JPS62259734A - Collar member fitting device for separator manufacturing machine - Google Patents

Abstract

PURPOSE:To carry out the fitting of a collar member to a wire rod automatically and securely by providing one or more sets of a guide and a fitting body in front and a guide and a fitting body in the rear which are arranged contrary to those in front, in a conveying device. CONSTITUTION:A conveying device 4 which receives and transfers a certain dimension of a wire rod for a separator which is fed falling from an automatic dimension determining-cum-cutting device 3, is provided below the device 3. In the conveying device 4, a guide 5 for guiding one end of the wire rod is provided on one side while a device 6 for fitting a form-tie collar member on the other end of the wire rod is provided being opposite to the guide 5 on the other side, and at least one or more sets of these are provided on the side parts of the conveying device 4. A device 7 for threading both side ends of the wire rod on which a collar member is fitted, and a marking device 8 for marking the center of the wire rod are provided on the feeding end of the conveying device 4. And, the linear automatic dimension determining-cum- cutting device 3 is positioned before a fixed part 9 and a moving part 10, and in accordance with the movement of the moving part 10, the positioning member in the device 3 is automatically displaced.

Description

[Detailed Description of the Invention] The invention relates to a flange material fitting device for a separator manufacturing machine for attaching to a formwork, and more specifically, a device for automatically fitting flange materials such as pads and washers to the ends of separator wires. The present invention also relates to a flange material fitting device for a separator manufacturing machine that enables mass production of wooden separators of different lengths.

Conventionally, the production of separators for tightening concrete formwork was
The process of cutting wire rods, fitting flange materials such as pads and washers, and screwing in parts of different materials were all done using specialized machines or by hand, so manufacturing a wide variety of separators always requires a lot of work. Depending on the type, it is necessary to make a large number of them at a cost, and this means that separators that are used less frequently [
6, they were forced to keep more inventory than they used.

The present inventor has overcome these problems with conventional separators for tightening concrete formwork, and has made it possible to immediately manufacture the required number of separators on-site or at material handling or management locations. The manufacturing machine is Medo,
Manufacturing conditions can be easily observed from outside the machine, maintenance and inspection can be easily performed, and automatic length measurement and cutting of wire rods as well as automatic fitting of flange material to the ends of wire rods after cutting can be carried out continuously and accurately. In order to provide an automatic manufacturing device for separators for tightening formwork, it is necessary to have a tgj fitting fitting for the flange material to the wire rod. .

Needless to say, this bag t can be used not only as an automatic separator manufacturing device but also as a single-purpose machine.

The details of the apparatus of the present invention will be explained below based on illustrated embodiments. FIG. 1 is an explanatory plan view illustrating the arrangement of each component in an automatic manufacturing apparatus equipped with a non-strength material fitting apparatus, and FIG. It is an elevation explanatory view illustrating the arrangement state of each component device when the plan explanatory view is viewed from the front, and a straight line 2 fed from the winding shown as 1 in the figure is sent to the automatic sizing and cutting bag fi B, One end of this device B is located below the device B, and a carrier liquid fi4 for receiving and transferring a separator wire of a certain size dropped and supplied from the binding rack is provided at right angles to the device 6. 4 has a guide 5 for guiding one end of the wire on the negative side, and a guide 5 on the other side.
At least one set of flange material fitting devices 6 for crushing and clamping, such as pads and washers, are provided at the other end of the wire so as to face the flange material, and the flange material is fitted to the feeding end of the conveying device 4. A screw threading device 7 is provided at both ends of the wire rod, and a marking device 8 is placed at the center of the wire rod. 6. Screw mounting @
7 is set up and the other is set as the moving unit 10, and the tape/l/
11, the moving means 12 moves '! The shark cutting tray 6, which can be moved in a straight line and automatically dimensioned, is located in front of the fixed part 9 and the moving part 10, so that the positioning member in the apparatus automatically moves according to the movement of the moving part 10. It is designed to be displaced.

