CN205209991U - Mark device and installation device for material is distinguishd - Google Patents

Abstract

The utility model relates to a mark device and installation device for material is distinguishd. This calibration device can place in order to receive the ray that comes from this check -out set when moving through this check -out set in the check -out set to carrying out the material to this check -out set and distinguising the demarcation, this calibration device includes the demarcation piece, and it can be attenuateed through the ray that passes through the transmission and carry out material resolution demarcation, the installing component, it has at least a set of installation department, and each is organized installation department and injects a demarcation installation gesture, and wherein this installing component is installed through this installation department by detachably to this demarcation piece, thereby works as calibration device is placed carry out the material in the check -out set and distinguish the timing signal, mark not direct contact of piece the check -out set bear the surface and become certain angle for bearing the surface. According to the utility model discloses a calibration device equipment simple, be convenient for installation and transportation to can provide the demand of a plurality of demarcation positions in order to adapt to different check -out sets.

Description

The caliberating device differentiated for material and erecting device

Technical field

The utility model relates to material and differentiates demarcation, and particularly the material in safety inspection field is differentiated and demarcated.Particularly, the utility model differentiates to carry out material the caliberating device and erecting device thereof demarcated in particular to utilizing dual-energy x-ray.

Background technology

Calibration element is made up of multiple typical material usually, and the calibration element of often kind of material has multiple different-thickness (generally more than 10 thickness).Such as, the material disclosing calibration element in patent CN102053096B comprises organic glass, duralumin and mild carbon steel, and the total length of this calibration element to be the thickness of calibrating block in 400mm and calibration element continuous.The material disclosing calibration element in patent CN101614683B comprises graphite, aluminium, iron and lead.

In order to obtain more, more fully performance index, needing to adopt different stepped test bodies to different demarcation materials, namely needing to demarcate design of material by often kind and becoming from being thinned to thick some ladders, as shown in patent CN101614683B.But, the waste of handling of goods and materials and service time can be caused like this.

In addition, when generating material and differentiating look-up table, need to carry out Multiple-Scan to the calibration element of multiple different materials, cause the multiple different thickness of the calibration element needs of often kind of material thus, this just causes the volume of calibration element comparatively large, also can make troubles to carrying.

Usually, timing signal is being carried out to checkout facility, need above-mentioned calibration element to be placed in checkout facility to receive the dual-energy x-ray from this checkout facility when running through this checkout facility, and need to carry out Multiple-Scan to this calibration element, thus material resolution demarcation is carried out to this checkout facility.

But above-mentioned calibration element can only provide a kind of calibration position (that is, the setting height(from bottom) of calibration element or angle are fixed), namely can only be used in the checkout facility of certain specific model.In other words, for other checkout facility with different calibration position, need to reinstall calibration element.This just causes the significant wastage of manpower and materials.

Utility model content

Therefore, the purpose of this utility model be to provide a kind of assemble simple, be convenient to install and transport and the caliberating device of multiple demarcation attitude can be provided.

According to an aspect of the present utility model, propose a kind of caliberating device differentiated for material, this caliberating device can be placed in checkout facility to receive the ray from this checkout facility when running through this checkout facility, thus material resolution demarcation is carried out to this checkout facility, this caliberating device comprises: calibration element, and it can carry out material resolution demarcation by carrying out decay to the ray be transmitted through; Installing component, it fixes this calibration element for installing, this installing component has at least one group of installation portion, each group installation portion limits a kind of calibration element Installation posture, wherein this calibration element is releasably attached to this installing component by this installation portion, thus carry out material differentiate timing signal when this caliberating device is placed in this checkout facility, this calibration element directly can not contact the load-bearing surface of this checkout facility and angled relative to load-bearing surface.

According to preferably embodiment of the present utility model, this installing component has two groups or more installation portion, limits different various calibration part Installation postures respectively.Because there is multiple Installation posture according to caliberating device of the present utility model, so this caliberating device can be used in the checkout facility of differing heights or different model.

