KR200450649Y1 - Carrier tape other sub-plate of mold device the combination structure - Google Patents

Abstract

The present invention relates to a carrier tape perforated mold auxiliary plate coupling structure which can improve workability and productability by being able to easily and firmly remove and mount a stripper mounted on a stripper holder.

In order to solve this problem, the present invention has a seating groove 24 formed on an upper surface of the stripper holder 20, and a fastening hole 25 in which a thread is formed on the front and rear surfaces of the seating groove 24 is formed. The stripper 40 is seated in the seating groove 24 of the stripper holder 20 and the first and second auxiliary holes 41 and 42 are formed with the countersunk head bolt 60, but the stripper 40 is front and back. A bolt insertion hole 43 is formed to correspond to the fastening hole 25 so that the countersunk head 60 is inserted into the surface to be fastened to the fastening hole 25, and the bolt of the stripper 40 is formed. Insertion hole 43 is characterized in that the separation portion 43a is formed so that the vertical surface is formed wider than the fastening hole 25 when the stripper 40 is separated from the stripper holder 20.

In addition, according to another embodiment of the present invention, both sides of the stripper 40, the tab hole 44 so that the tab (TAP) 70 is penetrated when the stripper 40 is seated on the stripper holder 20 ) Is formed.

Another example according to the present invention is a spring mounting portion 26 is formed in the bottom surface of the seating groove 24 of the stripper holder 20, the head plate bolt into the seating groove 24 in the spring mounting portion 26 When the plate head bolt 60 is released when the stripper 40 coupled to the stripper 40 is separated, the elastic spring 50 is formed so that the stripper 40 can be elevated upward.

Stripper holder, stripper, bolt insertion hole, countersunk head bolt, tap hole, elastic spring

Description

Carrier tape other sub-plate of mold device the combination structure}

The present invention relates to a carrier tape perforated mold subsidiary plate coupling structure, and more particularly, a carrier tape perforated to improve workability and productability by being able to easily and firmly detach and mount a stripper mounted on a stripper holder. It relates to a mold auxiliary plate coupling structure.

In general, in a device having a deployment effect transistor (FET) and an electronic component such as a chip component such as a resistor or a capacitor, there is a reduction in the weight, size of the product and a large increase in operating frequency. It has been made lighter, thinner and shorter.

These small electronic components are automatically inserted into the circuit board. In general, in order to continuously supply the electronic components to the automatic insertion device for automatically inserting the electronic components on the circuit board, the electronic components are regularly spaced to accommodate the electronic components. An electronic component carrier tape having rectangular holes, that is, receiving holes, is used.

In addition to the above-mentioned accommodation hole, the carrier tape made of paper wound around a circular reel has a circular transfer hole, that is, a transfer hole, for transferring the carrier tape at an accurate pitch.

Looking at the state in which the carrier tape is used, first to drill the receiving hole through the carrier tape and the transfer hole for transporting the carrier tape so that the electronic component can be inserted, and then attach the protective tape on one side and insert the electronic component into the receiving hole. Inserting a protective tape on the other side prevents the detachment of electronic components.

In the conventional processing mold apparatus of the carrier tape as described above, during cutting, the material cut from the carrier tape is attached to the processing end of the punches so that when the punch rises with respect to the lower mold, this material also comes up together and then into the punches. When machining the conveying hole or the receiving hole on the carrier tape again, the cut material is attached to the processing end of the punch, which may cause machining defects. Also, because the punch diameter is small, the punches may sometimes shake. In this case, the punch hits the upper surface of the carrier tape and the lower mold while the punch is not correctly seated in the mold through-hole of the lower mold, so that the punch and the lower mold collide with each other, thereby causing a relatively expensive punch or lower mold to be damaged.

In order to improve the durability of the lower mold from the punching of the punch, a mold apparatus of a type for seating the guide plate on the upper surface of the lower mold is used to solve the above problem, but the end of the punch and the guide plate The cost of replacing the guide plate, which is relatively expensive due to abrasion due to friction with the guide hole inner circumferential wall, is disadvantageous. In order to replace the guide plate itself, the lower mold and the guide plate of the mold apparatus are dismantled and There was a problem of low labor productivity due to the complicated process of assembling.

Implementation of carrier tape perforated mold auxiliary plate which can improve durability of relatively expensive guide plate by replacing the auxiliary plate worn by frictional heat due to the vertical movement of the punch by fixing the auxiliary plate on the upper surface of the guide plate to solve the above problems. This is required.

To this end, the present applicant has filed a Korean Utility Model Registration Application No. 2008-15578 "Carrier Tape Punched Mold Auxiliary Plate". Briefly, the first application formed on the guide plate along the conveying direction of the carrier tape on the upper surface of the guide plate. An auxiliary plate having a first auxiliary hole and a second auxiliary hole corresponding to the guide hole and the second guide hole, respectively, is detachably coupled to the fixing pin.

