CN103921561A - Imaging device - Google Patents

Abstract

The invention provides an imaging device which comprises an imaging device body 101, an imaging box 102 and a chip 103, wherein the imaging box 102 is detachably installed in the imaging device body 101. The imaging device is characterized in that the chip 103 is installed on the inner side of the imaging device body 101, and the data information, detected by a probe 104 abutting against the chip 103, of the imaging box 102 is stored in the chip 103. According to the imaging device, the chip 103 storing the data information of the imaging box 102 is installed on the inner side of the imaging device body 101 instead of on the imaging box 102, the chip 103 is in contact with the probe on the inner side of the imaging device body 101 and separated from the imaging box 102, and in this way, poor contact between the chip 103 and the probe on the imaging device body 101 can not be caused by the vibration of the imaging box 102, and good contact is maintained between the chip 103 and the probe on the imaging device body 101.

Description

A kind of imaging device

Technical field

The present invention relates to print technical field of imaging, particularly relate to a kind of imaging device.

Background technology

Conventional imaging device, as printer, duplicator and facsimile machine etc., comprises imaging equipment body and imaging cartridge at present, and described imaging cartridge is dismountable to be arranged in imaging equipment body.A chip is installed on each imaging cartridge, particularly, has a draw-in groove on described imaging cartridge, described chip is releasably attached in above-mentioned draw-in groove, and realization is fixed.Described chip is used for storing each data message of place imaging cartridge, as: the color of the printing raw material that imaging cartridge is stored, the surplus of printing raw material or consumption etc.When imaging cartridge is arranged in imaging equipment body, the contact of the chip on each imaging cartridge and the probe butt in imaging equipment body, realize the data interaction between chip and imaging equipment body control circuit.Each chip has a contact at least, and the number of the probe in imaging equipment body is identical with the number of chip contacts.

Because chip is arranged on imaging cartridge, probe is arranged in imaging equipment body, and when the manufacture craft of imaging cartridge has error, or imaging cartridge mounting means was not at that time, the butt that the contact of chip and probe cannot be good.In the laser printer of cartridge is installed, chip is arranged on cartridge, cartridge rotation due to gear when working of laser printer is constantly vibrated, and chip is easy to be infected with carbon dust dust, the continuous vibration of cartridge and dust are all easy to cause the butt that chip and probe cannot be good.The problems referred to above all easily cause chip and probe loose contact, cause cannot communicating by letter between chip and control circuit in imaging equipment body.

Summary of the invention

The technical problem that the present invention solves is to provide a kind of imaging device, chip 103 is arranged on to main body 101 inner sides of imaging device, thereby can prevents from installing or chip 103 is infected with the chip 103 and probe loose contact that the problems such as dust cause due to imaging cartridge 102.

For this reason, the technical scheme of technical solution problem of the present invention is:

A kind of imaging device, comprise: imaging equipment body (101), imaging cartridge (102) and chip (103), described imaging cartridge (102) is removably mounted in described imaging equipment body (101), described chip (103) is arranged on described imaging equipment body (101) inner side, and described chip (103) stores the data message of the imaging cartridge (102) that the probe (104) with its butt detects.

Optional:

Described chip (103) is identical with the number of described imaging cartridge (102), and chip described in each (103) stores the data message of the imaging cartridge (102) that the one group of probe (104) with its butt detects.

Optional:

Described chip (103) only has one, and the probe butt of described chip (103) and all detection imaging cartridges (102) stores the data message of all imaging cartridges (102).

Optional:

Described chip (103) has at least two, and the number of described chip (103) is less than the number of described imaging cartridge (102), chip described in each (103) and at least one group of probe butt that detects imaging cartridge (102), store respectively the data message of at least one imaging cartridge (102) that the probe (104) with its butt detects.

Optional:

Described chip (103) is arranged on the inner side of the closing lid (105) of described imaging equipment body (101), and by opening, described closing lid (105) is dismountable to be arranged in described imaging equipment body (101) described imaging cartridge (102).

