CN217529653U - Shock absorption base of laser vision marking machine - Google Patents

Abstract

The utility model discloses a laser vision marking machine vibration damping mount, its technical scheme is: the damping device comprises a shell, wherein a first square groove is formed in the shell, and two damping mechanisms are arranged in the first square groove; damper includes first connecting box, and first connecting box is fixed to be located the shell inner wall, and the second square groove has been seted up to first connecting box inside, and second square inslot portion is equipped with first spring, and first spout has all been seted up to second square groove both sides, the first square plate of first spring one side fixedly connected with, a laser vision marking machine vibration damping mount beneficial effect is: can make fine shock attenuation effect through damper when using laser vision marking machine, reduce the deviation, reduce because the influence of thin vibrations to marking machine during operation, improve laser vision marking machine's operating mass and pass through damper and reduce the damage that vibrations can reduce marking machine internals, prolong marking machine's life, difficult breaking down promotes marking machine's normal work, improves work efficiency.

Description

Shock absorption base of laser vision marking machine

Technical Field

The utility model relates to a shock attenuation technical field, concretely relates to laser vision marking machine vibration damping mount.

Background

At present, many electronic products need to be marked by laser, the marking requirement is larger and larger along with the laser, the requirement of a user on a laser marking machine is larger and larger, the requirement on the laser marking machine is higher and higher, and if the laser marking machine with a laser vision system is adopted for operation in production, the laser marking machine with the laser vision system can realize automatic positioning, automatic focusing and automatic detection, so that more user identifications are obtained.

The existing laser vision printer often causes large deviation when the operation is carried out due to some tiny vibrations when in use, the influence on the product quality is large, and when tiny vibrations occur, workers are difficult to see, the large deviation is caused, and the vibration of the laser vision printer during operation is eliminated if not in time, the damage to internal parts of the laser vision printer can be caused, the service life of the laser vision printer is prolonged, the fault is easy to occur, the normal work of the laser vision printer is influenced, and the work efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a laser vision marking machine vibration damping mount, through designing damper, with the laser vision printer often can be because of the big deviation can appear when some tiny vibrations make the operation when using when solving the use, there is very big influence to product quality, and when taking place tiny vibrations, the staff also hardly sees, lead to appearing very big deviation, and laser vision marking machine vibrations if not in time elimination at the during operation production, can cause the damage to laser vision marking machine internals, lead to laser vision marking machine life to reduce, and break down easily, influence the normal work of laser vision marking machine, thereby lead to the problem that work efficiency reduces.

In order to achieve the above object, the present invention provides the following technical solutions: a shock absorption base of a laser vision marking machine comprises a shell, wherein a first square groove is formed in the shell, and two shock absorption mechanisms are arranged in the first square groove;

the damping mechanism comprises a first connecting box, the first connecting box is fixedly arranged on the inner wall of the shell, a second square groove is formed in the first connecting box, a first spring is arranged in the second square groove, first sliding grooves are formed in two sides of the second square groove, a first square plate is fixedly connected to one side of the first spring, first supporting rods are arranged on two sides of the first square plate, the first square plate and the two first supporting plates are movably connected through a rotating shaft, the first supporting rods are movably connected between the first supporting plates through a rotating shaft, a first toothed plate is fixedly arranged at the bottom of each straight rod, a gear is arranged on one side of the first toothed plate and is meshed with the gear, a second toothed plate is arranged on the other side of the gear and is meshed with the second toothed plate, a second connecting box is arranged on one side of the second toothed plate, the second connecting box is fixedly connected with the inner wall of the shell, a third square groove is formed in the second connecting box, a spring is arranged in one side of the third square groove, a third square groove is fixedly connected with one side of the spring, a third square groove is formed in the bottom of the third square groove, and a third square groove is formed in the spring, and is formed in the top of the third square groove.

Preferably, the straight rod penetrates through the shell, and a base is fixedly arranged at the top end of the straight rod.

Preferably, the top end of the base is fixedly provided with a laser visual marking machine body.

Preferably, a second sliding groove is formed in one side of the second connecting box, and the second supporting rod penetrates through the second sliding groove and slides in the second sliding groove.

Preferably, a third sliding groove is formed in one side of the third connecting box, and the third side plate penetrates through the third sliding groove and slides in the third sliding groove.

