CN110293765B - Ink cartridge assembly and printer - Google Patents

Abstract

The present disclosure provides an ink cartridge assembly and a printer. The ink box component comprises an ink box component and an upper cover component, wherein the upper cover component comprises a cover plate, and at least one ink suction contact pin and an ink tube which are assembled on the cover plate. Each ink suction contact pin penetrates through the cover plate and is connected with a corresponding ink tube, the ink suction contact pin is movably connected with the joint part of the cover plate, and the ink box assembly is provided with an ink box hole corresponding to the ink suction contact pin. The cover plate rotates relative to the ink box assembly and covers the ink box assembly, and each ink suction contact pin can rotate relative to the cover plate and is connected to the ink box hole in a plug-in mode. The ink suction contact pin is movably connected to the cover plate, and in the process that the upper cover assembly rotates relative to the ink box assembly, the ink suction contact pin can rotate relative to the cover plate and is coincident with the axis of the ink box hole, so that the butt joint effect is good.

Description

Ink cartridge assembly and printer

Technical Field

The disclosure belongs to the technical field of typewriters, and relates to an ink box assembly and a printer.

Background

In the related art, an ink supply mode of a printer may employ a continuous ink supply system that connects an ink bottle external to a printing apparatus body with an ink cartridge built in the printing apparatus body using a duct so that ink in the ink bottle can be continuously supplied to the ink cartridge.

The guide tube is detachably connected with the ink box, and in the process of replacing the ink box, the guide tube and the ink box are required to be provided with corresponding docking mechanisms so that the guide tube is connected with the ink box and sealed. In the related art, the ends of the guide pipes are provided with rubber needles, and the rubber needles of the plurality of guide pipes are fixed to the upper cover. The ink cartridges are provided with black ink and color ink, and each ink cartridge is provided with corresponding ink cartridge holes. The upper cover is buckled on the ink box by rotation, and the rubber needle head is inserted into the ink box hole.

Because the rubber needle rotates and is inserted into the ink box hole, the concentricity of the rubber needle and the ink box hole is poor, so that the rubber needle and the ink box hole have damping effect and cannot be completely sealed, and the continuous ink supply system is disabled. In addition, the rubber needle heads are fixed on the upper cover, and the two adjacent rubber needle heads are independently arranged and keep stable relative positions. The rubber needle rotates and is inserted into the ink box hole, and the plurality of rubber needles are mutually interfered and involved, so that the insertion failure is caused; or the assembly precision requirement between the rubber needle head and the ink box is high, and the processing cost is greatly improved.

For example, in the prior art, the docking mechanism of the guide tube and the ink cartridge may be a single pen discrete docking mechanism, i.e., each guide tube is fixedly arranged and correspondingly plugged into the ink cartridge; or the butt joint mechanism of the guide pipe and the ink box can be set as an integrated butt joint mechanism, namely, a plurality of guide pipes are fixedly arranged and are simultaneously inserted into the ink box. The two butt joint structures are complex in structure and high in cost, and are highly dependent on assembly of parts and precision of the parts.

Disclosure of Invention

In view of the foregoing, the present disclosure provides an ink cartridge assembly and a printer.

Specifically, the present disclosure is implemented by the following technical scheme:

according to a first aspect of the embodiments of the present disclosure, there is provided an ink cartridge component, including an ink cartridge component and an upper cover component, where the upper cover component includes a cover plate, at least one ink suction pin assembled on the cover plate, and an ink tube, each ink suction pin penetrates through the cover plate and is connected with a corresponding ink tube, and the joint part of the ink suction pin and the cover plate is movably connected, the ink cartridge component is provided with an ink cartridge hole corresponding to the ink suction pin, the cover plate rotates relative to the ink cartridge component and covers the ink cartridge component, and each ink suction pin can rotate relative to the cover plate and is connected with the ink cartridge hole in a plugging manner.

In an embodiment, the ink sucking pin is rotatably connected with the cover plate and can rotate around a central axis; or the ink sucking contact pin swings along a preset track of the cover plate.

In an embodiment, the ink absorbing pin comprises a pin body, a movable part arranged on the pin body and an ink absorbing hole penetrating through the pin body, wherein a first end of the pin body penetrates through the cover plate and the movable part is movably connected with the cover plate, the ink pipe is connected with the first end of the pin body and is communicated with the ink absorbing hole, and a second end of the pin body can be connected with the ink box hole in a plugging manner so that the ink absorbing hole is communicated with the ink box assembly.

In one embodiment, a swinging space is formed between the movable part and the cover plate; or the contact surface of the movable part and the cover plate is movably connected in a curved surface.

In an embodiment, when the ink sucking pin is connected to the ink box hole in a plugging manner, at least part of the ink sucking pin is abutted against the cover plate.

In an embodiment, the ink absorbing pin further includes an abutting portion protruding from the pin body, and when the ink absorbing pin is connected to the ink box hole in a plugging manner, the abutting portion abuts against the cover plate.

In one embodiment, the ink suction pin is provided with a sealing part, and the sealing part is abutted to the ink box assembly and is in sealing connection with the opening part of the ink box hole.

In one embodiment, the sealing part is provided with a conical surface or an arc-shaped curved surface, and the conical surface or the arc-shaped curved surface is in sealing connection with the opening part of the ink box hole.

In an embodiment, the ink absorbing contact pin is provided with a plug-in connection part, the plug-in connection part is in plug-in connection with the ink box hole, and the outer peripheral wall of the plug-in connection part is in sealing connection with the inner wall surface of the ink box hole.

In an embodiment, the upper cover assembly further includes a fixing piece assembled to the ink absorbing pin, and the fixing piece is located between the ink tube and the cover plate and used for limiting a moving distance of the ink absorbing pin.

In an embodiment, the fixing piece is detachably connected with the ink absorbing pin.

In an embodiment, the cover plate includes a plate body and at least one assembly hole provided in the plate body, and at least a portion of the ink suction pins penetrate through the assembly hole and are movably connected with the plate body.

In an embodiment, the aperture of the assembly hole is larger than the largest outer contour diameter of the ink absorbing pin in the assembly hole.

In an embodiment, at least part of the inner wall of the assembly hole is gradually bent or inclined towards at least one opening direction of the assembly hole, and the ink absorbing pin is connected to the assembly hole in a plugging manner and can swing or rotate along the inner wall surface of the assembly hole.

In an embodiment, the cover plate further comprises a duct groove which is distributed on the plate body at intervals, and the ink tubes are distributed in the duct groove.

In one embodiment, the ink cartridge assembly comprises a first ink cartridge, wherein the first ink cartridge is provided with a black ink accommodating cavity, the ink cartridge hole is provided with one ink cartridge hole and is communicated with the black ink accommodating cavity, and the ink suction contact pin is connected to the ink cartridge hole in a plugging manner and is communicated with the black ink accommodating cavity.

In an embodiment, the ink cartridge assembly comprises a second ink cartridge, wherein the second ink cartridge is provided with at least one color ink accommodating cavity, each color ink accommodating cavity is correspondingly arranged with one ink cartridge hole, and the ink suction contact pin is connected with the ink cartridge hole in a plugging manner and is communicated with the color ink accommodating cavity.