Optional:

Described imaging device also comprises installing rack (106), described installing rack (106) is arranged on the inner side of the closing lid (105) of described imaging equipment body (101), and described chip (103) is arranged on the inner side of the closing lid (105) of described imaging equipment body (101) by described installing rack (106).

Optional:

Described installing rack (106) comprises groove (902) and base (901), described groove (902) is for fixing described chip (103), and described base (901) is for being fixed on described groove (902) inner side of the closing lid (105) of described imaging equipment body (101).

Optional:

Described installing rack (106) comprises groove (902), and described groove (902) is for being fixed on described chip (103) inner side of the closing lid (105) of described imaging equipment body (101).

Optional:

Described installing rack (106) by the locating dowel on the inner side of the closing lid (105) of locating hole and imaging equipment body (101), fix, paste projection on the inner side of closing lid (105) of fixing, recess and imaging equipment body (101) is fixed, nut is fixed and be fixed in any one removably be fixed on the inner side of the closing lid (105) of described imaging equipment body (101).

Optional:

Described installing rack (106) is fixed on the inner side of the closing lid (105) of described imaging equipment body (101) by the non-dismountable mode of welding.

Optional:

Described imaging device also comprises installing rack (106), described installing rack (106) is arranged on the inner side of described imaging equipment body (101), and described chip (103) is arranged on the inner side of described imaging equipment body (101) by described installing rack (106).

Optional:

Described chip (103) with the locating dowel on the inner side of locating hole and imaging equipment body (101), fix, paste projection on the inner side of fixing, recess and imaging equipment body (101) is fixed, nut is fixed and be fixed in any one removably be fixed on the inner side of described imaging equipment body (101).

Optional:

Described chip (103) is fixed on the inner side of described imaging equipment body (101) by the non-removable fixed form of welding.

Known by technique scheme, the invention provides a kind of imaging device, imaging equipment body 101, imaging cartridge 102 and chip 103, described imaging cartridge 102 is removably mounted in described imaging equipment body 101, it is characterized in that, described chip 103 is arranged on described imaging equipment body 101 inner sides, described chip 103 stores the data message of the imaging cartridge 102 that the probe 104 with its butt detects, in imaging device provided by the present invention, the chip 103 that stores imaging cartridge 102 data messages is not to be arranged on imaging cartridge 102, and be mounted in imaging equipment body 101 inner sides, contact with the probe of imaging equipment body 101 inner sides, chip 103 is separated with imaging cartridge 102, make chip 103 can not cause because of the vibration of imaging cartridge 102 with imaging equipment body 101 on probe loose contact, guarantee that chip 103 and the probe on imaging equipment body 101 keep good contact.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is a kind of imaging device structural representation of the present invention;

Fig. 2 is chip 103 of the present invention and the identical mounting structure schematic diagram of number of imaging cartridge 102;

Fig. 3 (1) stores all imaging cartridge 102 data message mounting structure schematic diagrames for chip 103 of the present invention;

Fig. 3 (2) stores all imaging cartridge 102 data message mounting structure side views for chip 103 of the present invention;

Fig. 4 is that chip 103 of the present invention is arranged on closing lid 105 inside structure schematic diagrames;

Fig. 5 is the closing lid 105 partial structurtes schematic diagrames of imaging equipment body 101 of the present invention;

Fig. 6 (1) stores chip 103 structural representations of imaging cartridge 102 data messages for the present invention;

Chip 103 structural representations of Fig. 6 (2) data message of all imaging cartridges 102 for the present invention stores;

Fig. 7 is the side view that the probe of chip 103 of the present invention and imaging equipment body 101 inner sides connects;

Fig. 8 is the structural representation that chip 103 of the present invention is arranged on closing lid 105 inner sides of imaging equipment body 101;

Fig. 9 is that chip 103 of the present invention is arranged on the closing lid 105 inner side schematic diagrames of imaging equipment body 101 by installing rack 106.