The details of the present invention will be explained based on FIGS. 3 to 6, which show specific examples. Then, the straight line 2 fed from the winding 1 shown in FIG. I try to do that. That is, as the configuration is explained in FIG. 3, this device is located in the hand mill of an automatic separator manufacturing device, and a shaft body 16 with a sizing strip provided on a machine stand is connected to a bearing 17, and as shown in FIG. The shaft 16 is horizontally slidably supported by a support stand 17' connected to one end of the shaft 16, which has a step 19 at the upper part for receiving a blow from a hammer 18, and a step part 19 at the lower end. is attached to a cutting means 21 equipped with a blade 20 for cutting the Ti wire 2 fed from the guide 13, which moves as the shaft body 16 moves from side to side in the figure, and from the top and bottom. ft) To enable operation, place the support stand 1 as shown in Figure 3.
The spring body 22 is inserted into the vertical through guide hole 17' of the cutting means, and one end of the spring body 22 is projected onto the pins 24 protruding from both q surfaces 26 of the receiving part of the cutting means, and the bent end 25 is inserted into the pin on the side of the shaft body. 26,
The receiving part 27 is fitted onto the other end of the cutting means 210, and the cutting means 210 is connected to the upper surface of the cutting means 210 with a connection screw that pushes the upper surface of the base downward. In addition, numeral 18 in the figure is a hammer that is constantly moved up and down to strike the stepped portion of the cutting means when the cutting means moves to the right in the figure. The shaft body side of this automatic sizing pre-cutting device has the above-mentioned configuration, and the other side has a bearing 29 near the end that allows the shaft body to rotate and also has a spring 28 for elastically biasing it to the right in the figure.
A plurality of grooves 3 are interposed between the shaft body 16 and the bearing body 30 via
Bevel gear 6 fixed to the bearing support shaft so as to be aligned with 1.
The bevel gear 32 is connected to a bevel gear 63 connected to a drive s for moving the sizing stopper, and the cutting means 21 at one end is connected to the bevel gear 63 connected to the drive s for moving the dimensioning stopper.
A positioning stopper 15 is attached between the shaft body 16 and the other end bearing 17, the rotation being restricted at the lower part and the positioning stopper 15 being hinged to the hinge of the shaft body 16 at the upper part.

Therefore, the rotation of the bevel gear 66 that rotates in accordance with the dimension instruction given to the movement drive source of the stopper 15 imparts a constant rotation speed to the shaft body 16 via the bevel gear 62 of the shaft body, and the positioning stopper 15 move it to the specified position. Next, the wire rod fed through the guide 5'f hits the front surface of the stopper 15 with its tip, presses the rod f'L in the advancing direction, and the shaft body 1 connected to the stopper 15.
6 to the right in the figure, the cutting means 21 also moves to the right in conjunction with the shaft, and the stepped portion is struck by the hammer 18, which is constantly moving up and down. The cutting means 21 moves downward against this, and the wire is cut by the blade 20 at the lower end. Once cut, the spring 28 on the right side of the shaft 16 acts to force the shaft 16 back to its original position. In this manner, by positioning the positioning stopper 15 at a desired length using this apparatus, wire rods of various quality can be obtained arbitrarily.

The cut wire rods are fed one by one or between two guide sleeves provided below the device as shown in the figure, and are allowed to fall sequentially downward, starting from the lower one.

Below the dimensioning and cutting device B, there is an IE feeding @4
One of the conveyors 64 constituting 5c is fixed, and the other conveyor 35 is provided on the moving part 10 that moves on the table so that its position can be changed, and the endless rotary conveyor 34 has a left and right interval according to the length of the wire material. 35 is provided perpendicularly to the device 6 to constitute the conveying device 4, and the conveying device 4 can send the wire rods one by one to the next process. Feeding of wire rods one by one.

This is achieved by using valleys 67 between intermittent protrusions 66 provided on the upper surface of the conveying device 4.

Next, a flange material fitting device 611, such as a pad and washer, is applied to both ends of the wire sent to such a conveying device.
A guide 69 for guiding one end of the wire rod 68 on the side and a flange material fitting body 41 connected to the feeder 40 so as to face the guide 39 on the other side. One end fzr of this guide 39 is used for positioning the end of the wire to the material fitting body 41: It is positioned and fixed with a cylinder 42 or the like so that the position can be changed in the direction of the fitting body, and the tip of the guide is opened. , the wire rod can be slightly biased toward the fitted body 41. On the other hand, the flange material fitting body has a flange material insertion positioning guide 46 for the wire at the front, and the fitting position l of the flange material 41 to the flange portion 44 is determined at the end thereof.

That is, the collar material 44 of the pad or washer has a fitting hole 45 in the center, and the end of the wire 68 is inserted into this hole.
Although the flange material 44 is attached to the wire rod 68, the main structure of the main fitted body 41 is a feeding section 46 connected to a feeder 40 similar to that used in a nut feeder, etc. This feeding section 46 has a flange material feed hole 47 connected to a vertical feeder, and the front surface of the feed hole 47 is opened 48 so that the hole of the flange material is exposed. The lower part 4 of the feeding part 46d has a notch 49 through which the wire rod 68 and the collar part 44 can pass and escape.
As shown in FIG. 6, the flange material 44, in the example shown, the pad, is set so as to be diagonal to the advancing direction of the wire end, and the wire end positioned by the guide 39 fits into the hole 45 of the flange material 44 as it advances. Then, hook it up and transport it. The position of the collar material 44 that has come off from the fitting body 41 is regulated by the groove 51, and then, in order to fit another collar material 44 to the other end of the wire rod 38,
It is sent to the next fitting device consisting of the same guide 69 and flange material fitting body 41 as described above.