According to a second aspect of embodiments of the present disclosure, there is provided a printer including a printing apparatus main body and the ink cartridge part as described above, the ink cartridge assembly being assembled to a predetermined position of the printing apparatus main body, and the upper cover assembly being pivotally connected to the printing apparatus main body.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

the ink sucking contact pin is movably connected to the cover plate, and in the process that the upper cover assembly rotates relative to the ink box assembly, the ink sucking contact pin can rotate relative to the cover plate and is coincident with the axis of the ink box hole, and the automatic alignment effect of the ink sucking contact pin is good. The ink sucking contact pin rotates relative to the upper cover, the ink sucking contact pin is good in alignment effect with the ink box hole, and the ink sucking contact pin and the ink box hole are good in sealing effect. The ink-absorbing contact pin is movably assembled on the upper cover, and has smart structure and good butt joint effect.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

Fig. 1 is a schematic view showing a structure in which an upper cap assembly is provided to an ink cartridge part of an ink cartridge assembly according to an exemplary embodiment.

Fig. 2 is a schematic view showing a structure in which a cap assembly is separated from a cartridge assembly according to an exemplary embodiment.

Fig. 3 is a schematic cross-sectional view of the cartridge component shown in fig. 1.

Fig. 4 is a schematic cross-sectional structural view of an upper cover assembly at an ink-receptive pin, according to an example embodiment.

Fig. 5 is a schematic cross-sectional structural view of an ink receptive pin, according to an example embodiment.

Fig. 6 is a schematic cross-sectional structure of an ink cartridge assembly according to an example embodiment.

Fig. 7 is a schematic cross-sectional structural view of an ink cartridge assembly having a cartridge hole provided with a snap structure according to an exemplary embodiment.

Fig. 8 is a schematic cross-sectional view of a locking assembly shown locked to a cap assembly according to an exemplary embodiment.

Fig. 9 is an enlarged schematic view of the structure at a in fig. 8.

Fig. 10 is a schematic cross-sectional view illustrating the rotation of the self-locking assembly and the unlocking of the upper cap assembly according to an exemplary embodiment.

Wherein the upper cover assembly 10; a cover plate 11; a fitting hole 111; a duct groove 112; a locking boss 113; a connection portion 1131; an upper boss 1132; a lower boss 1133; unlocking holes 1134; a plate body 114; an ink tube 12; ink sucking pins 13; a needle body 131; a movable portion 132; a sealing portion 133; tapered face 1331; an abutment 134; a plug-in portion 135; ink suction holes 136; a frustum portion 137; a fixing piece 138; an ink cartridge assembly 20; an ink cartridge hole 21; a first ink cartridge 22; a second ink cartridge 23; an ink cartridge main body 24; a cover 25; a guide post portion 251; a mounting portion 252; a cover body 253; a guide 26; a guide surface 261; a guide hole 262; a seal 27; sealing the hole 271; sealing ribs 272; a guide 273; a drop-off preventing portion 274; a self-locking assembly 30; a locking portion 31; an upper elastic part 311; a positive button end 3111; a fixing portion 3112; a lower elastic portion 312; a back-off end 3121; a deformation portion 3122; a fitting portion 3123; a self-locking body 32; a pivot 321; a support portion 322.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present disclosure as detailed in the accompanying claims.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.

It should be understood that although the terms first, second, third, etc. may be used in this disclosure to describe various information, these information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present disclosure. The word "if" as used herein may be interpreted as "at … …" or "at … …" or "responsive to a determination", depending on the context.

As shown in fig. 1 and 2, an ink cartridge component is disclosed in one embodiment. The ink box component comprises an ink box component 20 and an upper cover component 10, wherein the upper cover component 10 comprises a cover plate 11, at least one ink suction contact pin 13 and an ink tube 12, wherein the ink suction contact pin 13 is assembled on the cover plate 11, each ink suction contact pin 13 penetrates through the cover plate 11 and is connected with the corresponding ink tube 12, and the joint part of the ink suction contact pin 13 and the cover plate 11 is movably connected. The ink box assembly 20 is provided with ink box holes 21 corresponding to the ink sucking pins 13, the cover plate 11 rotates relative to the ink box assembly 20 and covers the ink box assembly 20, and each ink sucking pin 13 can rotate relative to the cover plate 11 and is connected with the ink box holes 21 in a plug-in mode.

The ink box component is applied to the printing equipment and prints corresponding text or graphic information according to a built-in program of the printing equipment. In a continuous ink supply system, the ink bottle assembly 20 is adapted to be coupled to an external ink bottle of a printing device to receive and hold ink provided by the ink bottle. Wherein, the ink sucking pin 13 is connected with the ink bottle through the ink tube 12, the ink sucking pin 13 is connected in an inserting way to the ink box assembly 20, so that the ink box assembly 20, the ink sucking pin 13, the ink tube 12 and the ink bottle form a sealed ink circulation channel, and the continuous ink supply system has good continuous working performance.

The upper cover assembly 10 is detachably connected with the ink cartridge assembly 20, and can be conveniently replaced and maintained. The upper cap assembly 10 can rotate relative to the ink cartridge assembly 20 and is capped at a predetermined position of the ink cartridge assembly 20, such that the upper cap assembly 10 is clamped to an upper surface of the ink cartridge assembly 20, etc., so that the upper cap assembly 10 and the ink cartridge assembly 20 maintain a relatively fixed connection position.

One end of each ink sucking pin 13 penetrates through the cover plate 11 and is connected with one ink tube 12, so that the ink in the ink tube 12 can flow into the ink sucking pin 13. The ink suction pin 13 is movably connected to the cover plate 11 and can rotate relative to the cover plate 11, when the other end of the ink suction pin 13 is inserted into the ink box hole 21, the ink suction pin 13 rotates along with the rotation of the cover plate 11, so that the axis of the ink suction pin 13 coincides with the axis of the ink box hole 21, the insertion effect of the ink suction pin 13 is good, and the stress is balanced, so that the outer side wall of the ink suction pin 13 is in sealing connection with the inner wall surface of the ink box hole 21. The assembly mode between the upper cover assembly 10 and the ink box assembly 20 has little influence on the inserting position between the ink suction pin 13 and the ink box hole 21, and is convenient to butt joint and good in sealing effect.

In an alternative embodiment, the ink suction pin 13 is rotatably connected to the cover plate 11 and is rotatable about a central axis. The ink absorbing pin 13 penetrates through the cover plate 11 and is movably connected with the cover plate 11, optionally, an assembly hole 111 is formed in the cover plate 11, and the outer side wall of the ink absorbing pin 13 rotates around the inner wall surface of the assembly hole 111 or has a gap with the inner wall surface of the assembly hole 111, so that the ink absorbing pin 13 can rotate around the axis of the assembly hole 111. Accordingly, the movement range of the ink suction pin 13 is a tapered rotation range.

In an alternative embodiment, the ink absorbing pins 13 oscillate along a predetermined trajectory of the cover plate 11. Optionally, a long groove and other structures are provided on the cover plate 11, and the ink absorbing pin 13 can swing along the long groove to adjust the inserting position between the ink absorbing pin 13 and the ink box hole 21.

As shown in fig. 3 and 4, in an embodiment, the ink absorbing pin 13 includes a pin body 131, a movable portion 132 disposed on the pin body 131, and an ink absorbing hole 136 penetrating through the pin body 131, where a first end of the pin body 131 penetrates through the cover 11 and the movable portion 132 is movably connected with the cover 11. The ink tube 12 is connected to a first end of the needle body 131 and communicates with the ink suction hole 136, and a second end of the needle body 131 can be plug-connected to the ink cartridge hole 21 so that the ink suction hole 136 communicates with the ink cartridge assembly 20.

