CN215848575U - Efficient multi-outlet flat plate type forming machine - Google Patents

Abstract

The utility model relates to a high-efficiency multi-outlet flat plate forming machine.A clamping moving mechanism (3) comprises two groups of moving modules (3.1) and a group of fixed modules (3.2), and the fixed modules (3.2) are positioned beside one moving module (3.1); a slitting mechanism (6) is arranged beside the fixed module (3.2); remove module (3.1) and contain horizontal slip and set up sliding block (3.1.2) on slide rail (3.1.1), install backup pad (3.1.3) and centre gripping cylinder (3.1.4) on sliding block (3.1.2), and the tight piece of clamp (3.1.5) of connection just to backup pad (3.1.3) on the piston rod of centre gripping cylinder (3.1.4). The efficient multi-outlet flat plate type forming machine can effectively solve the problem of precision control in the moving process of the carrier tape.

Description

Efficient multi-outlet flat plate type forming machine

Technical Field

The utility model relates to a multi-outlet flat plate type forming machine with high production efficiency, and belongs to the technical field of carrier bands.

Background

The carrier tape is a packaging container for containing electronic products (particularly patch type electronic components), and a box cavity and a positioning hole for placing the electronic products are arranged on the carrier tape; in the technical field of carrier tape manufacturing, in order to improve the production efficiency of carrier tapes, a continuous carrier tape forming machine is generally adopted for production; the box cavity forming device serving as a core mechanism of the continuous carrier tape forming machine is a roller, and a carrier tape forming process is completed by the rotation of the roller, so that the continuous carrier tape forming machine has the advantages of continuous production, but has the defects that when a carrier tape with a deep box cavity is produced, the demoulding of the formed box cavity of the carrier tape is difficult (the box cavity is easy to rub against a mold), the yield is low, and the production efficiency is influenced. Therefore, the company developed and obtained chinese patent CN201810309264.3 "a carrier tape forming process" in 2018, which forms a carrier tape by using a flat plate molding method and applies a transmission force on the back of a cavity of a carrier tape cassette to avoid damaging a front working surface of the carrier tape.

In practical application, the carrier tape of the flat forming machine is moved through two groups of cylinders, the two groups of cylinders are behind the forming mechanism and the punching mechanism, when the carrier tape is conveyed, the first group of cylinders loosen the carrier tape, the second group of cylinders clamp the carrier tape and then move horizontally to realize the movement of the carrier tape, then the first group of cylinders fix the carrier tape, and the second group of cylinders move and reset while the forming mechanism and the punching mechanism operate, so that continuous operation is repeated. However, in practical application, the carrier tape is clamped and fixed by only a single air cylinder when moving, and the carrier tape is easy to slightly deviate due to shaking, so that the precision in forming or punching is greatly influenced; therefore, an efficient multi-outlet flat plate forming machine and a carrier tape forming process capable of solving the above problems are needed.

Disclosure of Invention

The utility model aims to overcome the defects and provide an efficient multi-outlet flat plate type forming machine, which can effectively solve the problem of precision control in the moving manufacturing process of a carrier tape while ensuring the production efficiency.

The purpose of the utility model is realized as follows:

a high-efficiency multi-outlet flat plate type forming machine comprises a forming mechanism, a punching mechanism and a clamping moving mechanism which are arranged on a panel of a case, wherein the clamping moving mechanism comprises two groups of moving modules and one group of fixed modules, the forming mechanism and the punching mechanism are positioned between the two groups of moving modules, and the fixed modules are positioned beside one group of moving modules; a slitting mechanism is arranged beside the fixed module;

the moving module comprises a sliding block horizontally arranged on the sliding rail in a sliding mode, a supporting plate and a clamping cylinder are arranged on the sliding block, and a clamping block I connected to a piston rod of the clamping cylinder is opposite to the supporting plate; the fixed module comprises a fixed plate and a fixed cylinder which are fixedly arranged on the panel of the case, and a protection block connected on a piston rod of the fixed cylinder is opposite to the fixed plate.

