阅读说明：本技术 一种能检测厚度且自动送料的覆铜板检测辅助装置 (Copper-clad plate detection auxiliary device capable of detecting thickness and automatically feeding ) 是由 潘宇杭 于 2021-07-30 设计创作，主要内容包括：本发明公开了一种能检测厚度且自动送料的覆铜板检测辅助装置,包括机壳和传送装置,所述机壳内部转动连接有转轮,所述机壳左侧滑动连接有第一长杆,所述传送装置上部设置有压杆,所述压杆左侧设置有控制轮,所述控制轮上部滑动连接有第一推杆,所述传送装置右侧设置有平衡杆。当覆铜板厚度过高时,控制轮将通过第一推杆带动着定位杆向右滑动,使两磁块间的磁力小于弹簧弹力,从而使第三磁块通过第三长杆带动着平衡杆向上转动,使覆铜板沿卡块滑落到收集板表面上,反之磁力等于或者大于弹力时,第三长杆将使平衡杆与传送装置右端的卡块相齐平,并且使覆铜板沿着平衡杆向右滑出,从而达到了检测覆铜板厚度的效果。(The invention discloses an auxiliary device for copper-clad plate detection, which can detect thickness and automatically feed, and comprises a machine shell and a conveying device, wherein a rotating wheel is rotatably connected in the machine shell, the left side of the machine shell is connected with a first long rod in a sliding manner, the upper part of the conveying device is provided with a pressing rod, the left side of the pressing rod is provided with a control wheel, the upper part of the control wheel is connected with a first push rod in a sliding manner, and the right side of the conveying device is provided with a balance rod. When copper-clad plate thickness was too high, the control wheel will drive the locating lever through first push rod and slide right, make the magnetic force between two magnetic blocks be less than spring force, thereby make the third magnetic block drive the balancing pole through the third stock and upwards rotate, make the copper-clad plate along the fixture block landing on the collection board surface, otherwise when magnetic force equals or is greater than elasticity, the third stock will make the balancing pole flush mutually with the fixture block of conveyer right-hand member, and make the copper-clad plate along the balancing pole roll-off right, thereby reached the effect of detecting copper-clad plate thickness.)

1. The utility model provides a can detect thickness and autoloading's copper-clad plate and detect auxiliary device, includes casing (1) and conveyer (2), its characterized in that: casing (1) inside rotation is connected with runner (3), casing (1) left side sliding connection has first stock (4), conveyer (2) upper portion is provided with depression bar (5), depression bar (5) left side is provided with control wheel (6), control wheel (6) upper portion sliding connection has first push rod (7), conveyer (2) right side is provided with balancing pole (8).

2. The copper-clad plate detection auxiliary device capable of detecting thickness and automatically feeding according to claim 1, characterized in that: runner (3) surface rotation is connected with second stock (9), second stock (9) fixed surface is connected with movable contact (10), the one end sliding connection that runner (3) were kept away from in second stock (9) has movable rod (11), movable rod (11) inside fixedly connected with fixed contact (12), movable contact (10) are at fixed contact (12) sliding connection on the surface.

3. The copper-clad plate detection auxiliary device capable of detecting thickness and automatically feeding according to claim 1, characterized in that: first stock (4) left side is provided with slide bar (13), the inside fixedly connected with electromagnetic means (14) of slide bar (13), electromagnetic means (14) upper portion is provided with first ejector pad (15), the inside fixedly connected with first magnetic path (16) of first ejector pad (15), the produced magnetic field magnetic pole of first magnetic path (16) circular telegram is opposite with opposite face electromagnetic means (14) magnetic pole, slide bar (13) bottom is provided with second push rod (17), second push rod (17) bottom is provided with third push rod (18), third push rod (18) right side rotation is connected with dead lever (19), and dead lever (19) right-hand member is corresponding with runner (3) notch on the surface.