The movable portion 132 is movably connected to the cover 11, so that the needle body 131 can rotate or swing relative to the cover 11. The first end of the needle body 131 penetrates the cover plate 11 and is connected to the ink tube 12 on the first side of the cover plate 11, and the ink tube 12 can deliver ink into the ink suction hole 136. The second end of the needle body 131 is located on the second side of the cover plate 11, and the ink absorbing hole 136 extends from the first end to the second end. When the second end of the needle body 131 is connected to the ink cartridge assembly 20 in a plugging manner, the ink in the ink suction hole 136 can enter the ink cartridge assembly 20, and the ink transmission channel is smooth.

In an alternative embodiment, the ink absorbing pin 13 further includes a frustum portion 137 disposed at the first end of the needle body 131, the diameter of the conical bottom of the frustum portion 137 is larger than the diameter of the needle body 131, and the opening of the ink absorbing hole 136 is disposed on the conical top or conical surface of the frustum portion 137. Alternatively, the openings of the ink suction holes 136 may be provided in one or more so that the ink can smoothly flow into the ink suction holes 136.

The movable portion 132 is movably connected to the cover 11, and in an alternative embodiment, a swing space is formed between the movable portion 132 and the cover 11. The maximum outer contour diameter of the movable portion 132 is smaller than the inner diameter of the groove or hole on the cover plate 11 so that a swing space is formed between the movable portion 132 and the cover plate 11. The ink sucking pin 13 can rotate or swing in the swinging space, and the ink sucking pin 13 is not in direct contact with the cover plate 11, so that the assembly is convenient.

In an alternative embodiment, the contact surface between the movable portion 132 and the cover plate 11 is a curved surface. Alternatively, a part of the surface of the movable portion 132 is set to be spherical, and the inner wall surface of the fitting hole 111 of the cover plate 11 is set to be a concave curved surface that matches the movable portion 132. The ink suction pin 13 is assembled on the cover plate 11, so that the movable part 132 can rotate relative to the cover plate 11, and the flexible assembly position is rotated and the stability is good.

Of course, the movable connection manner of the movable portion 132 and the cover 11 includes, but is not limited to, the above embodiment, and the ink suction pin 13 and the cover 11 are fixed by other connectors, so that the relative rotation of the two is also within the scope of the present invention.

As shown in fig. 4 and 5, in an embodiment, when the ink absorbing pin 13 is plug-connected to the ink cartridge hole 21, at least part of the ink absorbing pin 13 abuts against the cover plate 11. The second end of the ink suction pin 13 is connected with the ink box assembly 20 in a plugging manner, and a reverse acting force is arranged between the ink box assembly 20 and the ink suction pin 13. When the ink sucking pin 13 is in contact connection with the cover plate 11, the ink sucking pin 13 abuts against the cover plate 11 through the movable part 132, so as to eliminate the reverse acting force.

When the ink sucking pin 13 is not in direct contact with the cover plate 11, the ink sucking pin 13 partially protrudes and abuts against the cover plate 11 to eliminate the directional force. In an alternative embodiment, the ink absorbing pin 13 further includes an abutting portion 134 protruding from the pin body 131, and when the ink absorbing pin 13 is connected to the ink cartridge hole 21 in a plugging manner, the abutting portion 134 abuts against the cover plate 11, so that the ink absorbing pin 13 is connected to the ink cartridge assembly 20 in a plugging manner.

The contact portion 134 is formed by partially protruding from the outer peripheral wall of the needle body 131, the ink suction pin 13 moves under the friction force of the ink suction hole 136 until the contact portion 134 abuts against the cover plate 11, then the ink suction pin 13 is inserted into the ink suction hole 136 under the pushing force of the cover plate 11 abutting against the contact portion 134, and the supporting force of the ink suction pin 13 is large. The abutting portion 134 defines an upward-moving engagement position between the ink suction pin 13 and the cover plate 11, and the insertion accuracy of the ink suction pin 13 is high.

In an alternative embodiment, the abutment 134 is provided in a circular plate-like convex structure, and the outer contour diameter of the abutment 134 is larger than the inner diameter of the fitting hole 111. The abutting portion 134 is located between the first end and the second end and abuts against the second side plane of the cover plate 11, so that the distance between the cover plate 11 and the ink cartridge assembly 20 is kept at a preset distance, and the accuracy of the insertion depth of the ink suction pin 13 is high.

In one embodiment, the ink suction pin 13 at least partially abuts the cartridge assembly 20 and is sealingly connected to the cartridge aperture 21. The ink suction pin 13 is inserted into the ink cartridge assembly 20 so that the ink suction hole 136 communicates with the ink cartridge assembly 20. Further, the ink suction pin 13 abuts against the ink box assembly 20, so that the ink suction pin 13 is in sealing connection with the ink box assembly 20, on the basis of positioning the insertion depth of the ink suction pin 13 into the ink box assembly 20, the tightness between the ink suction pin 13 and the ink box hole 21 is maintained, the positioning accuracy is high, and the sealing effect is good.

In an alternative embodiment, the ink absorbing pin 13 is provided with a sealing part 133, and the sealing part 133 abuts against the ink cartridge assembly 20 and is in sealing connection with the opening part of the ink cartridge hole 21. Alternatively, the sealing part 133 is provided as a bead structure such as an annular bead, a plate-like bead, or the like formed to protrude partially from the surface of the needle body 131. Alternatively, the sealing portion 133 is provided as a step surface of the ink absorbing pin 13, that is, the ink absorbing pin 13 is provided as a step shaft-like structure, and the sealing portion 133 is provided as a step surface position of the step shaft. Of course, the structure of the sealing portion 133 includes, but is not limited to, the above-described embodiment, and other positioning structures may be employed. The sealing part 133 is abutted against the ink cartridge assembly 20, so that the second end of the ink suction pin 13 is inserted into the preset depth of the ink cartridge assembly 20, and the insertion precision is high. The sealing portion 133 abuts against the opening portion of the ink cartridge hole 21 to realize sealing connection of the contact portion, and the sealing effect is good. Alternatively, the opening portion of the cartridge hole 21 is provided with an elastically deformed portion such as a seal ring or the like.

In an alternative embodiment, the sealing portion 133 is provided with a tapered surface 1331 or an arc-shaped curved surface, and the tapered surface 1331 or the arc-shaped curved surface is in sealing connection with the opening portion of the ink cartridge hole 21. The contact surface between the sealing portion 133 and the opening portion of the ink cartridge hole 21 is a tapered surface 1331 or an arc-shaped curved surface, and the guiding effect and the sealing effect are good.

In one embodiment, the ink absorbing pin 13 is provided with a plug-in portion 135, the plug-in portion 135 is plug-in connected to the ink cartridge hole 21, and the outer peripheral wall of the plug-in portion 135 is in sealing connection with the inner wall surface of the ink cartridge hole 21.

The plug-in part 135 is arranged at the tail end of the ink suction contact pin 13, the outer peripheral wall of the plug-in part is in sealing connection with the inner wall surface of the ink box hole 21, and the ink in the ink box assembly 20 is prevented from flowing out along the contact part of the plug-in part and the ink box assembly, so that the sealing effect is good. Alternatively, the plug portion 135 is protruded from the sealing portion 133, and forms a stepped shaft structure with the sealing portion 133.

In one embodiment, the upper cover assembly 10 further includes a fixing piece 138 mounted to the ink suction pin 13, and the fixing piece 138 is located between the ink tube 12 and the cover plate 11 to limit the moving distance of the ink suction pin 13.

