CN104678322A - Test device - Google Patents

Abstract

The invention relates to a test device, which is used for testing at least one power supply module. The power supply module is provided with a body, a first terminal and a second terminal, wherein the first terminal and the second terminal extend in opposite directions from the body. The test device comprises a base and a probe group, wherein the base is provided with a connecting pad group and a second connecting pad group, the power supply module is configured on the base, in addition, the first terminal is in contact with the first contact group, and the second terminal is in contact with the second connecting pad group. The probe group is provided with a plurality of probes. When the power supply module is tested, the probe is used for being electrically connected with the first connecting pad group and the second connecting pad group. The first connecting pad group is provided with at least two first electric coupling electrode connecting pads, the first terminal is provided with at least two first electric coupling electrode terminals which are correspondingly in contact with the first electric coupling electrode connecting pads. The second connecting pad group is provided with at least two second electric coupling electrode connecting pads, and the second terminal is provided with at least two second electric coupling electrode terminals which are correspondingly in contact with the second electric coupling electrode connecting pads.

Description

Proving installation

[technical field]

The invention relates to a kind of proving installation, and relate to a kind of proving installation in order to testing power supply module especially.

[background technology]

Along with the development of lighting engineering, light emitting diode (light emitting diode, LED) have higher luminescence efficiency, Low emissivity, low power consumption, life-span length, low driving voltage, startup fast, environmental protection, antidetonation resistance to compression, the conventional light source such as the light fixture Miniaturizable advantage that cannot compare with it.Moreover all encourage carbon reduction in response to countries in the world, the light fixture therefore using LED to make in recent years is extensive in indoor and outdoor illumination, and replaces conventional lamp gradually and form main trend.

The development kenel of current wherein a kind of LED lamp, directly LED luminescence component is made bulb or fluorescent tube kenel, also the LED light source substrate being about to be configured with multiple LED is together assembled in fluorescent tube with the power module in order to driving LED and is used for replacing conventional tungsten bulb, Electricity-saving lamp bulb or fluorescent tube, its advantage be to change conventional lamp, as long as LED luminescence component is replaced conventional bulb or fluorescent tube.

Only, in response to bulb or the fluorescent tube of various types, the power module be configured in LED lamp also produces multiple different external form, and in the manufacturing process of light fixture, these power modules with different external form all need to carry out relevant testing electrical property before assembling.For this reason, production line must design corresponding various proving installations in response to the external form of these power modules, test in order to being placed on it by the power module of different external form.For example, the power module of different types, its pin external form, size, spacing etc. in order to transferring electric power also can with change.In other words, when carrying out testing electrical property, locating tool on device also needs corresponding with it with the external form of test probe with size, and thus before changing the multi-form power module of test, operator must change or adjust tool or the probe of above-mentioned proving installation in advance.So, not only causing the increase of time and production cost, in the easier process testing, producing mistake.

Accordingly, how to design and for the proving installation shared, so that the power module of different external form all can be suitable for, can just become the required problem thought deeply and solve of the related personnel making LED lamp.

[summary of the invention]

The invention provides a kind of proving installation, it can be applicable to the power module of different external form and effectively improve process efficiency.

Measurement jig of the present invention, in order to test at least one power module.Power module has body and the first terminal extended from body subtend and the second terminal.Proving installation comprises pedestal and probe groups.Pedestal has the first connection pad group and the second connection pad group.Power module is configured at pedestal, and makes the first terminal contact the first connection pad group, the second termination contact second connection pad group.Probe groups has multiple probe.When testing power supply module, multiple probe is in order to be electrically connected the first connection pad group and the second connection pad group.First connection pad group has at least two the first electric coupling pole connection pads, and it is extremely sub that the first terminal has at least two the first electric couplings, respectively in order to these at least two the first electric coupling pole connection pads in electrical contact accordingly.Second connection pad group has at least two the second electric coupling pole connection pads, and it is extremely sub that the second terminal has at least two the second electric couplings, respectively in order to these at least two the second electric coupling pole connection pads in electrical contact accordingly.

In one embodiment of this invention, when testing above-mentioned power module, multiple probes of above-mentioned probe groups are positioned at the scope of the first connection pad group and the second connection pad group.

In one embodiment of this invention, above-mentioned pedestal has opening.First connection pad group and the second connection pad group position are in the relative both sides of opening.

