CN104908437A - Printing device, printing material container, chip and electrical connection structure of printing device and printing material container - Google Patents

Printing device, printing material container, chip and electrical connection structure of printing device and printing material container Download PDF

Info

Publication number
CN104908437A
CN104908437A CN201510265122.8A CN201510265122A CN104908437A CN 104908437 A CN104908437 A CN 104908437A CN 201510265122 A CN201510265122 A CN 201510265122A CN 104908437 A CN104908437 A CN 104908437A
Authority
CN
China
Prior art keywords
contact
circuit board
printing device
chip
printed material
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201510265122.8A
Other languages
Chinese (zh)
Other versions
CN104908437B (en
Inventor
王志萍
罗珊
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hangzhou Chipjet Technology Co Ltd
Original Assignee
Hangzhou Chipjet Technology Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hangzhou Chipjet Technology Co Ltd filed Critical Hangzhou Chipjet Technology Co Ltd
Priority to CN201510265122.8A priority Critical patent/CN104908437B/en
Publication of CN104908437A publication Critical patent/CN104908437A/en
Application granted granted Critical
Publication of CN104908437B publication Critical patent/CN104908437B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Landscapes

  • Coupling Device And Connection With Printed Circuit (AREA)

Abstract

The invention relates to the technical field of printing, and particularly relates to a printing device, a printing material container, a chip and an electrical connection structure of the printing device and the printing material container. The invention is implemented through the technical scheme that the chip installed in the printing material container comprises a circuit board and a plurality of contact elements which are arranged on the circuit board and used for being electrically contacted with the printing device. The contact elements are arranged on the circuit board and protrude on the circuit board in flake-shaped mode. The bare area of each contact element in the direction which is vertical with the surface of the circuit board is greater than the sum of the area of the contact element facing to a wall where the surface of the circuit board is located and the area of the contact element backing against the wall where the surface of the circuit board is located. The contact element is provided with a contact portion used for being electrically contacted with the printing device in the longitudinal direction. The surface of the circuit board refers to a surface, which faces to or backs against a component which is electrically connected with the chip on the printing device, of the circuit board after the chip is installed to the printing device. The printing device, the printing material container, the chip and the electrical connection structure of the printing device and the printing material container are simple in structure, and conducive to realizing stable and effective electrical connection with a printing device side.