The ink sucking pin 13 is movably connected with the cover plate 11, and optionally, the ink sucking pin 13 can move on the cover plate 11 along the axis direction of the ink sucking pin. The fixing piece 138 capable of abutting against the cover plate 11 is arranged in the moving direction of the ink sucking pin 13, and the fixing piece 138 can keep the ink sucking pin 13 assembled on the cover plate 11 and can further enable the ink sucking pin 13 to have a larger moving range. Alternatively, the fixing piece 138 and the abutting portion 134 are respectively located at two sides of the cover plate 11, and respectively define a downward moving height and an upward moving height of the ink sucking pin 13.

In an alternative embodiment, the fixing piece 138 is detachably connected to the ink absorbing pin 13. For example, the fixing piece 138 may be a snap ring structure, a U-shaped piece, a pin or other component that is fixed to the ink absorbing pin 13. Optionally, the ink absorbing pin 13 is provided with a positioning slot matching the fixing piece 138 to define the mounting position of the fixing piece 138.

In one embodiment, the cover 11 includes a plate body 114 and at least one assembly hole 111 provided in the plate body 114, and at least part of the ink suction pins 13 pass through the assembly hole 111 and are movably connected with the plate body 114. The ink absorbing pins 13 are assembled to the plate body 114, the plate body 114 is provided with the same number of assembly holes 111 as the ink absorbing pins 13, and the positions of the assembly holes 111 correspond to the positions of the ink cartridge holes 21. When the plate body 114 is covered on the ink cartridge assembly 20, the ink absorbing pin 13 rotates relative to the plate body 114 and is connected with the ink cartridge hole 21 in a plug-in manner.

In an alternative embodiment, the aperture of the mounting hole 111 is larger than the largest outer diameter of the ink absorbing pin 13 located within the mounting hole 111. A rotation space or a swing space is provided between the fitting hole 111 and the ink absorbing pin 13 so that the ink absorbing pin 13 can rotate relative to the plate body 114 during insertion into the ink cartridge hole 21.

In an alternative embodiment, at least part of the inner wall of the fitting hole 111 is gradually curved or inclined toward at least one opening direction of the fitting hole 111, and the ink absorbing pin 13 is plug-connected to the fitting hole 111 and can swing or rotate along the inner wall surface of the fitting hole 111. The ink suction pin 13 is inserted into the fitting hole 111, and the diameter of the inner wall surface of the fitting hole 111 gradually increases in the opening direction. Alternatively, the fitting hole 111 is circular, which is formed by turning around an axis a cross section having a "C" shape, a "V" shape, and other shapes. Alternatively, the inner wall surface of the fitting hole 111 is provided in a tapered or horn-like structure. The ink absorbing pin 13 is fitted to the fitting hole 111 and can swing or rotate around the fitting hole 111 to facilitate the abutting of the ink absorbing pin 13 with the ink cartridge assembly 20.

In an alternative embodiment, the cover 11 further includes duct slots 112 spaced apart from the plate body 114, and the ink tubes 12 are distributed in the duct slots 112. The ink tubes 12 are disposed on one side of the cover plate 11, and a plurality of tube slots 112 are provided in the plate body 114, the tube slots 112 being capable of spacing the ink tubes 12 and providing support for the ink tubes 12. In the rotating process of the upper cover assembly 10, the ink tube 12 is limited on the cover plate 11, so that the movement stability is good, and the continuous supply effect is good.

As shown in fig. 1 and 2, in one embodiment, the ink cartridge assembly 20 includes a first ink cartridge 22, the first ink cartridge 22 being provided with a black ink receiving chamber. The ink box hole 21 is provided with one and is communicated with the black ink accommodating cavity, and the ink sucking contact pin 13 is connected with the ink box hole 21 in a plugging manner and is communicated with the black ink accommodating cavity. The first ink cartridge 22 is provided with a black ink accommodating chamber accommodating ink, such as ink of black or other colors. The first ink cartridge 22 is provided with an ink cartridge hole 21 communicating with the black ink accommodating chamber, and correspondingly, the upper cap assembly 10 is provided with an ink suction pin 13. When the upper cover assembly 10 is covered on the ink box assembly 20, the ink absorbing pin 13 is connected to the ink box hole 21 in a plugging manner and is communicated with the black ink accommodating cavity, so that the external ink bottle can provide ink to the black ink accommodating cavity through the ink tube 12 and the ink absorbing pin 13.

In one embodiment, the ink cartridge assembly 20 includes a second ink cartridge 23, the second ink cartridge 23 having at least one color ink receiving cavity. Each color ink accommodating cavity is correspondingly arranged with one ink box hole 21, and the ink suction pin 13 is connected with the ink box hole 21 in a plugging manner and communicated with the color ink accommodating cavity.

The second ink cartridge 23 is provided with at least one color ink containing chamber containing ink, such as a color ink containing chamber for containing black ink or other color ink. The second ink cartridge 23 is provided with an ink cartridge hole 21 communicating with the color ink accommodating chamber, and correspondingly, the upper cover assembly 10 is provided with an ink sucking pin 13. When the upper cover assembly 10 is covered on the ink box assembly 20, the ink absorbing pin 13 is connected to the ink box hole 21 in a plugging manner and is communicated with the color ink accommodating cavity, so that the external ink bottle can provide ink to the color ink accommodating cavity through the ink tube 12 and the ink absorbing pin 13.

For example, the second ink cartridge 23 is provided with three color ink accommodating chambers and three cartridge holes 21, each cartridge hole 21 communicating with one color ink accommodating chamber. Accordingly, the upper cap assembly 10 is provided with three ink suction pins 13, each ink suction pin 13 being connected to a corresponding ink bottle by an ink tube 12. Alternatively, each color ink containing chamber is used for containing ink of one color, so that the second ink cartridge 23 can output ink of a plurality of colors.

In an alternative embodiment, the first ink cartridge 22 and the second ink cartridge 23 are provided independently. In an alternative embodiment, the first ink cartridge 22 and the second ink cartridge 23 are provided as a unitary structure.

The ink cartridge assembly 20 used in the ink cartridge component and the printing apparatus provided in the above embodiments may be a common ink cartridge assembly 20 having an ink cartridge hole 21, or may be a new ink cartridge assembly 20 provided in the following embodiments, where the outer dimensions of the two ink cartridge assemblies 20 are the same, so as to improve the compatibility of the ink cartridge assemblies 20.

As shown in fig. 6, in an embodiment, the ink cartridge assembly 20 includes an ink cartridge main body 24 and a cover body 25 covering the ink cartridge main body 24, the ink cartridge main body 24 is provided with at least one accommodating chamber accommodating the corresponding ink, the accommodating chamber is a color ink accommodating chamber or a black ink accommodating chamber provided in the above embodiment, and the cover body 25 is provided with an ink cartridge hole 21 correspondingly communicating with each accommodating chamber. The ink cartridge assembly 20 further includes a guide member 26 fixedly disposed on the cover 25, the seal member 27 is disposed in the ink cartridge hole 21 and has a seal hole 271 passing therethrough, and the guide member 26 is disposed at the opening of the ink cartridge hole 21 and surrounds the seal hole 271.

The cover 25 is disposed at the opening of the accommodating chamber of the ink cartridge body 24, so that the accommodating chamber forms a closed space. The cartridge hole 21 penetrates the cover 25 and communicates with the accommodating chamber so that the accommodating chamber is connected to the outside through the cartridge hole 21. Specifically, the ink absorbing pin 13 is connected with the ink box hole 21 in a plugging manner, so that the external ink bottle can convey ink into the accommodating cavity through the ink absorbing pin 13.