In one embodiment of this invention, above-mentioned pedestal also has at least one first barricade, erects between at least two the first electric coupling pole connection pads of the first connection pad group with electrical isolation these at least two the first electric coupling pole connection pads.Above-mentioned pedestal also has at least one second barricade, erects between at least two the second electric coupling pole connection pads of the second connection pad group with electrical isolation these at least two the second electric coupling pole connection pads.

In one embodiment of this invention, the width of the first above-mentioned barricade is different from the width of the second barricade.Distance between the extreme son of first electric coupling is different from the distance between the extreme son of the second electric coupling.

In one embodiment of this invention, the width of the first above-mentioned barricade is greater than the width of the second barricade.Distance between the extreme son of first electric coupling is greater than the distance between the extreme son of the second electric coupling.The width of the first barricade is less than the distance between the extreme son of the first electric coupling but is greater than the distance between the extreme son of the second electric coupling.

In one embodiment of this invention, the first press strip and the second press strip is also comprised.First press strip is removably assembled to pedestal to compress the first terminal.Second press strip is removably assembled to pedestal to compress the second terminal.Pedestal also has at least one magnet assembly, in order to corresponding magnetic first press strip and/or the second press strip.

In one embodiment of this invention, above-mentioned at least one magnet assembly comprises the first magnet assembly, the second magnet assembly, the 3rd magnet assembly and the 4th magnet assembly.First press strip has the first magnet assembly, and the second press strip has the second magnet assembly.Pedestal has the 3rd magnet assembly and the 4th magnet assembly.3rd magnet assembly is in order to magnetic first magnet assembly, and the 4th magnet assembly is in order to magnetic second magnet assembly, and the magnetic pole of the first magnet assembly is in contrast to the magnetic pole of the second magnet assembly.

In one embodiment of this invention, the first above-mentioned press strip and the second press strip have multiple perforate respectively.The orthogonal projection of these perforates on pedestal is located in the scope of the first connection pad group and the second connection pad group.Above-mentioned multiple probe contacts the first connection pad group and the second connection pad group through perforate.

In one embodiment of this invention, the first above-mentioned press strip also has the first fluting, and the second press strip also has the second fluting, and the width of the first fluting meets the width of the first barricade, and the width of the second fluting meets the width of the second barricade.

In one embodiment of this invention, pedestal comprises a first component and two second components, first component has an opening, these two second components are configured in the relative both sides of opening respectively, first connection pad assembly is placed in one of them of this two second components, this the second connection pad group configuration is at wherein another of these two second components, each second component has at least one reaming, and proving installation also comprises multiple locking accessory, those locking accessories lock first component through those reamings, so that these two second components are fixed on first component, and adjust the relative distance between these two second components by those reamings.

In one embodiment of this invention, the bearing of trend of above-mentioned the first terminal and the bearing of trend of the second terminal are parallel to same axis, and the bearing of trend of each reaming is parallel to this axis.

In one embodiment of this invention, the first above-mentioned press strip and the second press strip have at least one 3rd fluting respectively, and pedestal also has multiple reference column.Be placed in the 3rd fluting accordingly by reference column, and the first press strip and the second press strip are positioned on pedestal respectively.

Compared to prior art, in the above embodiment of the present invention, by the connection pad group be configured on pedestal, in order to allow the terminal of power module contact connection pad group accordingly, and when testing, also allow the electric connection connection pad group that the multiple probes of probe groups can be corresponding.Accordingly, by connection pad group as the electric connection medium between probe and terminal, and allow user when carrying out the testing electrical property of power module, corresponding bearing base need not be changed separately and carry out contraposition to allow terminal in probe, simultaneously also without the need to the different pedestal of the exterior design of power module to reach the effect of location.In other words, this measure simplifies the related procedure of power module in time carrying out testing electrical property effectively, and then improves the efficiency and reduction manufacturing cost of producing linear flow journey.

For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate institute's accompanying drawings to be described in detail below.

[accompanying drawing explanation]

Fig. 1 is the schematic diagram of a kind of proving installation according to one embodiment of the invention.

Fig. 2 is the partial component explosive view of proving installation in pedestal place of Fig. 1.

