CN219544324U

CN219544324U - Chip dotting device

Info

Publication number: CN219544324U
Application number: CN202320249969.7U
Authority: CN
Inventors: 陈伟锋
Original assignee: Shenzhen Angke Technology Co ltd
Current assignee: Shenzhen Angke Technology Co ltd
Priority date: 2023-02-08
Filing date: 2023-02-08
Publication date: 2023-08-18
Anticipated expiration: 2033-02-08

Abstract

The utility model discloses a chip dotting device which comprises a bracket, a moving component, a dotting component, a guide component and a power mechanism, wherein the moving component, the dotting component, the guide component and the power mechanism are all arranged on the bracket, the moving component is connected with the dotting component and the guide component, and the power mechanism is connected with the moving component so as to drive the moving component to drive the dotting component to move along the guide component; the guide assembly comprises a first guide piece, the first guide piece is connected with the support, the moving assembly comprises a first moving piece, the first moving piece is matched with the first guide piece, the dotting assembly is used for dotting, and the dotting assembly is connected with the first moving piece, so that the first moving piece moves along the first guide piece to drive the dotting assembly to perform dotting. The dotting assembly can be driven by the power mechanism to move along the first guide piece so as to perform dotting, and the chip is convenient to dot.

Description

Chip dotting device

Technical Field

The utility model relates to the field of chip burner equipment, in particular to a chip dotting device.

Background

The chip is burnt through the burner, after the chip is burnt, the burnt chip needs to be marked, and the surface of the chip is marked with ink usually, so that the chip is confirmed to be the burnt chip, the process of marking the surface of the chip is often called dotting, and the chip can be marked by dotting the burnt chip, so that repeated burning of the chip is prevented.

However, if the marking is performed manually, the marking is performed by the operator using a marking tool, and even a skilled operator, the marking efficiency is still low and labor is wasted. Therefore, there is a need for a chip dotting device that can dot a chip.

Disclosure of Invention

Accordingly, it is necessary to provide a chip dotting device capable of dotting a chip.

In order to solve the problems, the utility model provides a chip dotting device, which comprises a bracket, a moving component, a dotting component, a guide component and a power mechanism, wherein the moving component, the dotting component, the guide component and the power mechanism are all arranged on the bracket, the moving component is connected with the dotting component and the guide component, and the power mechanism is used for driving the moving component to drive the dotting component to move along the guide component so as to perform dotting;

the guide assembly comprises a first guide piece, the first guide piece is connected with the support, the moving assembly comprises a first moving piece, the first moving piece is matched with the first guide piece, the dotting assembly is used for dotting, and the dotting assembly is connected with the first moving piece, so that the first moving piece moves along the first guide piece to drive the dotting assembly to dott.

In one embodiment, the first guide member is a slide rail, and the slide rail is disposed on a side of the bracket near the first moving member;

the first moving part comprises a sliding block and a connecting plate connected with the sliding block, the sliding block is matched with the sliding rail, the connecting plate is connected with the dotting assembly, and the sliding block moves along the sliding rail so as to drive the moving plate and the dotting assembly to move.

In one embodiment, the guide assembly further comprises a second guide, the motion assembly further comprises a second motion member, and the first motion member is matched with the second motion member;

the second guide piece is connected with the support, the second moving piece is connected with the dotting assembly, the connecting plate is connected with the second moving piece, and the second moving piece drives the dotting assembly to move along the second guide piece.

In one embodiment, two side plates are arranged at two side ends of the connecting plate, and the second moving piece is connected between the two side plates;

the dotting assembly is connected with the second moving piece, so that when the sliding block drives the connecting plate to move along the sliding rail, the second moving piece drives the dotting assembly to move along the second guide piece.

In one embodiment, the second guiding element is a sliding groove, the sliding groove is formed in a region, close to the side plate, of the support, and the extending direction of the sliding groove is the same as the extending direction of the sliding rail;

the second moving part comprises a connecting shaft and a roller, the dotting assembly is connected to the connecting shaft, the connecting shaft is connected between the two side plates, the connecting shaft penetrates through the sliding groove, the roller is sleeved on the connecting shaft, and the roller is matched with the sliding groove, so that the roller drives the connecting shaft to move in the sliding groove.

In one embodiment, the number of the sliding grooves is two, and the two side plates are located on the side, relatively far away from the two sliding grooves, of the sliding grooves, so that the second moving piece is located between the two side plates.

