CN202093325U - Imaging box and imaging device - Google Patents
Imaging box and imaging device Download PDFInfo
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- CN202093325U CN202093325U CN 201120220840 CN201120220840U CN202093325U CN 202093325 U CN202093325 U CN 202093325U CN 201120220840 CN201120220840 CN 201120220840 CN 201120220840 U CN201120220840 U CN 201120220840U CN 202093325 U CN202093325 U CN 202093325U
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Abstract
The embodiment of the utility model discloses an imaging box and an imaging device, being applied to the technical field of imaging. The imaging box in the embodiment of the utility model comprises a light condensing part fixed to an imaging box chip or an imaging box body, wherein the light emitted by a light emitting part passes through the light condensing part, so that at least one light condensing part is added in the light transmitting direction to furthest condense the light originally scattered and not utilized; the light intensity loss of a light receiving part is less when the light reaches the light receiving part through the light condensing part, so that the light receiving part can sensitively sense the light, and the accuracy that the imaging device recognizes the imaging box is improved.
Description
Technical field
The utility model relates to technical field of imaging, particularly a kind of imaging box and imaging device.
Background technology
The imaging box (such as print cartridge) that is used for imaging all is installed on imaging device (such as printer) at present, after the imaging box need be installed in the ad-hoc location of imaging device, just can carries out normal imaging operation.In order to make the imaging box accurately to be installed on the imaging device; usually can adopt the method for light location; promptly on the imaging box, luminous component is installed; and light-receiving member is set in the corresponding position of imaging device; after light that luminous component on the imaging box sends is received by this light-receiving member, show that then this imaging box correctly is mounted in the imaging device.
Generally speaking, adopt in the imaging device of above-mentioned light localization method and have certain distance between the luminous component on the light-receiving member and imaging box, the light that luminous component sends is after the process transmission of this segment distance, the light intensity that arrives light-receiving member a little less than, make light-receiving member can not experience the existence of light delicately, finally cause imaging device successfully not identify the imaging box and report an error.
The utility model content
The utility model embodiment provides a kind of imaging box and imaging device, improves the accuracy of imaging device recognition imaging box.
The utility model embodiment provides a kind of imaging box, comprises imaging box chip, imaging box body and luminous component, and described imaging box chip is arranged on the imaging box body, comprising: at least one light converges parts;
Described luminous component and light converge parts and are fixedly installed in respectively on described imaging box chip or the imaging box body, and the light that described luminous component sent converges parts through described light.
The utility model embodiment provides a kind of imaging device, comprises imaging device and imaging box;
Described imaging box comprises imaging box chip, imaging box body and luminous component, and described imaging box chip is arranged on the imaging box body, comprising: at least one light converges parts;
Described luminous component and light converge parts and are fixedly installed in respectively on described imaging box chip or the imaging box body, and the light that described luminous component sent converges parts through described light;
Described imaging device is provided with light-receiving member, and the light that described luminous component sends converges parts and reaches described light-receiving member through described light.
Comprise in the imaging box of the utility model embodiment that the light that is fixed in imaging box chip or imaging box body converges parts, and the light that luminous component sends converges parts through light, converge parts by on the light transmission direction, increasing at least one light like this, can will scatter out originally to greatest extent and unemployed light converges, the intensity loss that arrives light-receiving member after light converges parts through light is less, make light-receiving member can experience the existence of light delicately, improved the accuracy of imaging device recognition imaging box.
Description of drawings
In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 is the structural representation of a kind of imaging box of providing of the utility model embodiment one;
Fig. 2 is the structural representation of a kind of imaging box of providing of the utility model embodiment two;
Fig. 3 is the structural representation of a kind of imaging box of providing of the utility model embodiment three;
Fig. 4 is the structural representation of a kind of imaging box of providing of the utility model embodiment four;
Fig. 5 is the structural representation of a kind of imaging box of providing of the utility model embodiment five;
Fig. 6 is the structural representation of a kind of imaging box of providing of the utility model embodiment six;
Fig. 7 is the structural representation of a kind of imaging box of providing of the utility model embodiment seven;
Fig. 8 is the structural representation of a kind of imaging device of providing of the utility model embodiment eight.
