CN216264054U - Compact type desktop micro engraving machine - Google Patents

Abstract

The utility model discloses a compact desktop miniature engraving machine, which comprises: the X-axis motor is arranged in the notch, so that the space occupied by the installation of the X-axis motor can be reduced, the heat dissipation fan is arranged on the upper end surface of the radiator, the Y-axis motor is arranged on the upper end surface of the Y-axis motor and is positioned beside the Y-axis motor, and the Y-axis motor is arranged on the upper end surface of the Y-axis motor, so that the space occupied by the installation of the Y-axis motor can be reduced, the structure of the utility model is more compact, the volume of the utility model can be smaller, and the utility model is beneficial to product miniaturization, Miniaturization is progressing.

Description

Compact type desktop micro engraving machine

The technical field is as follows:

the utility model relates to the technical field of engraving machines, in particular to a compact desktop micro engraving machine.

Background art:

laser engraving machines, as the name implies, are advanced devices that use laser light to engrave the material to be engraved. Laser engravers are different from mechanical engravers, which engrave something else using mechanical means, such as very hard materials like diamond, and other traditional manual engraving ways. The laser engraving machine uses the heat energy of laser to engrave the material, and the laser in the laser engraving machine is the core of the laser engraving machine. Generally speaking, the laser engraving machine has wider application range, higher engraving precision and faster engraving speed. Compared with the traditional manual carving mode, the laser carving can also achieve a fine carving effect which is not inferior to the technological level of manual carving. Because of the advantages of laser engraving machines, the application of laser engraving machines has gradually replaced the traditional engraving equipment and method and become the main engraving equipment.

The laser engraving machines on the market belong to medium-large machines, are generally suitable for industrial production and teaching display, are high in price and are not suitable for personal requirements. However, the laser engraving machine plays an important role in personal design and decoration, DIY works and the like, and is convenient equipment. Therefore, a desktop type laser engraving machine is available in the market in order to make the laser engraving machine more popular to individuals.

However, the laser source, the radiator, the heat dissipation fan, the X-axis galvanometer, the Y-axis galvanometer, the X-axis motor and the Y-axis motor which are arranged in the housing of the desktop laser engraving machine are unreasonable in position, so that the size of the whole desktop laser engraving machine is large, and the miniaturization and miniaturization development of products are not facilitated.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

the utility model aims to overcome the defects of the prior art and provides a compact desktop micro engraving machine.

In order to solve the technical problems, the utility model adopts the following technical scheme: the compact tabletop micro engraving machine comprises: the utility model discloses a laser lamp, including casing, laser source, PCB board, radiator fan and the X axle that installs on the radiator with the laser source adaptation shake mirror and Y axle shake mirror, lens, be used for driving X axle shake mirror pivoted X axle motor, be used for driving Y axle shake mirror pivoted Y axle motor, radiator, X axle motor and Y axle motor and laser source all install on the mount pad, and this mount pad is fixed in the casing, a breach has been seted up to radiator one side, in this breach is arranged in to X axle motor, and this radiator fan sets up in the radiator up end, and this Y axle motor sets up in Y axle motor up end to be located Y axle motor side.

Further, in the above technical solution, the heat sink has a plurality of fins at the periphery thereof, a heat dissipation space is formed between two adjacent fins, and the heat dissipation fan is disposed on the fin.

Furthermore, in the above technical solution, the heat sink is provided with an installation channel penetrating through the rear end face rearward along the front end face thereof, the laser light source is arranged in the installation channel in a penetrating manner, and the front end of the laser light source extends out of the installation channel.

Furthermore, in the above technical scheme, the mounting base is L-shaped, a first mounting hole and a second mounting hole are provided on the mounting base, the first mounting hole and the second mounting hole are respectively provided for the X-axis motor and the Y-axis motor to penetrate through, a first split communicated with the first mounting hole is provided on the side surface of the mounting base, and a second split communicated with the second mounting hole is provided on the side surface of the mounting base.

Furthermore, in the above technical solution, the casing includes a frame, a casing disposed at a periphery of the frame, an upper hole top plate fixed to an upper end surface of the casing, and a lower hole bottom plate fixed to a lower end surface of the casing, wherein the upper hole top plate and the lower hole bottom plate respectively cover the upper end surface and the lower end surface of the frame, the upper hole top plate has a plurality of first heat dissipation holes for dissipating heat, and the lower hole bottom plate has a plurality of second heat dissipation holes for dissipating heat.

Further, in the above technical solution, a handle for being held by a human hand is disposed on the housing.

Further, in the above technical solution, the handle is provided with a touch sensitive switch for controlling the operation of the desktop micro engraving machine.

Further, in the above technical scheme, a metal decoration strip is arranged on the handle.

Furthermore, in the above technical solution, the casing outside is provided with a standard USB interface, a DC interface and a TYPE-C interface.

After adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects: the utility model is provided with a gap at one side of the radiator, the X-axis motor is arranged in the gap, so that the space occupied by the installation of the X-axis motor can be reduced, the radiating fan is arranged on the upper end surface of the radiator, and the Y-axis motor is arranged on the upper end surface of the Y-axis motor and is positioned beside the Y-axis motor, so that the space occupied by the installation of the Y-axis motor can be reduced, the structure of the utility model becomes more compact, the volume can be smaller, the miniaturization and miniaturization development of products are facilitated, and the utility model has strong market competitiveness.

Description of the drawings:

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of another aspect of the present invention;

FIG. 3 is a perspective view of the present invention with the housing and handle removed;

FIG. 4 is an internal structural view of the present invention;

fig. 5 is an internal structural view from another perspective of the present invention.

The specific implementation mode is as follows:

the utility model is further illustrated below with reference to specific embodiments and the accompanying drawings.

Referring to fig. 1-5, a compact tabletop mini-engraver is shown, comprising: the laser lamp comprises a machine shell 1, a laser light source 2, a PCB (printed circuit board) 3, a radiator 4, a heat radiation fan 5 arranged on the radiator 4, an X-axis vibration mirror 6 matched with the laser light source 2, a Y-axis vibration mirror 7, a lens 8, an X-axis motor 61 used for driving the X-axis vibration mirror 6 to rotate, and a Y-axis motor 71 used for driving the Y-axis vibration mirror 7 to rotate, wherein the radiator 4, the X-axis motor 61, the Y-axis motor 71 and the laser light source 2 are all arranged on a mounting seat 9, the mounting seat 9 is fixed in the machine shell 1, a notch 41 is formed in one side of the radiator 4, the X-axis motor 61 is arranged in the notch 41, the heat radiation fan 5 is arranged on the upper end surface of the radiator 4, and the Y-axis motor 71 is arranged on the upper end surface of the Y-axis motor 71 and is positioned beside the Y-axis motor 71. According to the utility model, one side of the radiator 4 is provided with the notch 41, the X-axis motor 61 is arranged in the notch 41, so that the space occupied by the installation of the X-axis motor 61 can be reduced, the cooling fan 5 is arranged on the upper end surface of the radiator 4, and the Y-axis motor 71 is arranged on the upper end surface of the Y-axis motor 71 and is positioned beside the Y-axis motor 71, so that the space occupied by the installation of the Y-axis motor 71 can be reduced, the structure of the utility model is more compact, the size can be smaller, the miniaturization and miniaturization development of products are facilitated, and the utility model has strong market competitiveness.

The periphery of the heat sink 4 is provided with a plurality of heat dissipation fins 42, a heat dissipation interval is formed between two adjacent heat dissipation fins 42, so that heat can be dissipated better, in addition, the heat dissipation fan 5 is arranged on the heat dissipation fins 42, so that wind generated by the heat dissipation fan 5 directly blows to the heat dissipation interval formed between two adjacent heat dissipation fins 42, so that heat can be dissipated quickly, and the heat dissipation effect is very ideal.

The radiator 4 is provided with an installation channel 43 penetrating through the rear end face backwards along the front end face of the radiator, the laser source 2 is arranged in the installation channel 43 in a penetrating mode, and the front end of the laser source 2 extends out of the installation channel 43, so that the space for installing the laser source 2 can be reduced, the structure of the laser source is further more compact, and the size can be reduced.

The mounting base 9 is L-shaped, a first mounting hole 91 and a second mounting hole 92 which are respectively used for the X-axis motor 61 and the Y-axis motor 71 to penetrate are arranged on the mounting base 9, a first split 93 communicated with the first mounting hole 91 is arranged on the side face of the mounting base 9, so that the first mounting hole 91 serves as a clamping hole, the X-axis motor 61 can be better clamped, a second split 94 communicated with the second mounting hole 92 is arranged on the side face of the mounting base 9, the second mounting hole 92 serves as a clamping hole, the Y-axis motor 71 can be better clamped, and the assembly is very stable.

The casing 1 includes a frame 11, a casing 12 disposed at the periphery of the frame 11, an upper hole top plate 13 fixed to the upper end surface of the casing 12, and a lower hole bottom plate 14 fixed to the lower end surface of the casing 12, wherein the upper hole top plate 13 and the lower hole bottom plate 14 respectively cover the upper end surface and the lower end surface of the frame 11, the upper hole top plate 13 has a plurality of first heat dissipating holes 131 for dissipating heat, and the lower hole bottom plate 14 has a plurality of second heat dissipating holes 141 for dissipating heat. Through this first louvre 131 and second louvre 142 can dispel the heat that the miniature engraver during operation of desktop produced better, can improve the operating time of the miniature engraver of desktop, and this first louvre 131 is used for the air inlet, and second louvre 142 is used for airing exhaust to this dispels the heat to the miniature engraver of desktop fast.

