KR102491453B1 - Die Lifter - Google Patents

Abstract

The present invention relates to a die lifter (10), which is installed on a lifter installation groove (3) formed straight along the upper surface of a die table (2) having a die (1) put thereon to move a die (1). The die lifter comprises: a lifter body (20) formed in the shape of a rod, mounted along the lifter installation groove (3) of the die table (2), and including a plurality of concave grooves (21) concave upward from the bottom surface and formed at intervals in a longitudinal direction, and a flow path (22) communicating with the upper side of each of the concave grooves (21) and having fluid injected therethrough; a plurality of rollers (30) mounted on the upper side of the lifter body (20) at constant intervals and having an upper end protruding more upward than the upper end of the lifter body (20); an ascending and descending housing (40) combined with the concave grooves (21) of the lifter body (20) to be spaced apart from the bottom of the concave grooves (21) of the lifter body (20) and having a hoistway (41) penetrating the inside in a vertical direction; and an ascending and descending member (50) ascending and descending along the hoistway (21) of the ascending and descending housing (40), having the upper end of a side surface inclined or having a step (51) formed thereon so that fluid flowing along the flow path (22) can be introduced into the upper end, and having an engagement step (52) formed on the middle part of the side surface to be engaged with the upper end of the ascending and descending housing (40) during descent. Therefore, costs are reduced, productivity is improved and maintenance is facilitated.

Description

Mold lifter {Die Lifter}

The present invention relates to a mold lifter, and more particularly, has a simple structure and is structurally robust, thereby preventing bending or breakage due to a load being concentrated on a specific part, thereby reducing maintenance costs, reducing the number of parts and reducing parts costs. The present invention relates to a mold lifter in which manufacturing and assembly processes are simplified, productivity is improved, and parts are easily separated and maintenance is easy.

In general, a mold lifter is installed on the mold table to move the mold along the upper surface of the mold table in order to install and remove the mold from the mold table. 1 and 2 show a conventional mold lifter, and as shown, the conventional mold lifter 100 is a rod-type lifter lower body 110 inserted into an installation groove 3 formed on the upper surface of the mold table 2 ) and a bar-type lifter upper body 120 which is placed on the upper side of the lifter lower body 110 and has a plurality of rollers 121 spaced apart from each other. A plurality of concave grooves 111 into which an elevating member 130 for elevating the lifter upper body 120 is inserted is formed in the lower lifter body 110, and a flow path ( 112) is formed in communication. Accordingly, when the fluid is injected through the flow path 112, the lifting member 130 rises and pushes the lifter upper body 120, and when the fluid is recovered, the lifting member 130 descends. At this time, the lifting member ( A return spring 140 is installed in the elevating member 130 so that the 130 descends smoothly. Further, a stopper 150 is coupled to an upper end of the concave groove 111 of the lower body 110 of the lifter to limit the lifting of the elevating member 130 .

However, since the conventional mold lifter lifts the lifter upper body 120 while the lifting member 130 itself rises, the load applied by the lifting member 130 is concentrated on a specific part of the lifter upper body 120, resulting in the lifter upper body There is a problem that 120 may be bent or damaged. In addition, since the lifter upper body 120 and the lifter lower body 110 are made of separate bodies and the return spring 140 is provided to lower and return the elevating member 130, the number of parts increases and the cost increases, and the lifter upper body 120 and the lifter lower body 110 are manufactured in separate processes, and an assembly process of the return spring 140 is added, resulting in a decrease in productivity.

Korean Utility Model Publication No. 20-1986-0003150

The present invention is to solve the above-described problems, and an object of the present invention is to eliminate the need to separately manufacture the lifter upper body and the lifter lower body as in the prior art, reducing the number of parts to reduce cost and simplifying the manufacturing process to increase productivity. In addition, since a separate return spring is not required for the return of the elevating member, the number of parts is further reduced, so the cost is further reduced, and productivity is further improved because the assembly process of the return spring is not required. It is to provide a mold lifter that is prevented from being bent or damaged, is structurally robust, reduces maintenance costs, and is easy to separate and maintain.

