CN2575769Y - Multifunction antiexplosive calling device - Google Patents

Abstract

The utility model relates to an assembly for adjusting the height of a sliding track and is suitable for adjusting the height of a sliding track positioned in a platform scanner. The utility model is matched and arranged between the bottom wall of a casing of the platform scanner and a sliding track so as to adjust the height of the sliding track correspondingly to the casing.

Description

Slide rail height control assembly

Technical field

The utility model relates to a kind of slide rail height control assembly, and particularly relevant for a kind of slide rail height control assembly, it can be applicable to adjust its height with respect to the diapire of casing of slide rail of platform-type scanner.

Background technology

Significantly progressive along with computer performance in recent years, add the high development of Internet and multimedia technology, except utilizing digital camera (Digital Camera, DC) come outside the direct pick-up image pattern, the image input operation of other relevant any files or picture, all need to see through optical scanner (Optical Scanner) or image fetch device and capture analogy image on file or the picture, and convert digital signal to and exported, so help the user on computer or other relevant electronic products, carry out the demonstration of digitized video archives, identification (OCR), editor, operations such as storage and output.

If distinguish rough hand held scanner, paper feed type scanning device (Sheet Feed scanner), drum-type scanner (DrumScanner) and the platform-type scanner (Flatbed Scanner) or the like of being divided into of optical scanner according to the input mode of document image.It should be noted that, because platform-type scanner has comparatively stable image scan quality, and can have the multi-functional of scanning reflection original text or transmission original text (egative film, transparency etc.) concurrently, thereby make platform-type scanner become one of present modal optical scanner.

Please also refer to Figure 1A, Figure 1B, it is the schematic top plan view and the front-view schematic diagram of existing a kind of platform-type scanner in regular turn.The top of the casing of platform-type scanner 10 (housing) 12 all is equipped with a printing opacity flat board 14, is the flat board of material with glass (glass) or clear plastic (plastic) for example, in order to place a file to be scanned (not illustrating).In addition, platform-type scanner 10 is to utilize one group of driving mechanism 40 of being made up of elements such as belt 42, belt pulley 44 and step motor 46; Drive the clamp structure 24 of optical storage device module 20, and then drive optical storage device module 20.In addition, platform-type scanner 10 also utilizes one group of linear guide mechanism 30 that is made up of elements such as mandrel rod 32 and axle sleeves 34, come a side of linear guide optical storage device module 20, wherein mandrel rod 32 is mobile routes of corresponding optical storage device module 20, and being equipped on the inside of casing 12, axle sleeve 34 then is shaped on the optical storage device module 20 usually.

Please more equally with reference to Figure 1A, Figure 1B, more stable when scanning in order to ensure optical storage device module 20, except utilizing linear guide mechanism 30 to come stable optical to scan the side of module 20, also a pulley 26 is hubbed at the bottom of another side of optical storage device module 20, and at the mobile route of optical storage device module 20, and set a slide rail 16 on the diapire of casing 12, make another side of optical storage device module 20 also can stably move.Yet, in order to reduce manufacturing cost, the existing practice normally directly designs the diapire that is shaped in casing 12 with slide rail 16, therefore, when the height of optical storage device module 20 in case change, or when changing the optical storage device module 20 of differing heights, then must redesign casing 12, make the height of the slide rail 16 on the diapire of casing 12 can meet the height of optical storage device module 20, so will increase the manufacturing cost of platform-type scanner 20.

The utility model content

Supervise in this, the purpose of this utility model is to provide a kind of slide rail height control assembly, be applicable between the diapire and slide rail of the casing that is provided in a platform-type scanner, optical storage device module in order to corresponding differing heights, and adjust its height of slide rail with respect to the diapire of casing, make the casing and the slide rail of same group of design all can be common to a plurality of optical storage device modules with differing heights.

Based on above-mentioned purpose of the present utility model, the utility model proposes a kind of slide rail height control assembly, be applicable to a platform-type scanner, wherein this platform-type scanner has a casing and an optical storage device module, and the optical storage device module is to move back and forth in the inside of casing, and casing has a slide rail, and slide rail is a side that can carry this optical storage device module.This slide rail height control assembly has at least one setting element, at least one adjustment element and a plurality of Connection Element.Wherein setting element is the bottom that is equipped on this slide rail, and has a plurality of pilot holes.In addition, adjusting element is the mobile route of corresponding optical storage device module, and is equipped on the diapire of casing, and the adjustment element has a plurality of the first access and a plurality of second adjustment hole at least.In addition, Connection Element is can be via to the small part pilot hole, and optionally adjusts the hole via these the first access and these second, and connects setting element and adjust element.