4. The copper-clad plate detection auxiliary device capable of detecting thickness and automatically feeding according to claim 1, characterized in that: the improved structure is characterized in that a second push block (20) is arranged on the left side of the first push rod (7), the second push block (20) is matched with the press rod (5) in the casing (1), a positioning rod (21) is connected to the right side of the first push rod (7) in a sliding mode, the positioning rod (21) is made of high-purity aluminum materials, a second magnetic block (22) is arranged on the upper portion of the positioning rod (21), a third magnetic block (23) is arranged at the bottom of the positioning rod (21), and the magnetic pole of the third magnetic block (23) is the same as that of the second magnetic block (22) on the opposite surface.

5. The copper-clad plate detection auxiliary device capable of detecting thickness and automatically feeding according to claim 1, characterized in that: the balance bar is characterized in that a third long bar (24) is rotatably connected to the left side of the balance bar (8), the upper end of the third long bar (24) is fixedly connected to the bottom of a third magnetic block (23), a collecting plate (25) is arranged at the bottom of the balance bar (8), and the collecting plate (25) is connected to the inside of the machine shell (1) in a sliding mode.

Technical Field

The invention relates to the technical field of copper-clad plates, in particular to a copper-clad plate detection auxiliary device capable of detecting thickness and automatically feeding.

Background

With the continuous development of social and economic conditions, copper-clad plates have been widely used in the fields of household appliances, communication industry, electronic information, and the like, and the copper-clad plates refer to plate-shaped materials which are formed by immersing resin into electronic glass fiber cloth or other materials, then covering the resin on the surface of copper foil and performing hot pressing, and meanwhile, the development of related copper-clad plate auxiliary devices, including detection devices, is promoted.

The copper-clad plate detection device in the industry at present is various, generally lacks and detects copper-clad plate thickness, and copper-clad plate excessively thick can influence the performance or the installation of copper-clad plate, consequently will keep copper-clad plate thickness even in process of production, needs material feeding unit simultaneously, through automatic transport copper-clad plate, not only improves industry production efficiency, also alleviates staff's work burden simultaneously, for this reason we have proposed one kind can detect thickness and autoloading's copper-clad plate and detect auxiliary device and solve above problem.

Disclosure of Invention

The invention aims to provide an auxiliary device for detecting a copper-clad plate, which can detect the thickness and automatically feed the copper-clad plate, and solves the problems that the thickness of the copper-clad plate is not detected and a feeding device is not provided in the background technology.

In order to realize the purpose of detecting the thickness of the copper-clad plate and the feeding device, the invention provides the following technical scheme: the utility model provides a can detect thickness and autoloading's copper-clad plate and detect auxiliary device, includes casing and conveyer, the inside rotation of casing is connected with the runner, casing left side sliding connection has first stock, conveyer upper portion is provided with the depression bar, the depression bar left side is provided with the control wheel, control wheel upper portion sliding connection has first push rod, the conveyer right side is provided with the balancing pole.

Furthermore, the surface of the rotating wheel is rotatably connected with a second long rod, the surface of the second long rod is fixedly connected with a movable contact, one end, far away from the rotating wheel, of the second long rod is connected with a movable rod in a sliding mode, a fixed contact is fixedly connected inside the movable rod, the movable contact is connected on the surface of the fixed contact in a sliding mode, the rotating wheel controls the movable contact to be in contact with or disconnected from the fixed contact through the second long rod, and the movable rod drives the sliding rod to slide left and right inside the machine shell.