The shell 1 is provided with a handle 15 for being held by hands, so that when the miniature carving machine is carried, carried or moved, a user can directly hold the handle 15 with one hand to lift the miniature carving machine on the table top, the miniature carving machine is very easy to operate, one hand can be free to take other articles, and the miniature carving machine is very convenient to use.

The handle 15 is provided with a touch sensitive switch 151 for controlling the operation of the desktop micro engraving machine. When a user needs to use the desktop micro-carving machine, the user can directly touch the touch-sensitive switch 151 to start the machine, and keep the finger stay on the touch-sensitive switch 151 for 3 or 5 seconds to realize the machine, and certainly, the user can control the desktop micro-carving machine to realize different functions or settings by continuously touching the touch-sensitive switch 151.

The handle 15 is provided with the metal decorative strip 152, so that the decorative aesthetic property is improved, and the utility model has better market competitiveness.

The casing 1 outside is provided with standard USB interface 101, DC interface 102 and TYPE-C interface 103, and it can satisfy the interface that passes through and charge or supply power, and it is very convenient to use.

In summary, the notch 41 is formed on one side of the heat sink 4, the X-axis motor 61 is disposed in the notch 41, so that the space occupied by the installation of the X-axis motor 61 can be reduced, the heat dissipation fan 5 is disposed on the upper end surface of the heat sink 4, and the Y-axis motor 71 is disposed on the upper end surface of the Y-axis motor 71 and beside the Y-axis motor 71, so that the space occupied by the installation of the Y-axis motor 71 can be reduced, the structure of the utility model is more compact, the size of the utility model can be smaller, the utility model is beneficial to the miniaturization and miniaturization development of products, and the utility model has strong market competitiveness.

It should be understood that the above description is only exemplary of the present invention, and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Claims (9)

1. A compact tabletop miniature engraving machine comprising: casing (1), install laser source (2), PCB board (3), radiator (4) in casing (1), install radiator fan (5) on radiator (4) and shake mirror (6) and Y axle with laser source (2) adaptation shake mirror (7), lens (8) with the X axle, be used for driving X axle shake mirror (6) pivoted X axle motor (61), be used for driving Y axle shake mirror (7) pivoted Y axle motor (71), radiator (4), X axle motor (61) and Y axle motor (71) and laser source (2) are all installed on mount pad (9), and this mount pad (9) are fixed in casing (1), its characterized in that:

a notch (41) is formed in one side of the radiator (4), the X-axis motor (61) is arranged in the notch (41), the radiating fan (5) is arranged on the upper end face of the radiator (4), and the Y-axis motor (71) is arranged on the upper end face of the Y-axis motor (71) and located beside the Y-axis motor (71).

2. The compact tabletop micro engraver of claim 1, wherein: the periphery of the radiator (4) is provided with a plurality of radiating fins (42), a radiating interval is formed between every two adjacent radiating fins (42), and the radiating fan (5) is arranged on the radiating fins (42).

3. The compact tabletop micro engraver of claim 2, wherein: the radiator (4) is backwards provided with an installation channel (43) penetrating through the rear end face along the front end face of the radiator, the laser light source (2) penetrates through the installation channel (43), and the front end of the laser light source (2) extends out of the installation channel (43).

4. The compact tabletop micro engraver of any of claims 1 to 3, wherein: the mounting seat (9) is L-shaped, a first mounting hole (91) and a second mounting hole (92) which are respectively used for the X-axis motor (61) and the Y-axis motor (71) to penetrate are formed in the mounting seat (9), a first crack (93) communicated with the first mounting hole (91) is formed in the side face of the mounting seat (9), and a second crack (94) communicated with the second mounting hole (92) is formed in the side face of the mounting seat (9).

5. The compact tabletop micro engraver of claim 4, wherein: the casing (1) comprises a frame (11), a casing (12) arranged on the periphery of the frame (11), an upper hole top plate (13) fixed on the upper end surface of the casing (12) and a lower hole bottom plate (14) fixed on the lower end surface of the casing (12), wherein the upper hole top plate (13) and the lower hole bottom plate (14) respectively cover the upper end surface and the lower end surface of the frame (11), the upper hole top plate (13) is provided with a plurality of first heat dissipation holes (131) for dissipating heat, and the lower hole bottom plate (14) is provided with a plurality of second heat dissipation holes (141) for dissipating heat.

6. The compact tabletop micro engraver of claim 4, wherein: the shell (1) is provided with a handle (15) for being held by hands.

7. The compact tabletop micro engraver of claim 6, wherein: and a touch induction switch (151) for controlling the desktop micro engraving machine to work is arranged on the handle (15).

8. The compact tabletop micro engraver of claim 6, wherein: and a metal decorative strip (152) is arranged on the handle (15).

9. The compact tabletop micro engraver of claim 5, wherein: the shell (1) is provided with a standard USB interface (101), a DC interface (102) and a TYPE-C interface (103) on the outer side.

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