CN201721993U - Coiling apparatus for production of copper-clad laminate - Google Patents

Abstract

The utility model discloses a coiling apparatus for the production of a copper-clad laminate, which comprises a frame body and a coiling shaft arranged on the frame body in a spanning way, wherein the frame body is arranged on a slideway of a base parallel to the coiling shaft along the axial direction; the coiling apparatus also comprises a motor used for driving the frame body to make reciprocating motion along the slideway; the motor drives the frame body to make reciprocating motion by a screw rod and a nut sheathed on the screw rod; the screw rod is parallel to the axial direction of the coiling shaft; and the nut is fixed on the frame body. The frame body is driven to make the reciprocating motion by the motor, and the coiling shaft makes horizontal reciprocating motion relatively to impregnated adhesive tape when being used for coiling the impregnated adhesive tape, so that the impregnated adhesive tape is wound on the coiling shaft in a staggered way, the thickness of the scroll of the coiled impregnated adhesive tape is ensured to be even, the problem of poor coiling is solved, the length of each scroll of the coiled impregnated adhesive tape is prolonged, and the production efficiency is greatly improved.

Description

Be used for the batch up gear that copper-clad laminate is produced

Technical field

The utility model relates to the copper-clad laminate technical field, is specifically related to a kind of batch up gear that copper-clad laminate is produced that is used for.

Background technology

Pcb board is printed circuit board just, claims printed circuit board (PCB), PC board again, is the important electron parts, is the carrier that electronic devices and components are electrically connected.

Copper-clad laminate (abbreviation copper-clad plate) is a baseplate material of making printed circuit board, and copper-clad laminate is made the printed circuit board (PCB) that needs after through etching, plating, multilayer board pressing.Number of plies difference according to Copper Foil can be divided into single-layer printed circuit plate, double-layer printing circuit board and multilayer printed circuit board.

The manufacturing process of copper-clad plate is adhesivess such as reinforcing material epoxy resin-impregnated, phenol resin such as glass fabric, Blanket, paper, under proper temperature, dry, obtain pre impregnated material (abbreviation impregnated fabric), then they are pressed technological requirement and copper foil lamination, on laminating machine, obtain needed copper-clad laminate through heating and pressurizing.

In the production process of copper-clad laminate, need carry out rolling to impregnated fabric.As shown in Figure 1, the existing batch up gear that is used for copper-clad laminate production comprises support body 1 and the spool 2 that is erected on the support body, and motor 3 drives spools 2 and rotates, and impregnated fabric 4 is just twisted in forms impregnation yardage roll 5 on the spool 2.The shortcoming of prior art is, when the amount of batching was big, as greater than 300 meters, what will occur batched positive phenomenon.As shown in Figure 2, when batching not timing, the impregnation yardage roll 5 that batches can sway.In order just not occur batching not, impregnated fabric 4 length of at every turn batching are restricted, and have a strong impact on production efficiency.

The utility model content

The technical problems to be solved in the utility model is, a kind of batch up gear that copper-clad laminate is produced that is used for is provided, and makes the thickness of the impregnation yardage roll that batches even.

For addressing the above problem, the utility model provides a kind of batch up gear that copper-clad laminate is produced that is used for, comprise support body and be erected at spool on the support body, support body is located on the guide rail with the spool axially parallel, and it is connected support body and drive along the reciprocating motor of guide rail.

As preferably, connect by bolt and nut mechanism between above-mentioned support body and the motor, motor is by screw rod and be set in nut on the screw rod to drive support body reciprocating, and wherein to be parallel to spool axial for screw rod, on the nut fixing bracket body.Motor drives the support body crank motion by just changeing or reversing.

As preferably, the described spool in pedestal upper edge is axially arranged with the first sensor and second sensor that is used to detect described support body position, and the distance of first sensor and motor is greater than the distance of second sensor and motor.

As preferably, axially also be provided with the 3rd sensor and the four-sensor that is used to detect described support body position along described spool, the distance of the 3rd sensor and motor is greater than the distance of first sensor and motor, and the distance of four-sensor and motor is less than the distance of second sensor and motor.

The beneficial effects of the utility model have, the driven by motor support body is reciprocating, spool is made horizontal reciprocating movement with respect to impregnated fabric when batching impregnated fabric, make the impregnated fabric of adjacent two layers be wrapped on the spool alternately, thereby make the thickness of the impregnation yardage roll that batches even, solve the bad problem of batching, can make the impregnated fabric length of every volume longer (can reach 600 meters), improved production efficiency greatly.

Description of drawings

Fig. 1 is used for the structural representation of the batch up gear of copper-clad laminate production for prior art;

Fig. 2 is that impregnated fabric curly hair is given birth to the scheme drawing that batches when bad in the prior art;

Fig. 3 is the scheme drawing that is used for the embodiment one of the batch up gear that copper-clad laminate produces of the present utility model;

Fig. 4 is the scheme drawing that is used for the embodiment two of the batch up gear that copper-clad laminate produces of the present utility model;

Fig. 5 is the scheme drawing that is used for the embodiment three of the batch up gear that copper-clad laminate produces of the present utility model;

Fig. 6 is the control principle figure that is used for the batch up gear of copper-clad laminate production of the present utility model.

The specific embodiment

Describe embodiment of the present utility model with reference to the accompanying drawings in detail.