The utility model relates to a high-efficiency multi-outlet flat plate forming machine, wherein a driving mechanism is positioned in a case, the driving mechanism comprises a connecting rod, sliding blocks of two groups of moving modules respectively penetrate through sliding grooves in the case and then are connected to two ends of the connecting rod, a transmission plate is connected to the connecting rod, a matching block is arranged on the transmission plate in a protruding mode, a tension spring is connected between the transmission plate and the inner wall of the case, and the tension spring is arranged in parallel with the connecting rod; the driving shaft driven by the motor is arranged in parallel with the connecting rod, the driving shaft is sleeved with a driving wheel, one side face of the driving wheel is arranged to be an arc-shaped face, and the arc-shaped face is in sliding contact with the matching block.

The utility model relates to an efficient multi-outlet flat plate type forming machine, wherein a cam is sleeved on a driving shaft and drives a forming mechanism and a punching mechanism.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the two groups of moving modules move after being clamped, so that the carrier belt does not shake in the moving process to cause deviation, the forming and punching precision is greatly improved, and the production of the high-precision carrier belt is facilitated.

Drawings

FIG. 1 is a schematic structural view of a high-efficiency multi-discharge plate-type molding machine according to the present invention.

FIG. 2 is an enlarged view of a portion of the moving module of FIG. 1 of the high efficiency multiple discharge plate molding machine of the present invention.

FIG. 3 is a partially enlarged view of the stationary module of FIG. 1 of the high efficiency multiple discharge plate molding machine of the present invention.

Fig. 4 is a schematic structural diagram of a driving mechanism of a high-efficiency multi-discharge plate type forming machine according to the present invention.

Fig. 5 is a partial schematic view of the balustrade and drive plate of fig. 4 of a high efficiency multiple discharge flat bed forming machine of the present invention.

Wherein:

the device comprises a forming mechanism 1, a punching mechanism 2, a clamping and moving mechanism 3, a driving mechanism 4, a transition wheel 5 and a splitting mechanism 6;

a mobile module 3.1 and a fixed module 3.2;

a slide rail 3.1.1, a sliding block 3.1.2, a support plate 3.1.3, a clamping cylinder 3.1.4 and a clamping block I3.1.5;

a fixed plate 3.2.1, a fixed cylinder 3.2.2 and a clamping block II 3.2.3;

a connecting rod 4.1, a transmission plate 4.2, a tension spring 4.3, a driving shaft 4.4, a driving wheel 4.5 and a cam 4.6;

and 4.2.1 of a matching block.

Detailed Description

Referring to fig. 1 to 5, the efficient multi-outlet flat plate forming machine according to the present invention includes a forming mechanism 1, a punching mechanism 2 and a clamping moving mechanism 3 mounted on a chassis panel, where the clamping moving mechanism 3 includes two sets of moving modules 3.1 and a set of fixed modules 3.2, the forming mechanism 1 and the punching mechanism 2 are located between the two sets of moving modules 3.1, and the fixed modules 3.2 are located beside one moving module 3.1; a slitting mechanism 6 is arranged beside the fixed module 3.2 and used for slitting the carrier tape;

the moving module 3.1 comprises a sliding block 3.1.2 which is horizontally arranged on a sliding rail 3.1.1 in a sliding manner, a supporting plate 3.1.3 and a clamping cylinder 3.1.4 are arranged on the sliding block 3.1.2, and a clamping block I3.1.5 connected to a piston rod of the clamping cylinder 3.1.4 is opposite to the supporting plate 3.1.3; the fixed module 3.2 comprises a fixed plate 3.2.1 and a fixed cylinder 3.2.2 which are fixedly arranged on the panel of the case, and a protection block 3.2.3 connected on a piston rod of the fixed cylinder 3.2.2 is over against the fixed plate 3.2.1;

when the device is used, the carrier band can be fixedly clamped through the two groups of moving modules 3.1, so that the carrier band cannot be deviated in the moving process, and the precision of subsequent forming and punching is ensured;

further, a driving mechanism 4 is located in the chassis, the driving mechanism 4 includes a connecting rod 4.1, the sliding blocks 3.1.2 of the two sets of moving modules 3.1 respectively pass through the sliding grooves on the chassis and then are connected to two ends of the connecting rod 4.1, the connecting rod 4.1 is connected with a driving plate 4.2, the driving plate 4.2 is provided with a matching block 4.2.1 in a protruding manner, a tension spring 4.3 is connected between the driving plate 4.2 and the inner wall of the chassis, and the tension spring 4.3 is arranged in parallel with the connecting rod 4.1; a driving shaft 4.4 driven by a motor is arranged in parallel with the connecting rod 4.1, a driving wheel 4.5 is sleeved on the driving shaft 4.4, one side surface of the driving wheel 4.5 is arranged to be an arc-shaped surface, and the arc-shaped surface is in sliding contact with the matching block 4.2.1;

