CN112590404B - Thermosensitive printing structure and installation mode thereof - Google Patents

Abstract

The invention provides a thermal printing structure, which comprises an upper shell assembly and a lower shell assembly which are oppositely arranged, a thermal printing assembly arranged on the upper shell assembly and a rubber roller assembly arranged on the lower shell assembly, wherein the thermal printing assembly and the rubber roller assembly are oppositely arranged, a paper feeding channel is formed between the thermal printing assembly and the rubber roller assembly, the upper shell assembly comprises an upper cover assembly and an upper support arranged in the upper cover assembly, the upper support is provided with a containing groove for placing the thermal printing assembly, the thermal printing assembly comprises a bottom plate, a thermal printing head arranged on the bottom plate and two springs arranged between the bottom plate and the upper shell assembly, a quick dismounting structure is arranged between the bottom plate and the containing groove, the quick dismounting structure comprises a first limiting assembly and a second limiting assembly, the limiting and fixing of the thermal printing assembly are realized, and the thermal printing head is prevented from jumping up and down, prevent abnormal sound caused by large-amplitude up-and-down jumping due to friction.

Description

Thermosensitive printing structure and installation mode thereof

Technical Field

The invention relates to the technical field of printers, in particular to a novel thermal printing structure and an installation method thereof.

Background

The printer has the function that the printing head pressure spring props against the printing head module to ensure that the printing head module is pressed on the rubber roller in a tangent mode, the printing head is heated, and paper is driven by the rubber roller to be discharged, so that the printing effect is realized; the existing printer with or without a paper bin on the market has the following defects:

firstly, paper is fed from the back, the paper does not contact the rubber roller in the paper feeding process, and when the paper is not driven by the rubber roller, the printing head module can rub the rubber roller, the whole printing head module can bounce up and down to generate 'click' abnormal sound, so that the use feeling of a client is influenced;

second, the printer generally has last casing assembly and the casing assembly is constituteed down, and one side is rotated articulatedly, and the opposite side is realized opening and shutting the lid, and the current printer is used for opening and shutting the structural mounting of lid inconvenient nevertheless.

In view of the above, the present inventors have devised a thermal printing structure and a mounting method thereof.

Disclosure of Invention

In order to solve the problems, the technical scheme of the invention is as follows:

a thermosensitive printing structure comprises an upper shell component and a lower shell component which are oppositely arranged, a thermosensitive printing component arranged on the upper shell component, and a rubber roller component arranged on the lower shell component, wherein the thermosensitive printing component and the rubber roller component are oppositely arranged, a paper feeding channel is formed between the thermosensitive printing component and the rubber roller component, the upper shell component comprises an upper cover component and an upper support arranged in the upper cover component, the upper support is provided with a containing tank for placing the thermosensitive printing component, the thermosensitive printing component comprises a bottom plate, a thermosensitive printing head arranged on the bottom plate, and two springs arranged between the bottom plate and the upper shell component, a quick dismounting structure is arranged between the bottom plate and the containing tank, the quick dismounting structure comprises a first limiting component and a second limiting component, the first limiting component comprises a first limiting part arranged at two ends of a long edge of the bottom plate, and a first limiting step arranged in the containing tank and matched with the first limiting part, the second limiting assembly comprises two second limiting steps arranged in the accommodating groove side by side and a second limiting part arranged at two ends of the other long edge of the bottom plate, and the second limiting steps are provided with limiting grooves matched with the second limiting parts.

Furthermore, the second limit step comprises a first boss and a second boss, and the first boss and the second boss form the limit groove.

Furthermore, the spacing groove is close to first boss and sets up first fillet and second fillet respectively with the second boss, first boss keeps away from first fillet one side and sets up the chamfer, the second boss sets up in the inclined plane that the second fillet is connected, the inclined plane is tangent with the second fillet.

Furthermore, go up casing subassembly and casing subassembly one side rotation connection down, the opposite side sets up the structure of opening and shutting that can open fast and close.