According to a feature of the present invention, in the mold lifter 10 for moving the mold 1 by being mounted in the lifter installation groove 3 formed in a straight line along the upper surface of the mold table 2 on which the mold 1 is mounted, A plurality of concave grooves 21 formed in a bar shape and mounted along the lifter installation groove 3 of the mold table 2, concave upward from the bottom surface and spaced apart along the longitudinal direction, and each concave groove 21 a lifter body 20 communicating with the upper side and including a flow path 22 into which fluid is injected; A plurality of rollers 30 mounted on the upper side of the lifter body 20 at a predetermined interval and having an upper end protruding upward than the upper end of the lifter body 20; An elevating housing 40 having an upper end coupled to the concave groove 21 of the lifter body 20 so as to be spaced apart from the bottom of the concave groove 21 of the lifter body 20, and having a hoistway 41 vertically penetrated therein. ); and the concave groove 21 of the lifter body 20 so that the fluid flowing along the flow path 22 of the lifter body 20 flows into the upper end of the upper side of the lifter body 20. ) Is spaced apart from the upper end or has an inclined or stepped 51 formed therein, and an elevating member 50 formed with a locking jaw 52 that is caught on the upper end of the elevating housing 40 during descent at the middle part of the side surface, When fluid is injected through the flow path 22 of the lifter body 20, the fluid flows into the slope or step 51 of the lifting member 50, and the lifting member 50 is lowered by the pressure of the fluid. A mold lifter characterized in that the roller 20 contacts the mold 1 as the 20 is relatively raised on the mold table 2 is provided.

According to another feature of the present invention, a flange 42 having a bolt hole 43 protrudes outward from the lower end of the elevating housing 40, and a diameter is greater than that of the concave groove 21 on the bottom surface of the lifter body 20. It expands and a seating groove 23 in which the flange 42 of the elevating housing 40 is seated is formed, and the seating groove 23 is aligned with the bolt hole 43 of the flange 42 of the elevating housing 40. There is provided a mold lifter characterized in that the bolt hole 24 is formed.

As described above, according to the present invention, the hoistway in which the elevating member 50 is elevated in the concave groove 21 formed on the bottom surface of the single lifter body 20 that is elevated in the installation groove 3 of the mold table 2 ( By combining the elevating housing 40 formed with 41), there is no need to separately manufacture the lifter upper body and the lifter lower body as in the prior art, thereby simplifying the manufacturing process, improving productivity and reducing the number of parts, thereby reducing cost. In addition, since the lifter body 20 itself rises relatively as the elevating member 50 descends, concentration of load on a specific part of the lifter body 20 is prevented and the lifter body 20 is structurally strong. It is prevented from bending or breaking, thereby reducing maintenance costs. In addition, since the lifting member 50 returns to its original state as the raised lifter body 20 is lowered by the weight of the mold 1, a separate return spring is not required to return the lifting member to its original state as in the prior art. The cost is further reduced by reducing the number of parts, and the productivity is further improved because the assembly process of the box spring is not required.

On the other hand, the elevating housing 40 is provided with a flange 42, and a seating groove 43 extending from the concave groove 21 of the lifter body 20 and seating the flange 42 of the elevating housing 40 is formed. Since the elevating housing 40 is fixed to the lifter body 20 with bolts 60, assembly and separation are easy and maintenance of the elevating housing 40 and the elevating member 50 is easy. In addition, since the elevating housing 40 itself serves as a stopper for guiding the elevating member 50 while simultaneously limiting the descending of the elevating member 50, the guide part for guiding the elevating member 50 and the descending Since it is not necessary to separately provide the restricting stopper parts, the number of parts is reduced and the assembly process is further simplified, further improving productivity.

1 is a view showing an example of a conventional mold lifter
Figure 2 is an exploded perspective view of a conventional mold lifter
Figure 3 is a side cross-sectional view showing the operation of a conventional mold lifter
Figure 4 is a state of use showing an embodiment of the mold lifter according to the present invention
Figure 5 is a bottom perspective view of the mold lifter of the embodiment
Figure 6 is a view showing a state in which the mold lifter of the embodiment is lowered and the mold is fixed
7 is a view showing a state in which the mold lifter of the embodiment is raised and the mold can be moved along the rollers

Objects, features and advantages of the present invention described above will become more apparent through the detailed description that follows. Hereinafter, a preferred embodiment of the present invention will be described based on the accompanying drawings.