Embodiment
Below in conjunction with the accompanying drawing among the utility model embodiment, the technical scheme among the utility model embodiment is clearly and completely described, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the utility model protection.
The utility model embodiment one provides a kind of imaging box, structural representation as shown in Figure 1, comprise: imaging box body 10, imaging box chip 11 and luminous component 12, imaging box chip 11 are arranged on the imaging box body 10, and the imaging box comprises that also at least one light converges parts 13 in the present embodiment.Wherein:
Luminous component 12 and light converge parts 13 and are fixedly installed in respectively on imaging box chip 11 or the imaging box body 10, and the light that luminous component 12 is sent converges parts 13 through light; Be fixedly installed on the imaging box chip 11 with luminous component 12 among Fig. 1, and light converges parts 13 and is fixedly installed on the imaging box body 10 by fixed part 130 and describes for example.
Be appreciated that, the imaging box of present embodiment is when being installed to imaging device, imaging device adopts the method for light location to judge whether the imaging box correctly is mounted in the imaging device, then is provided with light-receiving member in imaging device, and particularly in the imaging box:
Imaging box body 10 can comprise ink container cavity, ink outlet port and the parts of installing with the imaging box such as support, is the structure that ink is provided for imaging operation; And imaging box chip 11 is the relevant informations that are used for being stored as picture box or imaging device, such as information such as consumptive material surplus information, imaging box model, sequence number and dates of manufacture, can communicate with imaging device.Generally speaking, fixed installation texture ratio of imaging box chip 12 such as draw-in groove etc. are all arranged on imaging box body 10.
And luminous component 12 is the parts with light emission effect, and promptly light source is to have the parts that light converges effect and light converges parts 13, such as convex lens, concave mirror or leaded light post etc.And the light that luminous component 12 described here is sent converges parts 13 and is meant that light converges parts 13 on the light transmission direction through light, such as can be in the transmission starting point of light, and/or in the light transmission path, and/or the light transmission destination county etc.And the imaging box of the utility model embodiment can comprise that one or more light converge parts 13.
Need to prove that shown in Figure 1 is a kind of position relation that constitutes each building block of imaging box, and do not indicate the shape of each building block.
As seen, comprise in the imaging box of the utility model embodiment that the light that is fixed in imaging box chip 11 or imaging box body 10 converges parts 13, and the light that luminous component 12 sends converges parts 13 through light, converge parts 13 by on the light transmission direction, increasing at least one light like this, can will scatter out originally to greatest extent and unemployed light converges, the intensity loss that arrives light-receiving member after light converges parts 13 through light is less, make light-receiving member can experience the existence of light delicately, improved the accuracy of imaging device recognition imaging box.
With reference to shown in Figure 2, in a specific embodiment two, the imaging box comprises: ink container cavity 21, ink outlet port 22, supporting member 23, imaging box chip 24, concave mirror 25 and luminous component 26, and the light-receiving member 27 among Fig. 2 is arranged on the imaging device, is in order to be illustrated more clearly in the structure of imaging box.
Wherein, ink outlet port 22, ink container cavity 21 and supporting member 23 all belong to the imaging box body, and ink container cavity 21 is used for adorning ink; And ink outlet port 22 is positioned at the bottom of ink container cavity 21, is the outlet that ink is provided when carrying out imaging operation for imaging device; Supporting member 23 is positioned at a side of ink container cavity 21, is in order to make the imaging box securely be installed in the structure on the imaging device.
To converge parts be the side that concave mirror 25 is fixedly mounted on ink container cavity 21 respectively for imaging box chip 24 and light in the present embodiment, luminous component 26 is installed on the imaging box chip 24 by fixed part, and the luminous component in the present embodiment 26 is positioned at the cambered surface inboard of concave mirror 25, preferably at the focus place of concave mirror 25.