The cover 25 is fitted with a seal 27 and a guide 26, the guide 26 extending from the upper surface of the cover 25 to one end of the seal 27, and the guide 26 surrounding a seal hole 271 of the seal 27. In the process of inserting the ink sucking pin 13 into the ink box assembly 20, the ink sucking pin 13 is inserted into the sealing hole 271 through the guide of the guide piece 26, so that the sealing piece 27 is in sealing connection with the outer wall surface of the ink sucking pin 13, and the abutting effect is good. In an alternative embodiment, the seal 27 is made of an elastic material and the guide 26 is made of a rigid material. For example, the seal member 27 is made of an elastic material such as rubber, TPU (Thermoplastic polyurethanes, thermoplastic polyurethane elastomer rubber) or the like.

In one embodiment, the sealing member 27 is provided with at least one sealing rib 272, and the at least one sealing rib 272 protrudes from the inner wall of the sealing hole 271 toward the center. In an alternative embodiment, the sealing bead 272 has an annular configuration. In an alternative embodiment, the sealing bead 272 is helical and provided with a break protrusion on the path or end of the helix.

The sealing ribs 272 are arranged at the inner side hole wall of the sealing hole 271 in a protruding mode at intervals, the ink sucking contact pins 13 are connected to the sealing hole 271 in a plug-in mode, a plurality of sealing positions which are distributed at intervals are formed between the inner side hole wall of the sealing hole 271 and the outer wall surface of the ink sucking contact pins 13, and sealing effect between the sealing piece 27 and the ink sucking contact pins 13 is improved.

For example, three annular sealing ribs 272 are provided on the sealing member 27, and the three sealing ribs 272 are spaced apart by a predetermined distance. The ink sucking pins 13 are inserted into the sealing holes 271, a sealing part is formed between each sealing convex rib 272 and the peripheral wall of the ink sucking pin 13, and a groove-shaped space is formed between two adjacent sealing convex ribs 272 to accommodate part of ink, so that the further leakage of the ink is avoided, and the sealing effect is good.

Optionally, the sealing bead 272 is helical and is provided with a shut-off protrusion on the path or end of the helix. The sealing rib 272 has a spiral structure, and can form an inclined sealing surface with the ink suction pin 13. The partition protrusions are arranged on the paths of the spiral lines, so that ink is partitioned between two adjacent partition protrusions, and the sealing effect is good. The sealing convex rib 272 is obliquely arranged, so that the plug connection of the ink suction plug pins 13 can be facilitated, and the guiding effect is good.

In an alternative embodiment, the top of the sealing bead 272 is provided with an arcuate curved surface or a pointed configuration. The sealing convex rib 272 is provided with an arc-shaped curved surface, and when the ink suction contact pin 13 is connected to the sealing hole 271 in a plug-in connection mode, the sealing convex rib 272 can be extruded to elastically deform, and the sealing effect is good. The top of the sealing convex rib 272 is in a sharp angle structure, when the ink suction pin 13 is connected to the sealing hole 271 in a plugging manner, the sealing convex rib 272 bends along with the moving direction of the ink suction pin 13 and is attached to the surface of the ink suction pin 13, so that a sealing part 133 is formed, and the sealing effect is good.

In one embodiment, the sealing member 27 is provided with a guide portion 273 coaxial with the sealing hole 271, and the guide member 26 extends to the guide portion 273. In an alternative embodiment, the pilot 273 is configured to intersect to the tapered or arcuate surface of the seal bore 271.

The guide portion 273 is provided at an end of the sealing member 27, and the guide member 26 is fitted to the cover 25 and intersects the guide portion 273. The guide 26 is abutted against the guide portion 273 so that the joint portions of the both are brought into close contact, and the end position of the guide 26 can be positioned and the position of the guide 26 can be kept stable. The ink suction pin 13 is smooth in the process of inserting the sealing member 27 along the guiding member 26, and the guiding effect is good. The guide portion 273 is formed in a tapered surface or an arc surface, so that the ink suction pin 13 can be further guided to coincide with the axis of the seal hole 271, and the abutting effect is good.

In one embodiment, the sealing member 27 is provided with a drop-preventing portion 274 extending to the accommodation chamber, and an inner diameter of the drop-preventing portion 274 is gradually enlarged from an inner wall of the sealing hole 271 toward an opening direction of the sealing hole 271. The drop-off preventing portion 274 is provided at the other end of the seal member 27, and extends toward the inside of the accommodation chamber of the ink cartridge main body 24. The inner wall surface of the anti-drop portion 274 may be formed as a tapered surface or an arc-shaped curved surface, so that when the ink suction pin 13 is pulled out of the ink cartridge hole 21, the resistance of the seal member 27 to the ink suction pin 13 is reduced, and the seal member 27 is prevented from rolling up.

As shown in fig. 6 and 7, in one embodiment, the manner of connecting the seal 27 to the cover 25 includes one or more of the following:

a. the seal 27 is attached to the cover 25 by an adhesive. The sealing member 27 is adhesively bonded to a predetermined position of the inner wall surface of the cartridge hole 21 by an adhesive so that the ink suction pin 13 can be sealingly connected to the sealing member 27 when inserted into the cartridge hole 21.

b. The seal 27 is snap-fitted to the cover 25. A snap structure, such as a catch, a hook, etc., is provided at a predetermined position of the inner wall surface of the ink cartridge hole 21, and the sealing member 27 is fitted to the ink cartridge hole 21 and fixed to the snap structure so that the sealing member 27 is fixed to the predetermined position of the ink cartridge hole 21. In an alternative embodiment, the cover 25 includes at least one reinforcing rib protruding from the inner wall surface of the ink cartridge hole 21, and the sealing member 27 is attached to the inner wall surface of the ink cartridge hole 21 and the surface of the reinforcing rib.

c. The seal 27 is integrally formed with the cover 25. The seal 27 may be molded into the cartridge aperture 21 by a secondary molding process or other molding process with good results.

Of course, the connection between the seal member 27 and the cover 25 is not limited to the above connection, and may be fixed by a combination of the above connection and other connection. For example, the sealing member 27 is snap-fitted to the cover 25 and the joint strength of the both is further enhanced by an adhesive.

In one embodiment, the guide 26 is provided with a guide hole 262, and the aperture of the guide hole 262 gradually decreases from one end of the surface of the cover 25 toward the seal 27. In an alternative embodiment, the inner wall surface of the guide hole 262 is provided as a curved surface or a tapered surface.

The guide 26 is provided as a rigid structural member fixed to the cover 25, wherein the hole of the guide hole 262 is gradually reduced in the direction of the seal 27 to form a guide surface 261. In the process of inserting the ink sucking pin 13 into the ink cartridge hole 21, the end portion of the ink sucking pin 13 slides along the inner wall surface of the guide hole 262 and is centered, so that the inserting direction of the ink sucking pin 13 is parallel to the axial direction of the ink cartridge hole 21, and the abutting effect is good. The guide hole 262 is a taper hole or a horn hole, is convenient to process, and can effectively guide the inserting direction of the ink suction pin 13.

