CN218429559U

CN218429559U - Energy-saving four-cylinder machine mode locking structure

Info

Publication number: CN218429559U
Application number: CN202222854690.XU
Authority: CN
Inventors: 边晓波
Original assignee: Hangzhou Yijiubas Plastic Machinery Co ltd
Current assignee: Hangzhou Yijiubas Plastic Machinery Co ltd
Priority date: 2022-10-27
Filing date: 2022-10-27
Publication date: 2023-02-03
Anticipated expiration: 2032-10-27

Abstract

The utility model discloses an energy-conserving four jar machine mode locking structures, which comprises a frame (1), be equipped with fixed plate (2) on frame (1), the top of fixed plate (2) is equipped with movable plate (3), be equipped with guiding mechanism between fixed plate (2) and movable plate (3), the bottom of fixed plate (2) is equipped with two hydro-cylinders (4) and two locking hydro-cylinders (5) that open and shut, two hydro-cylinders (4) and two locking hydro-cylinders (5) all are close to the outer fringe of fixed plate (2), it is fixed with movable plate (3) after fixed plate (2) are passed to the upper end of hydro-cylinder (4) that opens and shuts, the output of locking hydro-cylinder (5) passes fixed plate (2), the output of locking hydro-cylinder (5) is equipped with briquetting (6), the top of briquetting (6) is equipped with the locking mechanism who is connected with movable plate (3) top, the downside of locking mechanism is equipped with first through-hole (7) that link up movable plate (3). The utility model has the advantages of the cost is lower, can reduce the hydraulic pressure station energy consumption and can improve hydraulic pressure station life.

Description

Energy-saving four-cylinder machine mode locking structure

Technical Field

The utility model belongs to the foam molding machine field especially relates to an energy-conserving four-cylinder machine mode locking structure that foam molding machine used.

Background

The foam forming machine is used for forming foaming parts and comprises a machine frame, wherein a fixed plate is arranged on the machine frame, and a movable plate capable of moving up and down is arranged above the fixed plate. The foaming parts in different shapes need to be formed by different foaming molds, each foaming mold comprises a fixed mold and a movable mold, the shape of a cavity formed after the fixed mold and the movable mold are assembled determines the appearance of the foaming part, the fixed mold is fixed on a fixed plate, and the movable mold is fixed on a movable plate.

The mold locking structure on the existing foam molding machine comprises two opening and closing oil cylinders at the bottom of a fixed plate, wherein the opening and closing oil cylinders are close to two sides of a bottom plate and are positioned on the middle bisection surface of the long direction of the bottom plate; the mould locking mechanism is characterized by further comprising four mould locking oil cylinders fixed with the rack, wherein the mould locking oil cylinders are located on the outer side of the foaming mould (the mould locking oil cylinders are prevented from being collided when the movable plate rises), the mould locking oil cylinders are respectively close to four corners of the foaming mould, the inclined angles are output inwards, after mould closing, the mould locking oil cylinders extend out and press the movable plate, downward pressure is exerted on the movable plate, the movable plate is pressed on the fixed mould to complete mould locking, when mould opening is performed, the mould locking oil cylinders are located on the lower side of the movable plate, the stroke of the mould locking oil cylinders is short, and the mould locking oil cylinders are used for locking after mould closing.

Because the hydro-cylinder of mode locking structure has six hydro-cylinders a great deal, and the cost is higher, and the hydraulic pressure station power that needs the corresponding outfit is big, and the energy consumption increases, and the oil temperature is high, leads to the life of hydraulic pressure station lower. Therefore, the existing mold locking structure has the defects of higher cost, increased energy consumption of the hydraulic station and reduced service life of the hydraulic station.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving four jar machines mode locking structure. The utility model has the advantages of the cost is lower, can reduce the hydraulic pressure station energy consumption and can improve hydraulic pressure station life.

The technical scheme of the utility model: energy-conserving four jar machine die locking structure, which comprises a frame, be equipped with the fixed plate in the frame, the top of fixed plate is equipped with the movable plate, be equipped with guiding mechanism between fixed plate and the movable plate, the bottom of fixed plate is equipped with two hydro-cylinders and two locking hydro-cylinders that open and shut, two hydro-cylinders and two locking hydro-cylinders that open and shut all are close to the outer fringe of fixed plate, the upper end of hydro-cylinder that opens and shuts is passed fixed with the movable plate after the fixed plate, the output of locking hydro-cylinder passes the fixed plate, the output of locking hydro-cylinder is equipped with the briquetting, the top of briquetting is equipped with the locking mechanism who is connected with the movable plate top, the downside of locking mechanism is equipped with the first through-hole that link up the movable plate.