These fitting devices are made by externally fitting collar materials to both ends of the wire, and at least one pair of these devices must be installed at different positions from 6. If pads and washers are not selected appropriately, When doing so, as shown in the figure, the front -
A pad fitting body and a washer fitting body are arranged on the side, and each fitting body is arranged on the other rear side. Therefore, when several such fitting bodies 41 (!) are installed, each groove 51 for guiding the flange material after fitting must be provided with a length of 1", and, for example, if a fitting body for a pad is used. However, when the washer is not used, a nut bar 52 is installed in the feeding section to stop the descent of the flange material 44 at a position above the lowest flange material of the feeding hole so that the tip of the wire can freely pass through the X1Ti. For example, it is necessary to form a shaft that passes through the feed hole from behind.

In addition, 53 located at the terminal end of the conveying device in the figure is bent by the forming mechanism of the stopper part for the flange material in the separator, for example, by passing it between a stationary semicircular die and a rotary die to form an annular lip, and 7. A threading device applies threads to both ends of the wire, and a marking device 8 presses and marks the center of the wire.

The wire rods 68 that have fallen from the automatic sizing and non-cutting device 3 are placed on the troughs 67 of the conveying device 4 and fed one by one, and as they progress, the wire rod ends are removed by the guide 69 on one side. is guided and its position is regulated, and the end of the wire is fitted into the hole 45 of the flange material 44 in the fitting body 41 arranged diagonally with respect to the advancing direction by the insertion positioning guide 46 on the other side, and the flange material 44 is inserted into the wire rod. Attached to 38.

Next, the flange material 44 is fitted to the other end of the wire 68 in the same manner as described above, and the processes of forming an annular lip, forming a screw, and marking are performed to produce a separator. As shown in FIG. 4, in the case of a device that can select and fit a barad and a washer, when one is in operation, the other fitting device 6
The flange material 44 must be stopped in the middle so that it does not fall to the lowest position of the feed hole 47.

As described above, the uninvented flange material fitting device for a mold crushing and tightening separator manufacturing machine positions the internal flange material fitting hole surface obliquely with respect to the direction of movement of the wire end, so that pads, washers, etc. Since it is fitted to three parts of the wire rod, the fitting of the collar material and the wire rod can be carried out automatically and reliably, and a separator can be manufactured by fitting different types of collar materials to separators with different types of feldspar. In particular, this made it possible to fully automate the process.

[Brief explanation of drawings]

Figure 1 is an explanatory plan view of a separator production site equipped with an uninvented flange material fitting device, Figure 2 is an enlarged elevational view of Figure 1, and Figure 3 A1 is an automatic sizing pre-cutting device. 4 is a sectional view taken along the line A-A in FIG. 1, FIG. 5 is an explanatory perspective view of the flange material fitting device, and FIG. 6 is a plan sectional view of the flange material feeding section. 1... Winding wire, 2... Straight line, 6... Automatic dimensioning pre-cutting device, 4... Conveyance device, 5... Guide, 6...
- Flange material fitting hole surface, 7... Threading device, 8... Marking device. 9... Fixed part, 10... Moving part, 11... Table, 12... Moving means, 16...-Guide, 14...
・Through hole, 15...Positioning stopper, 16...
Shaft body, 17...Bearing, 18...Hammer, 19...
・Stepped portion, 20...blade, 21...cutting means, 22...
・Spring body, 26...-side, 24...-bottle, 25...
・Bent end, 26... Bin, 27... Receiving part, 28.
... Spring, 29... Bearing, 30... Bearing body, 61... Groove, 62... Bevel gear, 66... To/(A/ Kia, 34-... Conveyor, 35...
Conveyor, 66... Intermittent peak, 67... Valley, 68
...Wire rod, 39--Guide, 40... Feeder, 41... Flange material fitting body, 42... Cylinder, 46
---Brim material insertion positioning guide, 44 ---Brim material, 45
... Hole, 46... Feeding part, 47... Tsubaji feeding hole,
48・-Opening, 49・Notch, 51・Groove, 52・
- Stopper, 56... Mechanism for forming a stopper portion for flange material.

Claims (1)

[Claims] (1) It consists of a guide on one side of the conveying device and a fitting body connected to the feeder on the other side, with the internal flange material fitting hole surface positioned obliquely with respect to the direction of movement of the wire end, and the fitting body is located at the front of the conveying device. A flange material fitting device for a separator manufacturing machine, which is provided with one or more sets of guides and fitting bodies arranged in reverse positions relative to the guide and fitting body at the rear.