阅读说明：本技术 一种带有称重检测功能的覆铜板真空包装装置 (Copper-clad plate vacuum packaging device with weighing detection function ) 是由 胡金山 代建伟 顾峰 于 2021-08-05 设计创作，主要内容包括：本发明公开了一种带有称重检测功能的覆铜板真空包装装置,涉及包装装置技术领域。本发明包括基板,基板一侧滑动配合有称本体、装设有电机,称本体两侧对称滑动配合有滑动柱,电机输出端装设有两侧螺纹方向相反的螺纹杆,螺纹杆两侧均螺纹配合有滑动块。本发明通过在基板的上侧装设用于覆铜板称重的称本体,便捷了对进行真空包装的覆铜板进行称重,对不在重量误差之内的覆铜板进行挑出,滑动柱的设置,实现了第二转动板在滑动块的带动下对滑动柱进行驱动,以使滑动柱从称本体的一侧滑出,以实现通过两滑动柱把覆铜板滑入真空袋内进行包装,进而提高了覆铜板包装的效率。(The invention discloses a copper-clad plate vacuum packaging device with a weighing detection function, and relates to the technical field of packaging devices. The scale comprises a substrate, a scale body and a motor are slidably matched on one side of the substrate, sliding columns are symmetrically slidably matched on two sides of the scale body, a threaded rod with opposite thread directions is arranged on the output end of the motor, and sliding blocks are in threaded fit on two sides of the threaded rod. According to the invention, the scale body for weighing the copper-clad plate is arranged on the upper side of the base plate, so that the copper-clad plate subjected to vacuum packaging can be conveniently weighed, the copper-clad plate not within the weight error can be picked out, the sliding columns are arranged, the second rotating plate is driven by the sliding blocks to drive the sliding columns, so that the sliding columns slide out from one side of the scale body, the copper-clad plate is slid into the vacuum bag through the two sliding columns for packaging, and the efficiency of packaging the copper-clad plate is further improved.)

1. The utility model provides a copper-clad plate vacuum packaging device with weighing detects function which characterized in that includes: the scale comprises a substrate (1), wherein a scale body (11) is matched on one side of the substrate (1) in a sliding manner and is provided with a motor, sliding columns (14) are symmetrically matched on two sides of the scale body (11) in a sliding manner, threaded rods (10) with opposite thread directions are arranged at the output end of the motor, and sliding blocks (6) are matched on two sides of each threaded rod (10) in a threaded manner;

sliding block (6) one side normal running fit has first rotating plate (8), second rotating plate (9), and first rotating plate (8) and title body (11) cooperation, and second rotating plate (9) and slip post (14) cooperation, and the vacuum machine has been installed to base plate (1) one side, and the vacuum machine includes: a third rotating plate (25) engaged with the sliding column (14).

2. The copper-clad plate vacuum packaging device with the weighing detection function as claimed in claim 1, wherein a first channel (2), a second channel (5) located on one side of the first channel (2), and two third channels (30) located on one side of the second channel (5) are formed in one side of the base plate (1), a first guide rod (3) is installed in the first channel (2), a first L-shaped plate (4) is arranged in the first channel (2) in a sliding fit manner, one end of the first L-shaped plate (4) is matched with the scale body (11), and the other end of the first L-shaped plate (4) is matched with the first guide rod (3) in a sliding fit manner.

3. The copper-clad plate vacuum packaging device with the weighing detection function as claimed in claim 2, wherein the motor is installed in the second channel (5), the sliding block (6) is in sliding fit in the second channel (5), the first fixing rods (7) are symmetrically installed on one side of the sliding block (6), and the two first fixing rods (7) are respectively in rotating fit with the first ends of the first rotating plate (8) and the second rotating plate (9).

4. The copper-clad plate vacuum packaging device with the weighing detection function as claimed in claim 2, wherein the third channel (30) is internally provided with a second guide rod (19), the third channel (30) is internally provided with a second L-shaped plate (21) in a sliding fit manner, the second L-shaped plate (21) is in a sliding fit manner on the second guide rod (19), and a spring (20) is arranged between the second L-shaped plate (21) and the third channel (30).

5. The copper-clad plate vacuum packaging device with the weighing detection function as claimed in claim 4, wherein the vacuum machine is symmetrically provided with fixed blocks (23), a third fixed rod (24) rotatably matched with a third rotating plate (25) is arranged between the two fixed blocks (23), both sides of the third rotating plate (25) are provided with inclined plane blocks (31) matched with the second L-shaped plate (21), one side of each inclined plane block (31) is provided with an inclined plane, and the inclined plane faces the second L-shaped plate (21).

6. The copper-clad plate vacuum packaging device with the weighing detection function as claimed in claim 4, wherein a third L-shaped plate (15) is installed at one side of the sliding column (14), a fixed column (22) is installed at one side of the third L-shaped plate (15), and one end of the fixed column (22) is attached to one side of the second L-shaped plate (21).

