JPS62292420A - Contact bonding machine for cold joining of conveyor belt - Google Patents

Abstract

PURPOSE:To reduce the working fatigue of contact bonding remarkably, control a pressurizing force and obtain a highly efficient bonding machine without generating unevenness in pressurizing by a method wherein the title bonding machine is provided with clamping devices, provided detachably at both ends of the upper and lower frames of the machine vertically in parallel, and spacers, which determine a space between the upper and lower frames capable of applying a proper conjugating pressure on the conjugating part of a belt by the running unit of contact bonding rollers. CONSTITUTION:The screws of clamping devices 4, provided detachably at both ends of upper and lower frames 2, 3 and constituted of bolts and nuts, are tightened whereby a clamping force is transmitted to the joining part 6 of a belt by contact bonding rollers 5 in the running unit 1 of the contact bonding rollers to pressurized the same part 6. The running unit 1 of the contact bonding rollers is advanced and retreated by the driving of a reduction motor 7. In order to make the upper and lower rollers 2, 3 parallel and apply a proper joining pressure on the joining part 6 of the belt, spacers 8 are arranged at both sides of the lower frame 3 and a space between the frames can be held in a predetermined distance. The pressurizing force of the contact bonding rollers 5, which is applied on the joining part 6 of the belt, may be adjusted by changing the sizes of the spacers 8 at both ends of the frame 3.

Description

Detailed Description of the Invention 3. Detailed Description of the Invention The present invention relates to a porta-pull crimping machine for joining wide conveyor belts using a room-temperature adhesive method.

(Prior art) For bonding and crimping the joint surfaces of a conveyor belt using the room-temperature adhesive method, rollers such as a hand roller (a) and a double acting roller (b) as shown in Fig. 3 are used for crimping, or
The hammer (C) was used to press and crimp materials such as wood, iron, or plastic. However, since the above-mentioned crimping machines are all done by hand, the bonding area is 1
If the length exceeds approximately 1,600 mm and the joining lap length exceeds approximately 6,001 cm, the belt pressing area of the crimping device is as small as 5 to 25 cm2, and the number of repetitions of the crimping operation increases, resulting in fatigue for the joining worker. In addition, since the crimping position was followed by a visual guide, there was a high risk that the crimping position would not be crimped or the pressure would be uneven, resulting in poor crimping such as the inability to quantitatively measure the pressure.

[The present invention] The present invention eliminates the drawbacks of the crimping device and the crimping method of the prior art, greatly reduces the fatigue of crimping work, controls the pressurizing force to a predetermined pressure, and achieves high efficiency without causing pressure unevenness. This product provides a porta-pull crimping machine for wide belts, which has upper and lower frames that are arranged parallel to each other and have fasteners that are removably installed at both ends to prevent the gap from increasing, and from one frame to the other frame. a positioning tool that extends through the lower frame, a frame spring body that acts in a direction to expand the gap between the upper and lower frames, and at least a frame spring that runs between the upper and lower frames and applies joining pressure to the belt joint placed on the lower frame. One is a pressure roller driven by a deceleration motor, a guide roller guided by an upper frame and supported by a bonding pressure spring body that generates the bonding pressure, and a pressure roller running section having a side plate guided by the upper frame; A basic spacer including a used belt spacer that is located close to both sides of the belt joint on the lower frame and has a dimension equal to the distance at which the pressure roller running section generates a suitable joint pressure by the joining pressure spring body. and a crimping machine for normal-temperature bonding of conveyor belts, which comprises the belt surplus material of the belt bonding portion.

(Example) Hereinafter, 20 specific examples of the present invention will be described with reference to FIGS. 1 and 2.
The explanation will be based on type 00 (for belt diameter of 2000 μl or less).