Preferably, a fourth sliding groove is formed in the square groove, a wheel is arranged at the top end of the second toothed plate, the second toothed plate is connected with the wheel through a bearing, and the wheel slides in the fourth sliding groove.

Preferably, a third supporting rod is arranged inside the gear, two ends of the third supporting rod are fixedly connected with two ends of the square groove respectively, and the third supporting rod is connected with the gear through a bearing.

Preferably, the first toothed plate is in meshed connection with a gear.

The embodiment of the utility model provides a have following advantage:

can make fine shock attenuation effect through damper when using laser vision marking machine, reduce the deviation, reduce because the influence of thin vibrations to marking machine during operation, improve laser vision marking machine's operating mass, reduce the damage that vibrations can reduce marking machine internals through damper, prolong marking machine's life, difficult breaking down promotes marking machine's normal work, improves work efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic cross-sectional view of the overall structure provided by the present invention;

fig. 2 is a top cross-sectional view provided by the present invention;

fig. 3 is a schematic view of a portion a in fig. 1 according to the present invention;

fig. 4 is an enlarged view of the structure of the part B in fig. 1 according to the present invention.

In the figure: 1 laser vision marking machine body, 2 straight-bar, 3 bases, 4 first branch rods, 5 first square plates, 6 shells, 7 first connecting boxes, 8 second square grooves, 9 first springs, 10 first sliding grooves, 11 second connecting boxes, 12 second springs, 13 third square grooves, 14 second square plates, 15 second branch rods, 16 gears, 17 first toothed plates, 18 fourth square grooves, 19 third square plates, 20 third springs, 21 second toothed plates, 22 first square grooves, 23 third branch rods, 24 third connecting boxes, 25 fourth sliding grooves, 26 wheels, 27 third sliding grooves and 28 second sliding grooves.

Detailed Description

The present invention is described in detail with reference to the specific embodiments, and other advantages and effects of the present invention will be apparent to those skilled in the art from the disclosure herein. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to the attached drawings 1-4, the shock absorption base of the laser vision marking machine provided by the utility model comprises a shell 6, wherein a first square groove 22 is arranged inside the shell 6, and two shock absorption mechanisms are arranged inside the first square groove 22;

the damping mechanism comprises a first connecting box 7, the first connecting box 7 is fixedly arranged on the inner wall of the shell 6, a second square groove 8 is arranged in the first connecting box 7, a first spring 9 is arranged in the second square groove 8, two sides of the second square groove 8 are both provided with a first sliding groove 10, one side of the first spring 9 is fixedly connected with a first square plate 5, the two sides of the first square plate 5 are both provided with a first supporting rod 4, the first square plate 5 is movably connected with the two first supporting rods 4 through a rotating shaft, a straight rod 2 is movably connected between the two first supporting rods 4 through a rotating shaft, a first toothed plate 17 is fixedly arranged at the bottom of the straight rod 2, a gear 16 is arranged at one side of the first toothed plate 17, the first toothed plate 17 is meshed with the gear 16, the other side of the gear 16 is provided with a second toothed plate 21, the gear 16 is meshed with a second toothed plate 21, one side of the second toothed plate 21 is provided with a second connecting box 11, the second connecting box 11 is fixedly connected with the inner side wall of the shell 6, a third square groove 13 is arranged in the second connecting box 11, a second spring 12 is arranged in the third square groove 13, one side of the second toothed plate 21 is fixedly connected with a second supporting rod 15, one side of the second supporting rod 15 is fixedly connected with a second square plate 14, the second square plate 14 is arranged at the bottom of the second connecting box 11, the second square plate 14 is fixedly connected with the second spring 12, one side of the first toothed plate 17 is fixedly provided with a third square plate 19, a third connecting box 24 is arranged at one side of the first toothed plate 17, the third connecting box 24 is fixedly arranged at the bottom of the outer shell 6, a fourth groove 18 is formed in the third connecting box 24, a third spring 20 is arranged in the fourth groove 18, and the top of the third spring 20 is fixedly connected with a third square plate 19;