7. The copper-clad plate vacuum packaging device with the weighing detection function as claimed in claim 1, wherein a fourth channel (12) is symmetrically formed on one side of the scale body (11), and a third guide rod (13) in sliding fit with the sliding column (14) is arranged inside the fourth channel (12).

8. The copper-clad plate vacuum packaging device with the weighing detection function as claimed in claim 7, wherein one side of the scale body (11) is symmetrically provided with connecting columns (18), one sides of the connecting columns (18) and the sliding column (14) are respectively provided with a connecting block (16), one side of the connecting block (16) is provided with a third fixing rod (17), and the two third fixing rods (17) are respectively in rotating fit with the second ends of the first rotating plate (8) and the second rotating plate (9).

9. The copper-clad plate vacuum packaging device with the weighing detection function as claimed in claim 1, wherein one end of the sliding column (14) is provided with a sphere (26) and a baffle plate (27) positioned at one side of the sphere (26).

10. The copper-clad plate vacuum packaging device with the weighing detection function as claimed in claim 9, wherein one side of the baffle plate (27) is provided with a fourth fixing rod (29), and one end of the fourth fixing rod (29) is provided with a roller (28).

Technical Field

The invention belongs to the technical field of packaging devices, and particularly relates to a copper-clad plate vacuum packaging device with a weighing detection function.

Background

A copper-clad plate vacuum packaging device with a weighing detection function is a device for weighing and vacuum packaging a copper-clad plate, wherein the copper-clad plate is a plate-shaped material prepared by soaking electronic glass fiber cloth or other reinforced materials with resin, coating copper foil on one surface or two surfaces and carrying out hot pressing. Various printed circuit boards with different forms and different functions are manufactured into different printed circuits by selectively carrying out the working procedures of processing, etching, drilling, copper plating and the like on a copper-clad plate.

The existing copper-clad plate generally does not have a device for weighing the copper-clad plate before vacuum packaging, and then the condition of uneven weight of the copper-clad plate is easily caused.

Disclosure of Invention

The invention aims to provide a copper-clad plate vacuum packaging device with a weighing detection function, and solves the technical problem of uneven weight of the existing copper-clad plate.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a copper-clad plate vacuum packaging device with a weighing detection function comprises a substrate, wherein a scale body is in sliding fit with one side of the substrate, a motor is arranged on the scale body, sliding columns are in sliding fit with two sides of the scale body symmetrically, a threaded rod with opposite thread directions is arranged at the output end of the motor, and sliding blocks are in threaded fit with two sides of the threaded rod;

sliding block one side normal running fit has first rotor plate, second rotor plate, and first rotor plate and title body cooperation, and the cooperation of second rotor plate and sliding column, and the vacuum machine has been installed to base plate one side, and the vacuum machine includes: and a third rotating plate matched with the sliding column.

Optionally, a first channel, a second channel located on one side of the first channel, and two third channels located on one side of the second channel are formed in one side of the substrate, a first guide rod is installed in the first channel, a first L-shaped plate is arranged in the first channel in a sliding fit mode, one end of the first L-shaped plate is matched with the balance body, and the other end of the first L-shaped plate is in a sliding fit mode on the first guide rod.

Optionally, the motor is installed in the second channel, the sliding block is in sliding fit in the second channel, first fixing rods are symmetrically installed on one side of the sliding block, and the two first fixing rods are respectively in rotating fit with the first ends of the first rotating plate and the second rotating plate.

Optionally, a second guide rod is installed inside the third channel, a second L-shaped plate is slidably fitted inside the third channel, the second L-shaped plate is slidably fitted on the second guide rod, and a spring is installed between the second L-shaped plate and the third channel.

Optionally, the vacuum machine is symmetrically provided with fixed blocks, a third fixed rod in running fit with a third rotating plate is arranged between the two fixed blocks, inclined plane blocks matched with the second L-shaped plate are arranged on two sides of the third rotating plate, an inclined plane is arranged on one side of each inclined plane block, and the inclined plane faces the second L-shaped plate.

Optionally, a third L-shaped plate is installed on one side of the sliding column, a fixing column is installed on one side of the third L-shaped plate, and one end of the fixing column is attached to one side of the second L-shaped plate.

Optionally, a fourth channel is symmetrically formed in one side of the scale body, and a third guide rod in sliding fit with the sliding column is installed inside the fourth channel.

Optionally, connecting columns are symmetrically arranged on one side of the scale body, connecting blocks are arranged on one sides of the connecting columns and the sliding columns, third fixing rods are arranged on one side of each connecting block, and the two third fixing rods are respectively in running fit with the second ends of the first rotating plate and the second rotating plate.