[embodiment]

Fig. 1 is the schematic diagram of a kind of proving installation according to one embodiment of the invention.Fig. 2 is the partial component assembling schematic diagram of proving installation in pedestal place of Fig. 1.Please also refer to Fig. 1 and Fig. 2.In the present embodiment, proving installation 100 is in order to test power module 200 in LED lamp (not illustrating) to guarantee its electrical specification.Power module 200 is as the electric drive assembly in LED lamp, and it is electrically connected at the LED component (not illustrating) in LED lamp.Power module 200 has body 210 and the first terminal 220 extended from body 210 subtend and the second terminal 230, wherein the first terminal 220 is in order to be electrically connected to power supply (not illustrating), after being changed adjustment via the electronic package of body 210, then via the second terminal 230, electric power be sent to LED component and make it luminous.Accordingly, after production line completes the making of power module 200, relevant testing electrical property need be carried out to it, to guarantee its action successfully carrying out being electrically connected in time being assembled into LED lamp afterwards and to reach above-mentioned driving effect.

Based on above-mentioned, the proving installation 100 of the present embodiment comprises pedestal 110, probe groups 120, platform 130 and control module 140, wherein control module 140 is electrically connected platform 130 and probe groups 120, pedestal 110 is removably configured on platform 130, and in one embodiment, platform 130 can be mobile platform, orders about it be elevated along planar movement or relative to plane with bearing base 110.When power module 200 is configured on pedestal 110, control module 140 drives platform 130 and probe groups 120 relative motion, and provides power module 200 to carry out the electronic signal of dependence test by probe groups 120.

Refer again to Fig. 2, specifically, proving installation 100 is configured with the first connection pad group 150A and the second connection pad group 150B on pedestal 110, and wherein the first connection pad group 150A and the second connection pad group 150B is oppositely arranged.When power module 200 is configured on pedestal 110, the first terminal 220 of power module 200 contacts the first connection pad group 150A, and the second terminal 230 contacts the second connection pad group 150B.At this element numbers of same components only marked and representatively, be beneficial to carry out assembly identification in a wherein assembly.Also it should be noted that simultaneously, although illustrate four power modules 200 and corresponding structure in graphic, but therefore do not limit to it, deviser suitably can change configuration mode and the quantity of power module 200 and counter structure on proving installation 100 according to test condition and the different of object.

Pedestal 110 comprises an a first component 110A and two second component 110B, first component 110A has an opening 112, two second component 110B are configured in the relative both sides of opening 112 respectively, first connection pad group 150A and the second connection pad group 150B is separately positioned on two second component 110B, namely the first connection pad group 150A and the second connection pad group 150B position are in the relative both sides of opening 112, and the first connection pad group 150A and the second connection pad group 150B is area much larger than the bonding pad structure of the first terminal 220 and the second terminal 230 respectively, therefore user can be seated on the first connection pad group 150A with on the second connection pad group 150B with the first terminal 220 of power module 200 and the second terminal 230 easily respectively, and make body 210 be suspended at state on opening 112.It should be noted that the first connection pad group 150A of the present embodiment is made up of a pair first electric coupling poles connection pad 150A1,150A2, the second connection pad group 150B is made up of a pair second electric coupling poles connection pad 150B1,150B2.Accordingly, the first terminal 220 of the present embodiment is made up of a pair first electric couplings extremely sub-222A, 222B, and the second terminal 230 is made up of a pair second electric couplings extremely sub-232A, 232B.Accordingly, the first electric coupling extremely sub-222A, 222B and the second electric coupling extremely sub-232A, 232B are respectively first electric coupling pole connection pad 150A1,150A2 in electrical contact and second electric coupling pole connection pad 150B1,150B2 accordingly.In other words, in the test process of the present embodiment, user needn't carry out the action of power module 200 mutually locate with pedestal 110, and can save step and the time of performing, and also therefore reduces the situation generation of misplace.

Separately, the present embodiment does not limit the connection pad quantity of the first connection pad group 150A or the second connection pad group 150B, and the number of terminals of the first terminal 220 or the second terminal 230.Further, as long as meet the first connection pad group 150A or the second connection pad group 150B when implementing of the present invention there are at least two electric coupling pole connection pads, and the first terminal 220 or the second terminal 230 at least two electric couplings extremely sub, all do not depart from the present invention for the first connection pad group 150A/ second connection pad group 150B and the first terminal 220/ second terminal 230 category on design concept.