When if luminous component 26 is positioned at the focus place of concave mirror 25, because concave mirror is the parabolic minute surface of focus before mirror, when light source on focus, the light that is sent forms parallel beam after the reflection of concave mirror, then the light that the luminous component 26 in concave mirror 25 cambered surface inboards sends in this enforcement will pool directional light after reflection, shown in arrow among Fig. 2, can converge luminous component 26 so to greatest extent is all light that light source sends, thereby the loss of intensity when reducing light transmission, thereby improved the accuracy of imaging device recognition imaging box.
With reference to shown in Figure 3, in a specific embodiment three, the imaging box comprises: ink container cavity 31, ink outlet port 32, supporting member 33, imaging box chip 34, luminous component 35 and convex lens 36, and the light-receiving member 37 among Fig. 3 is arranged on the imaging device, is in order to be illustrated more clearly in the structure of imaging box.
Wherein, the position relation object between ink outlet port 31, ink container cavity 32, supporting member 33 and the imaging box chip 34 is similar to the position relation among the embodiment shown in Figure 2, does not give unnecessary details at this.Luminous component 35 is fixed on the imaging box chip 34 in the present embodiment, and it is that convex lens 36 are fixed in supporting member 33 by fixed part 361 that light converges parts, and luminous component 35 is positioned at the focus place of convex lens 36 1 sides.
Because convex lens are refractors that both sides all have focus, when light source on focus, form parallel beam after the refraction of the light planoconvex lens that is sent, and converge at the focus place of convex lens after the refraction of directional light planoconvex lens.Then the light that the luminous component 35 at convex lens 36 1 side focus places sends in this enforcement will pool directional light after refraction, shown in arrow among Fig. 3, can to greatest extent the light in the light transmission path be converged by convex lens 36 like this, thereby the loss of strength when reducing light transmission, thereby improved the accuracy of imaging device recognition imaging box.
Be appreciated that, can place a plurality of light on the radiation direction that luminous component sends in the imaging box and converge parts, so further reduce the loss of intensity in the light transmission process, for example, with reference among the embodiment four shown in Figure 4, the imaging box comprises: ink container cavity 41, ink outlet port 42, supporting member 43, imaging box chip 44, concave mirror 45, luminous component 46 and convex lens 47, wherein:
In the present embodiment, luminous component 46 is installed on the imaging box chip 44 by fixed part, and is positioned at the focus place of concave mirror 45, and then the light that sends of luminous component 46 forms directional light after the reflection of concave mirror 45; And convex lens 47 are installed on the supporting member 43 by fixed part 471, and through the light process convex lens 47 that concave mirror 45 reflects to form, promptly can converge at the focus place of these convex lens 47 after the refraction of convex lens 47 of directional light process.In this case, the light-receiving member 48 of imaging device can be installed in the focus place of these convex lens 47, and the light intensity of Jie Shouing is stronger like this.Imaging box among this embodiment comprises that first light converges parts and second light converges parts, is concave mirror 45 and first light converges parts, is convex lens 47 and second light converges parts.
With reference to shown in Figure 5, in a specific embodiment five, the imaging box comprises: ink container cavity 51, ink outlet port 52, imaging box chip 53, luminous component 54, the supporting member 55 that has leaded light post 551 and convex lens 56, and the light-receiving member 57 among Fig. 5 is arranged on the imaging device, is in order to be illustrated more clearly in the structure of imaging box.
In the present embodiment, have on the supporting member 55 can transmission ray leaded light post 551, and be fixed in a side of ink container cavity 51, imaging box chip 53 is fixed on this supporting member 55, luminous component 54 is fixed on the imaging box chip 53.Wherein leaded light post 551 is used for guiding light transmission, it can be a through hole on the supporting member 55, and luminous component 53 is positioned at an end of leaded light post 551 is through hole one end, and convex lens 56 are positioned at the other end of leaded light post 551 is the through hole other end, and these convex lens are fixedly mounted on this supporting member 55.