Optionally, one end of the sliding column is provided with a ball and a baffle plate positioned at one side of the ball.

Optionally, a fourth fixing rod is installed at one side of the baffle, and a roller is installed at one end of the fourth fixing rod.

The embodiment of the invention has the following beneficial effects:

according to the embodiment of the invention, the scale body for weighing the copper-clad plate is arranged on the upper side of the base plate, so that the copper-clad plate subjected to vacuum packaging can be conveniently weighed, the copper-clad plate which is not within the weight error can be picked out, and the sliding columns are arranged, so that the second rotating plate can drive the sliding columns under the driving of the sliding blocks, the sliding columns can slide out from one side of the scale body, the copper-clad plate can be slid into the vacuum bag through the two sliding columns for packaging, and the efficiency of packaging the copper-clad plate is further improved.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of the structure at B in FIG. 1;

FIG. 4 is a schematic view of the structure of FIG. 1 at C;

FIG. 5 is a schematic view of the structure of FIG. 1 at D;

FIG. 6 is a schematic view of the structure at E in FIG. 1;

FIG. 7 is a schematic diagram of a scale body structure according to an embodiment of the invention;

FIG. 8 is a schematic view of the structure at F in FIG. 7;

fig. 9 is a schematic view of the structure at J in fig. 7.

Wherein the figures include the following reference numerals:

the device comprises a base plate 1, a first channel 2, a first guide rod 3, a first L-shaped plate 4, a second channel 5, a sliding block 6, a first fixing rod 7, a first rotating plate 8, a second rotating plate 9, a threaded rod 10, a balance body 11, a fourth channel 12, a third guide rod 13, a sliding column 14, a third L-shaped plate 15, a connecting block 16, a third fixing rod 17, a connecting column 18, a second guide rod 19, a spring 20, a second L-shaped plate 21, a fixing column 22, a fixing block 23, a second fixing rod 24, a third rotating plate 25, a sphere 26, a baffle 27, a roller 28, a fourth fixing rod 29, a third channel 30 and an inclined block 31.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

To maintain the following description of the embodiments of the present invention clear and concise, a detailed description of known functions and known components of the invention have been omitted.

Referring to fig. 1-9, in this embodiment, a copper-clad plate vacuum packaging device with a weighing detection function is provided, which includes: the scale comprises a substrate 1, a scale body 11 and a motor are in sliding fit on one side of the substrate 1, sliding columns 14 are symmetrically in sliding fit on two sides of the scale body 11, threaded rods 10 with opposite thread directions on two sides are arranged on the output end of the motor, and sliding blocks 6 are in threaded fit on two sides of each threaded rod 10;

sliding block 6 one side normal running fit has first rotating plate 8, second rotating plate 9, and first rotating plate 8 and title body 11 cooperation, and second rotating plate 9 cooperates with slip post 14, and the vacuum machine has been installed to base plate 1 one side, and the vacuum machine includes: and a third rotating plate 25 engaged with the sliding column 14.

When the copper-clad plate needs to be weighed and vacuum-packed, firstly, the copper-clad plate is placed on the upper side of a scale body 11 for weighing and recording, then, the opening of a vacuum bag is placed between two sliding columns 14 in a shape of a Chinese character 'hui', then a motor is started, the output end of the motor drives two sliding blocks 6 to slide through a threaded rod 10, because the thread directions of two ends of the threaded rod 10 are opposite, the two sliding blocks 6 are close to each other, the sliding block 6 drives a first rotating plate 8 and a second rotating plate 9 to move, the second rotating plate 9 drives a sliding column 14 to slide, the first rotating plate 8 drives the scale body 11 to slide, the scale body 11 and the sliding column 14 are far away from each other, the sliding column 14 drives a third rotating plate 25 of a vacuum machine to rotate, the two sliding columns 14 drive the copper-clad plate to slide into the vacuum bag, when the copper-clad plate slides into the vacuum machine, then the motor is started reversely, and then the copper-clad plate is blocked by hand, the copper-clad plate is remained in the vacuum bag and is positioned in the vacuum machine, similarly, the sliding column 14 slides into the balance body 11, the third rotating plate 25 returns to the initial position, then the vacuum machine is started, the third rotating plate 25 is pressed, and the copper-clad plate positioned in the vacuum machine is subjected to vacuum packaging through the vacuum bag. It should be noted that the electric devices referred to in this application may be powered by a storage battery or an external power source.

Install the title body 11 that is used for the copper-clad plate to weigh through the upside at base plate 1, convenient copper-clad plate to carrying out vacuum packaging weighs, pick out the copper-clad plate not within the weight error, sliding column 14's setting, it drives sliding column 14 to have realized second rotor plate 9 under sliding block 6's drive, so that sliding column 14 from one side roll-off of title body 11, pack in the vacuum bag in order to realize sliding the copper-clad plate into through two sliding columns 14, and then improved the efficiency of copper-clad plate packing.