Fig. 3 is the scheme drawing that the utility model is used for the embodiment one of the batch up gear that copper-clad laminate produces.The batch up gear that is used for copper-clad laminate production as shown in Figure 3, comprise support body 1 and the spool 2 that is erected on the described support body, support body 1 is located on the guide rail 9 with the axially parallel of spool 2, guide rail 9 is located on the pedestal 10, the axial screw rod 7 of motor 6 by being parallel to spool 2 is connected with support body 1 with nut 8 on being set in screw rod 7, wherein nut 8 is fixed on the support body 1, and motor 6 drives screw rod 7 and rotates, and drives the axial horizontal motion of support body 1 along spool 2 by nut 8.Motor 6 forward or reverse drive support body 1 and move reciprocatingly.When batching,, can change support body 1 reciprocating amplitude by the number of turns that motor 6 rotates and reverse is set.

Fig. 4 is the scheme drawing that the utility model is used for the embodiment two of the batch up gear that copper-clad laminate produces.Embodiment two is with the difference of embodiment one, is used to detect the first sensor 11 and second sensor 12 of support body 1 position along being axially arranged with of spool 2, and the distance of first sensor 11 and motor 6 is greater than the distance of second sensor 12 with motor 6.When support body 1 moved to the left-limit position, the voltage signal of first sensor 11 changed, and motor 6 changes rotation direction; When support body 1 moved to the limit on the right-right-hand limit position, the voltage signal of second sensor 12 changed, and motor 6 changes rotation direction.

As Fig. 4, shown in Figure 6, when batching, motor 6 drives screw rod 7 and rotates, thereby driving whole frame body 1 is moved to the left, first sensor 11 sends signal to control setup 100 when support body 1 moves to the left-limit position, motor 6 begins to change rotation direction, thereby driving support body 1 moves right, second sensor 12 sends signal to control setup 100 when support body 1 moves to the limit on the right-right-hand limit position, motor 6 changes rotation direction, support body 1 is moved to the left, so circulation, and support body 1 is crank motion between the end position of the left and right sides just.The first sensor 11 among the embodiment 2 and second sensor 12 all can be opto-electronic pickups, and when the voltage signal that sends when first sensor 11 and second sensor 12 changed, control setup 100 just sent the signal that changes rotation direction to motor 6.

Fig. 5 is the scheme drawing that the utility model is used for the embodiment three of the batch up gear that copper-clad laminate produces.Embodiment three is with the difference of embodiment two, in order to guarantee the safe in operation of support body 1 when first sensor 11 or second sensor, 12 et out of orders, also be provided with and send the 3rd sensor 13 and the four-sensor 14 that support body 1 surpasses left and right sides limit position signal to control setup, the distance of the 3rd sensor 13 and motor 6 is greater than the distance of first sensor 11 with motor 6, and the distance of four-sensor 14 and motor is less than the distance of second sensor 12 with motor 6.The 3rd sensor 13 and four-sensor 14 among the embodiment three also can be electro-optical pickoffs.When first sensor 11 et out of orders or inefficacy, support body 1 can not stop when reaching the left-limit position, move on, the voltage signal of the 3rd sensor 13 changes, when control setup 100 changes at the voltage signal of the 3rd sensor 13, send the signal that stops operating to motor 6, motor 6 stops operating, and prevents that support body 1 from skidding off guide rail 9.When second sensor, 12 et out of orders or inefficacy, four-sensor 14 just plays and prevents that support body 1 from skidding off the effect of guide rail 9 to the right, and its principle is identical with the 3rd sensor 13.In a word, when the first sensor 11 that receives when control setup 100 or the voltage signal of second sensor 12 change, just send the signal that changes rotation direction to motor 6; When the 3rd sensor 13 that receives when control setup 100 or the voltage signal of four-sensor 14 change, just send the signal that stops operating to motor 6.

The utility model is used for the batch up gear of copper-clad laminate production in batching working process, and spool 2 is when batching impregnated fabric 4, and spool 2 had both rotated, and simultaneously again with support body 1 left and right sides crank motion, impregnated fabric 4 is wrapped on the spool 2 alternately.The edge of the impregnated fabric 4 of adjacent two layers is interlaced, thereby can make impregnation yardage roll 5 thickness that batch even, has solved the bad problem of batching, and can make impregnated fabric 4 length of every volume longer (reaching 600 meters), has improved production efficiency greatly.

Certainly; the above is a preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also are considered as protection domain of the present utility model.

Claims (4)

1. one kind is used for the batch up gear that copper-clad laminate is produced, comprise support body and the spool that is erected on the described support body, it is characterized in that described support body is located on the guide rail with described spool axially parallel, described support body and drive it and be connected along the reciprocating motor of described guide rail.

2. the batch up gear that is used for copper-clad laminate production as claimed in claim 1, it is characterized in that, described motor is by screw rod and be set in nut on the described screw rod to drive described support body reciprocating, described screw rod and described spool axially parallel, and described nut is fixed on the described support body.

3. the batch up gear that is used for copper-clad laminate production as claimed in claim 1 or 2, it is characterized in that, also comprise the first sensor and second sensor that axially are provided for detecting described support body position along described spool, the distance of described first sensor and described motor is greater than the distance of described second sensor and described motor.

4. the batch up gear that is used for copper-clad laminate production as claimed in claim 3, it is characterized in that, axially also be provided with the 3rd sensor and the four-sensor that is used to detect described support body position along described spool, the distance of described the 3rd sensor and described motor is greater than the distance of described first sensor and described motor, and the distance of described four-sensor and described motor is less than the distance of described second sensor and described motor.

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