CN219769448U - Shock-resistant anti-falling multichannel light splitting coding machine - Google Patents

Abstract

The utility model discloses an anti-shock anti-falling multichannel light splitting coding machine which comprises a stable holding mechanism, an elastic protection mechanism and an interlayer protection mechanism, wherein the elastic protection mechanism is arranged in the stable holding mechanism, the interlayer protection mechanism is arranged on the inner wall of the periphery of the stable holding mechanism, the elastic protection mechanism comprises a pull rod, a telescopic inner frame, springs, sliding rails and a protection frame, the inner wall of the pull rod is connected with the telescopic inner frame, the springs are distributed on the top surface of the telescopic inner frame, the sliding rails are arranged on the outer walls of the two sides of the pull rod, and the protection frame is arranged at the bottom end of the pull rod. This multichannel beam split coding machine that antidetonation was prevented falling, if be this equipment take off the hand or carelessly fall down under the condition, then can make the pull rod shrink down simultaneously drive the protection frame and reset down through elastic construction, extend around the port to protect around the port, thereby avoid falling and cause the damage to beating the sign indicating number department when colliding with, provide protectiveness and practical safety.

Description

Shock-resistant anti-falling multichannel light splitting coding machine

Technical Field

The utility model relates to the technical field of coding machines, in particular to an anti-seismic and anti-falling multichannel light splitting coding machine.

Background

The coding machine is controlled by a single chip microcomputer, a non-contact type ink-jet identification system is used for applying certain pressure to ink in the system by controlling an internal gear pump or supplying compressed gas from the outside of the machine, so that the ink is ejected through a nozzle with an aperture of tens of micrometers and is respectively printed on different positions on the surface of a product to form various marks such as characters and patterns, the coding process can be more accurate and convenient to debug and use by adopting coding equipment with a multichannel light splitting structure, and the handheld coding equipment is more and more widely applied along with different application scenes.

In the use of the existing coding machine, if the coding machine is carelessly held and unstable, the situations of falling, knocking and the like are easily generated, the coding machine body is easily damaged or broken down, the coding process is affected, and therefore, the anti-seismic and anti-falling multichannel light-splitting coding machine is provided.

Disclosure of Invention

The utility model aims to provide an anti-seismic and anti-falling multichannel light splitting coding machine so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a multichannel beam split coding machine that antidetonation was prevented falling, is including stabilizing mechanism, elastic protection mechanism and intermediate layer protection mechanism, the inside of stabilizing the mechanism of holding is provided with elastic protection mechanism, and the inner wall of stabilizing the mechanism of holding all around is provided with intermediate layer protection mechanism, elastic protection mechanism includes pull rod, flexible inner frame, spring, slide rail and guard frame, and the inner wall connection of pull rod has flexible inner frame, the top surface of flexible inner frame distributes there is the spring, and the both sides outer wall of pull rod is provided with the slide rail, the bottom of pull rod is provided with the guard frame.

Furthermore, the protection frame is fixedly connected with the pull rod, and the pull rod forms a sliding structure with the stable holding mechanism through the sliding rail.

Furthermore, the telescopic inner frame is fixedly connected with the pull rod, and the telescopic inner frame and the stable holding mechanism form an elastic structure through a spring.

Further, stable mechanism of gripping includes main frame, structure billet, beats sign indicating number port, handle and anti-skidding cover, and the distribution all around of main frame has the structure billet, the bottom of main frame is provided with beats the sign indicating number port, and the top of main frame is provided with the handle, be provided with anti-skidding cover all around of handle.

Further, the structural steel bars are distributed along the peripheral outer walls of the main frame at equal intervals, and the coding ports are fixedly connected with the main frame.

Furthermore, the handle is fixedly connected with the main frame, and the anti-slip sleeves are distributed along the outer wall of the middle end of the handle at equal intervals.

Further, the intermediate layer protection machanism includes fine inner wall of glass, adhesive linkage and shell layer, and the laminating of one side outer wall of fine inner wall of glass has the adhesive linkage, laminate mutually between adhesive linkage and the shell layer.

Further, the glass fiber inner wall, the outer shell layer and the bonding layer are bonded, and the glass fiber inner wall is uniformly distributed along the inner wall around the stable holding mechanism.