FIG. 1 shows the entire crimping machine for joining conveyor belts according to the present invention, and numeral 1 indicates a crimping roller running section. 2 and 3 form a pair vertically, and are made of a light alloy such as aluminum alloy and have an I-shaped cross section and are made of a light alloy such as aluminum alloy, which also serves as a running guide rail for the pressure roller running section l. It is convenient for portapules because it is used. Upper and lower frame 2.
By tightening the screws of the fasteners 4 made of bolts and nuts removably provided at both ends of the belt 3, this tightening force is transmitted to the belt joint 6 by the pressure roller 5 of the pressure roller running section l, and the belt joint is tightened. 6 is pressurized (crimped).

The pressure roller traveling section 1 moves forward and backward by the drive of the deceleration motor 7, and reciprocates pressure movement in the belt width direction, thereby quickly joining the belt joining section 6. The pressurizing movement operation of the pressure roller traveling section 1 is remotely controlled by a control box (not shown) through electric wiring (lead wire). It has been confirmed that a pressure moving speed of about 2 m/min of the pressure roller running section 1 provides sufficient bonding pressure to the belt bonding section 6 and allows efficient work to be carried out. The deceleration motor 7 is 200V x 3 phases x 30W. Make the upper and lower frames 2.3 parallel, and.

Appropriate bonding pressure can be applied to the belt joint 6 by disposing spacers 8 on both sides of the belt joint 6 on the lower frame 3 to maintain a predetermined distance between the frames.

Further, the pressing force of the pressure roller 5 applied to the belt joint 6 can be adjusted by changing the dimensions of the spacers 8 at both ends of the frame.

FIG. 2 shows the mechanism of the pressure roller running section 1. 5 is a pressure roller, the left side is the driving side, and the right side is the driven side. The drive side pressure bonding roller 5 receives rotational force from the deceleration motor 7 through the transmission chain 9, and rotates in forward and reverse directions. 10 denotes side plates on both sides of the pressure roller running section 1, to which are fixed the guide roller 11 guided by the upper frame, the shaft of the pressure roller 5 that applies bonding pressure to the belt joint 6, and the frame of the deceleration motor 7. ing. Above the deceleration motor 7, a welding pressure spring body 12 made of spring steel or the like and having four guide rollers 11 made of synthetic resin pivoted at both ends is fixed to a support rod 13 by screws. The upper part of the side plate 10 engages with the upper frame 2 and is bent inwardly, so that it is possible to guide the pressure roller running section 1 when it runs and to simultaneously lift the pressure roller running section 1 when lifting the upper frame 2. I am doing it. A limit switch 14 is provided as a sensor on the lower side of the welding pressure spring body 12, and the limit switch does not work when the welding pressure is below the appropriate welding pressure, that is, when the welding pressure is small and the deflection of the welding pressure spring body 12 is small. , there is no electric circuit in which the pressure roller traveling portion l does not move under pressure. Reference numeral 15 denotes a positioning tool made of a dimming line or the like provided on the lower frame 3, and passes through the upper frame 2. 16 is a positioning tool 1 so that the upper and lower frames 2 and 3 automatically open when the fastener 4 is released.
5 is a frame spring body made of a helical spring or the like fitted into the frame. Reference numeral 17 denotes a running limit switch for regulating the movement of the pressure roller running section 1. When it comes into contact with the stopper 18, the current of the deceleration motor 7 is automatically cut off, the pressure roller running section 1 is stopped, and the spacer 8 is stopped. This is to prevent collisions. Since the pressure roller traveling section 1 moves while pressing the belt joint 6 placed on the lower frame 3, misalignment of the belt joint 6, pressure roller 5, especially the driving side pressure roller 5 may be caused. Since it is easy to slip, it is recommended to prevent slipping by applying anti-slip such as low left on the upper surface of the lower frame 3 and the outer peripheral surface of the pressure roller 5.The pressing force of the belt joint 6 of the pressure roller 5 is
．． Although the adjustment is made by tightening both ends of the spacer 3 as described above, it is necessary to determine the dimensions of the spacer 8 in order to obtain an appropriate bonding pressure.