Description

Printing device, printed material container and chip thereof, the above two electric connection structure
Technical field
The present invention relates to printing technique field, particularly printing device, printed material container and chip thereof, the above two electric connection structure.
Background technology
In prior art, the electric connection mode between printing device and printed material container, often, printed material container has a chip, as shown in Figure 1, this chip has the terminal 18 be electrically connected with printing device side connector, terminal be membranaceous be laid in circuit board 11 surface; The connector 2 of printing device side, as shown in Figure 2, has the protuberance 28 compressing with terminal and contact, terminal 18 shown in Fig. 2 has certain thickness, the expression of this thickness is just in order to the clear existence that terminal 18 is shown in the drawings, and in fact, the thickness of terminal 18 is negligible.
Summary of the invention
The object of this invention is to provide a kind of chip being installed on printed material container, its structure is simple, is beneficial to and realizes stablizing between printing device side, being effectively electrically connected.
Above-mentioned technical purpose of the present invention is achieved by the following technical programs: a kind of chip being installed on printed material container, comprises circuit board, is located at the multiple contacts of described circuit board for electrical contact printing device;
Described contact is located at described circuit board and is raised in described circuit board in the form of sheets; The bare area of described contact on the direction perpendicular to described circuit board surface, is greater than, and this contact element surface is to the area summation with the place wall on described this surface of circuit board dorsad;
Described contact has the contact portion for electrical contact printing device in a longitudinal direction;
After described circuit board surface refers to and this chip is mounted to printing device, circuit board towards or the surface of parts that dorsad printing device is electrically connected with this chip.
Preferred as technique scheme, multiple described contact is parallel distribution.
Preferred as technique scheme, multiple described contact portion on the direction being parallel to circuit board base in row's distribution.
Preferred as technique scheme, multiple described contact portion on the direction being parallel to circuit board base in upper and lower two row or multi-row distribution.
Preferred as technique scheme, also comprises the firm seat with multiple positioning jack; Described contact is inserted in corresponding positioning jack respectively.
Preferred as technique scheme, described contact comprises the substrate being fixedly connected on described circuit board and the contact chip being inserted in described positioning jack.
Preferred as technique scheme, described contact portion is positioned at described contact chip lower surface in a longitudinal direction.
Preferred as technique scheme, described contact also comprise be located at substrate along the extension extended away from described circuit board direction; Described contact portion is positioned at lower surface in a longitudinal direction, described extension.
Preferred as technique scheme, described circuit board has the multipair junctional membrane for electrically welding with corresponding described contact respectively.
Preferred as technique scheme, described circuit board has the multipair junctional membrane for electrically welding with corresponding described substrate respectively.
Preferred as technique scheme, another surface relative with the surface arranging described junctional membrane on described circuit board is provided with the contact membranes be electrically connected with at least one in junctional membrane often pair described.
Another object of the present invention is to the electric connection structure that a kind of printed material container and printing device are provided, comprise the chip being installed on described printed material container, the connector being installed on described printing device;
Described connector comprises pedestal and is located at multiple conductors of described pedestal;
Described chip comprises circuit board, is located at the multiple contacts of described circuit board for electrical contact printing device;
Described contact is located at described circuit board and is raised in described circuit board in the form of sheets; The bare area of described contact on the direction perpendicular to described circuit board surface, is greater than, and this contact element surface is to the area of the place wall on described this surface of circuit board;
Described contact has the first contact portion for electrical contact printing device in a longitudinal direction;
After described circuit board surface refers to and this chip is mounted to printing device, circuit board towards or the surface of parts that dorsad printing device is electrically connected with this chip;
Described conductor has the conductor horizontal component towards described first contact portion;
Second contact portion of described contact is in electrical contact with corresponding described conductor horizontal component.
Preferred as technique scheme, also comprises the firm seat with multiple positioning jack; Described contact is inserted in corresponding positioning jack respectively.
Preferred as technique scheme, described contact comprises the substrate being fixedly connected on described circuit board and the contact chip being inserted in described positioning jack.
Preferred as technique scheme, described first contact portion is positioned at described contact chip lower surface in a longitudinal direction.
Preferred as technique scheme, described contact also comprise be located at substrate along the extension extended away from described circuit board direction; Described first contact portion is positioned at lower surface in a longitudinal direction, described extension.
Preferred as technique scheme, described pedestal is provided with the groove territory of installing corresponding described conductor; Described groove territory has the groove territory horizontal component extended along described connector thickness direction; Described conductor horizontal component is arranged in described groove territory horizontal component;
And between the upper surface of the upper surface of at least one conductor horizontal component and described groove territory horizontal component, there is spacing.
Preferred as technique scheme, described groove territory comprises groove territory vertical portion extending longitudinally from top to bottom;
Described conductor comprises the conductor vertical portion being positioned at described groove territory vertical portion;
Described contact has the second contact portion being in electrical contact with described conductor vertical portion.
Preferred as technique scheme, described second contact portion and described vertical portion of leading have tensile force on the thickness direction of described connector;
The level of described groove territory vertical portion is greater than to the degree of depth degree of depth that described conductor gos deep into described groove territory vertical portion.
Preferred as technique scheme, pedestal has the groove territory for installing conductor; Groove territory comprises groove territory vertical portion extending longitudinally; Conductor comprises the conductor vertical portion being arranged in described groove territory vertical portion; Described at least one, groove territory vertical portion has well-to-do portion, the described groove territory vertical portion inwall of this part of finger that described well-to-do portion is and the gap of described conductor vertical portion larger;
Contact described at least one has the 3rd contact portion, and described 3rd contact portion is inserted in described well-to-do portion, and is in electrical contact with the wall towards described groove territory vertical portion inwall of described conductor vertical portion.
Preferred as technique scheme, conductor described at least one has outwardly protuberance; Contact described at least one has the 4th contact portion; Described 4th contact portion and protuberance realize electrical contact along the direction being parallel to described circuit board base, and have tensile force in the direction in which.
Another object of the present invention is to provide a kind of printed material container, comprises the chip as described in technique scheme.
Another object of the present invention is to provide a kind of printing device, comprises the chip as described in technique scheme.
Another object of the present invention is to provide a kind of printing device, comprises the printed material container as described in technique scheme.
Another object of the present invention is to provide a kind of printing device, comprises the electric connection structure of printed material container as described in technique scheme and printing device.
In sum, the present invention has following beneficial effect: the chip structure that the present invention is installed on printed material container is simple, and be beneficial to fit connection and realize reliable and stable electric connection, the particularly application of firm seat, further increase the stability of contact, the application of firm seat makes to form an entirety between multiple contact on the one hand, thus in installation and use procedure afterwards, power effect capital between arbitrary contact with corresponding conductor is shared to other contact, therefore, when a certain contact is subject to being unfavorable for that the power of effective electrical contact affects, this power can by by firm seat the multiple contacts that connect overall decompose, thus, reduce the impact of this power on this contact as much as possible, thus, be beneficial to effective electrical contact of effectively keeping in touch between part and connector, on the other hand, also be beneficial to keep in touch and be fixedly connected with state between part with circuit board, in installation process, be also easier to make contact and corresponding conductor one_to_one corresponding.
Accompanying drawing explanation
Fig. 1 is background technology chips schematic diagram;
Fig. 2 is that in background technology, connector and chip electrical connect schematic diagram;
Fig. 3 is embodiment 1 chips schematic diagram;
Fig. 4 is embodiment 1 chips part schematic diagram;
Fig. 5 is the another kind of distortion schematic diagram of contact in embodiment 1;
Fig. 6 is the connection diagram of circuit board in embodiment 1, contact, firm sheet;
Fig. 7 is firm sheet schematic diagram in embodiment 1;
Fig. 8 is contact schematic diagram in embodiment 1;
Fig. 9 is the another kind of distortion schematic diagram of contact in embodiment 1;
Figure 10 is contact portion distribution schematic diagram in embodiment 1;
Figure 11 is the another kind of distribution schematic diagram of contact portion in embodiment 1;