Further, a sliding rod is arranged on the left side of the first long rod, an electromagnetic device is fixedly connected inside the sliding rod, a first push block is arranged on the upper portion of the electromagnetic device, a first magnetic block is fixedly connected inside the first push block, a magnetic pole of a magnetic field generated by the first magnetic block when the first magnetic block is electrified is opposite to a magnetic pole of the electromagnetic device on the opposite surface, the electromagnetic device drives the first push block to slide downwards by attracting the first magnetic block, so that the first push block absorbs air between gaps of the sliding rod and a copper-clad plate, the sliding rod drives the copper-clad plate to move left and right in the shell device, a second push rod is arranged at the bottom of the sliding rod, a third push rod is arranged at the bottom of the second push rod, a fixed rod is rotatably connected to the right side of the third push rod, the right end of the fixed rod corresponds to a notch on the surface of the rotating wheel, the copper-clad plate drives the first long rod to slide downwards in the shell, and the first long rod drives the gear to rotate through a tooth socket on the surface, thereby make the gear drive the second push rod and upwards slide, make the second push rod lose the extrusion to the third push rod to make the third push rod drive the dead lever and break away from the notch on the runner surface, make the inside pivoted effect of runner in the casing.

Furthermore, a second push block is arranged on the left side of the first push rod, the second push block is matched with the pressure rod in the shell, the first push rod drives the second push block to move downwards through extruding air, so that the second push block drives the pressure rod to slide downwards, the result that the copper-clad plate deviates or tilts in the transportation process is prevented, a positioning rod is connected to the right side of the first push rod in a sliding mode, when the thickness of the copper-clad plate is too high, a control wheel drives the first push rod to move upwards, the first push rod drives the positioning rod to slide rightwards through extruding an inclined surface, the positioning rod is made of high-purity aluminum materials, when the positioning rod is located between a third magnetic block and a second magnetic block, the magnetic force between the third magnetic block and the second magnetic block is weakened, the magnetic force is smaller than the elastic force, so that the third magnetic block drives the third long rod to slide upwards, and the second magnetic block is arranged on the upper portion of the positioning rod, and a third magnetic block is arranged at the bottom of the positioning rod, and the magnetic pole of the third magnetic block is the same as that of the second magnetic block on the opposite surface.

Further, the balancing pole left side is rotated and is connected with the third stock, and third stock upper end is in third magnetic path bottom fixed connection, and when magnetic force between third magnetic path and the second magnetic path was greater than elasticity, the third stock will make the balancing pole flush with the fixture block of conveyer right-hand member mutually to conveyer is driving the copper-clad plate and is sliding out right along the balancing pole, otherwise when magnetic force is less than elasticity, the third stock will be driving the balancing pole rebound, makes the copper-clad plate along the fixture block landing on the collection board surface, the balancing pole bottom is provided with the collecting plate, and the collecting plate is at the inside sliding connection of casing, can collect unqualified copper-clad plate through the collecting plate, plays the effect of recovery resource.

Compared with the prior art, the invention has the following beneficial effects:

1. when the movable contact contacts with the fixed contact, the electromagnetic device drives the first push block to slide downwards by attracting the first magnetic block, so that the first push block absorbs air between gaps of the slide bar and the copper-clad plate, the slide bar drives the copper-clad plate to move left and right in the shell device, otherwise, when the connection is disconnected, the slide bar loosens the fixation of the copper-clad plate, the conveying device drives the copper-clad plate to slide right, and the feeding effect is achieved.

2. When copper-clad plate thickness was too high, the control wheel will drive the locating lever through first push rod and slide right, made magnetic force be less than elasticity to make the third magnetic path pass through the third stock and drive the balancing pole upwards and rotate, make the copper-clad plate along the fixture block landing on the collecting board, otherwise when magnetic force equals or is greater than elasticity, the third stock will make the balancing pole flush mutually with the fixture block of conveyer right-hand member, and make the copper-clad plate follow the balancing pole roll-off right, thereby reached the effect of detecting copper-clad plate thickness.

Drawings

FIG. 1 is a sectional view showing the internal structure of the auxiliary device of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

fig. 4 is a related structural schematic diagram of the balance bar of the invention.