In the energy-saving four-cylinder machine mold locking structure, the fixed plate and the movable plate are both square, the two opening and closing oil cylinders and the two locking oil cylinders are respectively close to four corners of the fixed plate, and horizontal connecting lines of the two opening and closing oil cylinders and horizontal connecting lines of the two locking oil cylinders are crossed.

In the energy-saving four-cylinder machine mold locking structure, the guide mechanism comprises a plurality of guide pillars located on the fixed plate, the guide pillars are close to the outer edge of the fixed plate, the upper ends of the guide pillars penetrate through the movable plate and then are connected with the machine frame, and the movable plate is provided with a guide sleeve connected with the guide pillars in a matched mode.

In the aforementioned energy-conserving four-cylinder machine mode-locking structure, locking mechanism is equipped with the spout including the sliding seat that is located first through-hole upside on the sliding seat, is equipped with the second through-hole coaxial with first through-hole on the bottom surface of spout, is equipped with the slide in the spout, is equipped with the third through-hole coaxial with first through-hole on the slide, is equipped with the slot hole on the slide, the one end of slot hole and the lateral wall intercommunication of third through-hole, one side of slide be equipped with the fixed cylinder of movable plate.

In the energy-saving four-cylinder machine die locking structure, the pressing block is cylindrical, the diameters of the first through hole, the second through hole and the third through hole are all larger than the diameter of the pressing block, and the width of the long hole is smaller than the diameter of the pressing block and larger than the diameter of the output end of the locking oil cylinder.

Compared with the prior art, the utility model discloses have two hydro-cylinders that open and shut and two locking hydro-cylinders, two hydro-cylinders that open and shut are close to two wherein subtend angles of deciding the board, two locking hydro-cylinders are close to on two other subtend angles of deciding the board, two hydro-cylinders that open and shut not only can play the effect when opening and shutting the foaming mould, can also play the effect when locking the mould, guaranteeing that the foaming mould opens and shuts smoothly, the locking force does not reduce on the basis, the hydro-cylinder quantity has been reduced, the cost is reduced, and the hydraulic pressure station power reduction that corresponding needs were equipped with, the energy consumption reduces, the oil temperature reduces, the life at hydraulic pressure station has been improved. Therefore, the utility model has the advantages of the cost is lower, can reduce the hydraulic pressure station energy consumption and can improve hydraulic pressure station life.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the lock mechanism.

Fig. 3 is a schematic sectional view of the locking mechanism.

The labels in the figures are: 1-a frame, 2-a fixed plate, 3-a movable plate, 4-an opening and closing oil cylinder, 5-a locking oil cylinder, 6-a pressing block, 7-a first through hole, 8-a guide pillar, 9-a guide sleeve, 10-a sliding seat, 12-a second through hole, 13-a sliding plate, 14-a third through hole, 15-a long hole and 16-an air cylinder.

Detailed Description

The present invention will be further described with reference to the drawings and examples, which should not be construed as a limitation to the present invention.

Examples are given. Energy-conserving four jar machine mode locking structures, as shown in figure 1, including frame 1, be equipped with fixed plate 2 in frame 1, the top of fixed plate 2 is equipped with movable plate 3, be equipped with guiding mechanism between fixed plate 2 and the movable plate 3, the bottom of fixed plate 2 is equipped with two hydro-cylinders 4 and two locking hydro-cylinders 5 that open and shut, two hydro-cylinders 4 and two locking hydro-cylinders 5 that open and shut are all close to the outer fringe of fixed plate 2, the upper end of hydro-cylinder 4 that opens and shuts is passed fixed plate 2 after with movable plate 3, the output of locking hydro-cylinder 5 passes fixed plate 2, the output of locking hydro-cylinder 5 is equipped with briquetting 6, the top of briquetting 6 is equipped with the locking mechanism who is connected with movable plate 3 top, the downside of locking mechanism is equipped with first through-hole 7 that link up movable plate 3.

The fixed plate 2 and the movable plate 3 are both square, the two opening and closing oil cylinders 4 and the two locking oil cylinders 5 are respectively close to four corners of the fixed plate 2, and the horizontal connecting line of the two opening and closing oil cylinders 4 is crossed with the horizontal connecting line of the two locking oil cylinders 5.

The guide mechanism comprises four guide pillars 8 positioned on the fixed plate 2, the four guide pillars 8 are positioned at four corners of the fixed plate 2, the upper ends of the guide pillars 8 penetrate through the movable plate 3 and then are connected with the rack 1, and a guide sleeve 9 matched and connected with the guide pillars 8 is arranged on the movable plate 3.

The locking mechanism comprises a sliding seat 10 located on the upper side of the first through hole 7, the sliding seat 10 is fixed with the movable plate 3, a sliding groove is formed in the top of the sliding seat 10, a second through hole 12 coaxial with the first through hole 7 is formed in the bottom surface of the sliding groove, a sliding plate 13 is arranged in the sliding groove, a third through hole 14 coaxial with the first through hole 7 is formed in the sliding plate 13, a long hole 15 is formed in the sliding plate 13, one end of the long hole 15 is communicated with the side wall of the third through hole 14, and an air cylinder 16 fixed with the movable plate 3 is arranged on one side of the sliding plate 13.