In one embodiment, the cover 25 includes a cover body 253 and a guide post 251 protruding from the cover body 253, and the ink cartridge hole 21 penetrates the cover 25 and the guide post 251. The seal 27 is fixed to the inner wall surface of the cartridge hole 21 and extends toward the end of the guide post 251, and the guide 26 is fixed to the cover 25 and extends toward the seal 27. The pillar portion 251 is formed to protrude partially from the surface of the cover main body 253 so that the thickness of the cover 25 at the pillar portion 251 increases. The cartridge hole 21 penetrates the cover main body 253 and the guide post portion 251 to increase the mounting area of the inner wall surface of the cartridge hole 21. The seal 27 is mounted at the inner wall surface of the column part 251, alternatively, an end of the seal 27 is located within the column part 251. Alternatively, the end of the seal 27 protrudes beyond the end of the post 251.

In an alternative embodiment, the cover 25 is provided with a mounting portion 252 formed recessed from the surface, the ink cartridge hole 21 is located at the bottom of the mounting portion 252, and the guide 26 is located within the mounting portion 252.

The mounting portion 252 and the ink cartridge hole 21 have a stepped hole structure, and the guide member 26 is mounted at the mounting portion 252 to reduce the height of the guide member 26 protruding from the surface of the cover 25, so as to improve the aesthetic appearance and assembly convenience of the ink cartridge assembly 20. Alternatively, the mounting portion 252 is provided coaxially with the cartridge hole 21, improving accuracy of the guide portion assembly.

The accommodation chambers of the cartridge bodies 24 may accommodate ink, and each cartridge body 24 may be provided with one or more accommodation chambers. When the cartridge body 24 is provided with a plurality of accommodating chambers, each accommodating chamber may be provided with ink of a different color. In an alternative embodiment, the ink cartridge body 24 includes three accommodation chambers arranged at intervals, and the cover 25 is provided with ink cartridge holes 21 in one-to-one correspondence with the accommodation chambers.

The ink cartridge assembly 20 provided in the above-described embodiments is applied to an ink cartridge part such that the ink cartridge assembly 20 forms part of a continuous ink supply system.

As shown in fig. 2 and 6, in an embodiment, the cartridge part includes the upper cap assembly 10 and the cartridge assembly 20 provided as the above embodiment, the upper cap assembly 10 is provided with the ink suction pins 13 corresponding to the cartridge holes 21 of the cartridge assembly 20. The upper cover assembly 10 rotates relative to the ink cartridge assembly 20 and covers the ink cartridge assembly 20, the ink sucking pin 13 is connected to the seal hole 271 along the guide 26 in a plug-in manner, and the seal 27 is connected to the outer peripheral wall of the ink sucking pin 13 in a seal manner.

The upper cover assembly 10 and the ink suction pin 13 can be movably connected or fixedly connected as disclosed in the above embodiment. For example, the ink sucking pin 13 and the upper cover assembly 10 are integrally formed or the ink sucking pin 13 is fixedly arranged on the upper cover assembly 10, so that the ink sucking pin 13 is inserted into the ink box hole 21 of the ink box assembly 20 and is in sealing connection with the contact part of the ink box assembly 20 when the upper cover assembly 10 is covered on the ink box assembly 20.

In an alternative embodiment, the ink absorbing pin 13 is provided with a plug portion 135 and a sealing portion 133 protruding from the plug portion 135, the plug portion 135 is plug-connected to the sealing hole 271, the sealing portion 133 abuts against the guide 26, and the outer peripheral wall of the plug portion 135 is seal-connected to the inner wall surface of the ink cartridge hole 21.

The plug-in part 135 and the sealing part 133 form a step structure, the plug-in part 135 is inserted into the sealing hole 271 until the sealing part 133 abuts against the guide 26, the plug-in part 135 is plugged to a preset depth, and the positioning accuracy is high. The sealing member 27 is tightly fixed on the outer peripheral wall of the plug-in connection portion 135 to form a circumferential sealing portion 133, so that the liquid in the accommodating cavity is prevented from flowing out of the ink cartridge assembly 20, and the sealing effect is good. The sealing portion 133 abuts against the guide 26, and optionally, the sealing portion 133 is in sealing connection with the guide 26, realizing a multi-seal structure, maintaining the sealability of the conveying channel of the continuous ink supply system.

The ink cartridge unit disclosed in the above embodiments is applied to a printing apparatus so that the printing apparatus can continuously print. In one embodiment, the printer includes a printing apparatus main body and the ink cartridge unit provided in the above embodiment, the ink cartridge assembly 20 is assembled at a predetermined position of the printing apparatus main body, and the upper cover assembly 10 is pivotally connected to the printing apparatus main body.

The ink cartridge assembly 20 is assembled at a printing position of the printing apparatus main body, and the upper cover assembly 10 is pivotally connected to the printing apparatus main body and can relatively rotate along the pivot portion, so that the upper cover assembly 10 covers the ink cartridge assembly 20 and the ink absorbing pin 13 is inserted into the ink cartridge assembly 20. In an alternative embodiment, ink bottles are mounted to the printing device body and connected to the ink tubes 12 to form a continuous ink supply system for ease of printing.

As shown in fig. 8 and 9, the ink cartridge part disclosed in the above embodiment is applied to a printing apparatus, and the upper cap assembly 10 is cap-provided on the ink cartridge assembly 20 so that the upper cap assembly 10 is correspondingly connected with the ink cartridge assembly 20. In one embodiment, the cartridge assembly further includes a self-locking assembly 30, and the upper cap assembly 10 is provided with a boss-like locking boss 113. When the upper cover assembly 10 is covered on the ink cartridge assembly 20, the self-locking assembly 30 is connected to the locking boss 113 in a snap-fit manner, and the upper cover assembly 10 is locked on the ink cartridge assembly 20.

The self-locking assembly 30 is in snap connection with the locking boss 113, and the self-locking assembly 30 is at least partially elastically deformed and is clamped on the locking boss 113 under the action of elastic force so as to limit the opening of the upper cover assembly 10. The self-locking assembly 30 locks the upper cover assembly 10 on the ink cartridge assembly 20, so as to prevent the upper cover assembly 10 from moving relative to the ink cartridge assembly 20, and the sealing portion 133 of the upper cover assembly 10 and the ink cartridge assembly 20 is in contact with a sealing state, such as a gap is formed at the sealing portion 133 between the ink suction pin 13 and the ink cartridge hole 21, which affects the sealing performance of the ink conveying path. In addition, the self-locking assembly 30 is connected to the locking boss 113 in a snap-fit manner, so that the problem that the printing equipment is broken down due to the fact that a user directly opens the upper cover assembly 10 can be avoided, and the use continuity of the printing equipment is improved.

As shown in fig. 8 and 10, in one embodiment, the self-locking assembly 30 is rotatable about an axis of rotation and snap-connects with the locking boss 113. The self-locking assembly 30 is rotationally locked to the upper cover assembly 10. In an alternative embodiment, the upper cover assembly 10 is pivotally connected to the main body of the printing apparatus, and can rotate around a rotation axis and cover the ink cartridge assembly 20, and the self-locking assembly 30 is pivotally connected to the main body of the printing apparatus, and can rotate around a rotation axis and is snap-connected to the upper cover assembly 10. In an alternative embodiment, the rotational axis of the upper cover assembly 10 is parallel to the rotational axis of the upper cover assembly 10. In an alternative embodiment, the upper cap assembly 10 is rotatably capped to the ink cartridge assembly 20 about an axis of rotation, and the axis of rotation of the self-locking assembly 30 is inclined or perpendicular to the axis of rotation of the upper cap assembly 10. The self-locking assembly 30 rotates relative to the ink cartridge assembly 20 and is connected to the locking boss 113 in a tangential snap-fit manner, and locking of the self-locking assembly 30 is facilitated. The self-locking assembly 30 is rotatably connected relative to the ink cartridge assembly 20 and the upper cover assembly 10, and has little influence on the functions of the ink cartridge components, and the required space is small.