Based on above-mentioned purpose of the present utility model, the utility model proposes a kind of slide rail height control assembly again, be applicable to a platform-type scanner, wherein platform-type scanner has a casing and an optical storage device module, and the optical storage device module is to move back and forth in the inside of casing, and this casing has a slide rail, but its bearing optical scans a side of module.This slide rail height control assembly has at least one setting element and at least one adjustment element, wherein setting element is the bottom that is equipped on this slide rail, and have one the location flange, adjust the mobile route of the then corresponding optical storage device module of element, and be equipped on the diapire of casing, and have a plurality of adjustment grooves, it is on the moving direction perpendicular to the optical storage device module, be distributed in regular turn and adjust on the element, wherein one of these adjustment grooves is correspondence to be embedded in locating flange.

Wherein this setting element is the bottom that can be shaped in this slide rail.

Wherein this adjustment element is the diapire that can be shaped in this casing.

Wherein those Connection Elements are to be unidirectional trip.

A kind of slide rail height control of the utility model assembly, be applicable to a platform-type scanner, wherein this platform-type scanner has a casing and an optical storage device module, and this optical storage device module is to move back and forth in the inside of this casing, and this casing has a slide rail, and this slide rail can carry a side of this optical storage device module, it is characterized in that, this slide rail height control assembly comprises at least: at least one setting element, to mobile route that should the optical storage device module, and be equipped on the diapire of this casing, and have a plurality of pilot holes; At least one adjustment element is equipped on the bottom of this slide rail, and has a plurality of the first access and a plurality of second adjustment hole at least; And a plurality of Connection Elements, can be via to those pilot holes of small part, and optionally adjust the hole via those the first access and those second, and connect this setting element and this adjustment element.

Wherein this setting element is the diapire that can be shaped in this casing.

Wherein this adjustment element is the bottom that can be shaped in this slide rail.

Wherein those Connection Elements are to be unidirectional trip.

A kind of slide rail height control of the utility model assembly, be applicable to a platform-type scanner, wherein this platform-type scanner has a casing and an optical storage device module, and this optical storage device module is to move back and forth in the inside of this casing, and this casing has a slide rail, and this slide rail can carry a side of this optical storage device module, it is characterized in that, this slide rail height control assembly comprises at least: at least one setting element is equipped on the bottom of this slide rail, and has a location flange; And at least one adjustment element, to mobile route that should the optical storage device module, and be equipped on the diapire of this casing, and have a plurality of adjustment grooves, it is on the moving direction perpendicular to this optical storage device module, be distributed in regular turn on this adjustment element, wherein one of these adjustment grooves are correspondence to be embedded in this locating flange.

Wherein this setting element is the bottom that can be shaped in this slide rail.

Wherein this adjustment element is the diapire that can be shaped in this casing.

A kind of slide rail height control of the utility model assembly, be applicable to a platform-type scanner, wherein this platform-type scanner has a casing and an optical storage device module, and this optical storage device module is to move back and forth in the inside of this casing, and this casing has a slide rail, and this slide rail can carry a side of this optical storage device module, it is characterized in that, this slide rail height control assembly comprises at least: at least one setting element, to mobile route that should the optical storage device module, and be equipped on the diapire of this casing, and has a location flange; And at least one adjustment element, be equipped on the bottom of this slide rail, and have a plurality of adjustment grooves, it is perpendicular to the moving direction of this side of this optical storage device module, and be distributed in regular turn on this adjustment element, wherein one of these adjustment grooves are correspondence to be embedded in this locating flange.

Description of drawings

For above-mentioned purpose of the present utility model, feature and advantage can be become apparent, two embodiment cited below particularly, and conjunction with figs. are described in detail below, wherein:

Figure 1A is the schematic top plan view of existing a kind of platform-type scanner;

Figure 1B is the front-view schematic diagram of existing a kind of platform-type scanner;

Fig. 2 A is the partial structurtes stereographic map of the slide rail height control assembly of first embodiment of the present utility model;

Fig. 2 B is respectively the diagrammatic cross-section of the slide rail height control assembly of first embodiment of the present utility model;

Fig. 2 C is the slide rail height control assembly of first embodiment of the present utility model, and it adjusts the diagrammatic cross-section of slide rail to the first height;

Fig. 2 D is the slide rail height control assembly of first embodiment of the present utility model, and it adjusts the diagrammatic cross-section of slide rail to the second height;

Fig. 3 A is the partial structurtes stereographic map of the slide rail height control assembly of second embodiment of the present utility model;

Fig. 3 B is respectively the diagrammatic cross-section of the slide rail height control assembly of second embodiment of the present utility model;

Fig. 3 C is the slide rail height control assembly of second embodiment of the present utility model, and it adjusts the diagrammatic cross-section of slide rail to the first height;

Fig. 3 D is the slide rail height control assembly of second embodiment of the present utility model, and it adjusts the diagrammatic cross-section of slide rail to the second height.