The specific embodiment

The invention discloses a kind of imaging device, chip 103 is arranged on imaging equipment body 101 inner sides, contact with the probe of imaging equipment body 101 inner sides, chip 103 is separated with imaging cartridge 102, guarantees that chip (103) and the probe on imaging equipment body 101 keep good contact.

Below in conjunction with accompanying drawing, the specific embodiment of the invention is elaborated.

For simplified characterization process, in following specific embodiment, all take laser printer and cartridge describes as example, following embodiment is equally applicable to the imaging device of other types and imaging cartridge (such as ink-jet printer and print cartridge etc.), repeats no longer one by one here.

Here it should be noted that, in following embodiment, when definition imaging device normally uses, laying state face is upward top cover; The face parallel with top cover is bottom; The face that can open and imaging cartridge 102 is arranged in imaging equipment body 101 is protecgulum; The face parallel with protecgulum is bonnet; Two faces vertical with protecgulum are side cover.When imaging device normally uses, the visual face of imaging equipment body 101 is the outside of imaging equipment body 101, and not visible face is the inner side of imaging equipment body 101.

Fig. 1 is a kind of imaging device structural representation of the present invention, described imaging device comprises: imaging equipment body 101, imaging cartridge 102 and chip 103, described imaging cartridge 102 is removably mounted in described imaging equipment body 101, it is characterized in that, described chip 103 is arranged on described imaging equipment body 101 inner sides, and described chip 103 stores the data message of the imaging cartridge 102 that the probe 104 with its butt detects.

Imaging equipment body 101 is by 11, one bottoms parallel with top cover 11 of a top cover, 12, one bonnets parallel with protecgulum 12 of a protecgulum and two hexahedrons that the side cover vertical with protecgulum 12 forms.In the cavity that dismountable six faces that are arranged on described imaging equipment body 101 of imaging cartridge 102 form, hold printing raw material.During cartridge that imaging cartridge 102 is laser printer, for holding the carbon dust of printing use; During print cartridge that imaging cartridge 102 is ink-jet printer, for holding the ink of printing use.Unlike the prior art, chip 103 is not arranged on imaging cartridge 102, and is mounted in imaging equipment body 101 inner sides.

In imaging equipment body 101, be provided with print components and print control circuit, generally, the probe 104 being connected with printing control circuit is arranged on the inner side of imaging equipment body 101, chip 103 is by realizing with printing control circuit and carry out data interaction with probe 104 butts, therefore, chip 103 is also arranged on the inner side of imaging main body 101.

Chip 103 is mainly used in storing the data message of described imaging cartridge 102, has two kinds of possible structures at least:

The structure that the first is possible, chip 103 described in described imaging device is identical with the number of described imaging cartridge 102, and each chip 103 stores the data message of the imaging cartridge 102 that the probe 104 with its butt detects.

Chip 103 is identical with the number of imaging cartridge 102, a chip-stored has a data message in imaging cartridge, probe can only detect the data message in the imaging cartridge corresponding with it, and each chip-stored has the data message in the imaging cartridge corresponding with the probe of its butt.Printing control circuit in imaging equipment body 101 is used for controlling printing, identifies and detect the data message in imaging cartridge 102, controls and detect surplus or the consumption of the printing raw material in imaging cartridge 102.Print control circuit and by probe 104, read the data message in the imaging cartridge 102 of storing in the chip 103 with probe 104 butts, and the data messages such as the surplus of the printing raw material in detected imaging cartridge 102 or consumption are stored to the chip 103 of the data message that stores this imaging cartridge by probe 104.