To do this, we first determined the appropriate bonding pressure for room-temperature bonding through various experiments.
g/cs2 was found to be necessary. Based on this, the pressure roller traveling part is pressurized by applying a rubber plate such as a conveyor belt to the pressure roller 5 side and a steel plate to the guide roller side, and applying pressure to the bonding pressure spring body to which the guide roller 11 is pivotally attached. When the above appropriate bonding pressure is generated due to the deflection of the roller 12, the dimension from the outer circumferential surface of the pressure roller 5 to the outer circumferential surface of the guide roller 11 is measured. By the way, if the distance between the frames 2 and 3, that is, the dimension of the spacer, is the dimension of the belt surplus material of the conveyor belt to be joined to the above-mentioned dimensions, then the appropriate joining pressure can be applied to the belt at the pressure roller running section l. It can be added to the joint 6.

In other words, the above dimensions are used as the basic spacer 8-1, and the conveyor belt surplus material 8-2 to be joined to it is overlapped and used as a spacer.In addition, if the conveyor belt to be joined is a used one, the belt is Since it is worn and thinner, it is necessary to subtract the worn dimension from the basic spacer 8-1, and the basic spacer is 2 to 3 m/■
It is made up of a plurality of spacers including a spacer 8-3 for used belts (if it is made of a plurality of spacers, it can be dealt with depending on the degree of wear and tear). Although not shown, the basic spacer 8-1 is fixed to the upper frame 2 with bolts or the like. In order to prevent the pressure roller 5 from slipping off, it is preferable to place extra belt material 19 in contact with both sides of the belt joint 6.

(Effects) As explained above, in the room-temperature bonding of conveyor belts, the present invention applies the compressive force using the compression roller 5 running between the upper and lower frames, and since uneven pressure does not occur, the bonding surface Enables uniform and good adhesion over the entire surface, and can provide high rate belt joining.
Furthermore, it has remarkable features such as greatly reducing worker fatigue and being convenient to carry because the frame and other parts are made of light alloy.

[Brief explanation of the drawing]

15th! J is a side view and a plan view showing the entire crimping machine for joining a conveyor belt according to the present invention, FIG. 2 is a side view and a plan view of a crimping roller running section, and FIG. 3 is a conventional crimping machine. 1... Pressure roller traveling part 2... Upper frame 3...
・Lower frame 4...Tightening tool 5...Crimping roller 6...Belt joint 7...Deceleration motor
8...Spacer 8-1...Basic spacer
8-2... Belt surplus material 8-3... Spacer for used belt 9... Cheno lO... Side plate 11...
Guide roller 12...Spring body l3 for bonding pressure...
・Support rod 14...Limit switch 15・
...Positioning tool 16...Frame spring body 17
...Traveling limit switch 18...Stopper 19...Remaining material of the belt to prevent wheel slippage Fig. 3

Claims (1)

[Claims] Upper and lower frames arranged vertically in parallel and having fasteners removably installed at both ends to prevent the gap from increasing; a positioning tool that extends from one frame to the other frame; and a direction for increasing the gap between the upper and lower frames. a spring body for the frame that acts on the frame; at least one pressure roller that runs between the upper and lower frames and applies bonding pressure to the belt joint placed on the lower frame; a pressure roller that is driven by a deceleration motor; A guide roller supported by a bonding pressure spring body that generates the bonding pressure, a pressure roller running section having a side plate guided by the upper frame, and a pressure roller running section located on both sides of the belt joint section on the lower frame, The spacer determines the distance between the upper and lower frames at which an appropriate bonding pressure is applied to the belt bonding portion, and the spacer determines the distance between the pressure roller and the guide roller such that the appropriate bonding pressure is generated by the bonding pressure spring body. A crimping machine for normal-temperature bonding of conveyor belts, comprising a basic spacer including a used belt spacer having dimensions equal to , and a belt surplus material of the belt joint portion.