Embodiment

Please also refer to Fig. 2 A, Fig. 2 B, it is respectively the partial structurtes stereographic map and the diagrammatic cross-section of the slide rail height control assembly of first embodiment of the present utility model.Slide rail height control assembly 100 is to be equipped between the slide rail 16 and casing 12 of Figure 1B, in order in the relative distance of adjusting on the graphic Z-direction between slide rail 16 and the casing 12.Slide rail height control assembly 100 mainly includes setting element 110, adjusts element 120 and Connection Element 130.Wherein, setting element 110 is the bottoms that are equipped on slide rail 16, and has a plurality of pilot holes 112, and the axis direction of these pilot holes 112 is the rough graphic X-directions that are parallel to.In addition, adjusting element 120 is mobile routes of correspondence optical storage device module 20 shown in Figure 1, and be equipped on the diapire of casing 12, that is the bearing of trend of adjusting element 120 is the rough graphic Y direction that is parallel to, at least have a plurality of the first access 122 and a plurality of second adjustment hole 124 and adjust element 120, for Z-direction, the first access 122 and second is adjusted hole 124 and is positioned at different positions respectively.In addition, 130 of Connection Elements are to be used for connecting setting element 110 and adjusting element 120 via part pilot hole 112 and the first access 122, or decide to connect setting element 110 and adjust element 120 via the part pilot hole 112 and the second adjustment hole 124, wherein Connection Element 130 for example is unidirectional trip.

Please refer to Fig. 2 A, Fig. 2 B, Fig. 2 C, Fig. 2 D, wherein Fig. 2 C is the slide rail height control assembly of first embodiment of the present utility model, it adjusts the diagrammatic cross-section of slide rail to the first height, and Fig. 2 D is the slide rail height control assembly of first embodiment of the present utility model, and it adjusts the diagrammatic cross-section of slide rail to the second height.At first, shown in Fig. 2 A, Fig. 2 B, Fig. 2 C, when slide rail 16 need be adjusted to height d1 shown in Fig. 2 C with respect to the height of the diapire of casing 12, the part pilot hole 112 of setting element 110 can be corresponded to these the first access 122 respectively, and utilize a plurality of Connection Elements 130 respectively via these pilot holes 112 and these the first access 122, and connect setting element 110 and adjust element 120, thereby slide rail 16 is positioned height d1.In addition, shown in Fig. 2 A, Fig. 2 B, Fig. 2 D, when slide rail 16 need be adjusted to height d2 shown in Fig. 2 D with respect to the height of the diapire of casing 12, the part pilot hole 112 of setting element 110 can be corresponded to these second adjustment holes 124 respectively, and utilize and produce a Connection Element 130 respectively via these pilot holes 112 and these second adjustment holes 124, and connect setting element 110 and adjust element 120, thereby slide rail 16 is positioned height d2.Therefore, Connection Element 130 is can be via to small part pilot hole 112, and optionally via these the first access 122 and these second adjustment holes 124, and connect setting element 110 and adjust element 120, in order to adjust slide rail 16 its height with respect to the diapire of casing 12.

Refer again to Fig. 2 A, slide rail height control assembly 100 is to utilize one group of the first access 122 and another group second adjustment hole 124 of adjusting element 120, and slide rail 16 is adjusted to two kinds of different height, in order to make slide rail height control assembly 100 slide rail 16 can be adjusted to other different height, different height that can corresponding slide rail 16, and form one or more groups adjustment hole (not illustrating) in addition on the element 120 adjusting.In addition, with regard to the consideration on the manufacturing cost, setting element 110 is the bottoms that can directly be shaped in slide rail 16, and the material of slide rail 16 and setting element 110 for example is metal or plastic cement.Similarly, with regard to the consideration on the manufacturing cost, adjust the diapire that element 120 also can directly be shaped in casing 12.

Refer again to Fig. 2 A, because between the position of setting element 110 and adjustment element 120 is to be relativeness, but not absolute relation, so the position of setting element 110 and adjustment element 120 can exchange mutually, make setting element 110 also can be equipped on the diapire of casing 12, adjust the bottom that element 120 then can be equipped on slide rail 16.It should be noted that because after setting element 110 and the position of adjusting element 120 exchanged mutually, much more no longer institute was still identical in order to the principle of adjusting height between the two for it, so to give unnecessary details in this.