Generally, chip 103 can with the corresponding installation of imaging cartridge 102 being arranged in imaging equipment body 101, as shown in Figure 2, chip 31 stores the data message in imaging cartridge 21; Chip 32 stores the data message in imaging cartridge 22; Chip 33 stores the data message in imaging cartridge 23; Chip 34 stores the data message in imaging cartridge 24.At imaging device, normally use while placing, be arranged on the parallel placement of imaging cartridge that the chip of imaging equipment body 101 inner sides is stored with it.Chip is installed like this, and more the storage of the identification chip of aspect is the data message in which imaging cartridge, so that chip is corresponding with imaging cartridge.Certainly, be not limited only to the mode of above-mentioned installation chip 103, can also chip 103 is horizontally in a row, or chip 103 is arranged in to rectangle or square, and chip 103 can also be installed according to a certain given shape, repeat no more here.

Print control circuit and by the probe with chip 31 butts, read the data message of the imaging cartridge 21 that chip 31 stores, and by the data message in detected imaging cartridge 21 by probe storage to chip 31.Print control circuit and by the probe with chip 32 butts, read the data message of the imaging cartridge 22 that chip 32 stores, and by the data message in detected imaging cartridge 22 by probe storage to chip 32.Print control circuit and by the probe with chip 33 butts, read the data message of the imaging cartridge 23 that chip 33 stores, and by the data message in detected imaging cartridge 33 by probe storage to chip 33.Print control circuit and by the probe with chip 34 butts, read the data message of the imaging cartridge 24 that chip 34 stores, and by the data message in detected imaging cartridge 24 by probe storage to chip 34.

The structure that the second is possible, described chip 103 only has one, and the probe butt of described chip 103 and all detection imaging cartridges 102 stores the data message of all imaging cartridges 102.

In actual applications, can also realize a chip 103 and all probe butts, store the data message in all imaging cartridges 102.As shown in Fig. 3 (1) and Fig. 3 (2), chip 103 is very large, with all probe butts that arrange in imaging equipment body 101, the data message of each imaging cartridge 102 that storage printing control circuit transmits by each probe, prints control circuit and also by probe, reads the data message of the imaging cartridge of storing in chip 103.Chip 103 can be for each imaging cartridge 102 storage area of independent distribution or for each imaging cartridge 102 provides separately a memory element, to store respectively the data message of imaging cartridge 102 in a memory element.

Certainly, be not limited in above-mentioned two kinds of concrete implementations in specific implementation process, an imaging device can also comprise two chips, and each chip and two groups of probe butts store respectively the data message of two imaging cartridges; Or, an imaging device can also comprise a large chip and a little chip, and a large chip and three groups of probe butts store the data message of three imaging cartridges, the little chip of another one and one group of probe butt, store the data message of an imaging cartridge.Above-mentioned example is all to take an imaging device four imaging cartridges to be installed as example describes, and more or less imaging cartridge can also be installed.That is to say, a chip can be stored the data message of an imaging cartridge, also can store the data message of a plurality of imaging cartridges, and this is relevant with the number of the probe groups of a chip institute butt.

Further, described chip 103 is arranged on the inner side of the closing lid 105 of described imaging equipment body 101, and by opening, described closing lid 105 is dismountable to be arranged in described imaging equipment body 101 described imaging cartridge 102.

Chip 103 is arranged on the inner side of imaging equipment body 101, to be arranged on the place that is provided with probe 104 of imaging equipment body 101 inner sides.Probe 104 can be arranged on imaging equipment body 101 inner sides Anywhere, and generally, in order to mount and dismount conveniently, probe is arranged on closing lid 105 inner sides of imaging equipment body 101.As shown in Figure 4, closing lid 105 is the protecgulum of imaging equipment body 101, and closing lid 105 can open and close.Imaging cartridge 102 can be mounted in imaging equipment body 101 by opening described closing lid 105.

Fig. 5 is the closing lid 105 partial structurtes schematic diagrames of imaging equipment body 101 of the present invention, and closing lid 105 inner sides are provided with probe 104, and probe 104 is connected with the printing control circuit in imaging equipment body 101.As shown in Figure 5, have four probes in every group of probe 104, in actual applications, every group of probe 104 is not limited only to arrange four probes, and every group of probe 104 arranges at least one probe, can specifically arrange according to actual conditions, specifically do not limit here.In actual applications, can at least one group of probe 104 be set in imaging equipment body 101 inner sides, be not limited in four groups of probes 104 shown in Fig. 1 to Fig. 4, can specifically arrange according to actual needs, repeat no more here.Every group of probe 104 and chip 103 butts, realize chip 103 and carry out data interaction with the printing control circuit in imaging equipment body 101.