4 to 7 are views showing a mold lifter according to an embodiment of the present invention. As shown, the mold lifter 10 according to one embodiment of the present invention is mounted in the lifter installation groove 3 formed in a straight line along the upper surface of the mold table 2 on which the mold 1 is placed, and the mold 1 ), which is installed in the lifter installation groove 3 of the mold table 2 and has a concave groove 21 and a flow path 22 formed therein, and a lifter body 20 mounted on the upper side of the lifter body 20 a plurality of rollers 30, a lift housing 40 mounted in the concave groove 21 of the lifter body 20 and having a hoistway 41, and along the hoistway 41 of the lift housing 20 It includes a lifting member 50 that is moved up and down.

The lifter body 20 has a bar shape and is installed along the linear lifter installation groove 3 of the mold table 2. At this time, coupling protrusions 4 or coupling grooves are formed on the bottom of the lifter installation grooves 3 of the mold table 2, and coupled to the coupling projections 4 or coupling grooves on the bottom surface of the lifter body 20. Grooves 25 or coupling protrusions are formed. Meanwhile, as is well known, a clamp fixing groove 5 to which a mold fixing clamp (not shown) is coupled is formed in the mold table 2 .

In addition, on the bottom surface of the lifter body 20, a plurality of concave grooves 21 concave upward are formed spaced apart along the longitudinal direction, and a flow path 22 communicating with the upper part of each concave groove 21 is formed inside the lifter body ( 20) is formed extending along the longitudinal direction.

A plurality of rollers 30 are installed on the upper side of the lifter body 20 at a predetermined interval, and the upper end of the roller 30 protrudes upward from the upper end of the lifter body 20 . A cover 80 is provided between the rollers 30 to block penetration of foreign substances.

In this way, since both the roller 30 and the lifting member 50 are installed in a single lifter body 20, it is necessary to separately manufacture the lifter upper body in which the roller is installed and the lifter lower body in which the lifting member is installed, as in the prior art. Since there is no part, productivity is improved and cost is reduced by reducing the number of parts as the manufacturing process is simplified.

The elevating housing 40 is coupled to the concave groove 21 of the lifter body 20 to guide the elevating member 50 . A hoistway 41 to which the elevating member 50 is movably coupled is vertically formed through the elevating housing 40 . A packing groove 44 is formed on the outer circumferential surface of the elevating housing 40 to which a packing 45 is coupled to prevent fluid from leaking.

In the mold lifter according to an embodiment of the present invention, a flange 42 may be formed at the lower end of the elevating housing 40, and the flange 42 of the elevating housing 40 is seated on the lower surface of the lifter body 20. A seating groove 23 may be formed.

As shown in FIG. 5 , a seating groove 23 having a larger diameter than the concave groove 21 is formed concave upward along the circumference of the concave groove 21 on the bottom surface of the lifter body 20 . A bolt hole 24 is formed in the seating groove 23 . In addition, a bolt hole 43 aligned with the bolt hole 24 of the seating groove 23 is formed in the flange 42 of the elevating housing 40, and the elevating housing 40 is lifted by using the bolt 60. (20) can be easily fixed.

The elevating member 50 moves up and down along the hoistway 41 of the elevating housing 40, is lowered by the fluid injected through the flow path 22, and is moved to the lifter body 20 by the weight of the mold 1. It is configured to rise relatively to

Such an elevating member 50 has an inclined or stepped 51 formed at the upper side of the side so that the fluid flowing through the flow path 22 of the lifter body 20 can flow to the upper side, and the elevating housing ( 40) is formed with a locking jaw 52 that is caught on the upper end. The diameter of the side of the lifting member 50 is expanded so that stepped steps 51 and locking steps 52 may be formed at the upper and lower ends, respectively. At this time, an auxiliary packing groove 53 into which auxiliary packings 54 and 55 are inserted may be formed between the step 51 and the locking step 52 to prevent fluid from leaking.

