JPS5987952A - Molding machine - Google Patents

Abstract

PURPOSE:To enable full automation by providing mechanisms for holding and rotating a casting mold in a machine frame having mechanisms for forcing downward, compressing and forcing upward at the top and bottom, and providing a slide type hopper, a device for inserting and removing a match plate and a device for ejecting the molded sand mold at the outside of the machine frame. CONSTITUTION:A lower molding flask 32b is brought into press contact with an upper molding flask 32a when a match plate 28 inserted by a guide frame 29 is incorporated therein by ascending of a forcing-up cylinder 3. Sand is fed from a moving hopper 37 into the flask 32a, and the sand is squeezed by an upper compression plate 13. A closing plate 39 is inserted and attached to the flask 32a and molding flask sets 32, 28 are clamped and rotated by clamping jaws 21. Sand is fed from the hopper 37 into the flask 32b and is squeezed by an upper compression plate 12 and an auxiliary compression plate 14. A lower compression plate 5 is lowered to remove the plate 28, and the molded sand is lifted upward from the flask 32a and is ejected by an ejection plate 48. The flask 32 is rotated again by the jaws 21, and the molding sand in the mold 32b is pushed out by the same operation. All the above-mentioned operations are automatically accomplished.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a molding machine that molds a casting mold while combining two lower mold frames.

Conventionally, in molding machines that create casting molds by aligning the upper and lower mold frames, various operations such as jolting, squeezing, and stripping are performed on a table to fill the mold, and all of these are semi-automatic and are performed by an operator. Therefore, there has been a desire for a device that can fully automatically process the process from feeding sand to molding dimensions.
Various operations such as feeding the brocade, reversing the mold frame, squeezing, demolding, and feeding the mold are fully automatic without requiring any human power, and by using the natural falling material of the brocade and the double squeeze. The feature is that the mold can be manufactured at low cost while increasing the hardness of the mold.

Hereinafter, the present invention will be explained in detail with reference to embodiment figures.

An underframe 2 is erected at the inner bottom of a machine frame 1 with a suitable height I+], and a main push-up cylinder 3 and guide shafts 4 are installed at medium heat and diagonally opposing positions on both sides within the underframe 2, The first end of the rod of the main push-up cylinder 3 protruding from the second side of the underframe 2 and the guide shaft 4
, 4, and the pair of guide shafts 6, 6 and 61, 61 are fixed to the left and right sides from the middle heat section to the lower part of the opposing inner surfaces of the front and rear columns on both sides of the machine frame 1. A hollow receiving frame 7 for receiving a mold frame is supported by guide metals provided oppositely and loosely fitted to each guide shaft, and a main push-up cylinder 3
The upper ends of the rods of push-up cylinders 8°8, which are installed upright at the front and rear positions of A pair of guide shafts 9, 9 and a guide shaft 91 are provided on the upper opposing inner surfaces.
. 10, and an auxiliary FIE compression frame 14 is provided on the base plate 10, and the auxiliary FIE compression frame 14 is fitted around the four sides of the upper compression plate 130 with two pairs of shafts 12 and 12 at the center position of the lower surface of the base plate 10. Secure it to the lower end of the 15+15 rod,
Horizontal frames 16, 16 are installed at positions close to the center on both sides of the machine frame 1, and pushing cylinders 17.1 for clamping the upper and lower mold frames are placed inwardly at the medium heat position of each of the horizontal frames 16, 1.6. 1
7 and guide shafts 18 on both sides of the pushing cylinder.
．． 18 loosely fitted, plate pieces 19 and '19 are fixed to the rod tip of the push-in cylinder and the guide shaft tip, and a rotary bearing 20.20 is protruded from the center position of each plate piece 19.19,
Clamp claws 21.21 each having a V-shaped groove at the tip for clamping the joint flange of the mold frame joined above and below are provided on both sides of the ends of the rotary bearings 20.20, and on the outer periphery of the base of one of the rotary bearings 20. Tighten the gear 22, connect both ends of the endless chain 7240 to the ends of the rods of a pair of reversing cylinders 23 and 23 provided on the side of the machine frame 1, and rotate the endless chain 24 to the gear 22. The upper and lower mold frames, which are locked by the clamp claws 21.21, are reversed, and the clamp claws 21.21
At the lower position of the machine frame 1, rollers 27, 27 are pivotally supported on the inner surfaces of the lower side frames 26° 26 of the bogie frame 25 connected to the back of the machine frame 1, and the guide frame 2 of the match plate 28 is rotated.
9 is mounted on the frame 26, and the rod of the extrusion cylinder 30 provided at the rear inside of the both side frames 26 is connected to the guide frame 29, and the receiving piece 31 of the match plate is mounted on the inner surface of the guide frame 29 near the front end.
A receiving plate 3:J, 33 for receiving and suspending both sides of the upper end 7 flange of the upper mold frame 32a at a position above the clamp claw 2''1.21 is provided on both sides of the machine frame 1. It protrudes from the upper mold frame 32a and the lower mold frame 32b.
In order to supply molding sand while sandwiching the match plate 28 between the lower joint 7 flange and reversing each other, the bogie frame 25
A receiving plate 35 is stretched over the front upper surface of the upper side frames 34° 34 so that the front end protrudes into the machine frame 1, and rails 36 and 36 are erected on the upper surfaces of both sides of the receiving plate 35 to secure the machine frame. Inside 1 and bogie frame 2
Hopper 3 extends into the interior of machine frame 1 and is installed at the rear of the upper part of machine frame 1.
7 and the upper surface of the receiving plate 35 is provided at the front position, and the hopper 37 is moved rearward from the cutting tool r38.
A feed truck 40 with a closing plate 39 for closing the lower end mounted on the rails 36,369τ is guided back and forth by a guide cylinder 41, and a frame plate 42 is placed at a lower position on one side of the machine frame 1.
Extrusion cylinder 4 for sending out the mold with attached
3 and guide shafts 44 and 44 are provided, a suppression plate 45 is fixed to the tips of the extrusion cylinder and the guide shaft, and a receiving plate 46 is provided protruding from the side surface of the underframe 2 on the other side opposite to the suppression plate 45. The molding machine 47 should preferably consist of this. In addition, 48.48 in the figure indicates a pin for joining the mold frame.