Fig. 6 (1) and Fig. 6 (2) are chip 103 structural representations of the present invention, when chip 103 is installed to imaging equipment body 101 inner side, the face relative with imaging equipment body 101 inner sides is the front of chip 103, and the front of described chip 103 is provided with the contact identical with probe 104 numbers.When each chip 103 and one group of probe 104 butt, the number of the contact on each chip 103 is identical with the number of every group of probe 104 middle probes, as shown in Fig. 6 (1), on a chip 103, only have 4 contacts 601, identical with the number of one group of probe 104 middle probe.When a chip 103 and all probe 104 butts, the contact on chip 103 is identical with the sum of all probe 104 middle probes, as shown in Fig. 6 (2), has 16 contacts 601 on a chip 103, identical with the sum of four groups of probe 104 middle probes.

Here it should be noted that, the number of chip 103 upper contacts is not limited in the number of describing in above-mentioned example, can specifically set according to actual conditions.For example, when a chip 103 and two groups of probe 104 butts, the number of chip 103 upper contacts is identical with the sum of two groups of probe 104 middle probes, guarantees that the sum of the number of chip 103 contacts and all probes 104 middle probes of its butt is identical.

Fig. 7 is the side-looking structural representation that the probe of chip 103 of the present invention and imaging equipment body 101 inner sides connects, and chip 103 is provided with memory element 701, for storing the data message of imaging cartridge 102.Memory element 701 is connected with contact 601 by the circuit with on chip 103.When chip 103 is installed to imaging equipment body 101 inner side, the probe butt in contact 601 and probe 104, the printing control circuit of realizing in imaging equipment body 101 connects with the memory element 701 in chip 103, realize data message alternately.

Fig. 8 is the closing lid 105 inner side scheme of installations that chip 103 of the present invention is mounted to imaging equipment body 101, and in the A direction of the closing lid 105 perpendicular on imaging equipment body 101, chip 103 is installed to closing lid 105 inner sides along A direction.Wherein, the front of chip 103 is relative with the inner side of closing lid 105, the contact 601 on chip 103 and the probe butt in probe 104.There are two kinds of possible embodiments closing lid 105 inner sides that chip 103 is arranged on imaging equipment body 101:

The embodiment that the first is possible: described chip 103 with the locating dowel on the inner side of the closing lid 105 of locating hole and imaging equipment body (101), fix, paste projection on the inner side of closing lid 105 of fixing, recess and imaging equipment body (101) is fixed, nut is fixed and be fixed in any one removably be fixed on the inner side of the closing lid 105 of described imaging equipment body (101);

The embodiment that the second is possible: described chip 103 is fixed on the inner side of the closing lid 105 of described imaging equipment body 101 by non-removable modes such as welding.

Certainly, the inner side that chip 103 is arranged on closing lid 105 is not limited in above-mentioned several implementation, can also adopt other chip 103 can be arranged on to the mode in closing lid 105, repeats no longer one by one here.

Fig. 9 is that chip 103 of the present invention is arranged on the closing lid 105 inner side schematic diagrames of imaging equipment body 101 by installing rack 106.Closing lid 105 inner sides are provided with installing rack 106, and installing rack 106 can be a part that forms closing lid 105, non-removable being fixed in closing lid 105; Installing rack 106 also can dismountablely be arranged on closing lid 105 inner sides.Installing rack 106 comprises base 901 and groove 902.The base 901 of installing rack 106 is fixed on the inner side of closing lid 105 in detachable or non-removable mode, play the effect of fixing and mounting bracket 106; The top of installing rack 106 is provided with groove 902, and for fixed chip 103, probe 104 is positioned at groove 902, and chip 103 is fixed to the inner side of closing lid 105 by groove 902, with probe 104 butts in groove 902.