According to preferably embodiment of the present utility model, this two groups or more installation portion is set to when this caliberating device is placed in this checkout facility, and this two groups or more installation portion has height different from each other and/or angle relative to load-bearing surface.Therefore, according to caliberating device of the present utility model, can provide different calibration position, such as calibrated altitude and demarcation angle, can make demarcation demand maximize like this.

According to preferably embodiment of the present utility model, this installing component comprises the first bearing part and the second bearing part, and the two ends of this calibration element are respectively installed to this first bearing part and this second bearing part.

According to preferably embodiment of the present utility model, this installation portion is through hole, and this calibration element is installed to this installing component by this through hole.

According to preferably embodiment of the present utility model, this caliberating device also comprises adjustment member, height during for regulating this caliberating device to be placed on the load-bearing surface of this checkout facility and/or angle, adapts to different checkout facilities to make it.Therefore, according to caliberating device of the present utility model, can calibrated altitude be regulated further by this adjustment member and/or demarcate angle, thus meet demarcation demand.

According to preferably embodiment of the present utility model, when this caliberating device is placed in this checkout facility, this adjustment member is arranged between this installing component and load-bearing surface of this checkout facility.

According to preferably embodiment of the present utility model, this adjustment member is removable, and is detachably connected to this installing component.

According to preferably embodiment of the present utility model, this caliberating device also comprises support component, and it is for fixing and supporting this calibration element, wherein, when this calibration element is fixed to this support component, this support component is releasably attached to this installing component by this installation portion.

According to preferably embodiment of the present utility model, this calibration element is combined by discrete multiple calibrating block.

According to another aspect of the present utility model, propose a kind of erecting device of the calibration element for material resolution, this erecting device comprises installing component, it is for installing fixing calibration element, this installing component has at least one group of installation portion, each group installation portion limits a kind of calibration element Installation posture, wherein this calibration element is releasably attached to this installing component by this installation portion, thus when this erecting device is placed on checkout facility, this calibration element directly can not contact the load-bearing surface of this checkout facility and angled relative to load-bearing surface.

According to preferably embodiment of the present utility model, this installing component has two groups or more installation portion, is respectively used to limit different various calibration part Installation postures.Because define multiple calibration element Installation posture according to erecting device of the present utility model, so calibration element installed by the checkout facility that this erecting device can be differing heights or different model.

According to preferably embodiment of the present utility model, this two groups or more installation portion is set to when this erecting device is placed in this checkout facility, and this two groups or more installation portion has height different from each other and/or angle relative to the load-bearing surface of this checkout facility.

According to preferably embodiment of the present utility model, this erecting device also comprises adjustment member, height during for regulating this erecting device to be placed on the load-bearing surface of this checkout facility and/or angle.Therefore, according to erecting device of the present utility model, calibration element can be regulated further relative to the height of the load-bearing surface of checkout facility and/or angle.

According to preferably embodiment of the present utility model, when this erecting device is placed in this checkout facility, this adjustment member is arranged between this installing component and load-bearing surface of this checkout facility.

According to preferably embodiment of the present utility model, this adjustment member is removable, and is detachably connected to this installing component.

Therefore, according to caliberating device of the present utility model, assembling is simple, convenient transportation, and can provide multiple calibration position, and the checkout facility of differing heights or different model can be made thus to use this caliberating device.According to erecting device of the present utility model, calibration element can be placed on the differing heights relative to the load-bearing surface of checkout facility or different angles place, this calibration element therefore can be made to be applicable in different checkout facilities.

Accompanying drawing explanation

Fig. 1 shows the schematic perspective view of the caliberating device according to embodiment of the present utility model.

Fig. 2 shows the cut-open view of the caliberating device according to embodiment of the present utility model.

Fig. 3 shows front view according to the first bearing part of installing component of the present utility model and side view thereof.

Fig. 4 shows a kind of embodiment according to calibration element of the present utility model.

Fig. 5 shows the schematic perspective view of the caliberating device according to embodiment of the present utility model.

Fig. 6 shows the cut-open view according to erecting device of the present utility model.

Embodiment

Below, will describe by reference to the accompanying drawings according to the embodiment differentiating the caliberating device demarcated for material of the present utility model.

Next, 1 to accompanying drawing 3 describes the caliberating device 100 according to some embodiment of the present utility model by reference to the accompanying drawings.