In one embodiment, the dotting assembly comprises a mounting seat and a dotting head connected with the mounting seat, wherein the mounting seat is connected with the connecting shaft, and the dotting head is mounted at the lower end of the mounting seat.

In one embodiment, the dotting assembly further includes an ink cartridge attached to the support, the ink cartridge for storing ink, the ink cartridge being located above the mount and the dotting head.

In one embodiment, a channel is provided in the mounting base for communicating the dotting head with the ink cartridge.

In one embodiment, the power mechanism is a cylinder, the cylinder is mounted on the bracket, and the lower end of the cylinder is connected with the connecting plate.

According to the chip dotting device, the moving assembly, the dotting assembly, the guide assembly and the power mechanism are arranged through the support, the first moving part can be driven to move along the first guide part through the power mechanism, and the dotting assembly can be conveniently driven to move through the first moving part moving along the first guide part, so that the dotting assembly can be driven to move along the first guide part through the power mechanism to perform dotting, and further the chip can be conveniently dotted.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Wherein:

fig. 1 is a schematic structural diagram of a chip dotting device according to an embodiment.

Fig. 2 is another view of the schematic structure of the chip dotting device shown in fig. 1.

Fig. 3 is a side view of the chip dotting device shown in fig. 1.

Reference numerals:

10-a bracket;

22-first moving parts, 222-sliding blocks, 224-connecting plates, 226-side plates, 24-second moving parts, 242-connecting shafts and 244-rollers;

42-ink box, 44-dotting head, 46-mounting seat;

62-first guide, 622-slide rail, 64-second guide, 642-slide slot;

80-power mechanism, 82-cylinder.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the members in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicators are correspondingly changed.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

Referring to fig. 1-3, the utility model discloses a chip dotting device in an embodiment, which comprises a bracket 10, a moving component, a dotting component, a guiding component and a power mechanism 80, wherein the moving component, the dotting component, the guiding component and the power mechanism 80 are all arranged on the bracket 10, the moving component is connected with the dotting component and the guiding component, and the power mechanism 80 is connected with the moving component so as to drive the moving component to drive the dotting component to move along the guiding component.

The guide assembly comprises a first guide member 62, the first guide member 62 is connected with the bracket 10, the movement assembly comprises a first movement member 22, the first movement member 22 is matched with the first guide member 62, the dotting assembly is used for dotting, and the dotting assembly is connected with the first movement member 22, so that the first movement member 22 moves along the first guide member 62 to drive the dotting assembly to perform dotting.

Specifically, the support 10 can be convenient for the installation of motion subassembly, dotting subassembly, direction subassembly and power unit 80, when playing the supporting role to dotting subassembly, direction subassembly and power unit 80, can also be convenient for power unit 80 drive motion subassembly drive along the direction subassembly motion, and then drive dotting subassembly and dott.

The first guide piece 62 is arranged on the support 10, and the first moving piece 22 is matched with the first guide piece 62, so that the first moving piece 22 can move along the first guide piece 62, and when the first moving piece 22 moves along the first guide piece 62 through the connection of the dotting assembly and the first moving piece 22, the dotting assembly can be driven to move along with the movement of the first moving piece 22, the movement of the dotting assembly can be facilitated, and the dotting assembly can be conveniently used for dotting.

In the embodiment of the utility model, the chip dotting device is provided with the moving component, the dotting component, the guide component and the power mechanism 80 through the bracket 10, the first moving part 22 can be driven to move along the first guide part 62 through the power mechanism 80, the dotting component can be conveniently driven to move along the first guide part 62 through the first moving part 22, and therefore, the dotting component can be driven to move along the first guide part 62 through the power mechanism 80 to perform dotting, and further, the chip can be conveniently dotted.

Referring to fig. 2, the first guide 62 is a slide rail 622, and the slide rail 622 is disposed on a side of the bracket 10 adjacent to the first moving member 22.

The first moving member 22 includes a slider 222 and a connection plate 224 connected to the slider 222, the slider 222 is matched with the slide rail 622, the connection plate 224 is connected to the dotting assembly, and the slider 222 moves along the slide rail 622 to drive the moving plate and the dotting assembly to move.

