CN215787498U - Non ferrous metal alloy marking machine - Google Patents

Abstract

The utility model provides a non-ferrous metal alloy marking machine which comprises a first conveying assembly, a second conveying assembly and a marking assembly, wherein the first conveying assembly comprises a first support, a second support, a first roller and a first conveying belt, the second conveying assembly comprises a third support, a fourth support, a second roller and a second conveying belt, the marking assembly comprises a support and a marking machine, one end of the first support, far away from the second support, is provided with a mounting plate, a first air cylinder is arranged on the mounting plate, a mounting box is arranged on an output shaft of the first air cylinder, a second air cylinder is arranged in the mounting box, and an output shaft of the second air cylinder penetrates through the right end of the mounting box and is connected with a push plate; according to the utility model, the non-ferrous metal alloy is moved to the upper end of the support for marking through the first conveyor belt, and then is pushed to the upper end of the second conveyor belt through the push plate, and then is moved to the next step of procedure, so that the marking machine can automatically carry out feeding and discharging, and the marking efficiency is greatly improved.

Description

Non ferrous metal alloy marking machine

Technical Field

The utility model mainly relates to the technical field of non-ferrous metal alloy processing, in particular to a non-ferrous metal alloy marking machine.

Background

The non-ferrous metal alloy is an alloy formed by taking a non-ferrous metal as a matrix and adding one or more other elements; compared with ferrous metal materials such as steel, the non-ferrous metal alloy has many excellent characteristics, generally has higher strength and hardness than pure metal, has good comprehensive mechanical property and corrosion resistance, and is commonly used for manufacturing chemical containers and related equipment parts; the common marking machine is a laser marking machine, permanent marks are marked on the surfaces of various different substances by laser beams, and the marking effect is that deep substances are exposed by the evaporation of surface substances, so that exquisite patterns, trademarks and characters are carved;

when the existing nonferrous metal alloy marking machine is used, a workpiece is mostly manually placed below a marking head of the marking machine, the marking machine starts to work to mark at the moment, the marked workpiece is manually taken out, the manual feeding and taking efficiency is low, and the marking efficiency is greatly reduced; for example, the patent numbers are: 202021721850.8, a non-ferrous metal alloy marking machine, comprising a device main body, wherein a first chute is arranged at the upper end of the device main body near the front end edge, a sliding plate is slidably connected inside the first chute, a rotating device is arranged at one side of the sliding plate inside the first chute, the rotating device comprises a rotating shaft, first fixed blocks are movably connected at two ends of the rotating shaft, a rotating rod is fixedly connected to the surface of the rotating shaft, a loading device is fixedly connected at one end of the rotating rod, the loading device comprises a loading box, a supporting block is fixedly connected at the lower end inside the loading box, clamping box grooves are movably connected at two ends of the supporting block inside the loading box, a fastening device is arranged on the surface of the rotating rod, and the fastening device comprises a screw rod; although the position of mark spare can be fixed, need the manual work to carry out the material loading, get the material, reduced work efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the background technology, the utility model provides a non-ferrous metal alloy marking machine.

The utility model provides a marking machine for non-ferrous metal alloy, which adopts the following technical scheme:

a non ferrous metal alloy marking machine comprises a first conveying assembly, a second conveying assembly and a marking assembly, wherein the first conveying assembly comprises a first support and a second support, one ends, close to each other, of the first support and the second support are connected through a plurality of first rollers, a first conveying belt is installed on the outer wall of each first roller, the second conveying assembly is arranged on the right side of the first conveying assembly and comprises a third support and a fourth support, one ends, close to each other, of the third support and the fourth support are connected through a plurality of second rollers, a second conveying belt is installed on the outer wall of each second roller, a marking assembly is arranged between the first conveying assembly and the second conveying assembly and comprises a support, a marking machine is arranged at the upper end of the support, a mounting plate is arranged at one end, far away from the second support, of the first support, a first air cylinder is arranged on the mounting plate, the one end that first cylinder output shaft is close to first support is equipped with the mounting box, be equipped with the second cylinder in the mounting box, second cylinder output shaft runs through the mounting box right-hand member and connects the push pedal.