Figure 12 is another distribution schematic diagram of contact portion in embodiment 1;
Figure 13 is junctional membrane schematic diagram on circuit board in embodiment 1;
Figure 14 is contact membranes schematic diagram on circuit board in embodiment 1;
Figure 15 is embodiment 2 chips schematic diagram;
Figure 16 is contact schematic diagram in embodiment 2;
Figure 17 is the another kind of distortion schematic diagram of contact in embodiment 2;
Figure 18 is embodiment 3 chips schematic diagram;
Figure 19 is contact schematic diagram in embodiment 3;
Figure 20 is the another kind of distortion schematic diagram of contact in embodiment 3;
Figure 21 is a contact class distortion schematic diagram again in embodiment 3;
Figure 22 is embodiment 4 chips schematic diagram;
Figure 23 is contact schematic diagram in embodiment 4;
Figure 24 is the another kind of distortion schematic diagram of contact in embodiment 4;
Figure 25 be embodiment 5 chips with connector in conjunction with schematic diagram;
Figure 26 is connector schematic diagram in embodiment 5;
Figure 27 is embodiment 5 middle slot territory schematic diagram;
Figure 28 be in embodiment 5 conductor and groove territory in conjunction with schematic diagram;
Figure 29 be embodiment 6 chips with connector in conjunction with schematic diagram;
Figure 30 is embodiment 6 middle slot territory schematic diagram;
Figure 31 is conductor schematic diagram in embodiment 6;
Figure 32 is the electric contact state schematic diagram of contact and conductor in embodiment 6;
Figure 33 be embodiment 7 chips and connector in conjunction with schematic diagram;
Figure 34 is contact schematic diagram in embodiment 7;
Figure 35 is contact and conductor electric contact state schematic diagram in embodiment 7;
Figure 36 be embodiment 8 chips with connector in conjunction with schematic diagram;
Figure 37 is connector schematic diagram in embodiment 8;
Figure 38 is contact and conductor electric contact state schematic diagram in embodiment 8;
Figure 39 be embodiment 9 chips with connector in conjunction with schematic diagram;
Figure 40 is connector schematic diagram in embodiment 9;
Figure 41 is well-to-do portion schematic diagram in embodiment 9;
Figure 42 be in embodiment 9 conductor vertical portion and groove territory vertical portion in conjunction with schematic diagram;
Figure 43 is the another kind of schematic diagram of well-to-do portion on connector in embodiment 9.
In figure, 1, chip; 11, circuit board; 111, junctional membrane; 112, contact membranes; 12, contact; 120, contact portion; 12001, first kind contact; 12002, Equations of The Second Kind contact; 12003, the 3rd class contact; 1201, the first contact portion; 1202, the second contact portion; 121, substrate; 122, inserted sheet; 123, extension; 124, contact chip; 125, protrusion tab; 126, contact stud; 13, firm seat; 131, positioning jack; 14, memory; 2, connector; 21, pedestal; 211, groove territory; 2111, groove territory vertical portion; 21111, well-to-do portion; 2112, groove territory horizontal component; 22, conductor; 221, conductor vertical portion; 222, conductor horizontal component; 223, protuberance.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is described in further detail.
This specific embodiment is only explanation of the invention; it is not limitation of the present invention; those skilled in the art can make to the present embodiment the amendment not having creative contribution as required after reading this description, as long as but be all subject to the protection of Patent Law in right of the present invention.
Embodiment 1: a kind of chip being installed on printed material container, as shown in Figure 3, comprises circuit board 11, and circuit board 11 is provided with the multiple contacts 12 for electrical contact printing device.
As shown in Figure 4, generally on circuit board 11, be also provided with memory 14, for storing the attribute data of printed material and/or this printed material container.
Have at least several contacts 12 to be electrically connected with memory 14 so that memory 14 with realize between printing device communicating, such contact 12 is considered as first kind contact 12001, see Fig. 3.
A contact 12 is had at least whether to install for detecting printed material container, this contact 12 should be electrically connected with corresponding detection means, this detection means can be arranged at the partial pressure device of circuit board 11 or printed material container, such contact 12 is considered as Equations of The Second Kind contact 12002, see Fig. 3; Detection means is not shown in the drawings.
Has a contact 12 at least for detecting the short circuit between the contact 12 of connection detector part and this contact 12; Such contact 12 is considered as the 3rd class contact 12003, see Fig. 3.
In the present embodiment, as shown in Figure 3, Equations of The Second Kind contact 12002 has two; 3rd class contact 12003 has two, and first kind contact 12001 has five; Because the voltage be applied to for the contact 12 of connection detector part is higher, the rough sledding caused for avoiding short circuit phenomenon, the distribution of each contact 12, as shown in Figure 3, in the X-axis, Equations of The Second Kind contact 12002 is positioned at outer most edge, is inwardly Equations of The Second Kind contact 12002, the 3rd class contact 12003, first kind contact 12001 successively by the outer most edge of both sides.
Based on the printed material container of different model specification, the quantity of all kinds of contact 12 may change.
The structure of all contacts 12 is consistent or similar, and as shown in Figure 4, contact 12 is fixedly connected on circuit board 11 and is raised in circuit board 11 in the form of sheets; The bare area of contact 12 on the direction perpendicular to circuit board 11 surface, is greater than, and this contact 12 is towards the area summation with the place wall on this surface of circuit board 11 dorsad; Here main it is emphasised that the bare area of contact 12 on the direction perpendicular to circuit board 11 surface is comparatively large, the Z-direction namely shown in Fig. 4, area is larger; And this area is larger, mainly be intended to point out, the laminated structure of contact 12, under this laminated structure, contact 12 thickness is in the X-axis obviously much smaller than the width of contact 12 in Z-axis direction, and should there is no obvious space between contact 12 and circuit board 11 yet, or only there is very little space, and the existence in this space in use can not impact with the bonding strength of circuit board 11 contact 12, contact 12 stressing influence in use follow-up with the syndeton of printing device side in have concrete analysis.
After circuit board 11 surface refers to and this chip is mounted to printing device, circuit board 11 towards or the surface of parts that dorsad printing device is electrically connected with this chip, also namely as X-axis in Fig. 3 and Y-axis the plane that limits.
Under other form, contact 12 also can be linear as shown in Figure 5, namely as wire-shaped, be the electrical contact of the contact 12 with printer apparatus side that realize wire-shaped, the contact 12 of wire-shaped can in Z axis in the shape that arches upward, but the contact 12 of this wire-shaped, comparatively be difficult to process with the mode that is fixedly connected with of circuit board 11 on the one hand, on the other hand, the state that is fixedly connected with between its with circuit board 11 also built on the sand, therefore, in the application of reality, use value is lower.
The sheet contact part 12 of the present embodiment is beneficial to and effectively maintains and being fixedly connected with between circuit board 11, and the connective stability improved further between contact 12 and circuit board 11, this enforcement is also provided with firm seat 13, and as shown in figs 6-8, firm seat 13 is provided with multiple positioning jack 131; Contact 12 is inserted in corresponding positioning jack 131; Contact 12 can comprise the substrate 121 being fixedly connected on circuit board 11 and the inserted sheet 122 being inserted in corresponding positioning jack 131; For improving steadiness further, firm seat 13 can be fixedly connected on circuit board 11.
As shown in Fig. 6 and 8, contact 12 has the contact portion 120 for electrical contact printing device compared with the end away from circuit board 11.
As shown in Fig. 6 and 8, contact portion 120 can be positioned at inserted sheet 122, and as shown in Figure 9, contact portion 120 can be positioned at from the outward extending extension 123 of substrate 121; As preferably, be improve the stability between printing device side, contact portion 120 is preferably placed at inserted sheet 122.
Contact portion 120 can be in plane, or point-like.
As shown in Figure 6, multiple contact 12 should be parallel distribution in X-axis.
Contact portion 120 can in the distribution of identical or different height and position in Y-axis, and as shown in Figure 10, contact portion 120 is in the X-axis in row's distribution, and the height and position namely in Y-axis is identical.
As shown in figure 11, contact portion 120 in two row's distributions, has two height and positions in the X-axis namely in Y-axis.
Again as shown in figure 12, contact portion 120 in the X-axis in arranging distribution more, and in Y-axis can be different, also can part identical.
For improving the application stability of the present embodiment, the contact portion 120 of the present embodiment is preferably in row's distribution in X-axis, its reason follow-up with the syndeton of printing device side in have concrete analysis.
See Fig. 6 and Figure 13, circuit board 11 has the multipair junctional membrane 111 for electrically welding with corresponding substrate 121 two ends respectively, junctional membrane 111 is the metal film being overlying on circuit board 11 in its flat presentation; Meanwhile, between corresponding junctional membrane 111 and memory 14, there is electric connection; In Figure 13, junctional membrane 111 shows thickness, and thickness here only illustrates junctional membrane 111 in order to clear, and in fact this thickness is little of ignoring.
As shown in figure 14, circuit board 11 is provided with the contact membranes 112 be electrically connected with at least one in often pair of junctional membrane 111, and contact membranes 112 is also the metal film being overlying on circuit board 11 in its flat presentation.
For the utilization rate of raising circuit board 11 area and the convenience of practical operation, as being convenient to write data in memory 14, contact membranes 112 and junctional membrane 111 can lay respectively at the different surfaces of circuit board 11, and contact membranes 112 Main Function here is also to be convenient to write data to memory 14.
Here, a corresponding substrate 121 also only can arrange a junctional membrane 111, namely one end of substrate 121 or certain part are welded in junctional membrane 111, for strengthening the bonding strength of substrate 121 and circuit board 11, the other end of substrate 121 or other be fixedly connected on circuit board 11 by alternate manner, as bonding way, the mode etc. being inserted in circuit board 11.