Specifically, the first guide member 62 is fixedly connected to the front side of the support 10, and the first guide member 62 is a slide rail 622, the first moving member 22 includes a slider 222 and a connecting plate 224, the slider 222 is matched with the slide rail 622, the connecting plate 224 is connected to the front side of the slider 222, and the connecting plate 224 is connected to the dotting assembly, so that the slider 222 moves along the slide rail 622 to drive the connecting plate 224 to move, and then the dotting assembly can be driven to move along the slide rail 622 by the slider 222.

Referring to fig. 1 and 2, the guide assembly further includes a second guide 64, the motion assembly further includes a second motion member 24, and the first motion member 22 mates with the second motion member 24.

The second guide member 64 is connected to the bracket 10, the second moving member 24 is connected to the dotting assembly, the connecting plate 224 is connected to the second moving member 24, and the second moving member 24 drives the dotting assembly to move along the second guide member 64.

Specifically, the first moving member 22 moves along the first guiding member 62, specifically, the sliding block 222 moves along the sliding rail 622, under the driving of the power mechanism 80, the sliding block 222 can drive the connecting plate 224 to move, and the connecting plate 224 can drive the side plate 226, the connecting shaft 242 and the second moving member 24 to move along the second guiding member 64, at this time, the dotting assembly can be driven by the second moving member 24 to move to perform dotting.

The second moving member 24 and the second guide member 64 are arranged, so that the assembly can be conveniently installed and moved, the power mechanism 80 drives the first moving member 22 to move along the first guide member 62, the first moving member 22 drives the second moving member 24 to move along the second guide member 64, and the second moving member 24 is connected with the assembly, so that the assembly can be driven to move through the power mechanism 80, and therefore, the assembly of the first moving member 22, the second moving member 24, the first guide member 62 and the second guide member 64 can enable the assembly to move more stably, and the assembly can be prevented from shaking during dotting.

Preferably, the two side ends of the connecting plate 224 are provided with side plates 226, and the second moving member 24 is connected between the two side plates 226; the dotting assembly is coupled to the second movable member 24 such that when the slider 222 moves the connecting plate 224 along the rail 622, the second movable member 24 moves the dotting assembly along the second guide member 64.

Specifically, the left and right side ends of the connection plate 224 extend out of the slide rails 622, the left and right side ends of the connection plate 224 are welded with a side plate 226, the side plate 226 is perpendicular to the connection plate 224 and extends toward the front side of the connection plate 224, a second moving member 24 is connected between the two side plates 226, and the second moving member 24 is in a parallel relationship with the connection plate 224.

Therefore, the side plate 226 and the second moving member 24 can be driven to move by the movement of the connecting plate 224, and the second moving member 24 can drive the dotting assembly to mark the chip by dotting along the second guiding member 64. The first moving part 22 and the second moving part 24 are driven to move by the power mechanism 80, so that the dotting mark of the dotting assembly on the chip is finally realized, and the movement of the dotting assembly is more stable.

Preferably, the second guide member 64 is a sliding groove 642, the sliding groove 642 is formed in a region of the bracket 10 near the side plate 226, and the extending direction of the sliding groove 642 is the same as the extending direction of the sliding rail 622.

The second moving member 24 includes a connecting shaft 242 and a roller 244, the dotting assembly is connected to the connecting shaft 242, the connecting shaft 242 is connected between the two side plates 226, the connecting shaft 242 penetrates the sliding groove 642 and the roller 244 is sleeved on the connecting shaft 242, the roller 244 is matched with the sliding groove 642, and the roller 244 drives the connecting shaft 242 to move in the sliding groove 642.

Further, the number of the sliding grooves 642 is two, and the two side plates 226 are located on the opposite far side of the two sliding grooves 642, so that the second moving member 24 is located between the two side plates 226.

Specifically, the second guide member 64 is a sliding groove 642 formed on the bracket 10, more specifically, the number of sliding grooves 642 is two, and is located at two sides of the two side plates 226.

The connecting shaft 242 penetrates through the two sliding grooves 642 and is connected to the two side plates 226, the number of the rollers 244 is two, the two rollers 244 are respectively matched with the two sliding grooves 642, and the sliding grooves 642 and the sliding rails 622 are all arranged in the vertical direction, so that the power mechanism 80 can drive the first moving member 22 to move up and down, the first moving member 22 can drive the connecting shaft 242 and the rollers 244 to move in the sliding grooves 642 in the vertical direction, and at the moment, the connecting shaft 242 can drive the dotting assembly to move up and down, so that the dotting assembly is convenient for dotting the chip.