In an alternative embodiment, the self-locking assembly 30 is snap-fit to opposite sides of the locking boss 113. In an alternative embodiment, the self-locking assembly 30 is hooked on opposite sides of the locking boss 113.

The self-locking assembly 30 is in snap connection with the locking boss 113, so that the clamping position between the self-locking assembly 30 and the locking boss 113 is high in accuracy. The self-locking components 30 are hooked on the two sides of the locking boss 113, and the locking effect of the self-locking components 30 on the locking boss 113 is good. For example, the self-locking assembly 30 is provided as two elastic pieces, and the two elastic pieces are respectively elastically hooked or abutted against two opposite sides of the locking boss 113. The user can release the locking of the locking boss 113 by the self-locking assembly 30 by prying the elastic piece on one side through a special tool, so that the user is prevented from opening the upper cover assembly 10 by accident.

As shown in fig. 8 and 9, in an embodiment, the locking boss 113 includes a connection portion 1131 protruding from an edge of the upper cover assembly 10, an upper boss 1132 and a lower boss 1133 protruding toward two sides of the connection portion 1131, and the self-locking assembly 30 is hooked on the upper boss 1132 and the lower boss 1133.

The coupling portion 1131 is formed in a boss structure formed by partially protruding from the main body portion of the cap up assembly 10, and has a cross section similar to a "T" or "Y" shape. During the process of abutting the self-locking assembly 30 to the locking boss 113, part of the self-locking assembly 30 abutting the locking boss 113 is elastically deformed, so that the locking boss 113 can be inserted into the self-locking assembly 30 until the self-locking assembly 30 abuts against the upper boss 1132 and/or the lower boss 1133, and the self-locking assembly 30 is elastically reset and elastically abuts against or barbs on the upper boss 1132 and/or the lower boss 1133.

In an embodiment, the self-locking assembly 30 includes a self-locking body 32 and a locking portion 31 disposed on the self-locking body 32, the self-locking body 32 abuts against an end portion of the locking boss 113, and the locking portion 31 is in snap connection with two sides of the locking boss 113. The self-locking body 32 can rotate around the rotation axis and is abutted against the end of the locking boss 113, so as to position the clamping position of the locking portion 31 and the locking boss 113. At least part of the locking parts 31 are elastically deformed and are connected to the two sides of the locking boss 113 in a buckling manner, so that the clamping accuracy is high.

In an alternative embodiment, the locking portion 31 includes an upper elastic portion 311 and a lower elastic portion 312 disposed opposite to the upper elastic portion 311, and a clamping space is formed between the upper elastic portion 311 and the lower elastic portion 312. The locking boss 113 is inserted into the clamping space, at least one of the upper elastic portion 311 and the lower elastic portion 312 is elastically deformed, and both are respectively clamped at both sides of the locking boss 113.

The self-locking assembly 30 rotates about the rotational axis to move the locking portion 31 and abut against the locking boss 113. During the process of inserting the locking boss 113 into the clamping space, at least one of the upper elastic portion 311 and the lower elastic portion 312 is elastically deformed, so that the other is clamped at one side of the locking boss 113. When the self-locking body 32 abuts against the end of the locking boss 113, at least one of the upper elastic portion 311 and the lower elastic portion 312 elastically abuts against the other side of the locking boss 113, so that an elastic pre-tightening force is formed between the locking assembly and the locking boss 113, and the clamping effect is good.

For example, the upper elastic portion 311 is hooked on the upper boss 1132, and the lower elastic portion 312 is elastically deformed and hooked on the lower boss 1133, so that the upper elastic portion 311 and the lower elastic portion 312 form an abutting structure on two sides of the locking boss 113, and the locking effect is good. In the case of disassembly without special tools, the self-locking assembly 30 is always locked on the upper cover assembly 10, and the upper cover assembly 10 and the ink cartridge assembly 20 are firmly locked.

In an alternative embodiment, the upper elastic portion 311 and the lower elastic portion 312 are respectively hooked on two sides of the locking boss 113. The ends of the upper elastic part 311 and the lower elastic part 312 are respectively provided with a barb-shaped structure, the locking boss 113 extrudes the upper elastic part 311 and the lower elastic part 312 to elastically deform, and the upper elastic part 311 and the lower elastic part 312 are hooked on the two sides of the locking boss 113, so that the locking of the locking boss 113 is firm.

As shown in fig. 8 and 9, in an alternative embodiment, the upper elastic portion 311 includes a fixing portion 3112 fixed to the self-locking body 32 and a positive engagement end 3111 protruding obliquely from the fixing portion 3112, and the positive engagement end 3111 is hooked to the locking boss 113. The upper elastic portion 311 protrudes obliquely from the self-locking body 32 and enables the positive fastening end 3111 to be hooked on the locking boss 113, and the hooking position is stable. Optionally, the upper elastic portion 311 is integrally formed with the self-locking body 32. Optionally, the upper elastic portion 311 is provided as a metal elastic sheet fixed to the self-locking body 32.

In an alternative embodiment, the lower elastic portion 312 includes an assembling portion 3123 fixed to the self-locking body 32, a deformation portion 3122 extending obliquely from the assembling portion 3123, and a back-fastening end 3121 formed by bending from the end of the deformation portion 3122, wherein the back-fastening end 3121 is hooked to the locking boss 113 under the elastic force of the deformation portion 3122.

The deformation portion 3122 is inclined and bent outward, and the end of the deformation portion 3122 is bent to form the back-fastening end 3121, so that the deformation portion 3122 and the back-fastening end 3121 form an approximately L-shaped or V-shaped structure. During the process of fastening the self-locking assembly 30 to the locking boss 113, the back-fastening end 3121 abuts against the locking boss 113 and elastically deforms the deformation portion 3122 until the locking boss 113 is inserted into the clamping space, and the back-fastening end 3121 is back-fastened to the locking boss 113. Optionally, the lower resilient portion 312 is integrally formed with the self-locking body 32. Optionally, the lower elastic portion 312 is provided as a metal spring sheet fixed to the self-locking body 32.

In an alternative embodiment, the self-locking body 32 is provided with a support portion 322, which support portion 322 is located in the clamping space. The locking portion 31 is connected to the locking boss 113 in a snap-fit manner, the supporting portion 322 abuts against the end portion of the locking boss 113, and a structure is formed in which the locking boss 113 is positioned by three points of the upper elastic portion 311, the lower elastic portion 312 and the supporting portion 322, so that locking accuracy of the locking boss 113 is further improved.

In an alternative embodiment, the connection portion 1131 is provided with an unlocking hole 1134, and the ink cartridge component further includes an unlocking member, where the unlocking member passes through the unlocking hole 1134 and pushes part of the self-locking assembly 30 to elastically deform, so as to unlock the lower boss 1133 from the self-locking assembly 30. Alternatively, the unlocking member is a special tool for unlocking the locking portion 31 from the locking boss 113, for example, the unlocking member is configured as a pin, a crowbar, or the like.