The slide rail height control assembly of first embodiment of the present utility model is to set between the diapire and slide rail of the casing of platform-type scanner, it mainly is the cooperation that utilizes between the Kong Yukong, and located with the Connection Element of unidirectional trip etc., in order to adjust its height of slide rail, make the height of slide rail can meet the optical storage device module of differing heights with respect to the diapire of casing.Second embodiment

Please also refer to Fig. 3 A, Fig. 3 B, it is respectively the partial structurtes stereographic map and the diagrammatic cross-section of the slide rail height control assembly of second embodiment of the present utility model.Slide rail height control assembly 200 is to be equipped between the slide rail 16 and casing 12 of Figure 1B, in order in the relative distance of adjusting on the graphic Z-direction between slide rail 16 and the casing 12.Slide rail height control assembly 200 mainly includes a setting element 210 and and adjusts element 220.Wherein, setting element 210 is the bottoms that are equipped on slide rail 16, and has a location flange 212.In addition, adjusting element 220 is mobile routes of correspondence optical storage device module 20 shown in Figure 1, and be equipped on the diapire of casing 12, that is the bearing of trend of adjusting element 220 is the rough graphic Y direction that is parallel to, have a plurality of adjustment grooves 222 and adjust element 220, it is on the moving direction perpendicular to optical storage device module 20 shown in Figure 1, be distributed in regular turn to adjust on the element 220, and these to adjust one of grooves 222 be the locating flange 212 that can corresponding be embedded in setting element 210.

Please refer to Fig. 3 A, Fig. 3 B, Fig. 3 C, Fig. 3 D, wherein Fig. 3 C is the slide rail height control assembly of second embodiment of the present utility model, it adjusts the diagrammatic cross-section of slide rail to the first height, and Fig. 3 D is the slide rail height control assembly of second embodiment of the present utility model, and it adjusts the diagrammatic cross-section of slide rail to the second height.At first, shown in Fig. 3 A, Fig. 3 B, Fig. 3 C, when slide rail 16 need be led the height d1 that is adjusted to shown in Fig. 3 C with respect to the height of the diapire of casing 12, can make that the locating flange 212 of setting element 210 is corresponding chimeric to the adjustment groove 222a that adjusts element 220, thereby slide rail 16 is positioned height d1.In addition, shown in Fig. 3 A, Fig. 3 B, Fig. 3 D, when slide rail 16 need be adjusted to height d2 shown in Fig. 3 D with respect to the height of the diapire of casing 12, can make that the locating flange 212 of setting element 210 is corresponding chimeric to the adjustment groove 222b that adjusts element 220, thereby with slide rail 16 be positioned the height d2, if need to adjust again the height that reduces slide rail 16, can make that locating flange 212 is corresponding chimeric to lower adjustment groove 222c or 222d.Therefore, these adjust one of groove 222 is correspondence to be embedded in locating flange 212, in order to adjust slide rail 16 its height with respect to the diapire of casing 12.

Refer again to Fig. 3 A, slide rail height control assembly 200 is to utilize locating flange 212 correspondences of setting element 210 to be embedded in one of these adjustment grooves 222 of adjusting element 220, and slide rail 16 is adjusted to different height.In addition, with regard to the consideration on the manufacturing cost, setting element 210 is the bottoms that can directly be shaped in slide rail 16, and the material of slide rail 16 and setting element 210 for example is metal or plastic cement.Similarly, with regard to the consideration on the manufacturing cost, adjust the diapire that element 220 also can directly be shaped in casing 12.

Refer again to Fig. 3 A, because between the position of setting element 210 and adjustment element 220 is to be relativeness, but not absolute relation, so the position of setting element 210 and adjustment element 220 can exchange mutually, make setting element 210 also can be equipped on the diapire of casing 12, adjust the bottom that element 220 then can be equipped on slide rail 16.It should be noted that because after setting element 210 and the position of adjusting element 220 exchanged mutually, much more no longer institute was still identical in order to the principle of adjusting height between the two for it, so to give unnecessary details in this.

The slide rail height control assembly of second embodiment of the present utility model is to set between the diapire and slide rail of the casing of platform-type scanner, mainly be to utilize locating flange and adjust cooperating between the groove, in order to adjust its height of slide rail, make the height of slide rail can meet the optical storage device module of differing heights with respect to the diapire of casing.