Form parallel rays after the guiding transmission of light that luminous component 53 sends like this, after convex lens 56 refractions of this parallel rays through leaded light post 551 other ends, light can be converged at the focus place of these convex lens 56 by leaded light post 551.In this case, the light-receiving member 57 of imaging device can be installed in the focus place of these convex lens 56, and the light intensity of Jie Shouing is stronger like this.
Imaging box among this embodiment comprises that first light converges parts and second light converges parts, and first light converges parts is leaded light post 551, and second light converges parts is convex lens 56, and luminous component 54 is positioned at the end that first light converges parts, and second light converges parts and is positioned at the other end that first light converges parts.
And in other optional embodiments, second light converges parts can also be concave mirror, and what light-receiving member 57 received at this moment is that second light converges the reflection ray that parts are concave mirror; Second light converges parts can also be another leaded light post etc.And it can also be two or three combinations arbitrarily in leaded light post, concave mirror and the convex lens that second light converges parts.
Need to prove, in order further to reduce the light intensity loss, can around luminous component 54, fix a concave mirror (in Fig. 5, not drawing), luminous component 54 is placed on the cambered surface inboard of this concave mirror, focus place such as concave mirror, and make and the light at light source place can be converged effectively like this through an end of the optical registration leaded light post 551 of concave mirror reflection.
Said luminous component 53 converges an end of parts at first light in the foregoing description, can be meant the luminous component 53 and first light converge parts mutually near or the next-door neighbour, also can be that certain distance is arranged between the two; And second light converges parts and converges the other end of parts at first light, can be meant second light converge parts and first light converge parts mutually near or the next-door neighbour, also can be that certain distance is arranged between the two.
With reference to shown in Figure 6, in a specific embodiment six, the imaging box comprises: ink container cavity 61, ink outlet port 62, reflection part 63, imaging box chip 64, luminous component 65, supporting member 66 and convex lens 67, and the light-receiving member 68 among Fig. 6 is arranged on the imaging device, is in order to be illustrated more clearly in the structure of imaging box.Wherein reflection part 63 mainly is direct reflection device or total reflection prism, is different with the concave mirror of mentioning in the file, and concave mirror has the function that light converges.
In the present embodiment, imaging box chip 64 is fixed on the supporting member 66 and promptly is fixed on the imaging box body, and luminous component 65 is fixed on the imaging box chip 66; Reflection part 63 is fixed on the ink container cavity 61, and its reflecting surface is aimed at luminous component 65, through the light process convex lens 67 of reflection part 63 reflections; And these convex lens 67 are fixed on the supporting member 66.The light that sends of luminous component 65 is after the reflection of reflection part like this, through converging at the focus place of these convex lens 67 behind the convex lens 67, in this case, the light-receiving member 68 of imaging device can be installed in the focus place of these convex lens 67, and the light intensity of Jie Shouing is stronger like this.
Need to prove, in order further to reduce the light intensity loss, can around luminous component 65, fix a concave mirror (in Fig. 6, not drawing), particularly, luminous component 65 is placed on the cambered surface inboard of this concave mirror, such as the focus place of concave mirror, and make and the light at light source place can be converged effectively like this through the reflecting surface of the optical registration reflection part 63 of concave mirror reflection.
With reference to shown in Figure 7, in a specific embodiment seven, the imaging box comprises: ink container cavity 71, ink outlet port 72, imaging box chip 73, first concave mirror 74, luminous component 75, the transparent supporting member 76 and second concave mirror 77, and the light-receiving member 78 among Fig. 7 is arranged on the imaging device, is in order to be illustrated more clearly in the structure of imaging box.
In the imaging box of present embodiment, first concave mirror 74 is fixed on imaging box chip 73, and luminous component 75 is installed on the imaging box chip 73 by fixed part, and is positioned at the cambered surface inboard of first concave mirror 74, such as the focus place of first concave mirror 74.And supporting member 76 is transparent, can penetrate light, is fixed on a side of ink container cavity 71, and second concave mirror 77 is fixed on the top of supporting member 76, and the reflection ray of first concave mirror 74 is through second concave mirror 77.