Fig. 1 and Fig. 2 respectively illustrates schematic perspective view according to the caliberating device 100 of embodiment of the present utility model and cut-open view.This caliberating device 100 can be placed on checkout facility (this checkout facility not shown, only schematically show the loading end 701 of this checkout facility, wherein loading end is for carrying the surface of caliberating device in checkout facility) in receive from the ray of this checkout facility when running through this checkout facility, thus material is carried out to this checkout facility differentiate and demarcate.Preferably, can applying X-ray checkout facility, particularly dual-energy x-ray checkout facility according to caliberating device of the present utility model.

Caliberating device 100 comprises calibration element 10 and for installing the installing component 20 fixing this calibration element 10.This calibration element 10 can carry out material resolution demarcation by carrying out decay to the ray be transmitted through.Such as, carry out material when utilizing caliberating device 100 pairs of dual-energy x-ray checkout facilities and differentiate timing signal, the dual-energy x-ray from this checkout facility can incide and be transmitted through calibration element 10.Afterwards, the dual-energy x-ray of decaying through calibration element 10 can be utilized to demarcate checkout facility.

This installing component 20 has at least one group of installation portion, each group installation portion limits a kind of calibration element Installation posture, wherein calibration element 10 is releasably attached to installing component 20 by this installation portion, thus when caliberating device 100 is placed in checkout facility, calibration element 10 does not directly contact the load-bearing surface of this checkout facility and angled relative to this load-bearing surface.Because caliberating device 100 has multiple Installation posture, calibration element 10 in different height and/or angle be installed to installing component 20, so this caliberating device 100 can be used in the checkout facility with differing heights or different model.

Preferably, installing component 20 has two groups or more installation portion, limits different calibration element Installation postures respectively.Preferably, in order to meet the demarcation demand of calibration element 10, this two groups or more installation portion is set to when caliberating device 100 is placed in checkout facility, and this two groups or more installation portion has height different from each other and/or angle relative to the load-bearing surface 701 of checkout facility.

Preferably, as depicted in figs. 1 and 2, installing component 20 comprises the first bearing part 21 and the second bearing part 22, and the two ends of calibration element 10 are respectively installed to the first bearing part 21 and described second bearing part 22.But installing component is not limited to only include and is limited to this two bearing parts.Such as, if the calibration element that installing component will be installed is long or overweight, then the bearing part of more than three or three is needed to carry out this calibration element of dispensing support.Such as, when installing component comprises three bearing parts, the first bearing part and the second bearing part support the two ends of this calibration element respectively, and the 3rd bearing part is placed on the roughly centre position of this calibration element, to make this calibration element stressed equably.In addition, only calibration element can also be supported with a bearing part.

Preferably, installation portion is illustrated as through hole.Fig. 3 shows the view of the bearing part 21 according to installing component 20 of the present utility model.Referring to figs. 1 to Fig. 3, the first bearing part 21 and the second bearing part 22 have three groups of through holes respectively, i.e. three groups of installation portions.Particularly, the first loading plate 21 is provided with first group of through hole 211 and 211 ', second group of through hole 212 and 212 ' and the 3rd group of through hole 213 and 213 '.Second loading plate 22 is provided with first group of through hole 221 and 221 ', second group of through hole 222 and 222 ' and the 3rd group of through hole 223 and 223 '.Wherein, distance between first group of through hole 211 and 211 ' is substantially equal to the distance between first group of through hole 221 and 221 ', distance between second group of through hole 212 and 212 ' is substantially equal to the distance between second group of through hole 222 and 222 ', and the distance between the 3rd group of through hole 213 and 213 ' is substantially equal to the distance between the 3rd group of through hole 223 and 223 '.Preferably, the distance between Distance geometry the 3rd group of through hole between the distance between first group of through hole 211 and 211 ', second group of through hole 212 and 212 ' 213 and 213 ' is roughly equal.Preferably, the distance between Distance geometry the 3rd group of through hole between the distance between first group of through hole 221 and 221 ', second group of through hole 222 and 222 ' 223 and 223 ' is roughly equal.