What the present embodiment substrate 121 correspondence arranged two junctional membranes 111 being provided as preferably, is more convenient for making full use of the effective area of circuit board 11, is also beneficial to the steadiness improving substrate 121.
Embodiment 2: a kind of chip being installed on printed material container, as shown in figure 15, comprises circuit board 11, and circuit board 11 is provided with the multiple contacts 12 for electrical contact printing device.
As shown in figure 16, generally on circuit board 11, be also provided with memory 14, for storing the attribute data of printed material and/or this printed material container.
Have at least several contacts 12 to be electrically connected with memory 14 so that memory 14 with realize between printing device communicating, such contact 12 is considered as first kind contact 12001, see Figure 15.
A contact 12 is had at least whether to install for detecting printed material container, this contact 12 should be electrically connected with corresponding detection means, this detection means can be arranged at the partial pressure device of circuit board 11 or printed material container, such contact 12 is considered as Equations of The Second Kind contact 12002, see Figure 15; Detection means is not shown in the drawings.
Has a contact 12 at least for detecting the short circuit between the contact 12 of connection detector part and this contact 12; Such contact 12 is considered as the 3rd class contact 12003, see Figure 15.
In the present embodiment, as shown in figure 15, Equations of The Second Kind contact 12002 has two; 3rd class contact 12003 has two, and first kind contact 12001 has five; Because the voltage be applied to for the contact 12 of connection detector part is higher, the rough sledding caused for avoiding short circuit phenomenon, the distribution of each contact 12, as shown in figure 15, in the X-axis, Equations of The Second Kind contact 12002 is positioned at outer most edge, is inwardly Equations of The Second Kind contact 12002, the 3rd class contact 12003, first kind contact 12001 successively by the outer most edge of both sides.
Based on the printed material container of different model specification, the quantity of all kinds of contact 12 may change.
The structure of all contacts 12 is consistent or similar, and as shown in figure 16, contact 12 is fixedly connected on circuit board 11 and is raised in circuit board 11 in the form of sheets.
Shown in Figure 16, contact 12 comprises the matrix 121 being fixedly connected on circuit board 11 and the contact chip 124 being integrally connected to matrix 121; Contact chip 124 has the contact portion 120 for electrical contact printing device in the lower surface of Y-axis.
As shown in figure 17, contact 12 directly can be presented as the contact chip 124 being fixedly connected on circuit board 11.
Contact portion 120 can be in plane, or point-like.
As shown in figure 15, multiple contact 12 should be parallel distribution in X-axis.
Simultaneously for adapting to the structure of the device that printing device side is electrically connected with the present embodiment, connector in this structure i.e. below " with the syndeton embodiment of printing device side ", contact chip 124 lower surface position height is in the Y-axis direction all not identical, as shown in figure 15, each contact chip 124 position, lower surface is in the Y-axis direction in the distribution of height interleaved state; Also namely refer to, contact portion 120 in the distribution of height interleaved state, distributes in two row in the Y-axis direction in the X-axis.
Be similar to embodiment 1, circuit board 11 has the multipair junctional membrane 111 for electrically welding with corresponding substrate 121 two ends respectively, see Figure 13, junctional membrane 111 is the metal film being overlying on circuit board 11 in its flat presentation; Meanwhile, between corresponding junctional membrane 111 and memory 14, there is electric connection; In Figure 13, junctional membrane 111 shows thickness, and thickness here only illustrates junctional membrane 111 in order to clear, and in fact this thickness is little of ignoring.
Be similar to embodiment 1, circuit board 11 is provided with the contact membranes 112 be electrically connected with at least one in often pair of junctional membrane 111, and as shown in figure 14, contact membranes 112 is also the metal film being overlying on circuit board 11 in its flat presentation.
For the utilization rate of raising circuit board 11 area and the convenience of practical operation, as being convenient to write data in memory 14, contact membranes 112 and junctional membrane 111 can lay respectively at the different surfaces of circuit board 11, and contact membranes 112 Main Function here is also to be convenient to write data to memory 14.
Here, a corresponding substrate 121 also only can arrange a junctional membrane 111, namely one end of substrate 121 or certain part are welded in junctional membrane 111, for strengthening the bonding strength of substrate 121 and circuit board 11, the other end of substrate 121 or other be fixedly connected on circuit board 11 by alternate manner, as bonding way, the mode etc. being inserted in circuit board 11.
What the present embodiment substrate 121 correspondence arranged two junctional membranes 111 being provided as preferably, is more convenient for making full use of the effective area of circuit board 11, is also beneficial to the steadiness improving substrate 121.
Embodiment 3: a kind of chip being installed on printed material container, as shown in figure 18, comprises circuit board 11, and circuit board 11 is provided with the multiple contacts 12 for electrical contact printing device.
As shown in figure 19, generally on circuit board 11, be also provided with memory 14, for storing the attribute data of printed material and/or this printed material container.
Have at least several contacts 12 to be electrically connected with memory 14 so that memory 14 with realize between printing device communicating, such contact 12 is considered as first kind contact 12001, see Figure 18.
A contact 12 is had at least whether to install for detecting printed material container, this contact 12 should be electrically connected with corresponding detection means, this detection means can be arranged at the partial pressure device of circuit board 11 or printed material container, such contact 12 is considered as Equations of The Second Kind contact 12002, see Figure 18; Detection means is not shown in the drawings.
Has a contact 12 at least for detecting the short circuit between the contact 12 of connection detector part and this contact 12; Such contact 12 is considered as the 3rd class contact 12003, see Figure 18.
In the present embodiment, as shown in figure 18, Equations of The Second Kind contact 12002 has two; 3rd class contact 12003 has two, and first kind contact 12001 has five; Because the voltage be applied to for the contact 12 of connection detector part is higher, the rough sledding caused for avoiding short circuit phenomenon, the distribution of each contact 12, as shown in figure 18, in the X-axis, Equations of The Second Kind contact 12002 is positioned at outer most edge, is inwardly Equations of The Second Kind contact 12002, the 3rd class contact 12003, first kind contact 12001 successively by the outer most edge of both sides.
Based on the printed material container of different model specification, the quantity of all kinds of contact 12 may change.
The structure of all contacts 12 is consistent or similar, and as shown in figure 19, contact 12 is fixedly connected on circuit board 11 and is raised in circuit board 11 in the form of sheets.
As shown in figure 19, contact 12 comprises the matrix 121 being fixedly connected on circuit board 11 and the protrusion tab 125 being integrally connected to matrix 121; Protrusion tab 125 has the contact portion 120 for electrical contact printing device at the sidewall of X axis.
As shown in figure 20, contact 12 directly can be presented as the protrusion tab 125 being fixedly connected on circuit board 11.
Contact portion 120 can be in plane, or point-like.
As shown in figure 18, multiple contact 12 should be parallel distribution in X-axis.
Simultaneously for adapting to the structure of the device that printing device side is electrically connected with the present embodiment, connector in this structure i.e. below " with the syndeton embodiment of printing device side ", contact portion 120 lower surface position height is in the Y-axis direction all not identical, as shown in figure 20, each contact portion 120 position, lower surface is in the Y-axis direction in the distribution of height interleaved state.
Be similar to embodiment 1, circuit board 11 has the multipair junctional membrane 111 for electrically welding with corresponding substrate 121 two ends respectively, see Figure 13, junctional membrane 111 is the metal film being overlying on circuit board 11 in its flat presentation; Meanwhile, between corresponding junctional membrane 111 and memory 14, there is electric connection; In Figure 13, junctional membrane 111 shows thickness, and thickness here only illustrates junctional membrane 111 in order to clear, and in fact this thickness is little of ignoring.
Be similar to embodiment 1, circuit board 11 is provided with the contact membranes 112 be electrically connected with at least one in often pair of junctional membrane 111, and as shown in figure 14, contact membranes 112 is also the metal film being overlying on circuit board 11 in its flat presentation.
For the utilization rate of raising circuit board 11 area and the convenience of practical operation, as being convenient to write data in memory 14, contact membranes 112 and junctional membrane 111 can lay respectively at the different surfaces of circuit board 11, and contact membranes 112 Main Function here is also to be convenient to write data to memory 14.
Here, a corresponding substrate 121 also only can arrange a junctional membrane 111, namely one end of substrate 121 or certain part are welded in junctional membrane 111, for strengthening the bonding strength of substrate 121 and circuit board 11, the other end of substrate 121 or other be fixedly connected on circuit board 11 by alternate manner, as bonding way, the mode etc. being inserted in circuit board 11.
What the present embodiment substrate 121 correspondence arranged two junctional membranes 111 being provided as preferably, is more convenient for making full use of the effective area of circuit board 11, is also beneficial to the steadiness improving substrate 121.
Be similar to embodiment 1, as shown in Figure 7, the present embodiment also can arrange a firm sheet 13, substrate 121 is arranged the inserted sheet 122 being inserted in positioning jack 131, see Figure 21; Alternatively, also can not arrange separately inserted sheet 122, protrusion tab 125 is inserted in positioning jack 131 simultaneously, just corresponding change should be done with the position of protrusion tab 125 in the position of positioning jack 131; For improving steadiness further, firm sheet 13 can be fixedly connected on circuit board 11.