When the focus place of luminous component 75 at first concave mirror 74, the light that focus place luminous component 75 sends can be converged by first concave mirror 74 like this, the reflection back forms parallel beam, arrive second concave mirror 77 when parallel beam passes transparent supporting member 76, after the reflection of second concave mirror 77, reach light-receiving member 78.The imaging box of present embodiment can converge the light at light source place effectively, and the imaging box of the first five embodiment is compared with it, adopts imaging box as shown in Figure 7 can shorten light transmission path, has reduced intensity loss further.
Imaging box among this embodiment comprises that first light converges parts and second light converges parts, and first light converges parts is first concave mirror 74, and second light converges parts is second concave mirror 77, and luminous component 75 is positioned at the cambered surface inboard that first light converges parts, and the reflection ray that first light converges parts converges parts through second light; Be appreciated that second light converges parts and can also be leaded light post etc.And it can also be two or three combinations arbitrarily in leaded light post, concave mirror and the convex lens that second light converges parts.
Need to prove, in other optional embodiments, the structure of imaging box as shown in Figure 1, comprising light converge parts and have two, promptly first light converges parts and second light converges parts, and first light converges parts is convex lens, and second light converges parts can comprise concave mirror and/or convex lens and/or leaded light post etc. at least.At this moment luminous component is positioned at the focus place that first light converges parts, converges parts and first light converges the refracted ray of parts through second light.
The utility model embodiment also provides a kind of imaging device, comprises imaging box and imaging device, and wherein the imaging box can not given unnecessary details at this as the imaging box of Fig. 1 to 7 shown in any; And the imaging device is provided with light-receiving member, this receiving-member is to be used for receiving the light that the imaging box sends, the light that sends of the luminous component of imaging box converges parts and reaches this light-receiving member through light in the present embodiment, and can judge whether the imaging box correctly is installed on the imaging device by imaging device.
And in a concrete imaging device embodiment eight, with reference to shown in Figure 8, imaging device comprises: imaging box and imaging device, and wherein, the imaging box comprises: ink container cavity 81, ink outlet port 82, supporting member 83, imaging box chip 84, first concave mirror 85, luminous component 86; And imaging device is provided with light-receiving member 88, and the light that is fixed on the light-receiving member 88 converges i.e. second concave mirror 87 of parts.Whole imaging device that do not draw among Fig. 8, and only the draw light-receiving member 88 and second concave mirror 87.
And the luminous component in the imaging box 86 is fixed on the imaging box chip 84, and be positioned at the cambered surface inboard of first concave mirror 85, focus place such as first concave mirror 85, the reflection ray of this first concave mirror 85 is through second concave mirror 87, light-receiving member 88 is positioned at the cambered surface inboard of this second concave mirror 87, such as the focus place of second concave mirror 87.Get second concave mirror 87 by win at the light source place concave mirror 85 and light-receiving place like this, can be to greatest extent the light at light source and light-receiving place be converged, thereby the loss of strength when reducing light transmission, thereby improved the accuracy of imaging device recognition imaging box.
More than imaging box and imaging device that the utility model embodiment is provided, be described in detail, used specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment just is used for helping to understand method of the present utility model and core concept thereof; Simultaneously, for one of ordinary skill in the art, according to thought of the present utility model, the part that all can change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.
Claims (9)
1. an imaging box comprises imaging box chip, imaging box body and luminous component, and described imaging box chip is arranged on the imaging box body, it is characterized in that, comprising: at least one light converges parts;
Described luminous component and light converge parts and are fixedly installed in respectively on described imaging box chip or the imaging box body, and the light that described luminous component sent converges parts through described light.
2. imaging box as claimed in claim 1 is characterized in that, it is concave mirror or convex lens that described light converges parts.