First group of through hole 211 of the first loading plate 21 and 211 ' and second first group of through hole 221 and 221 ' of loading plate 22 jointly form first group of installation portion.Second group of through hole 212 of the first loading plate 21 and 212 ' and second second group of through hole 222 and 222 ' of loading plate 22 jointly form second group of installation portion.The 3rd group of through hole 213 of the first loading plate 21 and 213 ' and second the 3rd group of through hole 223 and 223 ' of loading plate 22 jointly form the 3rd group of installation portion.

First group, second group and the 3rd group of installation portion respectively define three kinds of different calibration element Installation postures.Installation posture comprises such as setting height(from bottom) and setting angle.Such as, composition graphs 1 and Fig. 3, with the loading end 701 of checkout facility for benchmark, first group of installation portion is θ 1 relative to the angle (i.e. first group of through hole 211 and the line of centres of 211 ' and the angle of loading end 701) of this loading end 701, second group of installation portion (i.e. second group of through hole 212 and the line of centres of 212 ' and the angle of loading end 701) is θ 2 relative to the angle of this loading end 701, and the 3rd group of installation portion is θ 3 relative to the angle (i.e. the 3rd group of through hole 213 and the line of centres of 213 ' and the angle of loading end 701) of this loading end 701.And for example, with the loading end 701 of checkout facility for benchmark, first group of installation portion is to the ultimate range of loading end 701, and namely the through hole 211 of first group of installation portion is h1 to the distance of loading end 701; Second group of installation portion is to the ultimate range of loading end 701, and namely the through hole 212 of second group of installation portion is h2 to the distance of loading end 701; 3rd group of installation portion is to the ultimate range of loading end 701, and namely the through hole 213 of the 3rd group of installation portion is h3 to the distance of loading end 701.

When calibration element 10 is in the first Installation posture, calibration element 10 is installed to installing component 20 by first group of installation portion, namely one end of calibration element 10 is installed to first group of through hole 211 and 211 ' of the first loading plate 21, and the other end is then installed to first group of through hole 221 and 221 ' of the second loading plate 22.When calibration element 10 is in the second Installation posture, calibration element 10 is installed to installing component 20 by second group of installation portion, namely one end of calibration element 10 is installed to second group of through hole 212 and 212 ' of the first loading plate 21, and the other end is then installed to second group of through hole 222 and 222 ' of the second loading plate 22.When calibration element 10 is in the third Installation posture, calibration element 10 is installed to installing component 20 by the 3rd group of installation portion, namely one end of calibration element 10 is installed to the 3rd group of through hole 213 and 213 ' of the first loading plate 21, and the other end is then installed to the 3rd group of through hole 223 and 223 ' of the second loading plate 22.

As can be seen here, according to the caliberating device 100 of an embodiment of the present utility model, provide three kinds of different calibration element Installation postures.But according to actual needs, this caliberating device also can provide and be less than three kinds or Installation posture more than three kinds, to maximize demarcation demand further.

(support component)

Preferably, as depicted in figs. 1 and 2, caliberating device 100 can also comprise support component 30, it is for fixing and supporting calibration element 10, wherein, when calibration element 10 be fixed to this support component 30, this support component 30 is releasably attached to this installing component 20 by installation portion.Preferably, when calibration element 10 is placed on support component 30, this calibration element 10 is still formed with certain distance apart from the two ends of support component 30, now, need, by first group of installation portion, second group of installation portion or the 3rd group of installation portion, the two ends of support component 30 are respectively installed to the first bearing part 21 and the second bearing part 22, the calibration element 10 be placed on support component 30 is fixed to installing component 20.

In addition, as shown in Figure 1, calibration element 10 is in the first Installation posture.Particularly, the two ends being placed with the support component 30 of calibration element 10 are each passed through first group of through hole 211 and 211 ' and the second first group of through hole 221 and 221 ' of loading plate 22 of the first loading plate 21, to be fixed to installing component 20.Preferably, by securing member (such as pad and bolt), the two ends of support component 30 can be respectively fixed to the first loading plate 21 and the second loading plate 22.Securing member can adopt various forms well known to those skilled in the art, does not therefore repeat at this.