The pressing block 6 is cylindrical, the diameters of the first through hole 7, the second through hole 12 and the third through hole 14 are all larger than the diameter of the pressing block 6, and the width of the long hole 15 is smaller than the diameter of the pressing block 6 and larger than the diameter of the output end of the locking oil cylinder 5.

The working principle is as follows: the fixed die of the foaming die is fixed on the top of the fixed plate 2, and the movable die of the foaming die is fixed on the bottom of the movable plate 3. When the opening and closing oil cylinder 4 extends out, the movable plate 3 rises along the guide pillar 8 to drive the movable die to rise, so that the foaming die is opened, and the foamed part can be taken out. When the opening and closing oil cylinder 4 contracts, the movable plate 3 descends to the height, and the movable mold is in contact with the fixed mold, so that the foaming mold is closed. In the process that the movable plate 3 descends to a lower height, the pressing block 6 sequentially passes through the first through hole 7, the second through hole 12 and the third through hole 14, the pressing block 6 is located above the third through hole 14, the air cylinder 16 is started, the air cylinder 16 drives the sliding plate 13 to horizontally move along the sliding groove, the long hole 15 is located below the pressing block 6, the opening and closing oil cylinder 4 and the locking oil cylinder 5 are contracted, the opening and closing oil cylinder 4 and the locking oil cylinder 5 both apply downward force to the movable plate 3, the movable plate is pressed tightly on the fixed die, and the mode locking of the foaming die is achieved. After the mold locking is finished, the foaming operation is carried out, after the foaming is finished, the air cylinder 16 drives the sliding plate 13 to move reversely, the pressing block 6 is located above the third through hole 14, the opening and closing oil cylinder 4 extends out, the movable mold ascends, the mold opening is finished, and the part can be taken out.

Claims

1. Energy-conserving four jar machine mode locking structures, its characterized in that: including frame (1), be equipped with fixed plate (2) in frame (1), the top of fixed plate (2) is equipped with movable plate (3), be equipped with guiding mechanism between fixed plate (2) and movable plate (3), the bottom of fixed plate (2) is equipped with two hydro-cylinders (4) and two locking hydro-cylinders (5) that open and shut, two hydro-cylinders (4) and two locking hydro-cylinders (5) all are close to the outer fringe of fixed plate (2), the upper end of hydro-cylinder (4) that open and shut is passed fixed with movable plate (3) behind fixed plate (2), the output of locking hydro-cylinder (5) passes fixed plate (2), the output of locking hydro-cylinder (5) is equipped with briquetting (6), the top of briquetting (6) is equipped with the locking mechanism who is connected with movable plate (3) top, the downside of locking mechanism is equipped with first through-hole (7) that link up movable plate (3).

2. The energy-saving four-cylinder machine mold locking structure according to claim 1, characterized in that: the fixed plate (2) and the movable plate (3) are square, the two opening and closing oil cylinders (4) and the two locking oil cylinders (5) are respectively close to four corners of the fixed plate (2), and horizontal connecting lines of the two opening and closing oil cylinders (4) are crossed with horizontal connecting lines of the two locking oil cylinders (5).

3. The energy-saving four-cylinder machine mold locking structure according to claim 1, characterized in that: the guide mechanism comprises a plurality of guide pillars (8) positioned on the fixed plate (2), the guide pillars (8) are close to the outer edge of the fixed plate (2), the upper ends of the guide pillars (8) penetrate through the movable plate (3) and then are connected with the rack (1), and a guide sleeve (9) matched and connected with the guide pillars (8) is arranged on the movable plate (3).

4. The energy-saving four-cylinder machine mold locking structure according to claim 1, characterized in that: locking mechanism is including sliding seat (10) that is located first through-hole (7) upside, be equipped with the spout on sliding seat (10), be equipped with on the bottom surface of spout with first through-hole (7) coaxial second through-hole (12), be equipped with slide (13) in the spout, be equipped with on slide (13) with first through-hole (7) coaxial third through-hole (14), be equipped with slot hole (15) on slide (13), the one end of slot hole (15) and the lateral wall intercommunication of third through-hole (14), one side of slide (13) is equipped with cylinder (16) fixed with movable plate (3).

5. The energy-saving four-cylinder machine mold locking structure according to claim 4, characterized in that: the pressing block (6) is cylindrical, the diameters of the first through hole (7), the second through hole (12) and the third through hole (14) are larger than the diameter of the pressing block (6), and the width of the long hole (15) is smaller than the diameter of the pressing block (6) and larger than the diameter of the output end of the locking oil cylinder (5).