Next, the effects of the present invention will be explained with reference to embodiment figures.

When molding a casting mold using the molding machine 47 according to the present invention, the upper mold plate 32a is lowered by one inch onto the receiving plate 33. <32
B is placed on the plate and its position is regulated by a bottle, etc. When the start switch is turned on, the match plate 2 is placed on the front.
The guide frame 29 equipped with 8 moves forward and the match plate 28
enters into the machine frame 1, then the hollow receiving frame 7 receives the match plate 28 on the upper surface of the lower mold frame 32b while rotating downward, and the hollow receiving frame 7 further moves upward while moving the match plate 2
The upper mold frame 32a is received on the upper surface of the upper mold frame 32a, and at this time, pins 48 and 48 protruding from the center of the clamps that connect both sides of the lower mold frame 32b connect the match plate 28 and the both sides of the upper mold frame 32a. The upper and lower mold frames (32a, 32b) are engaged with pin holes provided in the flanges, and grooves are provided in the joint flanges on both sides of the upper and lower mold frames 32a, 32b for passing the receiving pieces 31, 31 receiving the match plates 28. Hollow receiving frame 71-1 that received 32b: The joint flange of the upper and lower mold frames stops at a position facing the clamp claw 21.21, and the clamping cylinder 17.17 operates to move the clamp claw 21.21 up and down. It clamps the joining flange of the mold frame and the match plate 28. Next, the hollow receiving frame 7 is lowered, and the reversing cylinders 23 and 23 provided on the side of the machine frame 1 expand and contract (while moving the endless chino 24). The rotary bearings 20 and 20 on both sides are guided to rotate 180 degrees, and the lower mold frame 32b in the lower position is reversed to the upper position, and the hollow receiving frame 7 is again raised by ]1 and reversed to the lower position. After receiving the lower surface of the upper mold frame 32a, the material feeding truck 4
0 moves forward and the lower surface is in contact with the receiving plate 35.
The tinsel in 8 is thrown into the mold frame when the measuring tip 38 communicates with the upper surface of the lower mold frame 32b above, and at that time, the lower end opening of the hopper 37 is closed with a closing plate 39 to prevent the tinsel from falling. After the pay truck 40 has retreated, the auxiliary compression cylinder 11 on the top of the machine frame 1 operates to lower the plywood 10 while fitting the compression plate 13 on the bottom and the auxiliary compression frame 14 into the upper lower mold mold 32b. After that, the compression plate 13 and the auxiliary compression frame 14 rise, and the material feeding cart 4 is moved again.
0 into the lower mold frame 32b to perform the second squeeze. After squeezing twice, the hollow receiving frame 7 is lowered, and the clamp claws 21 and 21, which clamp and hold the joining clamps of the upper and lower mold frames, are reversed again and the upper mold frame 32a, which had been displaced downward, is displaced upward -\. After the lower surface of the lower mold frame that has been displaced downward is received again in the hollow receiving frame 7, K13 sand is supplied into the upper mold frame 32a, and the opening of the upper mold frame 32a is narrow. , the auxiliary compression frame 14 is raised by the cylinder 15.15 to project the compression plate 13 downward, and the compression plate 13 squeezes the brocade in the upper mold frame 32a once, and then squeezes the brocade in the upper mold frame 32a again. After supplying the material, the upper compression plate 13 is lowered, and the lower compression plate 5 is raised by 1" using the main push-up cylinder 3 in the underframe 2 to fit into the lower mold frame 32b, and the upper and lower compression plates are 13, 5, which performs the main squeeze, return the upper and lower compression plates to their original positions, and then move the clamp claws 21, . 2
1 is moved back and the clamp is released, and then the hollow support frame 7 is lowered, the upper mold frame 32a is suspended from the support plates 33, 33, and the match plate 28 is suspended from the support pieces 31, 11 of the guide frame 29, which has been stopped. They are received and separated, and the guide frame '2
9 retreats to retract the match plate 28, and when a core is required, the hollow receiving frame 7 is inserted again after inserting the core.
and the lower compression plate 5 are raised to form the lower mold flask 32a.