Embodiment 4: a kind of chip being installed on printed material container, as shown in figure 22, comprises circuit board 11, and circuit board 11 is provided with the multiple contacts 12 for electrical contact printing device.
As shown in figure 23, generally on circuit board 11, be also provided with memory 14, for storing the attribute data of printed material and/or this printed material container.
Have at least several contacts 12 to be electrically connected with memory 14 so that memory 14 with realize between printing device communicating, such contact 12 is considered as first kind contact 12001, see Figure 22.
A contact 12 is had at least whether to install for detecting printed material container, this contact 12 should be electrically connected with corresponding detection means, this detection means can be arranged at the partial pressure device of circuit board 11 or printed material container, such contact 12 is considered as Equations of The Second Kind contact 12002, see Figure 22; Detection means is not shown in the drawings.
Has a contact 12 at least for detecting the short circuit between the contact 12 of connection detector part and this contact 12; Such contact 12 is considered as the 3rd class contact 12003, see Figure 22.
In the present embodiment, as shown in figure 22, Equations of The Second Kind contact 12002 has two; 3rd class contact 12003 has two, and first kind contact 12001 has five; Because the voltage be applied to for the contact 12 of connection detector part is higher, the rough sledding caused for avoiding short circuit phenomenon, the distribution of each contact 12, as shown in figure 22, in the X-axis, Equations of The Second Kind contact 12002 is positioned at outer most edge, is inwardly Equations of The Second Kind contact 12002, the 3rd class contact 12003, first kind contact 12001 successively by the outer most edge of both sides.
Based on the printed material container of different model specification, the quantity of all kinds of contact 12 may change.
The structure of all contacts 12 is consistent or similar, and as shown in figure 23, contact 12 comprises the matrix 121 being fixedly connected on circuit board 11 and the contact stud 126 being integrally connected to matrix 121; Contact stud 126 is in needle-like or buttress shaft shape; Contact stud 126 has the contact portion 120 for electrical contact printing device at the sidewall of X axis.
As shown in figure 24, contact 12 directly can be presented as the contact stud 126 being fixedly connected on circuit board 11.
Simultaneously for adapting to the structure of the device that printing device side is electrically connected with the present embodiment, connector in this structure i.e. below " with the syndeton embodiment of printing device side ", contact portion 120 lower surface position height is in the Y-axis direction all not identical, as shown in figure 23, each contact portion 120 position, lower surface is in the Y-axis direction in the distribution of height interleaved state, and also namely contact stud 126 position, lower surface is in the Y-axis direction the distribution of height interleaved state.
Be similar to embodiment 1, circuit board 11 has the multipair junctional membrane 111 for electrically welding with corresponding substrate 121 two ends respectively, see Figure 13, junctional membrane 111 is the metal film being overlying on circuit board 11 in its flat presentation; Meanwhile, between corresponding junctional membrane 111 and memory 14, there is electric connection; In Figure 13, junctional membrane 111 shows thickness, and thickness here only illustrates junctional membrane 111 in order to clear, and in fact this thickness is little of ignoring.
Be similar to embodiment 1, circuit board 11 is provided with the contact membranes 112 be electrically connected with at least one in often pair of junctional membrane 111, and as shown in figure 14, contact membranes 112 is also the metal film being overlying on circuit board 11 in its flat presentation.
For the utilization rate of raising circuit board 11 area and the convenience of practical operation, as being convenient to write data in memory 14, contact membranes 112 and junctional membrane 111 can lay respectively at the different surfaces of circuit board 11, and contact membranes 112 Main Function here is also to be convenient to write data to memory 14.
Here, a corresponding substrate 121 also only can arrange a junctional membrane 111, namely one end of substrate 121 or certain part are welded in junctional membrane 111, for strengthening the bonding strength of substrate 121 and circuit board 11, the other end of substrate 121 or other be fixedly connected on circuit board 11 by alternate manner, as bonding way, the mode etc. being inserted in circuit board 11.
What the present embodiment substrate 121 correspondence arranged two junctional membranes 111 being provided as preferably, is more convenient for making full use of the effective area of circuit board 11, is also beneficial to the steadiness improving substrate 121.
Embodiment 5: the electric connection structure of a kind of printed material container and printing device, as shown in figure 25, comprises chip 1 as described in Example 1, is installed on the connector 2 of described printing device.
Connector 2, as shown in figure 26, comprises pedestal 21 and is located at multiple conductors 22 of pedestal 21; As shown in figures 26-28, pedestal 21 is provided with the groove territory 211 of installing corresponding conductor 22; Groove territory 211 has the groove territory vertical portion 2111 extended along Y direction; Conductor 22 has the conductor vertical portion 221 being positioned at groove territory vertical portion 2111; The level of groove territory vertical portion 2111 is greater than to the degree of depth degree of depth that conductor 22 gos deep into groove territory vertical portion 2111; Also be that in Figure 28, distance b is greater than distance a, and the upper end position of conductor vertical portion 221 is fixedly connected on pedestal 21 relatively, thus makes conductor vertical portion 221 when being subject to the active force of Z-direction, has certain elastic module space.
The contact portion 120 of contact 12 is in electrical contact with corresponding conductor vertical portion 221.
At chip 1 and connector 2 with the use of in process; contact portion 120 and conductor vertical portion 221 should have the active force in Z-direction; thus based on conductor vertical portion 221 elastic module space in the Z-axis direction, can be beneficial to improve contact portion 120 and contact with the effective of conductor vertical portion 221; Meanwhile, can be beneficial to and make contact portion 120 go deep into groove territory vertical portion 2111, thus play good positioning action, be beneficial to further and keep in touch part 120 and conductor vertical portion 221 in use effective and contact.
Say from another point of view, owing to having the active force in Z-direction between contact portion 120 and conductor vertical portion 221, thus the active force making substrate 121 be subject in Z-direction, and, if not substrate 121 is in the sheet described in embodiment 1, is such as the wire-shaped described in embodiment 1, as shown in Figure 5, then can make the active force that the two ends of substrate 121 are subject in Y direction, thus be unfavorable for contacting with the effective of circuit board 11.
Embodiment 6: the electric connection structure of a kind of printed material container and printing device, as shown in figure 29, comprises chip 1 as described in Example 2, is installed on the connector 2 of described printing device.
As shown in figure 26, connector 2 comprises pedestal 21 and is located at the conductor 22 of pedestal 21.
As shown in figure 30, pedestal 21 is provided with the groove territory 211 of installing corresponding conductor 22; Multiple groove territory 211 is distribution in side by side parallel, and each groove territory 211 all has groove territory vertical portion 2111 that Y-axis extends, extends along the thickness direction of connector 2, i.e. Z-direction and the groove territory horizontal component 2112 communicated with groove territory vertical portion 2111.
As shown in figure 31, conductor 22 has the conductor vertical portion 221 being arranged in groove territory vertical portion 2111, the conductor horizontal component 222 being positioned at groove territory horizontal component 2112.
As shown in figure 32, contact portion 120 is in electrical contact with the upper surface of conductor horizontal component 222.
For ease of the stability in contact portion 120 and corresponding conductor horizontal component 222 location when mounted and follow-up use procedure, between the upper surface of at least one conductor horizontal component 222 and the upper surface of groove territory horizontal component 2112, there is spacing, thus make corresponding contact portion 120 go deep into groove territory horizontal component 2112.
Therefore, when conductor horizontal component 222 upper surface is highly different in the Y-axis direction, also there is highly different states in contact portion 120 in the Y-axis direction.
Embodiment 7: the electric connection structure of a kind of printed material container and printing device, as shown in figure 33, comprises the chip 1 being installed on printed material container, the connector 2 being installed on described printing device.
As shown in figure 26, connector 2 comprises pedestal 21 and is located at the conductor 22 of pedestal 21.
As shown in figure 30, pedestal 21 is provided with the groove territory 211 of installing corresponding conductor 22; Multiple groove territory 211 is distribution in side by side parallel, and each groove territory 211 all has groove territory vertical portion 2111 that Y-axis extends, extends along the thickness direction of connector 2, i.e. Z-direction and the groove territory horizontal component 2112 communicated with groove territory vertical portion 2111.
As shown in figure 31, conductor 22 has the conductor vertical portion 221 being arranged in groove territory vertical portion 2111, the conductor horizontal component 222 being positioned at groove territory horizontal component 2112.
Chip 1 comprises circuit board and is fixedly connected on the contact 12 of circuit board.
As shown in figure 34, contact 12 has inserted sheet 122 as described in Example 1 and contact chip 124 as described in Example 2, and on inserted sheet 122, have the first contact portion 1201, and contact chip 124 has the second contact portion 1202; First contact portion 1201 is positioned at inserted sheet 122 in the Z-axis direction compared with the one end away from circuit board; Second contact portion 1202 is positioned at contact chip 124 lower surface in the Y-axis direction.
As shown in figure 35, the first contact portion 1201 is in electrical contact with conductor vertical portion 221; Second contact portion 1202 is in electrical contact with conductor horizontal component 222.
The level of groove territory vertical portion 2111 is greater than to the degree of depth degree of depth that conductor 22 gos deep into groove territory vertical portion 2111; Also be that in Figure 28, distance b is greater than distance a, and the upper end position of conductor vertical portion 221 is fixedly connected on pedestal 21 relatively, thus makes conductor vertical portion 221 when being subject to the active force of Z-direction, has certain elastic module space.