when the device is used, the arc-shaped surface of the driving wheel 4.5 is in sliding contact with the matching block 4.2.1 to drive the connecting rod 4.1 to move left and right, the pulling spring 4.3 is used for pulling and resetting, and the moving distance can be set by the radian of the arc-shaped surface;

further, a cam 4.6 is sleeved on the driving shaft 4.4, and the cam 4.6 drives the forming mechanism 1 and the punching mechanism 2 in a conventional driving mode;

the working principle of the efficient multi-outlet flat plate forming machine is that after passing through a first group of moving modules 3.1, an unprocessed material belt is formed by a forming mechanism 1, punched by a punching mechanism 2 in sequence, then passes through a second group of moving modules 3.1 and a fixed module 3.2, bypasses a transition wheel 5, is cut by a cutting mechanism 6, and then is wound by a winding mechanism;

the moving mode of the carrier belt between the two sets of moving modules 3.1 is as follows: when the carrier tape moves, the fixed modules 3.2 are loosened, and the two groups of moving modules 3.1 simultaneously perform fixed clamping on the carrier tape and then synchronously move under the action of the connecting rod 4.1, so that the carrier tape cannot be deviated in the moving process; then, the fixed module 3.2 acts to press the carrier tape, at the moment, the forming mechanism 1 performs forming operation on the carrier tape, the punching mechanism 2 performs punching operation on the carrier tape, and meanwhile, the two groups of moving modules 3.1 reset after being loosened;

in addition: it should be noted that the above-mentioned embodiment is only a preferred embodiment of the present patent, and any modification or improvement made by those skilled in the art based on the above-mentioned conception is within the protection scope of the present patent.

Claims (3)

1. An efficient multi-outlet flat plate type forming machine is characterized in that: the punching machine comprises a forming mechanism (1), a punching mechanism (2) and a clamping moving mechanism (3) which are arranged on a panel of a case, wherein the clamping moving mechanism (3) comprises two groups of moving modules (3.1) and a group of fixed modules (3.2), the forming mechanism (1) and the punching mechanism (2) are positioned between the two groups of moving modules (3.1), and the fixed modules (3.2) are positioned beside one moving module (3.1); a slitting mechanism (6) is arranged beside the fixed module (3.2);

the moving module (3.1) comprises a sliding block (3.1.2) which is horizontally arranged on the sliding rail (3.1.1) in a sliding manner, a supporting plate (3.1.3) and a clamping cylinder (3.1.4) are arranged on the sliding block (3.1.2), and a first clamping block (3.1.5) connected to a piston rod of the clamping cylinder (3.1.4) is opposite to the supporting plate (3.1.3); the fixed module (3.2) comprises a fixed plate (3.2.1) and a fixed cylinder (3.2.2) which are fixedly arranged on the panel of the case, and a protection block (3.2.3) connected on a piston rod of the fixed cylinder (3.2.2) is just opposite to the fixed plate (3.2.1).

2. A high efficiency multiple output flat bed molding machine as claimed in claim 1 wherein: the driving mechanism (4) is positioned in the case, the driving mechanism (4) comprises a connecting rod (4.1), the sliding blocks (3.1.2) of the two groups of moving modules (3.1) respectively penetrate through the sliding grooves in the case and then are connected to the two ends of the connecting rod (4.1), the connecting rod (4.1) is connected with a transmission plate (4.2), the transmission plate (4.2) is convexly provided with a matching block (4.2.1), a tension spring (4.3) is connected between the transmission plate (4.2) and the inner wall of the case, and the tension spring (4.3) is parallel to the connecting rod (4.1); drive shaft (4.4) by motor drive and connecting rod (4.1) parallel arrangement, and the cover is equipped with drive wheel (4.5) on drive shaft (4.4), a side of drive wheel (4.5) sets up to the arcwall face, and this arcwall face and cooperation piece (4.2.1) sliding contact.

3. A high efficiency multiple output flat bed molding machine as claimed in claim 2 wherein: the driving shaft (4.4) is sleeved with a cam (4.6), and the cam (4.6) drives the forming mechanism (1) and the punching mechanism (2).

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