32b is joined, and in that state, the lower compression plate 5 holds -C
The mold in the mold frame is slightly pressed to release the mold, and then, while moving the lower compression plate 5 downward, the upper and lower molds formed by the lower compression plate 5 are lowered and stopped by the positioning of the pelvis 46, and the mold is removed. Extrusion for sending out (-The cylinder 43 moves the suppressing plate 45 forward and sends out the mold that is vertically joined to the pelvis 46, and then the hollow receiving frame 7 descends and lowers the upper mold frame 32a to the receiving plates 33, 33.) It separates and starts the next molding operation again.

As described above, the molding machine according to the present invention is capable of inserting and removing matte plates, feeding casting/sand materials, reversing upper and lower molds,
Each process such as squeezing, demolding, and feeding can be done fully automatically without requiring any human labor.The material for the nishikisa is fed using a hora-gun and is fed using fc white material, making it suitable for sand blowing. In comparison, it is not limited by the quality of the sand, does not require a combresse for feeding, and can be fed twice.
Since the mold is formed by squeezing twice, the mold has a uniform hardness and is difficult to break, and the shape is small, allowing for significant cost reductions.
It is J-ru.

[Brief explanation of the drawing]

Fig. 1 is a front view of the molding machine according to the uninvented embodiment, Fig. 2 is a right side view thereof, Fig. 3 is a plan view showing the feeding part of the tinsel, and Fig. 4 shows the guidance of the matte plate. Plan view shown, No. 5
The figure is a [111] view of the reversing mechanism of the mold frame, and FIG. 6 is a partially enlarged sectional view showing the upper compression plate mechanism. Special tr'l Applicant: Koyo Casting Machinery Co., Ltd. (Fig. 5)

Claims (1)

[Claims] 1. A compression plate mechanism for squeezing is installed at the upper and lower positions in the machine frame 1 with an appropriate height of 11J so that it can be freely guided downward, and it is fitted with the outer periphery of the lower compression plate mechanism to receive the lower mold frame. A hollow receiving frame mechanism is provided at the lower part of the machine frame 1 to guide it downward, and the joining flanges of the upper and lower mold frames, which sandwich the match plate at the center of the machine frame 1, are clamped from both sides and inverted. A clamp mechanism is provided at the center position on both sides of the machine frame, and a receiving plate for receiving and suspending the upper end 7 flange of the upper mold frame is provided above the clamp mechanism, protruding from the machine frame 1. A trolley frame 25 is installed in series at the rear, and a weighing trolley mechanism and a match plate 28 are installed to feed the brocade into the mold frame inside the machine frame 1 from a hopper 37 installed on the trolley frame 25.
1. A guide mechanism for the match plate for inserting into and removing the joint surface of the lower mold frame is installed in the bogie frame 25, and a mold extrusion L7 mechanism is installed on one side of the lower mold frame 1 on the other side. A molding machine characterized by a mold receiving plate installed on the side.