3. imaging box as claimed in claim 2 is characterized in that, is concave mirrors if described light converges parts, and described luminous component is positioned at described concave mirror cambered surface inboard; If it is convex lens that described light converges parts, described luminous component is positioned at the focus place of described convex lens.
4. imaging box as claimed in claim 1, it is characterized in that, described imaging box comprises that first light converges parts and second light converges parts, and it is the leaded light post that described first light converges parts, and described second light converges parts and comprises concave mirror and/or convex lens and/or leaded light post at least;
Described luminous component is positioned at the end that described first light converges parts, and described second light converges parts and is positioned at the other end that described first light converges parts.
5. imaging box as claimed in claim 1 is characterized in that, described imaging box comprises that first light converges parts and second light converges parts, and it is concave mirror that described first light converges parts, and described second light converges parts and comprises concave mirror and/or leaded light post at least;
Described luminous component is positioned at the cambered surface inboard that described first light converges parts, and the reflection ray that described first light converges parts converges parts through described second light.
6. imaging box as claimed in claim 1 is characterized in that, described light converges parts and comprises convex lens and concave mirror, and described luminous component is positioned at the focus place of described concave mirror, and the reflection ray of described concave mirror is through described convex lens.
7. imaging box as claimed in claim 1, it is characterized in that, described imaging box comprises that first light converges parts and second light converges parts, and it is convex lens that described first light converges parts, and described second light converges parts and comprises concave mirror and/or convex lens and/or leaded light post at least;
Described luminous component is positioned at the focus place that described first light converges parts, and the refracted ray that described first light converges parts converges parts through described second light.
8. an imaging device is characterized in that, comprises imaging device and imaging box;
Each described imaging box of described imaging box such as claim 1 to 7; Described imaging device is provided with light-receiving member, and the light that described luminous component sends converges parts and reaches described light-receiving member through described light.
9. imaging device as claimed in claim 8 is characterized in that, is fixing another concave mirror on the light-receiving member that is provided with on the described imaging device, and is positioned at the cambered surface inboard of described another concave mirror.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201120220840 CN202093325U (en) | 2011-06-27 | 2011-06-27 | Imaging box and imaging device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201120220840 CN202093325U (en) | 2011-06-27 | 2011-06-27 | Imaging box and imaging device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN202093325U true CN202093325U (en) | 2011-12-28 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201120220840 Expired - Lifetime CN202093325U (en) | 2011-06-27 | 2011-06-27 | Imaging box and imaging device |
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| CN (1) | CN202093325U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102253635A (en) * | 2011-06-27 | 2011-11-23 | 珠海艾派克微电子有限公司 | Imaging box and imaging equipment |
| CN103786441A (en) * | 2012-10-26 | 2014-05-14 | 珠海艾派克微电子有限公司 | Ink box light emission control method and unit, and circuit board, ink box and imaging device |
| US9834003B2 (en) | 2012-10-26 | 2017-12-05 | Zhuhai Ninestar Management Co., Ltd. | Method for controlling light emission of ink cartridge and control unit, circuit board, ink cartridge, and imaging device |
-
2011
- 2011-06-27 CN CN 201120220840 patent/CN202093325U/en not_active Expired - Lifetime
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102253635A (en) * | 2011-06-27 | 2011-11-23 | 珠海艾派克微电子有限公司 | Imaging box and imaging equipment |
| CN103786441A (en) * | 2012-10-26 | 2014-05-14 | 珠海艾派克微电子有限公司 | Ink box light emission control method and unit, and circuit board, ink box and imaging device |
| CN103786441B (en) * | 2012-10-26 | 2015-08-19 | 珠海艾派克微电子有限公司 | The light-emitting control method of print cartridge and unit, circuit board, print cartridge and imaging device |
| US9834003B2 (en) | 2012-10-26 | 2017-12-05 | Zhuhai Ninestar Management Co., Ltd. | Method for controlling light emission of ink cartridge and control unit, circuit board, ink cartridge, and imaging device |
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Granted publication date: 20111228 |