in this embodiment, when the shock is applied to the base 3, the base 3 starts to move up and down, when the base 3 moves down, the base 3 moves down to drive the straight rod 2 to move down, the straight rod 2 moves down to drive the first supporting rod 4 to descend and slide left and right in the first sliding chute 10, the first supporting rod 4 moves down to drive the first lower plate 5 to move left in the second lower chute 8 and then move right, and compress and stretch the first spring 9, the straight rod 2 moves down to drive the first toothed plate 17 to move down, the first toothed plate 17 moves down to drive the gear 16 to rotate, the gear 16 rotates to drive the second toothed plate 21 to move down, the second toothed plate 21 moves down to drive the second supporting rod 15 to move down in the second sliding chute 28, the second supporting rod 15 moves down to drive the second lower plate 14 to move down, the second lower plate 14 moves down to stretch the second spring 12, the second toothed plate 21 moves down to drive the wheel 26 to move down in the fourth sliding chute 25, the first supporting rod 15 moves down to drive the third toothed plate 17 to move down in the third sliding chute 20;

when the base 3 moves upwards, the upward movement of the base 3 can drive the straight rod 2 to move upwards, the upward movement of the straight rod 2 can drive the first supporting rod 4 to ascend and slide left and right in the first sliding groove 10, the upward movement of the first supporting rod 4 can drive the first square plate 5 to move left in the second square groove 8 and then move right, the first spring 9 is compressed and stretched, the upward movement of the straight rod 2 can drive the first toothed plate 17 to move upwards, the upward movement of the first toothed plate 17 can drive the gear 16 to rotate, the rotation of the gear 16 can drive the second toothed plate 21 to move upwards, the upward movement of the second toothed plate 21 can drive the second supporting rod 15 to move upwards in the second sliding groove 28, the upward movement of the second supporting rod 15 can drive the second square plate 14 to move upwards, the upward movement of the second square plate 14 can compress the second spring 12, the upward movement of the second toothed plate 21 can drive the wheel 26 to slide upwards in the fourth sliding groove 25, the upward movement of the first toothed plate 17 can drive the third toothed plate 19 to slide upwards in the third sliding groove 27, and the upward movement of the third toothed plate 20 can stretch the spring.

Wherein, in order to realize promoting the purpose of straight-bar 2, this device adopts following technical scheme to realize: the straight rod 2 penetrates through the shell 6, the base 3 is fixedly arranged at the top end of the straight rod 2, and the base 3 can better push the straight rod 2;

wherein, in order to realize the purpose of fixed laser vision marking machine body 1, this device adopts following technical scheme to realize: the laser visual marking machine body 1 is fixedly arranged at the top end of the base 3, and the laser visual standard-reaching body 1 is better fixed by the base 3;

wherein, in order to realize the purpose that second branch 15 more conveniently slides, this device adopts following technical scheme to realize: a second sliding groove 28 is formed in one side of the second connecting box 11, the second supporting rod 15 penetrates through the second sliding groove 28 and slides in the second sliding groove 28, and the second sliding groove 28 facilitates the sliding of the second supporting rod 15;

in order to achieve the purpose of facilitating the sliding of the third board 19, the device adopts the following technical scheme: a third sliding chute 27 is formed in one side of the third connecting box 24, the third square plate 19 penetrates through the third sliding chute 27 and slides in the third sliding chute 27, and the third sliding chute 27 facilitates the sliding of the third square plate 19;

wherein, in order to realize the purpose of facilitating the second toothed plate 21 to slide, this device adopts following technical scheme to realize: a fourth sliding groove 25 is formed in the first square groove 25, a wheel 26 is arranged at the top end of the second toothed plate 21, the second toothed plate 21 is connected with the wheel 26 through a bearing, the wheel 26 slides in the fourth sliding groove 25, and the fourth sliding groove 25 facilitates sliding of the second toothed plate 21.

Wherein, in order to realize the purpose that gear 16 rotates, this device adopts the following technical scheme to realize: gear 16 is inside to be equipped with third branch 23, the both ends of third branch 23 respectively with the both ends fixed connection of second square groove 8, third branch 23 passes through the bearing with gear 16 and is connected, and third branch 23 makes things convenient for gear revolve.

Wherein, in order to realize the purpose that gear 17 rotates smoothly, this device adopts following technical scheme to realize: the first toothed plate 17 is in meshed connection with the gear 16.