However, the conventional mold auxiliary plate as described above is fixed to the guide plate by the fixing pin, the flow is generated in the auxiliary plate by a strong pressure when punching, damage to the punch blade, and the fixing pin when replacing the auxiliary plate There was a problem that the breakage of the auxiliary plate and the guide plate as well as the workability is significantly lowered by being blown out.

Therefore, the present invention has been devised to solve the above problems and can be firmly mounted to the stripper to improve the product quality, and can easily perform the assembly and separation of the stripper coupled to the stripper holder, The purpose of the present invention is to provide a carrier tape perforated mold subsidiary plate joining structure to improve convenience and work efficiency.

A first embodiment of the present invention for achieving the above object is a stripper is coupled to the top of the stripper holder, the stripper is a bolt hole is formed to be fastened to the stripper holder is inserted into the front and rear plate bolts The bolt hole is formed with a spaced apart so that it can be removed smoothly when removing the countersunk head bolt.

In addition, the second embodiment of the present invention is formed on the inner surface of the upper stripper holder on which the stripper is seated is formed an elastic spring to lift the stripper to the top to smoothly separate the stripper from the stripper holder.

According to a third embodiment of the present invention, the punch holder pressed on the stripper holder is divided into a plurality of parts to which the first punch is coupled in half so that the grinding operation is performed. It is to provide a carrier tape perforated mold auxiliary plate coupling structure characterized in that it can be manufactured.

As such, the present invention bolts the stripper to the stripper holder and forms an elastic spring between the stripper holder and the stripper so that the stripper can be elasticized to the top, thereby maximally tightening the stripper to the stripper holder. In addition, when the stripper is separated from the stripper holder by the elastic spring, the stripper becomes elastic to the top, so that the stripper can be easily separated, thereby maximizing workability.

In addition, the present invention can reduce the workability by grinding the inner surface to which the first punch is coupled in a state in which a plurality of punch holders that are pressed onto the stripper holder are separated and manufactured by dividing the coupling portion of the first punch. At the same time, there is an effect that can reduce the operating cost.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing the overall configuration of the carrier tape punching mold apparatus according to the present invention, Figure 2 is an exploded perspective view showing a lower mold and a stripper holder and a stripper according to an embodiment of the present invention, Figure 3 4 is a cross-sectional view illustrating a combined state of a stripper holder and a stripper according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view illustrating a state in which a stripper according to an embodiment of the present invention is separated from a stripper holder.

The present invention is made so as to correspond to the receiving hole (C1) of the carrier tape (C) perforated side by side in parallel along the longitudinal direction for accommodating electronic products and the transfer hole (C2) for the transfer of the carrier tape (C), respectively. The lower mold 10 through which the first mold hole 11 and the second mold hole 12 are formed in the vertical direction, and the first mold hole 11 and the second mold hole 12 of the lower mold 10. The first guide through hole 21 and the second guide through hole 22 respectively corresponding to the formed in the lower end of the guide groove 23 is formed to serve as a transport passage of the carrier tape (C) of the lower mold 10 A stripper holder 20 seated on an upper portion of the stripper holder 20 and an upper portion of the stripper holder 20 are disposed to be capable of raising and lowering to correspond to the first guide hole 21 and the second guide hole 22, respectively. The first punch 31 and the second punch 32, 33 is a punch holder 30 is held, including, the first punch 31 and the second punch 32 , 33 is a carrier which is lowered along the first guide hole 21 and the second guide hole 22 of the stripper holder 20 and passes through the guide groove 23 when the punch holder 30 is lowered. In the carrier tape punching die device for processing the receiving hole (C1) and the transfer hole (C2) in the tape (C),

The mounting groove 24 is formed on the upper surface of the stripper holder 20, but the fastening hole 25 is formed in the front and rear surfaces of the mounting groove 24,

The stripper 40 is seated in the seating groove 24 of the stripper holder 20, and the stripper 40 is coupled to the countersunk head 60, and the stripper 40 is inserted into and fastened to the front and rear surfaces thereof. The bolt insertion hole 43 is formed to correspond to the fastening hole 25 so as to be fastened to the hole 25.

At this time, the bolt insertion hole 43 of the stripper 40 has a spaced portion 43a having a vertical surface formed wider than the fastening hole 25 when the stripper 40 is separated from the stripper holder 20. Lose.

In the stripper 40, a first auxiliary through hole 41 and a second auxiliary through hole 42 are formed to correspond to the first guide through hole 21 and the second guide through hole 22, respectively.

On the other hand, the first secondary through hole 41 is formed in a rectangular shape, the second secondary through hole 42 is preferably formed in a circular shape.