In the present embodiment, the setting of the first contact portion 1201 and the second contact portion 1202, effectively improves the electrical contact performance of contact 12 and conductor 22.
On the other hand, connector 2 in the present embodiment, also the connector 2 in embodiment 6 can be similar to, namely, between the upper surface of at least one conductor horizontal component 222 and the upper surface of groove territory horizontal component 2112, there is spacing, thus make the second corresponding contact portion 1202 go deep into groove territory horizontal component 2112, thus improve stability in use further.
And under above-mentioned connector 2 is arranged, the second contact portion 1202 also can be presented as non-conductive, the limiting component being fixedly connected on circuit board or contact 12 namely can be presented as.
For improving firm performance further, the present embodiment can also arrange the firm sheet 13 described in similar embodiment 1, and contact 12 and firm sheet 13 are in inserting state, and firm sheet 13 can also be fixedly connected on circuit board.
Embodiment 8: the electric connection structure of a kind of printed material container and printing device, as shown in figure 36, comprises the chip 1 being installed on printed material container as described in Example 3, the connector 2 being installed on described printing device.
As shown in figure 37, connector 2 comprises pedestal 21 and is located at the conductor 22 of pedestal 21, and the Y direction bottom of conductor 22 has protuberance 223; Generally, as shown in figure 23, present two row distributions of short lower length in the Y-axis direction, adjacent tabs 223 has certain spacing to protuberance 223 in the X-axis direction.
As shown in figure 38, the contact portion 120 of protrusion tab 125 realizes effective electrical contact in the X-axis direction with corresponding protuberance 223; In order to improve the contacted reliability between contact portion 120 and protuberance 223 further, protrusion tab 125 and protuberance 223 should have certain tensile force in the X-axis.
Preferably, for improving protrusion tab 125 stability in use further, the chip 1 of the present embodiment can also arrange the firm sheet 13 described in similar embodiment 1, and contact 12 and firm sheet 13 can be grafting forms, and firm sheet 13 also can be fixedly connected on circuit board.
Embodiment 9: be with the difference of embodiment 8, contact 12 also comprises inserted sheet 122 described in similar embodiment 1 or extension 123; Connector 2 has pedestal 21 described in similar embodiment 5 and conductor 22.
Thus make contact 12 have two contact portions 120, be divided into the first contact portion 1201 and the second contact portion 1202; The contact portion 120 that first contact portion 1201 is similar to embodiment 1 is arranged at inserted sheet 122 or extension 123; Second contact portion 1202 is the contact portion 120 in embodiment 8.
The present embodiment chips 1 is with the electrical contact of connector 2, and the first contact portion 1201 is in electrical contact with conductor vertical portion 221 on Z direction of principal axis; Second contact portion 1202 is in electrical contact with the protuberance 223 of conductor 22 in the X-axis direction.
For improving the stability of electrical contact, the first contact portion 1201 should have certain tensile force with conductor vertical portion 221 in the Z-axis direction, and conductor vertical portion 221 should have certain elasticity in the Z-axis direction; Meanwhile, the first contact portion 1201 also can go deep into groove territory vertical portion 2111; Second contact portion 1202 has certain tensile force with protuberance 223 in the X-axis direction.
Embodiment 10: be with the difference of embodiment 8, contact 12 also comprises the contact chip 124 described in similar embodiment 2; Connector 2 also has pedestal 21 described in similar embodiment 6 and conductor 22.
Thus make contact 12 have two contact portions 120, be divided into the first contact portion 1201 and the second contact portion 1202; The contact portion 120 that first contact portion 1201 is similar to embodiment 2 is arranged at contact chip 124; Second contact portion 1202 is the contact portion 120 in embodiment 8.
The present embodiment chips 1 is with the electrical contact of connector 2, and the first contact portion 1201 is in electrical contact with conductor horizontal component 222 in the Y-axis direction; Second contact portion 1202 is in electrical contact with the protuberance 223 of conductor 22 in the X-axis direction.
Embodiment 11: the electric connection structure of a kind of printed material container and printing device, as shown in figure 39, comprises chip 1 as described in Example 4, is installed on the connector 2 of described printing device.
As shown in Figure 40-42, connector 2 comprises pedestal 21 and conductor 22; Pedestal 21 is provided with the groove territory 211 for installing conductor 22, and groove territory 211 has the groove territory vertical portion 2111 extended along Y direction, and conductor 22 has the conductor vertical portion 221 being arranged in groove territory vertical portion 2111; Groove territory vertical portion 2111 has well-to-do portion 21111, groove territory vertical portion 2111 inwall of this part of finger that well-to-do portion 21111 is and the gap of conductor vertical portion 221 larger.
Contact portion 120 is inserted in well-to-do portion 21111, and contact portion 120 realizes electrical contact with conductor vertical portion 221 in the X-axis direction.
The gap of conductor vertical portion 221 lower surface in the Y-axis direction and between vertical portion 2111 bottom surface of groove territory also can be presented as by well-to-do portion 21111, as shown in figure 43; The arrangement mode of contact portion 120 should be consistent with the arrangement mode in well-to-do portion 21111; Now, contact portion 120 should realize electrical contact in the Y-axis direction with the lower surface of conductor vertical portion 221.
The present embodiment can also comprise the firm sheet 13 described in similar embodiment 1, contact 12 and the grafting of firm sheet 13; Firm sheet 13 also can be fixedly connected on circuit board.
Embodiment 12: be with the difference of embodiment 11, contact 12 also comprises inserted sheet 122 described in similar embodiment 1 or extension 123; Corresponding contact portion 120 has two, is divided into the first contact portion 1201 and the second contact portion 1202; First contact portion 1201 is positioned at inserted sheet 122 or extension 123; Second contact portion 1202 is the contact portion 120 in embodiment 11.
First contact portion 1201 realizes electrical contact in the Z-axis direction with conductor vertical portion 221; Second contact portion 1202 realizes electrical contact in the X-axis direction with conductor vertical portion 221 or realizes electrical contact with the lower surface of conductor vertical portion 221 in the Y-axis direction.
In the present embodiment, contact stud 126 can be presented as non-conductor, and namely contact stud 126 mainly plays location and spacing effect.
Embodiment 13: be with the difference of embodiment 11, contact 12 also comprises the contact chip 124 described in similar embodiment 2; Corresponding contact portion 120 has two, is divided into the first contact portion 1201 and the second contact portion 1202; First contact portion 1201 is positioned at contact chip 124 lower surface in the Y-axis direction; Second contact portion 1202 is the contact portion 120 in embodiment 11.
Conductor 22 in connector 2 has the conductor horizontal component 222 in similar embodiment 6.
First contact portion 1201 realizes electrical contact in the Y-axis direction with conductor horizontal component 222; Second contact portion 1202 realizes electrical contact in the X-axis direction with conductor vertical portion 221 or realizes electrical contact with the lower surface of conductor vertical portion 221 in the Y-axis direction.
In the present embodiment, when contact chip 124 is presented as conductor, contact stud 126 can be presented as non-conductor, and namely contact stud 126 mainly plays location and spacing effect; Otherwise under contact stud 126 is presented as conductor situation, contact chip 124 can be presented as non-conductor, namely contact chip 124 mainly plays location and spacing effect.
Embodiment 14: be with the difference of embodiment 11, contact 12 also comprises the protrusion tab 125 described in similar embodiment 3; Corresponding connector 2 comprises the protuberance 223 described in similar embodiment 8.
Embodiment 15: a kind of printed material container, comprises the chip described in embodiment 1.
Embodiment 16: a kind of printed material container, comprises the chip described in embodiment 2.
Embodiment 17: a kind of printed material container, comprises the chip described in embodiment 3.
Embodiment 18: a kind of printed material container, comprises the chip described in embodiment 4.
Embodiment 19: a kind of printing device, comprises the printed material container described in embodiment 15.
Embodiment 20: a kind of printing device, comprises the printed material container described in embodiment 16.
Embodiment 21: a kind of printing device, comprises the printed material container described in embodiment 17.
Embodiment 22: a kind of printing device, comprises the printed material container described in embodiment 18.
Implement 23: a kind of printing device, comprise the electric connection structure of printed material container described in embodiment 5 and printing device.
Implement 24: a kind of printing device, comprise the electric connection structure of printed material container described in embodiment 6 and printing device.
Implement 25: a kind of printing device, comprise the electric connection structure of printed material container described in embodiment 7 and printing device.
Implement 26: a kind of printing device, comprise the electric connection structure of printed material container described in embodiment 8 and printing device.
Implement 27: a kind of printing device, comprise the electric connection structure of printed material container described in embodiment 9 and printing device.
Implement 28: a kind of printing device, comprise the electric connection structure of printed material container described in embodiment 10 and printing device.
Implement 29: a kind of printing device, comprise the electric connection structure of printed material container described in embodiment 11 and printing device.
Implement 30: a kind of printing device, comprise the electric connection structure of printed material container described in embodiment 12 and printing device.
Implement 31: a kind of printing device, comprise the electric connection structure of printed material container described in embodiment 13 and printing device.
Implement 32: a kind of printing device, comprise the electric connection structure of printed material container described in embodiment 14 and printing device.