As shown in FIG. 6, the mold lifter according to one embodiment of the present invention configured as described above is installed in the lifter installation groove 3 of the mold table 2, and the elevating member 50 is the hoistway 41 of the elevating housing 40. ), and thus the upper end of the roller 30 is positioned lower than the upper surface of the mold table 2. The mold 1 is not in contact with the roller 30 of the mold lifter 10 and is fixed to the mold table 2.

And, as shown in FIG. 7, when fluid is supplied to the flow path 22 of the lifter body 20 through the fluid supply unit 70, the fluid flows along the flow path 22 of the lifter body 20 and lifts the lifting member 50. As it flows into the step 51 of the elevation member 50 is lowered along the hoistway 41 of the elevating housing 40 by hydraulic pressure. At this time, the locking jaw 52 of the elevating member 50 is caught on the upper end of the elevating housing 40 to limit the moving distance of the elevating member 50, and the elevating member 50 is separated from the elevating housing 40. that is prevented Accordingly, the lifter body 20 rises relatively from the mold table 2, and as a result, the upper end of the roller 30 protrudes upward from the upper surface of the mold table 2 and contacts the mold 1, The mold 1 can be moved by rollers 30.

In this way, as the elevating member 50 is lowered, the lifter body 20 itself is relatively raised, and a specific portion of the lifter body 20 is not pressed by the elevating member 50, so the specific portion of the lifter body 20 Because the load is prevented from being concentrated on the part and is structurally strong, the lifter body 20 is prevented from being bent or damaged, thereby reducing maintenance costs.

And, when the fluid is discharged from the flow path 22 of the lifter body 20, the lifter body 20, which has been raised by the weight of the mold 1, is lowered, so that the lifting member 50 is relatively raised and restored. Accordingly, since a separate return spring for returning the elevating member to its original state is not required as in the prior art, the number of parts is further reduced, cost is further reduced, and productivity is further improved because the assembly process of the box spring is not required.

The present invention described above is not limited by the foregoing embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within a range that does not deviate from the technical spirit of the present invention. will be clear to those who have knowledge of

1: mold 2: mold table
10: mold lifter 20: lifter body
21: concave groove 22: euro
23: seating groove 30: roller
40: lift housing 41: liftway
42: flange 50: lifting member
60: bolt 70: fluid supply

Claims (2)

In the mold lifter 10 for moving the mold 1 by being mounted in the lifter installation groove 3 formed in a straight line along the upper surface of the mold table 2 on which the mold 1 is mounted,
A plurality of concave grooves 21 formed in a bar shape and mounted along the lifter installation groove 3 of the mold table 2, concave upward from the bottom surface and spaced apart along the longitudinal direction, and each concave groove 21 a lifter body 20 communicating with the upper side and including a flow path 22 into which fluid is injected;
A plurality of rollers 30 mounted on the upper side of the lifter body 20 at a predetermined interval and having an upper end protruding upward than the upper end of the lifter body 20;
An elevating housing 40 having an upper end coupled to the concave groove 21 of the lifter body 20 so as to be spaced apart from the bottom of the concave groove 21 of the lifter body 20, and having a hoistway 41 vertically penetrated therein. ); and
The lifter body 20 is lifted along the hoistway 21 of the lifter housing 40, and the concave groove 21 of the lifter body 20 is formed at the upper end of the side so that the fluid flowing along the flow path 22 of the lifter body 20 flows into the upper end. An elevating member 50 spaced apart from the upper end or having an inclined or stepped 51 formed therein, and a locking jaw 52 formed on the middle part of the side surface to be caught on the upper end of the elevating housing 40 during descent,
When fluid is injected through the flow path 22 of the lifter body 20, the fluid flows into the slope or step 51 of the lifting member 50, and the lifting member 50 is lowered by the pressure of the fluid. A mold lifter, characterized in that the roller 20 comes into contact with the mold 1 as the 20 is relatively raised on the mold table 2. The method of claim 1, wherein a flange 42 having a bolt hole 43 protrudes outward from the lower end of the elevating housing 40, and a diameter is larger than that of the concave groove 21 on the bottom surface of the lifter body 20, A seating groove 23 is formed in which the flange 42 of the elevating housing 40 is seated, and a bolt aligned with the bolt hole 43 of the flange 42 of the elevating housing 40 is formed in the seating groove 23. Mold lifter, characterized in that the ball (24) is formed.

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