Furthermore, the upper cover assembly comprises a first upper cover and a second upper cover, and the cover opening and closing structure is arranged in the first upper cover.

Further, the structure of opening and shutting includes two slide button, rotates and detains and two elastic component, first upper cover lateral wall sets up the through-hole that is used for placing slide button, rotate to detain and set up between two slide button, two elastic component one side is supported and is leaned on in rotating and detain, and the opposite side supports and leans on in first upper cover inside wall, slides slide button drives to rotate and detains the rotation, rotates to detain and breaks away from casing subassembly down.

Further, the rotation buckle comprises a main body portion abutted against the sliding button, a buckling portion arranged on the main body portion, and a connecting portion arranged between the two main body portions, the sliding button is provided with a cylindrical step, the main body portion is arranged in a first groove matched with the cylindrical step, the sliding button is further provided with a pushing step used for driving the main body portion to rotate, and a avoiding hole used for penetrating through the buckling portion is formed in the upper support.

Furthermore, the main body part, the connecting part and the buckling part are of an integrated structure.

Further, the elastic piece comprises a vertical portion and an elastic portion, the main body portion is provided with a second groove used for placing the vertical portion, and a third boss is arranged on one side in the second groove.

The invention also provides an installation mode of the thermal printing structure, which is used for the rapid dismounting structure of the thermal printer structure, when the rapid dismounting structure is installed, the second limiting part is firstly obliquely placed into one end of the accommodating groove close to the second limiting step, after the first limiting part passes over the first limiting step, the thermal printing assembly is retreated, the second limiting part is ensured to be clamped into the limiting groove, and after the installation is finished, a gap is reserved between the front end of the first limiting part and the side wall of the accommodating groove close to the first limiting part;

when the quick assembly disassembly structure is disassembled, the thermal printing assembly is pushed to enable the first limiting part to only abut against the side wall of the accommodating groove, the second limiting part is pressed downwards, the second limiting part is separated from the limiting groove, and after the first limiting part is arranged, the thermal printing assembly is obliquely taken out.

The thermal printing structure realizes the limit fixation of the thermal printing component by arranging the first limit component and the second limit component, prevents the thermal printing head from jumping up and down, and prevents abnormal sound generated by large-amplitude jumping up and down due to friction.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention.

Wherein:

FIG. 1 is a schematic view of a thermal printing configuration of the present invention;

FIG. 2 is a cross-sectional view of a thermal printing configuration of the present invention;

FIG. 3 is an enlarged view A of a portion of FIG. 2 of the present invention;

FIG. 4 is an enlarged partial view B of FIG. 3 of the present invention;

FIG. 5 is an enlarged view C of the portion of FIG. 3 of the present invention;

FIG. 6 is a schematic view of a thermal printing assembly mounting and upper housing assembly of the present invention;

FIG. 7 is an exploded view of the lid opening and closing structure of the present invention;

FIG. 8 is a schematic view of the lid opening and closing configuration of the present invention;

fig. 9 is an installation schematic view of the opening and closing cover structure of the present invention.

Description of reference numerals:

10. an upper housing assembly; 11. an upper cover assembly; 111. a first upper cover; 112. a second upper cover; 12. an upper bracket; 121. accommodating grooves; 20. a lower housing assembly; 30. a thermal printing assembly; 31. a base plate; 32. a thermal print head; 33. a spring; 40. a glue roller assembly; 50. a paper feeding channel; 60. a first limit component; 61. a first limiting part; 62. a first limit step; 70. a second limiting component; 71. a second limit step; 711. a limiting groove; 712. a first boss; 7121. a first rounded corner; 7122. chamfering; 713. a second boss; 7131. a second rounded corner; 7132. an inclined surface; 72. a second limiting part; 80. a cover opening and closing structure; 81. a slide button; 811. a cylindrical step; 812. pushing the step; 82. rotating the buckle; 821. a main body portion; 8211. a first groove; 8212. a second groove; 82121. a third boss; 82122. a fourth boss; 822. a fastening part; 823. a connecting portion; 83. an elastic member; 831. a vertical portion; 832. an elastic part.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 9, a thermal printing structure as a preferred embodiment of the present invention includes an upper casing assembly 10 and a lower casing assembly 20 disposed opposite to each other, a thermal printing assembly 30 disposed on the upper casing assembly 10, and a glue roller assembly 40 disposed on the lower casing assembly 20, wherein the thermal printing assembly 30 and the glue roller assembly 40 are disposed opposite to each other, and a paper feeding path 50 is formed therebetween.