In the present embodiment, pedestal 110 comprises first component 110A and two second component 110B, first component 110A has above-mentioned opening 112, two second component 110B detachably and be assembled to respectively adjustably on first component 110A, and the first connection pad group 150A is configured on one of them second component 110B, second connection pad group 150B is configured on another second component 110B, is oppositely arranged to make two second component 110B.Say further, each second component 110B has at least one reaming 110B1, and the bearing of trend of this at least one reaming 110B1 is parallel to the bearing of trend of the first terminal 220 and the bearing of trend of the second terminal 230.Moreover proving installation 100 also has multiple locking accessory 180, be each passed through those reamings 110B1 by those locking accessories 180 and lock first component 110A, to fix these two second component 110B respectively on first component 110A.Meanwhile, the relative distance also adjusted between these two second component 110B by reaming 110B1.In other words, namely the relative distance respectively between the first connection pad group 150A of position on second component 110B and the second connection pad group 150B can pass through any position locked on this at least one reaming 110B1 and adjust to some extent, to meet the size of tested power module 200.

In addition, pedestal 110 also has first barricade 114 and second barricade 116 of position on second component 110B, wherein the first barricade 114 erects between this of the first connection pad group 150A is to first electric coupling pole connection pad 150A1,150A2, with electrical isolation this to first electric coupling pole connection pad 150A1,150A2, and the second barricade 116 erects between this of the second connection pad group 150B is to second electric coupling pole connection pad 150B1,150B2, with electrical isolation this to second electric coupling pole connection pad 150B1,150B2.This measure can avoid the terminal be placed in same connection pad group to produce short circuit condition because electrically conducting.Except reaching the effect of above-mentioned electrical isolation, the architectural feature on second component 110B surface is protruded from by the first barricade 114, also user can be avoided by this of power module 200 to the extremely sub-222A of the first electric coupling, same first electric coupling pole connection pad 150A1 or 150A2(second barricade 116 of 222B misplace on pedestal 110 also can to the extremely sub-232A of the second electric coupling, 232B causes effect same, do not repeat them here), therefore by the isolation structure of the first barricade 114 and the second barricade 116, and effective fool proof effect can be produced when placing power module 200 to user.

Another need one are carried, and in the present embodiment, the extremely sub-distance W1 between 222A, 222B of the first electric coupling is different from the extremely sub-distance W2 between 232A, 232B of the second electric coupling, and the width W 3 of the first barricade 114 is different from the width W 4 of the second barricade 116.By the difference of said modules width, the first terminal 220, second terminal 230 that user is just filled power module 200 is positioned on the first corresponding connection pad group 150A and the second connection pad group 150B exactly.Say further, because the electrical condition of power supply input/output terminal is different, namely in power module 200 as the first terminal 220 of input end, it need meet safety and require to keep suitable safe distance because of high voltage, and as the second terminal 230 of output terminal, then usually make the close together between terminal, so cause distance W1 to be greater than the state of distance W2 because its output is low-voltage.Accordingly, simultaneously as the electric coupling pole connection pad of isolation and the extreme sub barrier wall structure of electric coupling, the width W 3 that therefore and accordingly its width is also designed to the first barricade 114 is greater than the width W 4 of the second barricade 116, and allow the width W 3 of the first barricade 114 be less than distance W1 between the extremely sub-150A of the first electric coupling, but be greater than the distance W2 between the extremely sub-150B of the second electric coupling.Thus, risk management can just be formed to avoid the direction of user's misplace power module 200 on apparent size.

Refer again to Fig. 2, after power module 200 is positioned over pedestal 110 and makes its first terminal 220, second terminal 230 contact with each other with the first corresponding connection pad group 150A, the second connection pad group 150B respectively, proving installation 100 also comprises the first press strip 160 and the second press strip 170, removably be assembled to pedestal 110 respectively to compress the first terminal 220 and the second terminal 230, so as to power module 200 being fixed on the second component 110B of pedestal 110.At this, pedestal 110 also has third and fourth magnet assembly (i.e. magnet assembly 118A and 118B) being arranged at second component 110B, and the first press strip 160 and the second press strip 170 all have magnetic conductivity, therefore the first press strip 160 and the second press strip 170 can be made to be fixed on pedestal 110 by magnetic attraction.Furthermore, first press strip 160 of the present embodiment has one first magnet assembly (i.e. magnet assembly 162), second press strip 170 has one second magnet assembly (i.e. magnet assembly 172), and magnet assembly 118A and 162 magnetic mutually, magnet assembly 118B and 172 is magnetic mutually, and the magnetic pole of magnet assembly 118A and 118B is opposite each other.Accordingly, by pole configuration and the rear effect produced of mutually matching of above-mentioned magnet assembly, first press strip 160 only can be suppressed in the first terminal 220 place, second press strip 170 only can be suppressed in the second terminal 230 place, once be misplaced, cannot will successfully be assembled to pedestal 110 because magnetic pole produces magnetic repulsion mutually on the contrary to make the press strip of mistake.