Compared with the prior art, the utility model has the beneficial effects that: this multichannel beam split coding machine that antidetonation was prevented falling, if be this equipment take off the hand or carelessly fall down under the condition, then can make the pull rod shrink down simultaneously drive the protection frame and reset down through elastic construction, extend around the port to protect around the port, thereby avoid falling and cause the damage to beating the sign indicating number department when colliding with, provide protectiveness and practical safety.

The main frame part of this equipment all imbeds the protection through the structural steel strip of distribution to outer wall intensity, when this equipment received colliding with, also be difficult for producing the damage, with this outside protectiveness that promotes.

The frame inner wall of this coding machine all adopts fluoroplastic material's crust layer to be the outer wall main material, plays wear-resisting and intensity reinforcement effect, and is fixed with the fine inner wall of glass at this crust layer inner wall then through the adhesive linkage, promotes whole equipment's fire-retardant and high temperature resistant effect to further promote barrier propterty.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of an elastic protection mechanism according to the present utility model;

FIG. 3 is a schematic view of the internal structure of a part of the interlayer protection mechanism of the present utility model.

In the figure: 1. a stable gripping mechanism; 101. a main frame; 102. structural steel bars; 103. coding ports; 104. a handle; 105. an anti-skid sleeve; 2. an elastic protection mechanism; 201. a pull rod; 202. a telescopic inner frame; 203. a spring; 204. a slide rail; 205. a protective frame; 3. an interlayer protection mechanism; 301. the inner wall of the glass fiber; 302. an adhesive layer; 303. an outer shell layer.

Detailed Description

As shown in fig. 1, a shock-resistant and anti-drop multichannel spectroscopic coding machine includes: a stable gripping mechanism 1; the inside of stable mechanism 1 of holding is provided with elasticity protection machanism 2, and stable mechanism 1 of holding's inner wall all around is provided with intermediate layer protection machanism 3, stable mechanism 1 of holding includes main frame 101, structural steel strip 102, beat the sign indicating number port 103, handle 104 and antiskid cover 105, and main frame 101's all around distributes and has structural steel strip 102, main frame 101's bottom is provided with beats sign indicating number port 103, and main frame 101's top is provided with handle 104, handle 104's all around is provided with antiskid cover 105, structural steel strip 102 is equidistant along main frame 101 outer wall all around, and beat and be fixed connection between sign indicating number port 103 and the main frame 101, be fixed connection between handle 104 and the main frame 101, and antiskid cover 105 is equidistant along handle 104 middle-end outer wall distribution, in use when this coding machine, the user's accessible holds handle 104 and carries out this main frame 101's steady use, the rubber antiskid cover 105 that the cooperation handle 104 distributes all around increases antistatic and holds the stability, let beat sign indicating number port 103 with beat the sign indicating number position, promote and use convenient and beat the stability of sign indicating number process, and the main frame part of this equipment is broken through the structure of distributing, and the outside is also receives the protection intensity when the equipment is broken down, when the outside is not evenly distributed to the protection device is broken by this outside, and is broken down by the equipment is broken down, when the outside is broken down by the equipment is not broken down.

As shown in fig. 2, an anti-shock anti-falling multichannel beam splitting coding machine, elastic protection mechanism 2 includes pull rod 201, flexible inner frame 202, spring 203, slide rail 204 and protection frame 205, and the inner wall of pull rod 201 is connected with flexible inner frame 202, the top surface of flexible inner frame 202 distributes and has spring 203, and the both sides outer wall of pull rod 201 is provided with slide rail 204, the bottom of pull rod 201 is provided with protection frame 205, be fixed connection between protection frame 205 and the pull rod 201, and pull rod 201 constitutes sliding structure through slide rail 204 and stable mechanism 1 of holding, be fixed connection between flexible inner frame 202 and the pull rod 201, and flexible inner frame 202 constitutes elastic structure through spring 203 and stable mechanism 1 of holding, only need hold handle 104 when the operator uses, upwards pulling pull rod 201 again, can let pull rod 201 cooperate slide upwards slide rail 204 to let the inside shrink of equipment of bottom connected protection frame 205, thereby expose and beat the sign indicating number port 103 and be convenient for use, and if this equipment breaks down or fall down with carelessly, then make the protection port down through the elastic structure, and prevent that the protection port from falling down is damaged to the safety and the safety protection port is caused to the safety protection port down.