The upper shell assembly 10 comprises an upper cover assembly 11, an upper bracket 12 arranged in the upper cover assembly 11, the upper bracket 12 is provided with an accommodating groove 121 for placing the thermal printing assembly 30, the thermal printing assembly 30 comprises a bottom plate 31, a thermal printing head 32 arranged on the bottom plate 31, two springs 33 arranged between the bottom plate 31 and the upper shell assembly 10, a quick disassembly and assembly structure is arranged between the bottom plate 31 and the accommodating groove 121, the quick disassembly and assembly structure comprises a first limiting assembly 60 and a second limiting assembly 70, the first limiting assembly 60 comprises a first limiting part 61 arranged at two ends of one long edge of the bottom plate 31, a first limiting step 62 arranged in the accommodating groove 121 and matched with the first limiting part 61, the second limiting assembly 70 comprises two second limiting steps 71 arranged in the accommodating groove 121 side by side, second limiting parts 72 arranged at two ends of the other long edge of the bottom plate 31, and a limiting groove 711 matched with the second limiting part 72 is arranged on the second limiting step 71, the rapid installation and disassembly of the thermal printing component 30 can be realized through the first limiting component 60 and the second limiting component 70, so that the bottom plate 31, the thermal printing head 32, the spring 33 and the like can be assembled in advance before installation, the modular installation and disassembly of the thermal printing component 30 are realized, and the later-stage maintenance or repair is facilitated.

In order to achieve better mounting and dismounting of the quick dismounting assembly, the second limiting step 71 specifically comprises a first boss 712 and a second boss 713, and a limiting groove 711 is formed by the first boss 712 and the second boss 713; the limiting groove 711 is close to the first boss 712 and the second boss 713 and is provided with a first fillet 7121 and a second fillet 7131 respectively, one side of the first boss 712, which is far away from the first fillet 7121, is provided with a chamfer 7122, the second boss 713 is arranged on an inclined plane 7132 connected with the second fillet 7131, the inclined plane 7132 is tangent to the second fillet 7131, wherein the chamfer 7122 is arranged, and the inclined plane 7132 and the second fillet 7131 are matched to facilitate the installation of the bottom plate 31 in the limiting groove 711.

The upper housing assembly 10 is rotatably connected to one side of the lower housing assembly 20, and the other side is provided with a cover opening and closing structure 80 which can be opened and closed quickly. The upper cover assembly 11 includes a first upper cover 111 and a second upper cover 112, and the cover opening and closing structure 80 is disposed in the first upper cover 111. The cover opening and closing structure 80 comprises two sliding buttons 81, a rotating buckle 82 and two elastic pieces 83, the side wall of the first upper cover 111 is provided with a through hole for placing the sliding button 81, the rotating buckle 82 is arranged between the two sliding buttons 81, one side of each elastic piece 83 is abutted against the rotating buckle 82, the other side of each elastic piece is abutted against the inner side wall of the first upper cover 111, the sliding buttons 81 drive the rotating buckle 82 to rotate, and the rotating buckle 82 is separated from the lower shell component 20.