In addition, as illustrated in FIGS. 8 and 9, tabs 70 pass through both sides of the stripper 40 when the stripper 40 mounted on the stripper holder 20 is separated. The tap hole 44 is formed to be.

Looking at another example of the mold auxiliary plate coupling structure according to the present invention, as shown in Figure 5 to Figure 7 attached to the bottom of the mounting groove 24 of the stripper holder 20 is formed spring mounting portion 26 When the stripper 40 which is coupled to the spring mounting part 26 into the seating head 24 into the seat head bolt 60 is released, when the plate head bolt 60 is released, the stripper 40 is moved upward. An elastic spring 50 is formed so that it can be elevated.

In addition, referring to another example according to the present invention, as shown in the accompanying drawings 10 and 11, the punch holder 30 is manufactured by dividing into a plurality of first punch 31 of the punch holder 30 ) Is molded to be divided into half to be combined.

Meanwhile, as shown in FIG. 12, the stripper 40 has a first additional through hole 45 in order to increase the production amount of the carrier tape C in addition to the first through hole 41 and the second through hole 42. ) And the second additional through hole 46 is formed.

And, as shown in Figure 13 the punch holder 30 and the stripper holder 20 is preferably formed in the same size to reduce the mold cost and increase workability.

Reference numeral P in the accompanying drawings is a fixing pin for fastening the stripper 40 to the stripper holder 20.

Looking at the operating state according to the present invention made of a configuration as described above are as follows.

First, the plate head bolt 60 is inserted into the bolt insertion hole 43 in a state in which the stripper 40 according to the present invention is seated in the seating groove 24 of the stripper holder 20, and then the plate head bolt ( 60 is fastened to the fastening hole 25 of the stripper holder 20 to fix the stripper 40 to the stripper holder 20.

As such, the carrier tape C is guided to the guide groove 23 at the lower end of the stripper holder 20 in the state in which the stripper 40 is fixed to the stripper holder 20. When the punch holder 30 is raised and lowered, the first and second punches 31, 32, and 33 pass through the first auxiliary through hole 41 and the second secondary through hole 42 of the stripper 40. In addition, the first and second punches 31, 32, and 33 passing through the first and second auxiliary holes 41 and 42 pass through the first and second guide holes 21 and 22, and the guide groove 23. Perforated carrier tape (C) is transported along.

Therefore, the stripper 40 is fastened to the upper stripper holder 20 by the countersunk head bolt 60, so that the stripper 40 is firmly shaken from the stripper holder 20 even when using a perforated mold apparatus. Unite.

In addition, when the stripper 40 fixed to the stripper holder 20 is to be replaced, the plate head bolt 60 fastened to the fastening hole 25 is loosened and then spaced apart from the bolt insertion hole 43. The bolt 80 equal to the diameter of 43a is locked. At this time, since the spaced portion 43a of the bolt insertion hole 43 is formed larger than the diameter of the fastening hole 25, the bolt 80 is removed. When the bolt is inserted into the bolt insertion hole 43 and locked, the bolt 80 is not inserted into the fastening hole 25. As the bolt 80 is rotated, the stripper 40 seated in the seating groove 24 is formed. The worker is raised upward so that the stripper 40 can be easily separated.

In addition, the present invention is to form the tab hole 44 on both sides of the stripper 40, when the stripper 40 is replaced as described above when inserting the tab 70 into the tap hole 44, the stripper ( 40 is raised from the seating groove 24 so that the operator can easily pull out the stripper 40 from the stripper holder 20.

In addition, by forming a spring mounting portion 26 in the mounting groove 24 of the stripper holder 20 to mount the elastic spring 50 to the spring mounting portion 26, the stripper coupled to the mounting groove 24 When the countersunk head 60 is released to separate the 40, the stripper 40 is elasticized upward by the elastic force of the elastic spring 50 so that the stripper 40 can be easily separated. do.

In addition, the stripper 40 of the perforated mold apparatus according to the present invention is molded so that the first auxiliary through-hole 41 having a rectangular shape is separated in half, so that the machining operation such as grinding of the first auxiliary through-hole 41 is short. It is possible to process a large quantity of water, thereby improving the workability and work efficiency by minimizing the processing cost and working time.

In addition, the first and second additional through holes 45 and 46 are formed together with the first and second auxiliary holes 41 and 42 in the stripper 40, thereby maximizing the perforated output of the carrier tape C, thereby improving work efficiency. You can increase it.

Thus, the punching die apparatus according to the present invention can be assembled to the stripper holder 20 by the plate head bolt 60 while the stripper 40 is detached from the tab 70 or the bolt 80. By the elastic force of the elastic spring 50 can be easily taken out to increase the productability and at the same time can be performed conveniently.

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Figure 1 is an exploded perspective view showing the overall configuration of the carrier tape punching mold apparatus according to the present invention.