In the figure: 1. a housing; 2. a conveying device; 3. a rotating wheel; 4. a first long rod; 5. a pressure lever; 6. a control wheel; 7. a first push rod; 8. a balancing pole; 9. a second long rod; 10. a movable contact; 11. a movable rod; 12. a fixed contact; 13. a slide bar; 14. an electromagnetic device; 15. a first push block; 16. a first magnetic block; 17. a second push rod; 18. a third push rod; 19. fixing the rod; 20. a second push block; 21. positioning a rod; 22. a second magnetic block; 23. a third magnetic block; 24. a third long rod; 25. and (4) collecting the plate.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a can detect thickness and autoloading's copper-clad plate and detect auxiliary device, including casing 1 and conveyer 2, 1 inside rotation of casing is connected with runner 3, 3 surperficial rotations of runner are connected with second stock 9, 9 fixed surface of second stock are connected with movable contact 10, the one end sliding connection that runner 3 was kept away from to second stock 9 has movable rod 11, 11 inside fixed connection of movable rod has fixed contact 12, movable contact 10 is sliding connection on fixed contact 12 surface, runner 3 is through the contact or the disconnection of 9 control movable contact 10 of second stock with fixed contact 12, and the effect of slide bar 13 in 1 inside horizontal slip of casing is being driven through movable rod 11.

A first long rod 4 is connected to the left side of the machine shell 1 in a sliding manner, a sliding rod 13 is arranged on the left side of the first long rod 4, an electromagnetic device 14 is fixedly connected inside the sliding rod 13, a first push block 15 is arranged on the upper portion of the electromagnetic device 14, a first magnetic block 16 is fixedly connected inside the first push block 15, a magnetic pole of a magnetic field generated by electrifying the first magnetic block 16 is opposite to a magnetic pole of the electromagnetic device 14 opposite to the opposite surface, the electromagnetic device 14 drives the first push block 15 to slide downwards by attracting the first magnetic block 16, so that the first push block 15 absorbs air between the sliding rod 13 and a copper-clad plate gap, the copper-clad plate is driven by the sliding rod 13 to move left and right in the machine shell 1, a second push rod 17 is arranged at the bottom of the sliding rod 13, a third push rod 18 is arranged at the bottom of the second push rod 17, a fixing rod 19 is rotatably connected to the right side of the third push rod 18, the right end of the fixing rod 19 corresponds to a notch on the surface of the rotating wheel 3, the copper-clad plate drives the first long rod 4 to slide downwards in the machine shell 1, make first stock 4 drive gear revolve through surperficial tooth's socket to make the gear drive second push rod 17 and upwards sliding, make second push rod 17 lose the extrusion to third push rod 18, thereby make third push rod 18 drive dead lever 19 and break away from runner 3 notch on the surface, make runner 3 at the inside pivoted effect of casing 1.

The upper part of the conveying device 2 is provided with a pressing rod 5, the left side of the pressing rod 5 is provided with a control wheel 6, the upper part of the control wheel 6 is connected with a first push rod 7 in a sliding manner, the left side of the first push rod 7 is provided with a second push block 20, the second push block 20 is matched with the pressing rod 5 in the shell 1, the first push rod 7 drives the second push block 20 to move downwards through extruded air, so that the second push block 20 drives the pressing rod 5 to slide downwards, the deflection or upwarp of the copper-clad plate in the transportation process is prevented, the right side of the first push rod 7 is connected with a positioning rod 21 in a sliding manner, when the thickness of the copper-clad plate is too high, the control wheel 6 drives the first push rod 7 to move upwards, and drives the positioning rod 21 to slide rightwards through an extruded inclined plane, the positioning rod 21 is made of high-purity aluminum material, when the positioning rod 21 is positioned between a third magnetic block 23 and a second magnetic block 22, the magnetic force between the third magnetic block 23 and the second magnetic block 22 is weakened, and the magnetic force is smaller than the elastic force, so that the third magnetic block 23 drives the third long rod 24 to slide upwards, the second magnetic block 22 is arranged at the upper part of the positioning rod 21, the third magnetic block 23 is arranged at the bottom of the positioning rod 21, and the magnetic pole of the third magnetic block 23 is the same as that of the second magnetic block 22 opposite to the magnetic pole.