Rotating buckle 82 includes the main part 821 that leans on in sliding button 81, set up buckle portion 822 on main part 821, set up connecting portion 823 between two main part 821, and set up in buckle portion 822 complex draw-in groove on casing assembly 20 down, buckle portion 822 is the L type form, the back of targetting in place installs, buckle portion 822 card go into the draw-in groove in can, sliding button 81 sets up cylindrical step 811, main part 821 sets up in the first recess 8211 of cylindrical step 811 complex, sliding button 81 still sets up and is used for driving main part 821 pivoted and promotes step 812, set up the hole of dodging that is used for passing buckle portion 822 on upper bracket 12. Main part 821, connecting portion 823 and buckle portion 822 are the integral structure, set up the first limit structure who is used for restricting to rotate to detain 82 on first upper cover 111, cooperate upper bracket 12 for rotate to detain 82 better restriction in first upper cover 111, set up the first standing groove that is used for placing main part 821 on first upper cover 111 promptly, make main part 821 can be better be restricted in the standing groove can.

The elastic member 83 includes a vertical portion 831 and an elastic portion 832, the main portion 821 is provided with a second recess 8212 for placing the vertical portion 831, a third boss 82121 is disposed at one side in the second recess 8212, and a distance between a third step and another side wall of the second recess 8212 is smaller than a diameter of the vertical portion 831, since the rotating buckle 82 is made of plastic material, the vertical portion 831 can be quickly mounted at the bottom of the second recess 8212 by applying a certain force, and a fourth boss 82122 for limiting the vertical portion 831 is disposed above the second recess 8212, when the elastic member 83 is mounted by using the third boss 82121 and the fourth boss 82122, the elastic member can be better limited in the second recess 8212, the mounting step is simplified, the mounting efficiency is improved, and meanwhile, the first upper cover 111 is provided with a second limiting structure for limiting the elastic portion 832, that is provided with a second placing groove for limiting the elastic portion 832 on the first upper cover 111, the vertical portion 831 is first placed in the second recess 8212, the third step and the fourth step are utilized to achieve good fixing and limiting effects, and then the rotating buckle 82 and the elastic member 83 are placed in the first upper cover 111, so that deviation in the using process is prevented.

The invention also provides an installation mode of the thermal printing structure, which is used for the quick disassembly and assembly structure of the thermal printer structure, the second position-limiting part 72 is first placed into the end of the accommodating groove 121 close to the second position-limiting step 71, and the thermal printing assembly 30 is retracted after the first position-limiting part 61 passes over the first position-limiting step 62, and ensures that the second position-limiting part 72 is clamped into the position-limiting groove 711, after the installation is completed, a gap is left between the front end of the first position-limiting part 61 and the side wall of the accommodating groove 121 close to the first position-limiting part 61, and the second position-limiting portion 72 at the rear end of the bottom plate 31 plays a role of fixing and limiting through the limiting groove 711, and the spring 33 between the bottom plate 31 and the receiving groove 121 can make the first position-limiting part 61 abut against the first position-limiting step 62, in the printing process, one end of the bottom plate 31 is well fixed and limited, and abnormal sound is prevented from being generated in the printing process;

when the quick-assembly/disassembly structure is disassembled, the thermal printing component 30 is pushed to make the first limiting part 61 tightly abut against the side wall of the accommodating groove 121, the second limiting part 72 is pressed downwards, the second limiting part 72 is separated from the limiting groove 711, and after the first limiting part 61 passes over the first limiting step 62, the thermal printing component 30 is obliquely taken out.

In summary, the thermal printing structure of the present invention realizes the limit fixation of the thermal printing component by arranging the first limit component and the second limit component, so as to prevent the thermal printing head from jumping up and down, and prevent abnormal sound caused by large-amplitude jumping up and down due to friction.

The invention has been described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the specific implementation in the above-described manner, and it is within the scope of the invention to apply the inventive concept and solution to other applications without substantial modification.