As shown in FIG. 3, a multichannel beam splitting coding machine that antidetonation was prevented falling, intermediate layer protection machanism 3 includes fine inner wall 301 of glass, adhesive linkage 302 and shell layer 303, and the laminating of one side outer wall of fine inner wall 301 of glass has adhesive linkage 302, laminating mutually between adhesive linkage 302 and the shell layer 303, bond mutually between fine inner wall 301 of glass and shell layer 303 and the adhesive linkage 302, and fine inner wall 301 of glass is along stable mechanism 1 inner wall evenly distributed all around, the frame inner wall of coding machine all adopts the shell layer 303 of fluoroplastic material to be the outer wall main material, play wear-resisting and intensity reinforcement effect, and then be fixed with fine inner wall 301 of glass through adhesive linkage 302 at this shell layer 303 inner wall, promote whole equipment's fire-retardant and high temperature resistant effect, thereby further promote barrier propterty.

To sum up, when the anti-vibration anti-falling multichannel light splitting coding machine is used, firstly, when the coding machine is in use, a user can stably use the main frame 101 by holding the handle 104, the coding machine forms an elastic structure by matching the pull rod 201 with the telescopic inner frame 202 and the spring 203, when the coding machine is used, the operator only needs to hold the handle 104 and then pull the pull rod 201 upwards, the pull rod 201 can slide upwards and stretch by matching the slide rail 204, so that the protective frame 205 connected with the bottom end is synchronously contracted towards the inside of the device, the coding port 103 is exposed to be convenient to use, and the frame inner wall of the coding machine adopts the outer shell layer 303 made of fluoroplastic material as the main material of the outer wall, so that the wear resistance and the anti-knocking property of the whole outer wall are provided.

Claims (8)

1. The utility model provides a multichannel beam split coding machine that antidetonation was prevented falling, includes stable mechanism (1) of holding, elastic protection mechanism (2) and intermediate layer protection mechanism (3), its characterized in that: the inside of stable mechanism (1) of gripping is provided with elasticity protection machanism (2), and the inner wall of gripping around of stability mechanism (1) is provided with intermediate layer protection machanism (3), elasticity protection machanism (2) are including pull rod (201), flexible inner frame (202), spring (203), slide rail (204) and protection frame (205), and the inner wall of pull rod (201) is connected with flexible inner frame (202), the top surface of flexible inner frame (202) distributes has spring (203), and the both sides outer wall of pull rod (201) is provided with slide rail (204), the bottom of pull rod (201) is provided with protection frame (205).

2. The shock-resistant and anti-drop multichannel spectral coding machine according to claim 1, wherein: the protection frame (205) is fixedly connected with the pull rod (201), and the pull rod (201) and the stable holding mechanism (1) form a sliding structure through the sliding rail (204).

3. The shock-resistant and anti-drop multichannel spectral coding machine according to claim 1, wherein: the telescopic inner frame (202) is fixedly connected with the pull rod (201), and the telescopic inner frame (202) and the stable holding mechanism (1) form an elastic structure through a spring (203).

4. The shock-resistant and anti-drop multichannel spectral coding machine according to claim 1, wherein: the stable mechanism (1) of gripping includes main frame (101), structure billet (102), beats sign indicating number port (103), handle (104) and anti-skidding cover (105), and the distribution all around of main frame (101) has structure billet (102), the bottom of main frame (101) is provided with beats sign indicating number port (103), and the top of main frame (101) is provided with handle (104), be provided with anti-skidding cover (105) all around handle (104).

5. The shock-resistant and anti-drop multichannel spectral coding machine according to claim 4, wherein: the structural steel bars (102) are distributed along the peripheral outer wall of the main frame (101) at equal intervals, and the coding ports (103) are fixedly connected with the main frame (101).

6. The shock-resistant and anti-drop multichannel spectral coding machine according to claim 4, wherein: the handle (104) is fixedly connected with the main frame (101), and the anti-slip sleeves (105) are distributed at equal intervals along the outer wall of the middle end of the handle (104).

7. The shock-resistant and anti-drop multichannel spectral coding machine according to claim 1, wherein: the interlayer protection mechanism (3) comprises a glass fiber inner wall (301), an adhesive layer (302) and a shell layer (303), wherein the adhesive layer (302) is attached to the outer wall of one side of the glass fiber inner wall (301), and the adhesive layer (302) is attached to the shell layer (303).

8. The shock resistant and drop resistant multichannel spectroscopic code printer of claim 7, wherein: the glass fiber inner wall (301), the outer shell layer (303) and the bonding layer (302) are bonded, and the glass fiber inner wall (301) is uniformly distributed along the inner wall around the stable holding mechanism (1).