Adopt above-mentioned technical scheme, remove non ferrous metal alloy to the support upper end through first conveyer belt, mark the mark to non ferrous metal alloy of rethread marking machine, then make the mounting box remove towards the direction that is close to first support through first cylinder antedisplacement, make the push pedal remove to non ferrous metal alloy left side, rethread second cylinder antedisplacement makes push pedal contact non ferrous metal alloy, and push away non ferrous metal alloy to second conveyer belt upper end, remove non ferrous metal alloy to procedure on next step through the second conveyer belt, thereby realize that this marking machine can carry out material loading and ejection of compact automatically, the degree of automation is high, mark efficiency is marked in the improvement greatly.

Furthermore, the first conveyor belt is symmetrically provided with limiting rubber strips.

By adopting the technical scheme, the limiting channel is formed by the limiting rubber strips which are symmetrically arranged, so that the situation that the position of the non-ferrous metal alloy is shifted in the moving process of the first conveying belt can be avoided, and the marking position of the non-ferrous metal alloy can be accurately moved to the lower part of the marking head of the marking machine.

Furthermore, the upper end of the support is symmetrically provided with limiting strips, and the limiting strips are symmetrically arranged and are aligned with the limiting rubber strips symmetrically arranged.

Adopt above-mentioned technical scheme, constitute a spacing passageway through the spacing of symmetry setting, first drive belt carries on spacingly through spacing when removing non ferrous metal alloy to the support upper end, avoids appearing the skew, makes non ferrous metal alloy beat the mark more accurate.

Furthermore, the height of the push plate is higher than the upper surfaces of the limiting rubber strips and the limiting strips.

By adopting the technical scheme, the upper surface of the push plate, which is higher than the upper surface of the limit rubber strip and the upper surface of the limit strip, can enable the push plate to better push nonferrous metal alloy.

Furthermore, the first roller is connected with a first large belt wheel, the first large belt wheel is connected with a first small belt wheel through a first belt, and the first small belt wheel is installed on an output shaft of the first motor.

By adopting the technical scheme, the first small belt wheel is rotated through the first motor, the first belt drives the first large belt wheel to rotate through the rotation of the first small belt wheel, and the first roller drives the first conveying belt to roll through the rotation of the first large belt wheel, so that the equipment is fed in a production line mode, and the working efficiency is improved.

Furthermore, the second roller is connected with a second large belt wheel, the second large belt wheel is connected with a second small belt wheel through a second belt, and the second small belt wheel is installed on an output shaft of the second motor.

By adopting the technical scheme, the second small belt wheel is rotated through the second motor, the second belt drives the second large belt wheel to rotate through the rotation of the second small belt wheel, and the second roller drives the second conveying belt to roll through the rotation of the second large belt wheel, so that the discharge is realized in an equipment assembly line mode, and the working efficiency is improved.

Further, the mounting plate is located at one end close to the support.

By adopting the technical scheme, the installation plate is arranged at one end close to the support, and the nonferrous metal alloy can be better pushed out of the support by the push plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. the non-ferrous metal alloy is moved to the upper end of the support through the first conveyor belt, the non-ferrous metal alloy is marked through the marking machine, the mounting box is moved towards the direction close to the first support through the forward extension of the first cylinder, the push plate is moved to the left side of the non-ferrous metal alloy, the push plate is contacted with the non-ferrous metal alloy through the forward extension of the second cylinder, the non-ferrous metal alloy is pushed to the upper end of the second conveyor belt, and the non-ferrous metal alloy is moved to the next step procedure through the second conveyor belt, so that the marking machine can automatically perform feeding and discharging, the automation degree is high, and the marking efficiency is greatly improved;

2. the limiting channels are formed by the symmetrically arranged limiting rubber strips, so that the position of the non-ferrous metal alloy can be prevented from being shifted in the moving process of the first conveyor belt, and the marking position of the non-ferrous metal alloy can be accurately moved to the position below the marking head of the marking machine;

3. a limiting channel is formed by the symmetrically arranged limiting strips, and the first transmission belt limits the non-ferrous metal alloy when moving the non-ferrous metal alloy to the upper end of the support, so that the offset is avoided, and the marking of the non-ferrous metal alloy is more accurate;

4. the first small belt wheel is rotated through the first motor, the first belt drives the first large belt wheel to rotate through the rotation of the first small belt wheel, and the first roller drives the first conveying belt to roll through the rotation of the first large belt wheel, so that the feeding is realized in an equipment assembly line mode, and the working efficiency is improved;

5. the second small belt wheel is rotated through the second motor, the second belt drives the second large belt wheel to rotate through the rotation of the second small belt wheel, and the second roller drives the second conveying belt to roll through the rotation of the second large belt wheel, so that the discharging is carried out in an equipment assembly line mode, and the working efficiency is improved.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of a first transfer assembly according to the present invention;

FIG. 3 is a schematic view of a second transfer module according to the present invention;

fig. 4 is a schematic structural view of the marking assembly of the present invention.