Installing rack 106 described in the embodiment of the present invention can also only include groove 902, does not comprise base 901.Groove 902 can adopt detachable or non-removable mode to be fixed on the inner side of closing lid 105, and chip 103 is fixed on the inner side of closing lid 105 by groove 902, with probe 104 butts in groove 902.

Installing rack 106 described in the embodiment of the present invention, is not limited to the embodiment of the present invention and structure shown in the drawings.Installing rack 106 can be a part that forms the closing lid 105 of imaging equipment body 101, or, installing rack 106 can also be by locating hole and imaging equipment body 101 the inner side of closing lid 105 on locating dowel fix, paste projection on the inner side of closing lid 105 of fixing, recess and imaging equipment body 101 is fixed, nut is fixed and be fixed in any one dismountable mode be arranged on closing lid 105 inner sides, then or described installing rack 106 can also be fixed on by non-dismountable modes such as welding the inner side of the closing lid 105 of described imaging equipment body 101.Installing rack 106 is not limited to the structure of base 901 and groove 902, can also only include groove 902, as long as can reach closing lid 105 inner sides that chip 103 are fixed to imaging equipment body 101, guarantees chip 103 and probe 104 good contacts.

Here you need to add is that the installing rack 106 described in the embodiment of the present invention can also be arranged on the inner side of other faces of imaging equipment body 101 except closing lid 105 inner sides.Installing rack 106 can be a part that forms imaging equipment body 101; Or installing rack 106 can also by the locating dowel on the inner side of locating hole and imaging equipment body 101 fix, paste projection on the inner side of fixing, recess and imaging equipment body 101 is fixed, nut is fixed and be fixed in any one dismountable mode be arranged on imaging equipment body 101 inner sides; Again or described installing rack 106 can also be fixed on by non-dismountable modes such as welding the inner side of described imaging equipment body 101.Installing rack 106 is not limited to the structure of base 901 and groove 902, can also only include groove 902, as long as can reach the inner side that chip 103 is fixed to imaging equipment body 101, guarantees chip 103 and probe 104 good contacts.

Chip 103 described in the embodiment of the present invention is not limited to be arranged on closing lid 105 inner sides of imaging equipment body 101, can also be arranged on the inner side of imaging equipment body 101 other faces.Imaging cartridge 102 can also be mounted to imaging equipment body 101 by opening the modes such as top cover or side cover, and top cover or side cover etc. is provided with the probe 104 with chip 103 butts, and chip is arranged at the inner side of top cover or side cover imaging equipment body 101.Chip 103 described in the embodiment of the present invention is not limited to be arranged on the inner side of imaging equipment body 101, can also be arranged on other positions of imaging equipment body, as long as guarantee chip 103 and probe 104 good contacts, all can realize the present invention's object.

Here it should be noted that, chip 103 described in the embodiment of the present invention is arranged on imaging equipment body 101 inner sides, be not limited to chip 103 and be fixedly installed to imaging equipment body 101 inner sides in non-removable modes such as welding, be also not limited to chip 103 with the locating dowel on the inner side of locating hole and imaging equipment body 101, fix, paste projection on the inner side of fixing, recess and imaging equipment body 101 is fixed, nut is fixed and be fixed in any one dismountable mode be fixedly installed to imaging equipment body 101 inner sides.Chip 103 can also, as a part that forms imaging equipment body 101, all can be realized the present invention's object.