Claims (8)

1. A thermal printing structure comprises an upper shell component and a lower shell component which are oppositely arranged, a thermal printing component arranged on the upper shell component, and a rubber roller component arranged on the lower shell component, wherein the thermal printing component and the rubber roller component are oppositely arranged, and a paper feeding channel is formed between the thermal printing component and the rubber roller component,

the upper shell component comprises an upper cover component and an upper bracket arranged in the upper cover component, the upper bracket is provided with a containing groove for placing the thermal printing component, the thermal printing component comprises a bottom plate, a thermal printing head arranged on the bottom plate, and two springs arranged between the bottom plate and the upper shell component, and a quick assembly disassembly structure is arranged between the bottom plate and the accommodating groove, the quick assembly disassembly structure comprises a first limiting component and a second limiting component, the first limiting component comprises a first limiting part arranged at two ends of a long edge of the bottom plate, a first limiting step arranged in the accommodating groove and matched with the first limiting part, the second limiting assembly comprises two second limiting steps arranged in the accommodating groove side by side and second limiting parts arranged at two ends of the other long edge of the bottom plate, and the second limiting steps are arranged on limiting grooves matched with the second limiting parts;

the second limiting step comprises a first boss and a second boss, and the first boss and the second boss form the limiting groove;

the spacing groove is close to first boss and sets up first fillet and second fillet respectively with the second boss, first boss keeps away from first fillet one side and sets up the chamfer, the second boss sets up in the inclined plane that the second fillet is connected, the inclined plane is tangent with the second fillet.

2. A thermal printing structure as claimed in claim 1, wherein said upper housing member is pivotally connected to said lower housing member at one side thereof, and is provided with a cover opening and closing structure for quick opening and closing.

3. A thermal printing arrangement as claimed in claim 2, wherein said cover assembly comprises a first cover and a second cover, said cover opening and closing arrangement being disposed within the first cover.

4. A thermal printing structure as claimed in claim 1, wherein the cover opening and closing structure comprises two sliding buttons, a rotating buckle and two elastic members, the first upper cover side wall is provided with a through hole for placing the sliding button, the rotating buckle is arranged between the two sliding buttons, one side of each elastic member abuts against the rotating buckle, the other side of each elastic member abuts against the inner side wall of the first upper cover, the sliding button is slid to drive the rotating buckle to rotate, and the rotating buckle is separated from the lower housing assembly.

5. The thermal printing structure of claim 4, wherein the rotating buckle comprises a main body portion abutting against the sliding button, a buckling portion arranged on the main body portion, and a connecting portion arranged between the two main body portions, the sliding button is provided with a cylindrical step, the main body portion is arranged in a first groove matched with the cylindrical step, the sliding button is further provided with a pushing step for driving the main body portion to rotate, and the upper support is provided with an avoiding hole for penetrating through the buckling portion.

6. A thermal printing structure as claimed in claim 5, wherein the main body portion, the connecting portion and the latching portion are of a unitary construction.

7. A thermal printing structure as claimed in claim 5, wherein said elastic member includes a vertical portion and an elastic portion, said main body portion is provided with a second recess for placing said vertical portion, and a third boss is provided on one side inside said second recess.

8. A mounting mode of a thermal printing structure is used for the quick dismounting structure of the novel thermal printer structure as claimed in any one of claims 1 to 7, and is characterized in that when the quick dismounting structure is mounted, the second limiting part is firstly placed into one end of the containing groove close to the second limiting step in an inclined mode, after the first limiting part passes over the first limiting step, the thermal printing assembly is retracted, the second limiting part is guaranteed to be clamped into the limiting groove, and after the mounting is completed, a gap is reserved between the front end of the first limiting part and the side wall of the containing groove close to the first limiting part;

when the quick assembly disassembly structure is disassembled, the thermal printing assembly is pushed to enable the first limiting part to only abut against the side wall of the accommodating groove, the second limiting part is pressed downwards, the second limiting part is separated from the limiting groove, and after the first limiting part is arranged, the thermal printing assembly is obliquely taken out.

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