2 right sides of conveyer are provided with balancing pole 8, 8 left sides of balancing pole are rotated and are connected with third stock 24, 24 upper ends of third stock are in 23 bottom fixed connection of third magnetic path, when magnetic force between third magnetic path 23 and the second magnetic path 22 is greater than elasticity, third stock 24 will make balancing pole 8 flush with the fixture block of 2 right-hand members of conveyer mutually, and conveyer 2 is driving the copper-clad plate along 8 roll-offs of balancing pole right side, otherwise when magnetic force is less than elasticity, third stock 24 will drive 8 up movements of balancing pole, make the copper-clad plate along fixture block roll-offs to collecting plate 25 on the surface, 8 bottoms of balancing pole are provided with collecting plate 25, collecting plate 25 is at 1 inside sliding connection of casing, can collect unqualified copper-clad plate through collecting plate 25, play the effect of retrieving resources.

When in use, firstly, the copper-clad plate is placed on the surface of the first long rod 4, the first long rod 4 slides downwards in the machine shell 1, the first long rod 4 drives the gear to rotate through the tooth socket on the surface, the gear drives the second push rod 17 to slide upwards, so that the second push rod 17 loses the extrusion on the third push rod 18, the third push rod 18 drives the fixed rod 19 to separate from the notch on the surface of the rotating wheel 3, so that the rotating wheel 3 rotates in the machine shell 1, the rotating wheel 3 controls the contact or disconnection between the movable contact 10 and the fixed contact 12 through the second long rod 9, and drives the sliding rod 13 to slide left and right in the machine shell 1 through the movable rod 11, when the movable contact 10 is contacted with the fixed contact 12, the electromagnetic device 14 generates a magnetic field magnetic pole through an external circuit, the electromagnetic device 14 drives the first push block 15 to slide downwards through attracting the first magnetic block 16, the first push block 15 is enabled to absorb air between the gap between the slide rod 13 and the copper-clad plate, so that the slide rod 13 drives the copper-clad plate to move left and right in the device of the machine shell 1, otherwise, when the movable contact 10 is disconnected with the fixed contact 12, the first push block 15 returns to the original position under the action of the spring, the slide rod 13 is enabled to loosen the fixation of the copper-clad plate, the conveying device 2 is enabled to drive the copper-clad plate to slide right, the feeding effect is achieved, and the labor burden of workers is relieved.

Further, when the thickness of the copper clad laminate is too high, the control wheel 6 drives the first push rod 7 to move upwards, and the first push rod 7 drives the positioning rod 21 to slide rightwards by extruding the inclined surface, the positioning rod 21 is made of high-purity aluminum material, when the positioning rod 21 is positioned between the third magnetic block 23 and the second magnetic block 22, the magnetic force between the third magnetic block 23 and the second magnetic block 22 is weakened, and the magnetic force is smaller than the elastic force, so that the third magnetic block 23 drives the third long rod 24 to slide upwards, the third long rod 24 drives the balancing rod 8 to move upwards, the copper clad laminate slides onto the surface of the collecting plate 25 along the clamping block, meanwhile, the first push rod 7 drives the second push block 20 to move downwards by extruding air, so that the second push block 20 drives the pressing rod 5 to slide downwards, the effect that the copper clad laminate deviates or tilts up in the transportation process is prevented, otherwise, when the thickness of the copper clad laminate meets the requirement, control wheel 6 can not drive first push rod 7 and upwards moving, when making the magnetic force between third magnetic path 23 and the second magnetic path 22 equal to or be greater than elasticity, third stock 24 will make the fixture block of balancing pole 8 and 2 right-hand members of conveyer flush mutually to conveyer 2 is driving the copper-clad plate and is sliding out right along balancing pole 8, thereby has reached the effect that detects copper-clad plate thickness, prevents to influence the consequence of copper-clad plate performance or installation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.