Figure 2 is an exploded perspective view showing a lower mold and a stripper holder and a stripper according to an embodiment of the present invention.

Figure 3 is a cross-sectional view showing a coupled state of the stripper holder and the stripper according to an embodiment of the present invention.

Figure 4 is an exemplary cutaway view showing a state in which the stripper is separated from the stripper holder according to an embodiment of the present invention.

Figure 5 is an exploded perspective view showing a stripper holder and a stripper according to another embodiment of the present invention.

Figure 6 is a cross-sectional view of the coupling stripper holder and stripper according to another embodiment of the present invention.

Figure 7 is an exemplary cutaway view showing a state in which the stripper is separated from the stripper holder according to another embodiment of the present invention.

8 is a perspective view showing a stripper and a stripper holder according to another embodiment of the present invention.

Figure 9 is an exemplary cutaway view showing a state of separating the stripper from the stripper holder according to another embodiment of the present invention.

10 and 11 are a perspective view and an exploded perspective view showing a manufacturing state of the punch holder according to another embodiment of the present invention.

12 is an exploded perspective view showing another example of the auxiliary plate according to the present invention.

Figure 13 is a perspective view showing another example of a perforation mold apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: lower mold 11: the first mold hole

12: second mold ball 20: stripper holder

21: first guide through hole 22: second guide through hole

23: guide groove 24: seating groove

25: fastening hole 26: spring mounting

30: punch holder 31: the first punch

32,33 Punch 2nd 40: Stripper

41: first secondary via 42: second secondary via

43: bolt insertion hole 43a: separation part

44: tap hole 45: the first additional through

46: second additional through hole 50: elastic spring

60: countersunk head bolt 70: tab

80: bolt

Claims (7)

The first mold hole to correspond to the receiving hole (C1) of the carrier tape (C) perforated side by side in parallel along the longitudinal direction for accommodating electronic products and the transfer hole (C2) for the transfer of the carrier tape (C), respectively The lower mold 10 through which the 11 and second mold holes 12 penetrate in the vertical direction, and correspond to the first mold hole 11 and the second mold hole 12 of the lower mold 10, respectively. The first guide through-hole 21 and the second guide through-hole 22 are formed and a guide groove 23 is formed at the lower end to serve as a transfer passage of the carrier tape (C) is seated on the upper of the lower mold (10) The first punches (20) and the first punches corresponding to the first guide hole (21) and the second guide hole (22) are disposed so as to be raised and lowered with respect to the upper portion of the stripper holder (20). 31) and the punch holder 30 holding the second punch (32, 33) is included, the first punch 31 and the second punch (32, 33) When the punch holder 30 descends along the first guide hole 21 and the second guide cylinder 22 of the stripper holder 20, the carrier holder C passes through the guide groove 23. In the carrier tape punching die device for processing the receiving hole (C1) and the transfer hole (C2), The mounting groove 24 is formed on the upper surface of the stripper holder 20, but the fastening hole 25 is formed in the front and rear surfaces of the mounting groove 24, The stripper 40 is seated in the seating groove 24 of the stripper holder 20 and the first and second auxiliary holes 41 and 42 are formed with the countersunk head bolt 60, but the stripper 40 is A bolt insertion hole 43 is formed to correspond to the fastening hole 25 so that the countersunk head 60 is inserted into the front and back surfaces and fastened to the fastening hole 25. The bolt insertion hole 43 of the stripper 40 has a spaced portion 43a having a vertical surface formed wider than the fastening hole 25 when the stripper 40 is separated from the stripper holder 20. A stripper (26) is formed at a bottom surface of the seating groove (24) of the stripper holder (20), and is coupled to the spring mounting part (26) by a countersunk head (60) into the seating groove (24). When the plate head bolt 60 is released when the 40 is separated, an elastic spring 50 is formed so that the stripper 40 can be elevated upwards. The punch holder 30 is produced by dividing into a plurality of carrier tape perforated mold subsidiary plate coupling structure, characterized in that the first punch 31 is coupled to the punch holder 30 is molded to be divided into half. delete The method of claim 1, On both sides of the stripper 40, the carrier tape perforated mold auxiliary plate, characterized in that the tab hole 44 is formed so that the tab 70 penetrates when the stripper 40 seated on the stripper holder 20 is separated. Coupling structure. delete delete The method of claim 1, In addition to the first auxiliary through hole 41 and the second auxiliary through hole 42, the stripper 40 includes a first additional through hole 45 and a second additional through hole 46 so as to increase the production amount of the carrier tape C. Carrier tape perforated mold subsidiary plate coupling structure characterized in that it is formed further. The method of claim 1, The punch holder 30 and stripper holder 20 is a carrier tape perforated mold auxiliary plate coupling structure, characterized in that formed in the same size to reduce the mold cost and increase workability.

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