In the figure: 1. a first transfer assembly; 101. a first bracket; 102. a second bracket; 103. a first roller; 104. a first conveyor belt; 105. mounting a plate; 106. a first cylinder; 107. mounting a box; 108. a second cylinder; 109. pushing the plate; 110. limiting the rubber strip; 111. a first large pulley; 112. a first belt; 113. a first small belt pulley; 114. a first motor; 2. a second transfer assembly; 21. a third support; 22. a fourth bracket; 23. a second roller; 24. a second conveyor belt; 25. a second large belt pulley; 26. a second belt; 27. a second small belt pulley; 28. a second motor; 3. marking the assembly; 31. a support; 32. marking machine; 33. and (5) a limiting strip.

Detailed Description

In order to facilitate an understanding of the utility model, the utility model will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the utility model are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the utility model.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the knowledge of the terms used herein in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The first embodiment is as follows:

the embodiment of the utility model discloses a non-ferrous metal alloy marking machine, please refer to fig. 1-4, which comprises a first conveying assembly 1, a second conveying assembly 2 and a marking assembly 3, wherein the first conveying assembly 1 comprises a first support 101 and a second support 102, one ends of the first support 101 and the second support 102, which are close to each other, are connected through a plurality of first rollers 103, a first conveying belt 104 is installed on the outer wall of the first rollers 103, the second conveying assembly 2 is arranged on the right side of the first conveying assembly 1, the second conveying assembly 2 comprises a third support 21 and a fourth support 22, one ends of the third support 21 and the fourth support 22, which are close to each other, are connected through a plurality of second rollers 23, a second conveying belt 24 is installed on the outer wall of the second rollers 23, the marking assembly 3 is arranged between the first conveying assembly 1 and the second conveying assembly 2, the marking assembly 3 comprises a support 31, the support 31 upper end is equipped with marking machine 32, the one end that second support 102 was kept away from to first support 101 is equipped with mounting panel 105, be equipped with first cylinder 106 on the mounting panel 105, the one end that first cylinder 106 output shaft is close to first support 101 is equipped with mounting box 107, be equipped with second cylinder 108 in the mounting box 107, second cylinder 108 output shaft runs through mounting box 107 right-hand member and connects push pedal 109.

Please refer to fig. 2-3, the first transmission assembly 1 includes a first bracket 101 and a second bracket 102, the ends of the first bracket 101 and the second bracket 102 close to each other are connected through a plurality of first rollers 103, a first transmission belt 104 is installed on the outer wall of the first roller 103, the second transmission assembly 2 is installed on the right side of the first transmission assembly 1, the second transmission assembly 2 includes a third bracket 21 and a fourth bracket 22, the ends of the third bracket 21 and the fourth bracket 22 close to each other are connected through a plurality of second rollers 23, a second transmission belt 24 is installed on the outer wall of the second rollers 23, the first transmission belt 104 is symmetrically provided with a position limiting rubber strip 110, the first rollers 103 are connected with a first big belt wheel 111, the first big belt wheel 111 is connected with a first small belt wheel 113 through a first belt 112, the first small belt wheel 113 is installed on the output shaft of a first motor 114, the second roller 23 is connected to a second large belt wheel 25, the second large belt wheel 25 is connected to a second small belt wheel 27 through a second belt 26, and the second small belt wheel 27 is mounted on an output shaft of a second motor 28.

Please refer to fig. 4 again, the marking assembly 3 includes a support 31, a marking machine 32 is disposed at the upper end of the support 31, the upper end of the support 31 is symmetrically disposed with a position-limiting strip 33, and the symmetrically disposed position-limiting strips 33 are aligned with the symmetrically disposed position-limiting rubber strips 110.