Here it should be noted that, chip 103 described in the embodiment of the present invention is arranged on closing lid 105 inner sides of imaging equipment body 101, be not limited to chip 103 and in non-removable modes such as welding, be fixedly installed to closing lid 105 inner sides of imaging equipment body 101, also being not limited to chip 103 fixes with the locating dowel on closing lid 105 inner sides of locating hole and imaging equipment body 101, paste fixing, projection on the inner side of the closing lid 105 of recess and imaging equipment body 101 is fixed, nut fix and be fixed in any one etc. dismountable mode be fixedly installed to closing lid 105 inner sides of imaging equipment body 101.Chip 103 can also, as a part that forms the closing lid 105 of imaging equipment body 101, all can be realized the present invention's object.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (13)

1. an imaging device, comprise: imaging equipment body (101), imaging cartridge (102) and chip (103), described imaging cartridge (102) is removably mounted in described imaging equipment body (101), it is characterized in that, described chip (103) is arranged on described imaging equipment body (101) inner side, and described chip (103) stores the data message of the imaging cartridge (102) that the probe (104) with its butt detects.

2. imaging device according to claim 1, is characterized in that:

Described chip (103) is identical with the number of described imaging cartridge (102), and chip described in each (103) stores the data message of the imaging cartridge (102) that the one group of probe (104) with its butt detects.

3. imaging device according to claim 1, is characterized in that:

Described chip (103) only has one, and the probe butt of described chip (103) and all detection imaging cartridges (102) stores the data message of all imaging cartridges (102).

4. imaging device according to claim 1, is characterized in that:

Described chip (103) has at least two, and the number of described chip (103) is less than the number of described imaging cartridge (102), chip described in each (103) and at least one group of probe butt that detects imaging cartridge (102), store respectively the data message of at least one imaging cartridge (102) that the probe (104) with its butt detects.

5. according to the imaging device described in claim 1-4 any one, it is characterized in that:

Described chip (103) is arranged on the inner side of the closing lid (105) of described imaging equipment body (101), and by opening, described closing lid (105) is dismountable to be arranged in described imaging equipment body (101) described imaging cartridge (102).

6. imaging device according to claim 5, is characterized in that:

Described imaging device also comprises installing rack (106), described installing rack (106) is arranged on the inner side of the closing lid (105) of described imaging equipment body (101), and described chip (103) is arranged on the inner side of the closing lid (105) of described imaging equipment body (101) by described installing rack (106).

7. imaging device according to claim 6, is characterized in that:

Described installing rack (106) comprises groove (902) and base (901), described groove (902) is for fixing described chip (103), and described base (901) is for being fixed on described groove (902) inner side of the closing lid (105) of described imaging equipment body (101).

8. imaging device according to claim 6, is characterized in that:

Described installing rack (106) comprises groove (902), and described groove (902) is for being fixed on described chip (103) inner side of the closing lid (105) of described imaging equipment body (101).

9. according to the imaging device described in claim 6-8 any one, it is characterized in that:

Described installing rack (106) by the locating dowel on the inner side of the closing lid (105) of locating hole and imaging equipment body (101), fix, paste projection on the inner side of closing lid (105) of fixing, recess and imaging equipment body (101) is fixed, nut is fixed and be fixed in any one removably be fixed on the inner side of the closing lid (105) of described imaging equipment body (101).

10. according to the imaging device described in claim 6-8 any one, it is characterized in that:

Described installing rack (106) is fixed on the inner side of the closing lid (105) of described imaging equipment body (101) by the non-dismountable mode of welding.

11. imaging devices according to claim 1, is characterized in that:

Described imaging device also comprises installing rack (106), described installing rack (106) is arranged on the inner side of described imaging equipment body (101), and described chip (103) is arranged on the inner side of described imaging equipment body (101) by described installing rack (106).

12. according to the imaging device described in claim 1-4 any one, it is characterized in that:

Described chip (103) with the locating dowel on the inner side of locating hole and imaging equipment body (101), fix, paste projection on the inner side of fixing, recess and imaging equipment body (101) is fixed, nut is fixed and be fixed in any one removably be fixed on the inner side of described imaging equipment body (101).

13. according to the imaging device described in claim 1-4 any one, it is characterized in that:

Described chip (103) is fixed on the inner side of described imaging equipment body (101) by the non-removable fixed form of welding.