power information collecting device device for testing push-pull force, it is characterized in that: described power information collecting device device for testing push-pull force includes the internally installed cabinet (1) having host computer, described cabinet (1) top is provided with support body (2), described support body (2) has the operating cavity of front openings, there is bottom described operating cavity horizontally disposed mounting table (3), there is on described mounting table (3) fixture (4) of fixing tested power information collecting device (5), also there is in described operating cavity horizontally disposed charging floor (6) and the afterburning assembly being positioned on charging floor (6), described charging floor (6) is higher than described mounting table (3) and is positioned at the rear side of mounting table (3)；

Described afterburning assembly includes being arranged on X-axis moving assembly (7) that charging floor (6) is upper and moving direction is left and right directions, described X-axis moving assembly (7) includes the X-axis body (7-1) being arranged on charging floor (6), it is arranged on the X-axis leading screw on X-axis body (7-1) by bearing, it is arranged on the X-axis servomotor (7-2) that X-axis body (7-1) is gone up and output shaft is connected with X-axis leading screw, the X-axis nut matched with X-axis leading screw and the X-axis slide unit (7-3) being connected with X-axis nut, the X-axis guide rail matched with X-axis slide unit (7-3) it is also equipped with on described X-axis body (7-1)；Described X-axis servomotor (7-2) is connected with host computer by X-axis servo-driver；

Described afterburning assembly also includes being arranged on Y-axis moving assembly (8) that X-axis slide unit (7-3) is upper and moving direction is fore-and-aft direction, described Y-axis moving assembly (8) includes the Y-axis body (8-1) being arranged on X-axis slide unit (7-3), it is arranged on the Y-axis leading screw on Y-axis body (8-1) by bearing, it is arranged on the Y-axis servomotor (8-2) that Y-axis body (8-1) is gone up and output shaft is connected with Y-axis leading screw, the Y-axis nut matched with Y-axis leading screw and the Y-axis slide unit (8-3) being connected with Y-axis nut, the Y-axis guide rail matched with Y-axis slide unit (8-3) it is also equipped with on described Y-axis body (8-1)；Described Y-axis servomotor (8-2) is connected with host computer by Y-axis servo-driver；

Described afterburning assembly also includes being arranged on Z axis charging assembly (9) that Y-axis slide unit (8-3) is upper and moving direction is above-below direction, described Z axis charging assembly (9) includes the Z axis body (9-1) being arranged on Y-axis slide unit (8-3), it is arranged on the Z axis leading screw on Z axis body (9-1) by bearing, it is arranged on the Z axis servomotor (9-2) that Z axis body (9-1) is gone up and output shaft is connected with Z axis leading screw, the Z axis nut matched with Z axis leading screw and the Z axis slide unit (9-3) being connected with Z axis nut, the Z axis guide rail matched with Z axis slide unit (9-3) it is also equipped with on described Z axis body (9-1)；The loading head (9-4) matched with tested power information collecting device (5) binding post is installed on described Z axis slide unit (9-3), described loading head (9-4) is provided with pressure transducer；Described Z axis servomotor (9-2) is connected with host computer by Z axis servo-driver；

Display device and operation device it is also equipped with on described support body (2)；

Described display device, operation device are connected with host computer respectively with pressure transducer；

Being also equipped with the photographic head (11) being connected with host computer on described Z axis slide unit (9-3), described photographic head (11) camera lens is downward.

2. power information collecting device device for testing push-pull force as claimed in claim 1, it is characterized in that: described power information collecting device device for testing push-pull force also includes the safe grating being connected with host computer, described safe grating includes transmitting terminal (12-1) and the receiving terminal (12-2) of mounted in pairs, and described transmitting terminal (12-1) and receiving terminal (12-2) are separately mounted to the left side at the front openings of operating cavity and right side.

3. power information collecting device device for testing push-pull force as claimed in claim 1 or 2, it is characterised in that: described display device is for touching display screen (13).