The utility model discloses a use as follows: when the utility model is used, the base 3 starts to move up and down when being vibrated when in use, when the base 3 moves down, the base 3 moves down to drive the straight rod 2 to move down, the straight rod 2 moves down to drive one end of the first support rod 4 to descend, and the other end of the first support rod slides left and right in the first chute 10, the first support rod 4 moves down to drive the first square plate 5 to move left in the second square groove 8 and then move right, and compress and stretch the first spring 9, the straight rod 2 moves down to drive the first pinion plate 17 to move down, the first pinion plate 17 moves down to drive the gear 16 to rotate, the gear 16 rotates to drive the second pinion plate 21 to move down, the second pinion plate 21 moves down to drive the second support rod 15 to move down in the second chute 28, the second pinion plate 15 moves down to drive the second square plate 14 to move down, the second square plate 14 moves down to stretch the second spring 12, the second pinion plate 21 moves down to drive the third pinion plate 19 to move down in the fourth chute 26, and the third pinion plate 19 moves down to drive the third chute 19; when the base 3 moves upward, the actions of the transmission components are opposite to the above.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solutions described above. Therefore, any simple modifications or equivalent replacements made according to the technical solution of the present invention belong to the scope of protection claimed by the present invention as far as possible.

Claims (8)

1. The utility model provides a laser vision marking machine vibration damping mount, includes shell (6), its characterized in that: a first square groove (22) is formed in the shell (6), and two damping mechanisms are arranged in the first square groove (22);

the damping mechanism comprises a first connecting box (7), the first connecting box (7) is fixedly arranged on the inner wall of the shell (6), a second square groove (8) is formed in the first connecting box (7), a first spring (9) is arranged in the second square groove (8), first sliding grooves (10) are formed in two sides of the second square groove (8), a first square plate (5) is fixedly connected to one side of the first spring (9), first supporting rods (4) are arranged on two sides of the first square groove (5), the first square plate (5) is movably connected with the two first supporting rods (4) through a rotating shaft, a straight rod (2) is movably connected between the two first supporting rods (4) through a rotating shaft, a first toothed plate (17) is fixedly arranged at the bottom of the straight rod (2), a gear (16) is arranged on one side of the first toothed plate (17), a second toothed plate (21) is arranged on the other side of the gear (16), the gear (16) is meshed with the second toothed plate (21), a second toothed plate (21) is fixedly arranged on one side of the second toothed plate (21), a second toothed plate (11) is fixedly arranged on one side of the second connecting box, a second spring (11) is connected with the inner side of the shell (11), and a second groove (12) is formed in the second connecting box (11), second branch (15) one side fixed connection second square plate (14), second connecting box (11) bottom is located in second square plate (14), second square plate (14) and second spring (12) fixed connection, first pinion rack (17) one side is fixed and is equipped with third square plate (19), first pinion rack (17) one side is equipped with third connecting box (24), shell (6) bottom is fixed to third connecting box (24), fourth groove (18) have been seted up to third connecting box (24) inside, fourth groove (18) inside is equipped with third spring (20), third spring (20) top and third square plate (19) fixed connection.

2. The shock absorption base of the laser visual marking machine of claim 1, characterized in that: the straight rod (2) penetrates through the shell (6), and the base (3) is fixedly arranged at the top end of the straight rod (2).

3. The shock absorption base of the laser visual marking machine according to claim 2, characterized in that: the laser visual marking machine is characterized in that a laser visual marking machine body (1) is fixedly arranged at the top end of the base (3).

4. The shock absorption base of the laser visual marking machine of claim 1, characterized in that: and a second sliding groove (28) is formed in one side of the second connecting box (11), and the second support rod (15) penetrates through the second sliding groove (28) and slides in the second sliding groove (28).

5. The shock absorption base of the laser visual marking machine of claim 1, characterized in that: and a third sliding groove (27) is formed in one side of the third connecting box (24), and the third square plate (19) penetrates through the third sliding groove (27) and slides in the third sliding groove (27).

6. The shock absorption base of the laser visual marking machine of claim 1, characterized in that: a fourth sliding groove (25) is formed in the first square groove (22), a wheel (26) is arranged at the top end of the second toothed plate (21), the second toothed plate (21) is connected with the wheel (26) through a bearing, and the wheel (26) slides in the fourth sliding groove (25).

7. The shock absorption base of the laser visual marking machine of claim 1, characterized in that: gear (16) inside is equipped with third branch (23), the both ends of third branch (23) respectively with the both ends fixed connection of second square groove (8), third branch (23) pass through the bearing with gear (16) and are connected.

8. The shock absorption base of the laser visual marking machine of claim 1, characterized in that: the first toothed plate (17) is in meshed connection with the gear (16).

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