In sum, slide rail height control assembly of the present utility model is can be in order to its height with respect to the diapire of casing of slide rail of adjusting platform-type scanner, make the casing and the slide rail of same group of design all can be common to a plurality of level optical storage device modules that differ that have, and need not be at the optical storage device module of differing heights, organize casing and slide rail and redesign another, so can reduce the expense of the design and the die sinking of casing, and then reduce the manufacturing cost of platform-type scanner.

Though the utility model discloses as above with two preferred embodiments; right its is not in order to limit the utility model; anyly be familiar with this skill person; in not breaking away from spirit and scope of the present utility model; when doing a little change and retouching, therefore protection domain of the present utility model is as the criterion when looking accompanying the claim person of defining.

Claims (12)

1. slide rail height control assembly, be applicable to a platform-type scanner, wherein this platform-type scanner has a casing and an optical storage device module, and this optical storage device module is to move back and forth in the interior cooperation of this casing, and this casing has a slide rail, and this slide rail can carry a side of this optical storage device module, it is characterized in that, this slide rail height control assembly comprises at least:

At least one setting element is equipped on the bottom of this slide rail, and has a plurality of pilot holes;

At least one adjustment element to mobile route that should the optical storage device module, and is equipped on the diapire of this casing, and has a plurality of the first access and a plurality of second at least and adjust the hole; And

A plurality of Connection Elements can be via to those pilot holes of small part, and optionally adjust the hole via those the first access and those second, and connect this setting element and this adjustment element.

2. slide rail height control assembly as claimed in claim 1 is characterized in that wherein this setting element is the bottom that can be shaped in this slide rail.

3. slide rail height control assembly as claimed in claim 1 is characterized in that wherein this adjustment element is the diapire that can be shaped in this casing.

4. slide rail height control assembly as claimed in claim 1 is characterized in that, wherein those Connection Elements are to be unidirectional trip.

5. slide rail height control assembly, be applicable to a platform-type scanner, wherein this platform-type scanner has a casing and an optical storage device module, and this optical storage device module is to move back and forth in the inside of this casing, and this casing has a slide rail, and this slide rail can carry a side of this optical storage device module, it is characterized in that, this slide rail height control assembly comprises at least:

At least one setting element to mobile route that should the optical storage device module, and is equipped on the diapire of this casing, and has a plurality of pilot holes;

At least one adjustment element is equipped on the bottom of this slide rail, and has a plurality of the first access and a plurality of second adjustment hole at least; And

A plurality of Connection Elements can be via to those pilot holes of small part, and optionally adjust the hole via those the first access and those second, and connect this setting element and this adjustment element.

6. slide rail height control assembly as claimed in claim 5 is characterized in that wherein this setting element is the diapire that can be shaped in this casing.

7. slide rail height control assembly as claimed in claim 5 is characterized in that wherein this adjustment element is the bottom that can be shaped in this slide rail.

8. slide rail height control assembly as claimed in claim 5 is characterized in that, wherein those Connection Elements are to be unidirectional trip.

9. slide rail height control assembly, be applicable to a platform-type scanner, wherein this platform-type scanner has a casing and an optical storage device module, and this optical storage device module is to move back and forth in the inside of this casing, and this casing has a slide rail, and this slide rail can carry a side of this optical storage device module, it is characterized in that, this slide rail height control assembly comprises at least:

At least one setting element is equipped on the bottom of this slide rail, and has a location flange; And

At least one adjustment element, to mobile route that should the optical storage device module, and be equipped on the diapire of this casing, and have a plurality of adjustment grooves, it is on the moving direction perpendicular to this optical storage device module, be distributed in regular turn on this adjustment element, wherein one of these adjustment grooves are correspondence to be embedded in this locating flange.

10. slide rail height control assembly as claimed in claim 9 is characterized in that wherein this setting element is the bottom that can be shaped in this slide rail.

11. slide rail height control assembly as claimed in claim 9 is characterized in that wherein this adjustment element is the diapire that can be shaped in this casing.

12. slide rail height control assembly, be applicable to a platform-type scanner, wherein this platform-type scanner has a casing and an optical storage device module, and this optical storage device module is to move back and forth in the inside of this casing, and this casing has a slide rail, and this slide rail can carry a side of this optical storage device module, it is characterized in that, this slide rail height control assembly comprises at least:

At least one setting element to mobile route that should the optical storage device module, and is equipped on the diapire of this casing, and has a location flange; And

At least one adjustment element, be equipped on the bottom of this slide rail, and have a plurality of adjustment grooves, it is perpendicular to the moving direction of this side of this optical storage device module, and be distributed in regular turn on this adjustment element, wherein one of these adjustment grooves are correspondence to be embedded in this locating flange.

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