Referring to fig. 2, a first channel 2, a second channel 5 located at one side of the first channel 2, and two third channels 30 located at one side of the second channel 5 are formed at one side of a substrate 1 of this embodiment, a first guide rod 3 is installed in the first channel 2, a first L-shaped plate 4 is slidably fitted in the first channel 2, so that the occurrence of tilting of the first L-shaped plate 4 during sliding is reduced, the stability of a scale body 11 during sliding is improved by the first L-shaped plate 4, one end of the first L-shaped plate 4 is fitted with the scale body 11, the other end of the first L-shaped plate 4 is slidably fitted on the first guide rod 3, as shown in fig. 3, a motor is installed in the second channel 5, a sliding block 6 is slidably fitted in the second channel 5 to guide the sliding block 6 during sliding, the tilting of the sliding block 6 during sliding is reduced, and the stability of the sliding block 6 during sliding is improved, first fixing rods 7 are symmetrically arranged on one side of the sliding block 6, the two first fixing rods 7 are respectively in running fit with the first ends of the first rotating plate 8 and the second rotating plate 9, as shown in fig. 5, a second guide rod 19 is arranged inside the third channel 30, a second L-shaped plate 21 is arranged inside the third channel 30 in running fit, the second L-shaped plate 21 is in running fit on the second guide rod 19 in running fit, a spring 20 is arranged between the second L-shaped plate 21 and the third channel 30, and plays a role in guiding the second L-shaped plate 21 when sliding, so that the occurrence of the situation that the second L-shaped plate 21 rotates on the second guide rod 19 when sliding is reduced, and the stability of the second L-shaped plate 21 when sliding is improved.

Referring to fig. 6, the vacuum machine of the present embodiment is symmetrically provided with the fixed blocks 23, the third fixed rod 24 rotatably engaged with the third rotating plate 25 is provided between the two fixed blocks 23, so as to improve the stability of the third rotating plate 25 during rotation, the two sides of the third rotating plate 25 are both provided with the inclined plane block 31 engaged with the second L-shaped plate 21, one side of the inclined plane block 31 is provided with an inclined plane, and the inclined plane faces the second L-shaped plate 21, so that the second L-shaped plate 21 drives the inclined plane block 31 to move through the inclined plane, and drives the third rotating plate 25.

Referring to fig. 4, in the present embodiment, a fourth groove 12 is symmetrically formed in one side of a scale body 11, a third guide rod 13 slidably engaged with a sliding column 14 is installed inside the fourth groove 12, so as to guide the sliding column 14 when sliding, thereby reducing the occurrence of tilting of the sliding column 14 when sliding, a connection column 18 is symmetrically installed on one side of the scale body 11, connection blocks 16 are installed on one sides of the connection column 18 and the sliding column 14, a third fixing rod 17 is installed on one side of the connection block 16, and the two third fixing rods 17 are respectively rotatably engaged with the second ends of the first rotating plate 8 and the second rotating plate 9, thereby reducing the occurrence of tilting of the first rotating plate 8 and the second rotating plate 9 when moving, and further improving the stability of the first rotating plate 8 and the second rotating plate 9 when moving.

Referring to fig. 1, in the embodiment, a third L-shaped plate 15 is installed at one side of a sliding column 14, a fixing column 22 is installed at one side of the third L-shaped plate 15, one end of the fixing column 22 is attached to one side of a second L-shaped plate 21, a sphere 26 and a baffle 27 located at one side of the sphere 26 are installed at one end of the sliding column 14, so that the occurrence of scratching of a vacuum bag by the sliding column 14 is reduced, a fourth fixing rod 29 is installed at one side of the baffle 27, and a roller 28 is installed at one end of the fourth fixing rod 29, so that the sliding column 14 can move in the vacuum bag conveniently.

Example 1: in one aspect of the embodiment, in order to minimize the situation in which the first rotation plate 8 is tilted while sliding, the present embodiment provides two alternative embodiments.

In embodiment 1.1, in this embodiment, the first fixing rod 7 rotatably engaged with the first end of the first rotating plate 8 is installed on one side of the sliding block 6, so that the inclination of the first rotating plate 8 during sliding is reduced, and the stability of the first rotating plate 8 during sliding is improved.

Embodiment 1.2, in this embodiment, one side of the connection column 18 is provided with a third fixing rod 17 which is rotatably matched with the second end of the first rotation plate 8, so that the situation that the first rotation plate 8 shakes during sliding is reduced.

The above embodiments may be combined with each other.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

In the description of the present invention, it is to be understood that the orientation or positional relationship indicated by the orientation words such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and in the case of not making a reverse description, these orientation words do not indicate and imply that the device or element being referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be considered as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.