Claims (25)

1. be installed on a chip for printed material container, comprise circuit board (11), be located at the multiple contacts (12) of described circuit board (11) for electrical contact printing device; It is characterized in that,
Described contact (12) is located at described circuit board (11) and is raised in described circuit board (11) in the form of sheets; The bare area of described contact (12) on the direction perpendicular to described circuit board (11) surface, is greater than, and this contact (12) is towards the area summation with the place wall on described circuit board (11) this surface dorsad;
Described contact (12) has the contact portion (120) for electrical contact printing device in a longitudinal direction;
After described circuit board (11) surface refers to and this chip is mounted to printing device, circuit board (11) towards or the surface of parts that dorsad printing device is electrically connected with this chip.
2. a kind of chip being installed on printed material container according to claim 1, is characterized in that, multiple described contact (12) is in parallel distribution.
3. a kind of chip being installed on printed material container according to claim 2, is characterized in that, multiple described contact portion (120) distributes in a row on the direction being parallel to circuit board (11) base.
4. a kind of chip being installed on printed material container according to claim 2, is characterized in that, multiple described contact portion (120) distributes in upper and lower two row or multi-row on the direction being parallel to circuit board (11) base.
5. a kind of chip being installed on printed material container according to claim 1, is characterized in that, also comprises the firm seat (13) with multiple positioning jack (131); Described contact (12) is inserted in corresponding positioning jack (131) respectively.
6. a kind of chip being installed on printed material container according to claim 5, is characterized in that, described contact (12) comprises the substrate (121) being fixedly connected on described circuit board (11) and the contact chip (124) being inserted in described positioning jack.
7. a kind of chip being installed on printed material container according to claim 6, is characterized in that, described contact portion (120) is positioned at described contact chip (124) lower surface in a longitudinal direction.
8. a kind of chip being installed on printed material container according to claim 6, is characterized in that, described contact (12) also comprise be located at substrate (121) along away from described circuit board (11) direction extend extension (123); Described contact portion (120) is positioned at described extension (123) lower surface in a longitudinal direction.
9. a kind of chip being installed on printed material container according to claim 1, is characterized in that, described circuit board (11) has the multipair junctional membrane (111) for electrically welding with corresponding described contact (12) respectively.
10. a kind of chip being installed on printed material container according to claim 6, is characterized in that, described circuit board (11) has the multipair junctional membrane (111) for electrically welding with corresponding described substrate (121) respectively.
11. a kind of chips being installed on printed material container according to claim 9 or 10, it is characterized in that, upper another surface relative with the surface arranging described junctional membrane (111) of described circuit board (11) is provided with and at least one contact membranes be electrically connected (112) in junctional membrane often pair described (111).
The electric connection structure of 12. 1 kinds of printed material containers and printing device, comprises the chip (1) being installed on described printed material container, the connector (2) being installed on described printing device;
Described connector (2) comprises pedestal (21) and is located at multiple conductors (22) of described pedestal (21);
Described chip comprises circuit board (11), is located at the multiple contacts (12) of described circuit board (11) for electrical contact printing device; It is characterized in that,
Described contact (12) is located at described circuit board (11) and is raised in described circuit board (11) in the form of sheets; The bare area of described contact (12) on the direction perpendicular to described circuit board (11) surface, be greater than, this contact (12) is towards the area of the place wall on described circuit board (11) this surface;
Described contact (12) has the first contact portion for electrical contact printing device in a longitudinal direction;
After described circuit board (11) surface refers to and this chip is mounted to printing device, circuit board (11) towards or the surface of parts that dorsad printing device is electrically connected with this chip;
Described conductor (22) has the conductor horizontal component (222) towards described first contact portion;
First contact portion of described contact (12) is in electrical contact with corresponding described conductor horizontal component (222).
The electric connection structure of 13. a kind of printed material containers according to claim 12 and printing device, is characterized in that, also comprises the firm seat (13) with multiple positioning jack (131); Described contact (12) is inserted in corresponding positioning jack (131) respectively.
The electric connection structure of 14. a kind of printed material containers according to claim 13 and printing device, it is characterized in that, described contact (12) comprises the substrate (121) being fixedly connected on described circuit board (11) and the contact chip (124) being inserted in described positioning jack.
The electric connection structure of 15. a kind of printed material containers according to claim 13 and printing device, is characterized in that, described first contact portion is positioned at described contact chip (124) lower surface in a longitudinal direction.
The electric connection structure of 16. a kind of printed material containers according to claim 13 and printing device, it is characterized in that, described contact (12) also comprise be located at substrate (121) along away from described circuit board (11) direction extend extension (123); Described first contact portion is positioned at described extension (123) lower surface in a longitudinal direction.
The electric connection structure of 17. a kind of printed material containers according to claim 12 and printing device, is characterized in that, described pedestal (21) is provided with the groove territory (211) of installing corresponding described conductor (22); Described groove territory (211) has groove territory horizontal component (211) extended along described connector (2) thickness direction; Described conductor horizontal component (222) is arranged in described groove territory horizontal component (211);
And between the upper surface of the upper surface of at least one conductor horizontal component (222) and described groove territory horizontal component (2112), there is spacing.
The electric connection structure of 18. a kind of printed material containers according to claim 12 or 17 and printing device, it is characterized in that, described groove territory (211) comprises groove territory vertical portion (2111) extending longitudinally from top to bottom;
Described conductor (22) comprises the conductor vertical portion (221) being positioned at described groove territory vertical portion (2111);
Described contact (12) has the second contact portion being in electrical contact with described conductor vertical portion (221).
The electric connection structure of 19. a kind of printed material containers according to claim 18 and printing device, is characterized in that, described second contact portion and described vertical portion (221) of leading have tensile force on the thickness direction of described connector (2);
The level of described groove territory vertical portion (2111) is greater than to the degree of depth degree of depth that described conductor (22) gos deep into described groove territory vertical portion (2111).
The electric connection structure of 20. a kind of printed material containers according to claim 12 and printing device, is characterized in that, pedestal (21) has the groove territory (211) for installing conductor (22); Groove territory (211) comprises groove territory vertical portion (2111) extending longitudinally; Conductor (22) comprises the conductor vertical portion (221) being arranged in described groove territory vertical portion (2111); Described at least one, groove territory vertical portion (2111) has well-to-do portion (21111), described groove territory vertical portion (2111) inwall of this part of finger that described well-to-do portion (21111) is and the gap of described conductor vertical portion (221) larger;
Contact described at least one (12) has the 3rd contact portion, and described 3rd contact portion is inserted in described well-to-do portion (21111), and is in electrical contact with the wall towards described groove territory vertical portion (2111) inwall of described conductor vertical portion (221).
The electric connection structure of 21. a kind of printed material containers according to claim 12 and printing device, is characterized in that, conductor described at least one (22) has outwardly protuberance (223); Contact described at least one (12) has the 4th contact portion; Described 4th contact portion and protuberance (223) realize electrical contact along the direction being parallel to described circuit board (11) base, and have tensile force in the direction in which.
22. 1 kinds of printed material containers, is characterized in that, comprise the chip as described in any one of claim 1-11.
23. 1 kinds of printing devices, is characterized in that, comprise the chip as described in any one of claim 1-11.
24. 1 kinds of printing devices, is characterized in that, comprise printed material container as claimed in claim 22.
25. 1 kinds of printing devices, is characterized in that, comprise the electric connection structure of printed material container as described in any one of claim 12-21 and printing device.
CN201510265122.8A 2015-05-22 2015-05-22 Printing device, printed material container and its chip, the above two electric connection structure Active CN104908437B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201510265122.8A CN104908437B (en) 2015-05-22 2015-05-22 Printing device, printed material container and its chip, the above two electric connection structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201510265122.8A CN104908437B (en) 2015-05-22 2015-05-22 Printing device, printed material container and its chip, the above two electric connection structure