The upper elastic portion 311 and the lower elastic portion 312 are connected to the locking boss 113 in a snap-fit manner, wherein the front fastening end 3111 abuts against an intersection between the upper boss 1132 and the connecting portion 1131, and the back fastening end 3121 abuts against an intersection between the lower boss 1133 and the connecting portion 1131 under the elastic force of the deformation portion 3122. The unlocking member passes through the unlocking hole 1134 and pushes the anti-buckling end 3121 and the deformation portion 3122 to elastically deform, so that the lower elastic portion 312 is separated from the lower boss 1133, and then the self-locking body 32 is rotated to separate the upper elastic portion 311 from the upper boss 1132.

In an alternative embodiment, as shown in fig. 10, the self-locking assembly 30 further includes a pivot shaft 321 provided on the self-locking body 32, and the self-locking assembly 30 can rotate around the pivot shaft 321 and be connected to the upper cover assembly 10 in a snap-fit manner. The pivot 321 and the locking portion 31 are spaced apart from each other and distributed on the self-locking body 32, and the self-locking assembly 30 rotates around the pivot 321 and abuts against the upper cover assembly 10, so that the locking portion 31 is connected to the upper cover assembly 10 in a snap-fit manner. Alternatively, the self-locking body 32 is provided in a plate-shaped structure, the pivot 321 is provided at an end of the self-locking body 32 and protrudes to both sides, and the locking portion 31 is provided at one side surface of the self-locking body 32. Alternatively, the pivot 321 is integrally formed with the self-locking body 32; or pivot 321 is fixedly coupled to self-locking body 32.

The ink cartridge component with the self-locking assembly 30 in the above embodiment is applied to a printing device, where the upper cover assembly 10 may be configured such that the ink suction pin 13 provided in the above embodiment is movably connected to the upper cover assembly 10 of the cover plate 11, or may be configured such that the ink suction pin 13 is fixedly arranged on the upper cover assembly 10 of the cover plate 11, and the locking boss 113 partially protrudes from an edge of the cover plate 11 and extends outwards. The ink cartridge assembly 20 may be the ink cartridge assembly 20 provided with the seal member 27 in the ink cartridge hole 21 provided in the above embodiment, or may be the ink cartridge assembly 20 having only the ink cartridge hole 21.

In one embodiment, the printer includes a printing apparatus main body and the ink cartridge assembly 20 as described above, and the upper cover assembly 10 and the self-locking assembly 30 are pivotally connected to the printing apparatus main body, respectively, and are assembled at predetermined positions of the printing apparatus main body.

The printer uses the ink box assembly 20 with the self-locking assembly 30, and in the process of overhauling or maintaining the printer, a user needs to open the self-locking assembly 30 by adopting a special tool to open the upper cover assembly 10 and the ink box assembly 20, so that the failure of a continuous ink supply system and the damage to the tightness of an ink supply channel caused by the unintentional opening of the upper cover assembly 10 by the user are avoided.

The foregoing description of the preferred embodiments of the present disclosure is not intended to limit the disclosure, but rather to cover any and all modifications, equivalents, improvements or alternatives falling within the spirit and principles of the present disclosure.

Claims (17)

1. The ink box component is characterized by comprising an ink box component and an upper cover component, wherein the upper cover component comprises a cover plate, at least one ink suction contact pin and an ink tube, the ink suction contact pin is assembled on the cover plate, each ink suction contact pin penetrates through the cover plate and is connected with a corresponding ink tube, the combination part of the ink suction contact pin and the cover plate is movably connected, the ink box component is provided with an ink box hole corresponding to the ink suction contact pin, the cover plate rotates relative to the ink box component and is covered on the ink box component, and each ink suction contact pin can rotate relative to the cover plate and is connected with the ink box hole in a plugging manner;

the cover plate comprises at least one assembly hole for the ink sucking contact pin to pass through, the aperture of the assembly hole is larger than the maximum outline diameter of the ink sucking contact pin in the assembly hole, and a rotation space or a swinging space is arranged between the assembly hole and the ink sucking contact pin;

the ink box component is assembled at a preset position of the printing equipment main body, and the upper cover component is connected with the printing equipment main body in a pivoted mode.

2. The ink cartridge component of claim 1, wherein the ink receptive pin is rotatably coupled to the cover plate and the ink receptive pin is rotatable about a central axis; or the ink sucking contact pin swings along a preset track of the cover plate.

3. The ink cartridge component of claim 2, wherein the ink absorbing pin comprises a pin body, a movable portion provided on the pin body, and an ink absorbing hole penetrating through the pin body, a first end of the pin body penetrates through the cover plate and the movable portion is movably connected with the cover plate, the ink tube is connected to the first end of the pin body and is communicated with the ink absorbing hole, and a second end of the pin body is capable of being connected to the ink cartridge hole in a plugging manner so that the ink absorbing hole is communicated with the ink cartridge assembly.

4. The ink cartridge part as in claim 3, wherein a swing space is formed between the movable portion and the cover plate; or the contact surface of the movable part and the cover plate is movably connected in a curved surface.

5. A cartridge unit according to claim 3, wherein at least part of the ink sucking pin abuts against the cover plate when the ink sucking pin is plug-connected to the cartridge hole.

6. The ink cartridge component of claim 5, wherein the ink absorbing pin further comprises an abutting portion protruding from the needle body, the abutting portion abutting against the cover plate when the ink absorbing pin is plug-connected to the ink cartridge hole.

7. The ink cartridge component of claim 1, wherein the ink absorbing pin is provided with a sealing portion that abuts the ink cartridge assembly and is in sealing connection with an opening portion of the ink cartridge hole.

8. The ink cartridge component as in claim 7, wherein the sealing portion is provided with a tapered surface or an arc-shaped curved surface, the tapered surface or the arc-shaped curved surface being in sealing connection with an opening portion of the ink cartridge hole.

9. The ink cartridge component according to claim 1, wherein the ink absorbing pin is provided with a plug-in portion, the plug-in portion is plug-in connected to the ink cartridge hole, and an outer peripheral wall of the plug-in portion is hermetically connected to an inner wall surface of the ink cartridge hole.

10. The ink bottle component of claim 1, wherein the upper cover assembly further comprises a securing tab mounted to the ink absorbing pin, the securing tab being located between the ink tube and the cover plate for defining a distance of movement of the ink absorbing pin.

11. The ink bottle component of claim 10, wherein the securing tab is removably connected to the ink receiving pin.

12. The ink cartridge component of claim 1, wherein the cover plate comprises a plate body, the mounting hole is formed in the plate body, and at least a portion of the ink absorbing pin passes through the mounting hole and is movably connected with the plate body.

13. The ink cartridge part as claimed in claim 12, wherein at least part of an inner wall of the fitting hole is gradually curved or inclined toward at least one opening direction of the fitting hole, and the ink absorbing pin is plug-connected to the fitting hole and is swingable or rotatable along the inner wall surface of the fitting hole.

14. The ink cartridge component of claim 12, wherein the cover plate further comprises conduit channels spaced apart from the plate body, the ink tubes being distributed in the conduit channels.

15. The cartridge assembly of claim 1, wherein the cartridge assembly includes a first cartridge having a black ink receiving cavity, the cartridge aperture having one and communicating with the black ink receiving cavity, the ink absorbing pin being plug-in connected to the cartridge aperture and communicating with the black ink receiving cavity.

16. The cartridge assembly of claim 1, wherein the cartridge assembly includes a second cartridge having at least one color ink receiving cavity, each of the color ink receiving cavities being disposed in correspondence with one of the cartridge bores, the ink absorbing pin being plug-in connected to the cartridge bore and in communication with the color ink receiving cavity.

17. A printer comprising a printing apparatus main body and the cartridge part according to any one of claims 1 to 16.