On the other hand, due to the existence of the first barricade 114 and the second barricade 116, therefore the first press strip 160 also has the first fluting 164, second press strip 170 also has the second fluting 174, when pressing on pedestal 110 respectively so as to allowing the first press strip 160 and the second press strip 170, first barricade 114 can slot 174 through second through first fluting the 164, second barricade 116.Moreover, the width W 5 of the first fluting 164 meets the width W 3 of the first barricade 114, and the width W 6 of the second fluting 174 meets the width W 4 of the second barricade 116, that is the present embodiment can change along with barricade 114,116 width by the width of fluting 164,174, reaches the fool proof effect avoiding press strip 160,170 to be misplaced equally.

In addition, first press strip 160 and the second press strip 170 have the 3rd respectively and slot 166,176, and pedestal 110 also has the multiple reference columns 111 of position on second component 110B, wear by reference column 111 and be placed in the 3rd corresponding fluting 166,176, can be positioned on pedestal 110 to make the first press strip 160 and the second press strip 170.Do not limit the structural shape of locating press strip 160,170 at this, any known location structure is all applicable to the present invention.

Refer again to Fig. 1, when power module 200 is configured at pedestal 110, and the first press strip 160 and the second press strip 170 are assembled to pedestal 110 respectively with after the power module 200 be fixed thereon, manipulate the relative motion between probe groups 120 and platform 130 by control module 140, so make multiple probes 122 of probe groups 120 can through press strip 160,170 and contact connection pad group 150A, the 150B(of position on pedestal 110 and be illustrated in Fig. 2).Specifically, first press strip 160 of the present embodiment and the second press strip 170 also have multiple perforate 168,178 respectively, and these perforate 168,178 orthogonal projection on pedestal 110 are located in the scope of the first connection pad group 150A and the second connection pad group 150B.Accordingly, control module 140 only needs to control the location of probe groups 120 relative to these perforates 168,178, just can guarantee when carrying out testing electrical property, probe 122 can be positioned at the scope of the first connection pad group 150A and the second connection pad group 150B, and locates exactly and have electrical contact to the first connection pad group 150A and the second connection pad group 150B.

In other words, the first connection pad group 150A now and the second connection pad group 150B can be considered the first terminal 220 of power module 200 and the extended structure of the second terminal 230, and (part that can touch with probe 122) is because the area of the first connection pad group 150A and the second connection pad group 150B is much larger than the area of the first terminal 220 and the second terminal 230, thus the enough spaces of probe 122 can be provided to locate and to contact to the first connection pad group 150A and the second connection pad group 150B, and make probe 122 need not especially for each terminal position of power module 200, therefore testing process can be simplified whereby and reduce the manufacturing cost of proving installation 100.

In sum, in the above embodiment of the present invention, by configuring the first connection pad group and the second connection pad group on pedestal, and make power module be placed in the first corresponding connection pad group and the second connection pad group with its terminal, thus make described first connection pad group be electrically connected with corresponding terminal with the second connection pad group, and the extended structure of terminal can be regarded as because of its larger area features.Accordingly, when control module is electrically connected to the terminal of power module accordingly for controlling probe, just the location between itself and terminal need not be controlled accurately, and only need to make probe fall within described first connection pad group and the second connection pad class range, the probe effect that be electrically connected corresponding to terminal can be completed.Thus, the test process of power module just effectively can simplify and reduce relevant cost of manufacture.

On the other hand, because power module only need be placed in corresponding connection pad group with its terminal, therefore pedestal need not arrange the structure in order to Positioning Power module.The external form of power module in the above-described embodiments, only provide electrical isolation and fool proof effect with barrier wall structure, and two of pedestal second components can adjust the spacing of two second components by reaming, so no matter why, all can be applicable to same group of pedestal.Accordingly, the step changing tool can be save in testing process and improve testing efficiency.

Although the present invention discloses as above with embodiment; so itself and be not used to limit the present invention; have in any art and usually know the knowledgeable; without departing from the spirit and scope of the present invention; when doing a little change and retouching, therefore protection scope of the present invention is when being as the criterion depending on the accompanying claim person of defining.