In addition, as described above, due to the first bearing part 21 first group of through hole 211 and 211 ' between distance, distance between first group of through hole 221 of the distance between Distance geometry the 3rd group of through hole between second group of through hole 212 and 212 ' 213 and 213 ' and the second bearing part 22 and 221 ', distance between Distance geometry the 3rd group of through hole between second group of through hole 222 and 222 ' 223 and 223 ' is roughly equal, therefore, even if when the two ends of calibration element 10 or support component 30 are fixed to three kinds of different Installation postures of installing component 20, also can be fixed with same set of securing member.

(calibration element)

Preferably, multiple discrete calibrating block is comprised according to calibration element 10 of the present utility model, such as two or more calibrating block.This calibration element is formed by multiple different demarcation material, such as two kinds, three kinds or more kind demarcation material.Such as, demarcate material and comprise the materials such as organism, aluminium and iron.Preferably, the organism for demarcating material can comprise tygon, ABS plastic, organic glass etc.

Below, be described with reference to the embodiment of Fig. 4 to calibration element 10.Fig. 4 shows a kind of embodiment according to calibration element 10 of the present utility model.In this embodiment, as shown in Figure 4, the first calibration element 10 comprises ten calibrating block, and these ten calibrating block are formed by stacking by the maximum two kinds of demarcation materials selected from ABS plastic, aluminium and iron three kinds of materials.In addition, the equivalent atom ordinal number of these ten calibrating block is respectively 5.4,8.9,9.7,11,13,16.6,18.2,21,26 and 26.In the first calibration element 10, according to equivalent atom ordinal number order from low to high, the ABS plastic that first calibrating block 10a is 40mm by thickness is made, second calibrating block 10b is formed by stacking by the aluminium of thickness to be the ABS plastic of 60mm and thickness be 8mm, 3rd calibrating block 10c is formed by stacking by the aluminium of thickness to be the ABS plastic of 40mm and thickness be 8mm, 4th calibrating block 10d is formed by stacking by the aluminium of thickness to be the ABS plastic of 20mm and thickness be 8mm, the aluminium that 5th calibrating block 10e is 8mm by thickness is made, 6th calibrating block 10f is formed by stacking by the iron of thickness to be the ABS plastic of 60mm and thickness be 2mm, 7th calibrating block 10g is formed by stacking by the iron of thickness to be the ABS plastic of 40mm and thickness be 2mm, 8th calibrating block 10h is formed by stacking by the iron of thickness to be the ABS plastic of 20mm and thickness be 2mm, the iron that 9th calibrating block 10i is 2mm by thickness is made, the iron that tenth calibrating block 10j is 10mm by thickness is made.For the second calibrating block 10b, thickness is the ABS plastic of 60mm can be an integral blocks, also can be formed by stacking by several ABS plastic block, and such as, Fig. 2 shows its ABS plastic block being 10mm by six thickness and is formed by stacking.

In addition, although the calibration element 10 according to embodiment of the present utility model is made up of multiple discrete calibrating block, but when mounted, in order to make the assembling of calibration element 10 more simple, the part in two or more calibrating block adjacent one another are also can use identical material block.Such as, as shown in Figure 2, thickness is the component part that the aluminium block 10 ' of 8mm can become the second calibrating block 10b, the 3rd calibrating block 10c, the 4th calibrating block 10d and the 5th calibrating block 10e simultaneously.Thickness is the iron block 10 of 2mm " component part of the 6th calibrating block 10f, the 7th calibrating block 10g, the 8th calibrating block 10h and the 9th calibrating block 10i can be become simultaneously.

In addition, as shown in Figure 2, this support component 30 is provided with at least one mounting hole 31 (there is shown four), and is provided with the through hole 11 corresponding to the mounting hole 31 in support component 30 in calibration element 20.When calibration element 20 is fixed to support component 30 by needs, insert in through hole 11 and corresponding mounting hole 31 thereof, with fixing calibration element 20 by making bolt.

Although illustrated four mounting holes in Fig. 2 in support component 30, more less than these three mounting holes or more mounting hole also can be set as required, to realize calibration element to be installed to support component.