Publications (2)

Publication Number Publication Date
CN104908437A true CN104908437A (en) 2015-09-16
CN104908437B CN104908437B (en) 2017-11-03

Family

ID=54078045

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201510265122.8A Active CN104908437B (en) 2015-05-22 2015-05-22 Printing device, printed material container and its chip, the above two electric connection structure

Country Status (1)

Country Link
CN (1) CN104908437B (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107962873A (en) * 2017-12-27 2018-04-27 珠海天威飞马打印耗材有限公司 Ink box chip, print cartridge and ink-jet printer

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN201030684Y (en) * 2007-04-29 2008-03-05 珠海天威技术开发有限公司 Print cartridge chip
CN202016265U (en) * 2011-04-07 2011-10-26 珠海天威飞马打印耗材有限公司 Chip contact mechanism
CN103707646A (en) * 2013-12-23 2014-04-09 珠海天威飞马打印耗材有限公司 Ink box chip assembly, ink box and ink jet printer
CN103707648A (en) * 2013-12-25 2014-04-09 珠海天威飞马打印耗材有限公司 Ink box chip, ink box and ink-jet printer
CN204977814U (en) * 2015-05-22 2016-01-20 杭州旗捷科技有限公司 Printing apparatus, printing material container and chip, this printing apparatus and printing material container's electric connection structure thereof

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN201030684Y (en) * 2007-04-29 2008-03-05 珠海天威技术开发有限公司 Print cartridge chip
CN202016265U (en) * 2011-04-07 2011-10-26 珠海天威飞马打印耗材有限公司 Chip contact mechanism
CN103707646A (en) * 2013-12-23 2014-04-09 珠海天威飞马打印耗材有限公司 Ink box chip assembly, ink box and ink jet printer
CN103707648A (en) * 2013-12-25 2014-04-09 珠海天威飞马打印耗材有限公司 Ink box chip, ink box and ink-jet printer
CN204977814U (en) * 2015-05-22 2016-01-20 杭州旗捷科技有限公司 Printing apparatus, printing material container and chip, this printing apparatus and printing material container's electric connection structure thereof

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107962873A (en) * 2017-12-27 2018-04-27 珠海天威飞马打印耗材有限公司 Ink box chip, print cartridge and ink-jet printer
CN107962873B (en) * 2017-12-27 2023-09-15 珠海天威飞马打印耗材有限公司 Ink box chip, ink box and ink-jet printer

Also Published As

Publication number Publication date
CN104908437B (en) 2017-11-03

Similar Documents

Publication Publication Date Title
US8888525B2 (en) Electrical connector with dual arm contact
JP5871729B2 (en) Housingless connector
US9318820B2 (en) Connector for multi-layered board
US7791364B2 (en) Electronic device probe card with improved probe grouping
JP5232593B2 (en) Electrical connection device
CN104634999A (en) Inspection jig
CN106469864A (en) Circuit board use adapter
CN104617424B (en) Connector for Flat Cable
CN103579812A (en) Electrical connector
CN101358997A (en) Inspection jig and inspection equipment
CN202269097U (en) Printed circuit board and electronic device
CN104842661A (en) Printing device, printing material container and chip thereof, and electric connection structure of the previous two
CN204749522U (en) Printing apparatus, printing material container and chip, this printing apparatus and electric connection structure of printing material container thereof
CN207704002U (en) A kind of fuel cell pile single slice voltage collection device
CN204820675U (en) Printing apparatus, printing material container and chip, this printing apparatus and electric connection structure who prints material container thereof
CN204977814U (en) Printing apparatus, printing material container and chip, this printing apparatus and printing material container's electric connection structure thereof
CN204736568U (en) Printing apparatus, printing material container and chip, this printing apparatus and electric connection structure of printing material container thereof
CN201576807U (en) Electric connector
CN104842662B (en) Printing device, printed material container and chip thereof, the above two electric connection structure
CN102100129B (en) Electrical circuit arrangement
CN104908437A (en) Printing device, printing material container, chip and electrical connection structure of printing device and printing material container
JP3604233B2 (en) Inspection head
CN102830253A (en) General test connecting base
CN204558732U (en) Electric connector
CN106254580B (en) Mobile terminal

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant
CP03 Change of name, title or address
CP03 Change of name, title or address

Address after: 12th Floor, Huachuang Building, No. 511 Jianye Road, Binjiang District, Hangzhou City, Zhejiang Province, 310052

Patentee after: Hangzhou Qijie Technology Co.,Ltd.

Country or region after: China

Address before: Room 5-11, Building 6, No. 262 Wantang Road, Xihu District, Hangzhou City, Zhejiang Province, 310012

Patentee before: HANGZHOU CHIPJET TECHNOLOGY Co.,Ltd.

Country or region before: China