Claims (13)

1. a proving installation, in order to test at least one power module, this at least one power module has a body and the first terminal extended from this body subtend and one second terminal, and it is characterized in that, this proving installation comprises:

One pedestal, have one first connection pad group and one second connection pad group, this power module is configured at this pedestal, and makes this first terminal contact this first connection pad group, this second connection pad group of this second termination contact;

One probe groups, has multiple probe, and when testing this power module, the plurality of probe is in order to be electrically connected this first connection pad group and this second connection pad group;

Wherein this first connection pad group has at least two the first electric coupling pole connection pads, it is extremely sub that this first terminal has at least two the first electric couplings, respectively in order to these at least two the first electric coupling pole connection pads in electrical contact accordingly, this the second connection pad group has at least two the second electric coupling pole connection pads, it is extremely sub that this second terminal has at least two the second electric couplings, respectively in order to these at least two the second electric coupling pole connection pads in electrical contact accordingly.

2. proving installation according to claim 1, is characterized in that, when testing this power module, multiple probes of this probe groups are positioned at the scope of this first connection pad group and this second connection pad group.

3. proving installation according to claim 1, is characterized in that, this pedestal has an opening, and this first connection pad group and this second connection pad group position are in the relative both sides of this opening.

4. proving installation according to claim 1, it is characterized in that, this pedestal also has at least one first barricade, erect between these at least two the first electric coupling pole connection pads of this first connection pad group with electrical isolation these at least two the first electric coupling pole connection pads, this pedestal also has at least one second barricade, erects between these at least two the second electric coupling pole connection pads of this second connection pad group with electrical isolation these at least two the second electric coupling pole connection pads.

5. proving installation according to claim 4, is characterized in that, the width of this first barricade is different from the width of this second barricade, and the distance between these at least two the extreme sons of the first electric coupling is different from the distance between these at least two the extreme sons of the second electric coupling.

6. proving installation according to claim 5, it is characterized in that, the width of this first barricade is greater than the width of this second barricade, distance between these at least two the extreme sons of the first electric coupling is greater than the distance between these at least two the extreme sons of the second electric coupling, and the width of this first barricade is less than the distance between these at least two the extreme sons of the first electric coupling but is greater than the distance between these at least two the extreme sons of the second electric coupling.

7. proving installation according to claim 4, is characterized in that, this proving installation also comprises:

One first press strip, is removably assembled to this pedestal to compress this first terminal;

One second press strip, is removably assembled to this pedestal to compress this second terminal,

Wherein this pedestal also has at least one magnet assembly, in order to this first press strip of corresponding magnetic and/or this second press strip.

8. proving installation according to claim 7, it is characterized in that, this at least one magnet assembly comprises one first magnet assembly, one second magnet assembly, one the 3rd magnet assembly and one the 4th magnet assembly, this first press strip has this first magnet assembly, this second press strip has this second magnet assembly, this pedestal has the 3rd magnet assembly and the 4th magnet assembly, 3rd magnet assembly is in order to this first magnet assembly of magnetic, 4th magnet assembly is in order to this second magnet assembly of magnetic, and the magnetic pole of this first magnet assembly is in contrast to the magnetic pole of this second magnet assembly.

9. proving installation according to claim 7, it is characterized in that, this first press strip and this second press strip have multiple perforate respectively, those perforates orthogonal projection is on the base located in the scope of this first connection pad group and this second connection pad group, and the plurality of probe contacts this first connection pad group and this second connection pad group through those perforates.

10. proving installation according to claim 7, it is characterized in that, this first press strip also has one first fluting, and this second press strip also has one second fluting, and the width of this first fluting meets the width of this first barricade, the width of this second fluting meets the width of this second barricade.

11. proving installations according to claim 1, it is characterized in that, this pedestal comprises a first component and two second components, this first component has an opening, these two second components are configured in the relative both sides of this opening respectively, this the first connection pad assembly is placed in one of them of this two second components, this the second connection pad group configuration is at wherein another of these two second components, respectively this second component has at least one reaming, and this proving installation also comprises multiple locking accessory, those locking accessories are each passed through those reamings and lock this first component, so that these two second components are fixed on this first component, and adjust the relative distance between these two second components by this at least one reaming.

12. proving installations according to claim 11, is characterized in that, the bearing of trend of the bearing of trend of this first terminal and this second terminal is parallel to same axis, and the bearing of trend of respectively this at least one reaming is parallel to this axis.

13. proving installations according to claim 7, it is characterized in that, this first press strip and this second press strip have at least one 3rd fluting respectively, and this pedestal also has multiple reference column, be placed in this at least one 3rd fluting accordingly by those reference columns, and this first press strip and this second press strip are positioned on this pedestal respectively.