Fig. 5 shows the schematic perspective view of the caliberating device 200 according to some embodiment of the present utility model.Aforesaid caliberating device 100 is roughly similar with caliberating device 200, and difference is that caliberating device 200 also comprises adjustment member 40.In the process describing the present embodiment, the identical Reference numeral of the parts identical with previous embodiment represents.

(adjustment member)

Height when adjustment member 40 is for regulating caliberating device 200 to be placed on the load-bearing surface 701 of checkout facility (not shown) and/or angle, adapt to different checkout facilities to make this caliberating device 200.

Therefore, according to caliberating device 200 of the present utility model, can its calibrated altitude be regulated by this adjustment member 40 and/or demarcate angle, to meet the demarcation demand of different checkout facility further.

As shown in Figure 5, when caliberating device 200 is placed in checkout facility, this adjustment member 40 is arranged between the installing component 20 of caliberating device 200 and the load-bearing surface 701 of checkout facility.

Preferably, caliberating device 200 is provided with many group adjustment members 40.When this caliberating device is applied in different checkout facilities, can the adjustment member 40 being detachably connected to this installing component 20 be changed, to regulate the height of caliberating device 200 in different checkout facility and/or angle.But according to the utility model, it will be understood by those skilled in the art that and other adjustment structure can also be adopted to regulate height and/or the angle of calibration element.

(erecting device)

Fig. 6 schematically shows the cut-open view according to erecting device 300 of the present utility model.Erecting device 300 comprises installing component 320, it is (not shown for installing fixing mounted member, such as calibration element), this installing component 320 has at least one group of installation portion 321 and 321 ', and each group installation portion limits a kind of mounted member Installation posture.This mounted member is releasably attached to this installing component 320 by this installation portion 321 and 321 ', thus when erecting device 300 is placed on load bearing equipment (such as aforementioned checkout facility) (this load bearing equipment not shown, only schematically show the loading end 801 of this load bearing equipment) time, this mounted member directly can not contact the load-bearing surface 801 of this load bearing equipment and angled relative to this load-bearing surface 801.

Preferably, this installing component 320 has two groups or more installation portion, limits different multiple mounted member Installation postures respectively, and erecting device 300 can be that the load bearing equipment of differing heights or different model installs mounted member thus.As shown in Figure 6, installation portion 321 and 321 ' is illustrated as through hole.

Preferably, this two groups or more installation portion is set to when this erecting device 300 is placed in load bearing equipment, and this two groups or more installation portion has height different from each other and/or angle relative to the load-bearing surface 801 of this load bearing equipment.With reference to Fig. 3, the installation portion of erecting device 300 is similar to caliberating device 100 installation portion relative to the height of load-bearing surface 801 and angle is relative to the height of load-bearing surface 701 and angle.

This erecting device 300 also has the support component 330 for fixing mounted member.Support component 330 is provided with multiple mounting hole (there is shown four mounting holes 331), and mounted member is fixed on support component 330 via these mounting holes 331.

Preferably, this erecting device also comprises adjustment member 340, height when being placed on the load-bearing surface 801 of this load bearing equipment for regulating erecting device 300 and/or angle.Thus, erecting device 300 can regulate mounted member relative to the height of the load-bearing surface 801 of load bearing equipment and/or angle further.

Preferably, when erecting device 300 is placed in load bearing equipment, this adjustment member 340 is arranged between the load-bearing surface 801 of this installing component 320 and this load bearing equipment, as shown in Figure 6.

Preferably, erecting device 300 is provided with many group adjustment members 340.When this erecting device is placed in different load bearing equipments, the adjustment member 340 being detachably connected to installing component 320 can be changed, be arranged on height in different bearer equipment of mounted member in erecting device 300 and/or angle to regulate.

As previously mentioned, although describe some exemplary embodiments with reference to accompanying drawing for caliberating device of the present utility model, the utility model is not limited to these concrete embodiments, and can have other embodiments various.

In the aforementioned embodiment, illustrate only three kinds of Installation postures of calibration element.But in order to the demand making this caliberating device meet more checkout facilities, this calibration element can arrange more or less Installation posture, namely this calibration element can be adjusted to and have more height and/or more angle.