The implementation principle of the marking machine for the non-ferrous metal alloy of the first embodiment of the utility model is as follows:

when the non-ferrous metal alloy marking machine is used, non-ferrous metal alloy is placed between the limiting rubber strips 110 which are symmetrically arranged, the first motor 114 and the second motor 28 are started, the first small belt wheel 113 is rotated through the first motor 114, the first belt 112 drives the first large belt wheel 111 to rotate through the rotation of the first small belt wheel 113, the first roller 103 drives the first conveying belt 104 to roll through the rotation of the first large belt wheel 111, the non-ferrous metal alloy is moved to the upper end of the support 31 through the first conveying belt 104, the non-ferrous metal alloy is marked through the marking machine 32, after the marking is finished, the mounting box 107 is moved towards the direction close to the first support 101 through the forward extension of the first air cylinder 106, the push plate 109 is moved to the left side of the non-ferrous metal alloy, the push plate 109 is contacted with the non-ferrous metal alloy through the forward extension of the second air cylinder 108, the non-ferrous metal alloy is pushed to the upper end of the second conveying belt 24, and the second small belt wheel 27 is rotated through the second motor 28, the second belt 26 drives the second large belt wheel 25 to rotate through the rotation of the second small belt wheel 27, the second roller 23 drives the second conveying belt 24 to roll through the rotation of the second large belt wheel 25, and the non-ferrous metal alloy is moved to the next procedure through the second conveying belt 24.

The utility model is described above with reference to the accompanying drawings, it is obvious that the utility model is not limited to the above-described embodiments, and it is within the scope of the utility model to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims (7)

1. The utility model provides a non ferrous metal alloy marking machine, includes first conveying component (1), second conveying component (2) and beats mark subassembly (3), its characterized in that: the first conveying assembly (1) comprises a first support (101) and a second support (102), one ends, close to each other, of the first support (101) and the second support (102) are connected through a plurality of first rollers (103), a first conveying belt (104) is installed on the outer wall of each first roller (103), a second conveying assembly (2) is arranged on the right side of the first conveying assembly (1), each second conveying assembly (2) comprises a third support (21) and a fourth support (22), one ends, close to each other, of the third support (21) and the fourth support (22) are connected through a plurality of second rollers (23), a second conveying belt (24) is installed on the outer wall of each second roller (23), a marking assembly (3) is arranged between the first conveying assembly (1) and the second conveying assembly (2), each marking assembly (3) comprises a support (31), and a marking machine (32) is arranged at the upper end of each support (31), the one end that second support (102) were kept away from in first support (101) is equipped with mounting panel (105), be equipped with first cylinder (106) on mounting panel (105), the one end that first cylinder (106) output shaft is close to first support (101) is equipped with mounting box (107), be equipped with second cylinder (108) in mounting box (107), push pedal (109) are connected to second cylinder (108) output shaft through mounting box (107) right-hand member.

2. The non-ferrous metal alloy marking machine of claim 1, characterized in that: the first conveyor belt (104) is symmetrically provided with limiting rubber strips (110).

3. The non-ferrous metal alloy marking machine of claim 2, characterized in that: the upper end of the support (31) is symmetrically provided with limiting strips (33), and the limiting strips (33) are symmetrically arranged and are aligned with the limiting rubber strips (110) which are symmetrically arranged.

4. The non-ferrous metal alloy marking machine of claim 3, characterized in that: the height of the push plate (109) is higher than the upper surfaces of the limiting rubber strip (110) and the limiting strip (33).

5. The non-ferrous metal alloy marking machine of claim 1, characterized in that: the first roller (103) is connected with a first large belt wheel (111), the first large belt wheel (111) is connected with a first small belt wheel (113) through a first belt (112), and the first small belt wheel (113) is installed on an output shaft of a first motor (114).

6. The non-ferrous metal alloy marking machine of claim 1, characterized in that: the second roller (23) is connected with a second large belt wheel (25), the second large belt wheel (25) is connected with a second small belt wheel (27) through a second belt (26), and the second small belt wheel (27) is installed on an output shaft of a second motor (28).

7. The non-ferrous metal alloy marking machine of claim 1, characterized in that: the mounting plate (105) is located near one end of the support (31).

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