Referring to fig. 1-3, the dotting assembly includes a mounting base 46 and a dotting head 44 connected to the mounting base 46, the mounting base 46 is connected to a connecting shaft 242, and the dotting head 44 is mounted at the lower end of the mounting base 46.

Specifically, the mounting base 46 is fixedly connected to the connecting shaft 242, and the dotting head 44 is mounted at the lower end of the connecting base, so that the dotting assembly can be conveniently mounted, and the dotting assembly can be more stably mounted.

Preferably, the dotting assembly further includes an ink cartridge 42 attached to the support 10, the ink cartridge 42 for storing ink, the ink cartridge 42 being located above the mount 46 and the dotting head 44.

Specifically, the ink cartridge 42 is mounted on the support 10, the ink cartridge 42 is used for storing ink, and the ink cartridge 42 is located at the upper ends of the mounting seat 46 and the dotting head 44, so that the dotting head 44 can move upwards conveniently to take ink.

Preferably, a channel is provided in the mounting block 46 that communicates the dotting head 44 with the ink cartridge 42.

The mounting base 46 is provided with a channel for communicating the dotting head 44 with the ink cartridge 42, and the bottom of the ink cartridge 42 is provided with a connection port for communicating with the channel.

In one embodiment, ink can be extracted by movement of the second mover 24 along the second guide 64.

Referring to fig. 1-3, the power mechanism 80 is a cylinder 82, the cylinder 82 is mounted on the bracket 10, and the lower end of the cylinder 82 is connected with a connection plate 224.

Specifically, the dotting assembly is driven by the air cylinder 82, the air cylinder 82 is mounted on the bracket 10, the lower end of the air cylinder 82 is the working end of the air cylinder 82, and the working end of the air cylinder 82 is connected with the upper end of the connecting plate 224.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the claims. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims

1. The chip dotting device is characterized by comprising a bracket, a moving assembly, a dotting assembly, a guide assembly and a power mechanism, wherein the moving assembly, the dotting assembly, the guide assembly and the power mechanism are all arranged on the bracket, the moving assembly is connected with the dotting assembly and the guide assembly, and the power mechanism is connected with the moving assembly so as to drive the moving assembly to drive the dotting assembly to move along the guide assembly;

the guide assembly comprises a first guide piece, the first guide piece is connected with the support, the moving assembly comprises a first moving piece, the first moving piece is matched with the first guide piece, the dotting assembly is used for dotting, the dotting assembly is connected with the first moving piece, and therefore the first moving piece moves along the first guide piece to drive the dotting assembly to perform dotting.

2. The chip dotting device of claim 1, wherein the first guide member is a slide rail, the slide rail being disposed on a side of the bracket adjacent to the first moving member;

the first moving part comprises a sliding block and a connecting plate connected with the sliding block, the sliding block is matched with the sliding rail, the connecting plate is connected with the dotting assembly, and the sliding block moves along the sliding rail so as to drive the connecting plate and the dotting assembly to move.

3. The chip dotting device of claim 2, wherein said guide assembly further comprises a second guide, said motion assembly further comprises a second motion, said first motion being mated with said second motion;

4. The chip dotting device according to claim 3, wherein both side ends of the connecting plate are provided with side plates, and the second moving member is connected between the two side plates;

5. The chip dotting device according to claim 4, wherein the second guide member is a chute, the chute is formed in a region of the bracket, which is close to the side plate, and the extending direction of the chute is the same as the extending direction of the slide rail;

6. The chip dotting device of claim 5, wherein the number of said runners is two, both of said side plates being located on a side of said runners that is relatively far from each other, such that said second moving member is located between said side plates.

7. The chip dotting device of claim 6, wherein the dotting assembly comprises a mounting base and a dotting head connected with the mounting base, the mounting base is connected with the connecting shaft, and the dotting head is mounted at the lower end of the mounting base.

8. The chip dotting device of claim 7, wherein said dotting assembly further comprises an ink cartridge attached to said support, said ink cartridge for storing ink, said ink cartridge being positioned above said mount and said dotter head.

9. The chip dotting device of claim 8, wherein a channel is provided in the mount for communicating the dotter head with the ink cartridge.

10. The chip dotting device of claim 2, wherein the power mechanism is a cylinder, the cylinder is mounted on the bracket, and a lower end of the cylinder is connected with the connection plate.