In the aforementioned embodiment, calibration element three kinds of Installation postures relative to checkout facility load-bearing surface at an angle.But according to demarcation demand, calibration element also can be placed as the different Installation postures with the load-bearing surface being parallel or perpendicular to checkout facility.

In the aforementioned embodiment, installation portion is illustrated as through hole.But according to user demand, this installation portion can also be other installation form any that calibration element maybe can be fixed to installing component by groove, boss.

As previously mentioned, although be illustrated exemplary embodiment of the present utility model with reference to accompanying drawing in illustrating, the utility model is not limited to above-mentioned embodiment, and scope of the present utility model should be limited by claims and equivalents thereof.

Claims (16)

1. the caliberating device differentiated for material, described caliberating device can be placed in checkout facility to receive the ray from described checkout facility when running through described checkout facility, thus material resolution demarcation is carried out to described checkout facility, described caliberating device comprises:

Calibration element, it can carry out material resolution demarcation by carrying out decay to the ray be transmitted through;

Installing component, it is for installing fixing described calibration element, described installing component has at least one group of installation portion, each group installation portion limits a kind of calibration element Installation posture, wherein said calibration element is releasably attached to described installing component by described installation portion, thus carry out material differentiate timing signal when described caliberating device is placed in described checkout facility, described calibration element directly can not contact the load-bearing surface of described checkout facility and angled relative to described load-bearing surface.

2. caliberating device according to claim 1, wherein,

Described installing component has two groups or more installation portion, limits different various calibration part Installation postures respectively.

3. caliberating device according to claim 2, wherein,

Two groups or more installation portion described is set to when described caliberating device is placed in described checkout facility, and two groups or more installation portion described has height different from each other and/or angle relative to load-bearing surface.

4. caliberating device according to any one of claim 1 to 3, wherein,

Described installing component comprises the first bearing part and the second bearing part, and the two ends of described calibration element are respectively installed to described first bearing part and described second bearing part.

5. caliberating device according to any one of claim 1 to 3, wherein

Described installation portion is through hole.

6. caliberating device according to claim 1, also comprises:

Adjustment member, height during for regulating described caliberating device to be placed on the load-bearing surface of described checkout facility and/or angle, adapt to different checkout facilities to make it.

7. caliberating device according to claim 6, wherein,

When described caliberating device is placed in described checkout facility, described adjustment member is arranged between the load-bearing surface of described installing component and described checkout facility.

8. caliberating device according to claim 6, wherein,

Described adjustment member is removable, and is detachably connected to described installing component.

9. caliberating device according to claim 1, also comprises:

Support component, it is for fixing and supporting described calibration element,

Wherein, when described calibration element is fixed to described support component, described support component is releasably attached to described installing component by described installation portion.

10. caliberating device according to claim 1, wherein,

Described calibration element is combined by discrete multiple calibrating block.

The erecting device of 11. 1 kinds of calibration elements differentiated for material, described erecting device comprises:

Installing component, it is for installing fixing calibration element, described installing component has at least one group of installation portion, each group installation portion limits a kind of calibration element Installation posture, wherein said calibration element is releasably attached to described installing component by described installation portion, thus when described erecting device is placed on checkout facility, described calibration element directly can not contact the load-bearing surface of described checkout facility and angled relative to described load-bearing surface.

12. erecting devices according to claim 11, wherein,

Described installing component has two groups or more installation portion, is respectively used to limit different various calibration part Installation postures.

13. erecting devices according to claim 12, wherein,

Two groups or more installation portion described is set to when described erecting device is placed in described checkout facility, and two groups or more installation portion described has height different from each other and/or angle relative to the load-bearing surface of described checkout facility.

14. erecting devices according to claim 11, also comprise:

Adjustment member, height during for regulating described erecting device to be placed on the load-bearing surface of described checkout facility and/or angle.

15. erecting devices according to claim 14, wherein,

When described erecting device is placed in described checkout facility, described adjustment member is arranged between the load-bearing surface of described installing component and described checkout facility.

16. erecting devices according to claim 14, wherein,

Described adjustment member is removable, and is detachably connected to described installing component.