CN214488782U - Be applied to pressure boost subassembly and pressure boost cylinder body of die casting machine - Google Patents

Abstract

The utility model is suitable for a die casting machine field provides a be applied to pressure boost subassembly and pressure boost cylinder body of die casting machine, pressure boost subassembly includes: the pressurizing cylinder body is provided with a cylinder body seat with a circumferential protruding part; the rabbet plate is provided with a cylinder body adjusting track, and the circumferential protruding part of the cylinder body seat is matched with the cylinder body adjusting track; and the quick locking mechanism is arranged between the cylinder body seat and the cylinder body adjusting track and can lock or release the cylinder body seat on the cylinder body adjusting track through deformation or extension. The utility model discloses need not to dismantle work in the working process, the cylinder body can directly slide on the company board, and it is convenient to adjust pressure cylinder body position, and the locking cylinder body position is also very simple and convenient on the company board, and the whole theory of operation is simple, and operating procedure is less, and operating process is convenient, labour saving and time saving.

Description

Be applied to pressure boost subassembly and pressure boost cylinder body of die casting machine

Technical Field

The utility model belongs to relate to the die casting machine field especially relates to a be applied to pressure boost subassembly and pressure boost cylinder body of die casting machine.

Background

In the die casting machine, molten or semi-molten metal is injected into a metal mold at a high speed, and the metal is crystallized and molded under pressure. With the progress of scientific technology and industrial production, especially with the development of industries such as automobiles, motorcycles, household appliances and the like, the die casting technology has been developed extremely rapidly.

In order to firmly connect the pressurizing cylinder and the rabbet plate during the injection process, the pressurizing cylinder and the rabbet plate of the existing die casting machine are usually connected in a way that the pressurizing cylinder is pressed on the rabbet plate by using a screw to provide pressing force.

When the pressurizing cylinder body is required to move in the rabbet plate, the screw is required to be loosened, so that the pressurizing cylinder body can move freely, and the screw is tightened after the pressurizing cylinder body is moved to a set position. The screws required to be loosened and tightened in the whole process are large in diameter, large in quantity, time-consuming and labor-consuming.

Disclosure of Invention

An object of the embodiment of the utility model is to provide a be applied to pressure boost subassembly of die casting machine, when aiming at solving the pressure boost cylinder body and removing in the company's board, the screw diameter that needs to loosen, tighten is big, and is in large quantity, wastes time and energy.

The embodiment of the utility model provides a realize like this, a be applied to pressure boost subassembly of die casting machine, pressure boost subassembly includes:

the pressurizing cylinder body is provided with a cylinder body seat with a circumferential protruding part;

the rabbet plate is provided with a cylinder body adjusting track, and the circumferential protruding part of the cylinder body seat is matched with the cylinder body adjusting track; and

the quick locking mechanism is arranged between the cylinder body seat and the cylinder body adjusting track and can lock or release the cylinder body seat on the cylinder body adjusting track through deformation or extension.

Preferably, the quick lock mechanism includes:

the piston can do telescopic motion relative to the axial direction of the pressurization cylinder body, and when the piston extends out relative to the pressurization cylinder body, the piston can enable the cylinder body seat to abut against the cylinder body adjusting track to press the cylinder body seat on the cylinder body adjusting track; when the piston retracts relative to the pressurizing cylinder body, the cylinder body seat can move along the cylinder body adjusting track; and

and the driving device is used for providing driving force for the extension and contraction of the piston.

Preferably, the cylinder body adjusting track comprises two pressure plates which are arranged on the rabbet plate side by side, a track groove is formed between the pressure plates and the rabbet plate, and the circumferential protruding part of the cylinder body seat is embedded in the track groove; and an adjusting allowance is arranged between the pressure plate and the circumferential protruding part of the cylinder body seat.

Preferably, a piston hole is formed in the cylinder body seat, a sealing sleeve is sleeved on the piston, and the piston slides in the piston hole.

Preferably, the driving device is disposed on the cylinder block, a passage penetrates through the cylinder block, and the driving device is communicated with the piston hole through the passage.

Preferably, the oil-saving device is characterized in that the driving device is hydraulically driven, the channel is further provided with an oil outlet, and a sealing plug is arranged on the oil outlet; the channel is filled with hydraulic oil, and the driving device provides power for the piston to move in the piston hole.

Preferably, the pressure boost assembly further comprises:

the slider is located fast lock mechanism with between the orbital lateral wall is adjusted to the cylinder body, with fast lock mechanism connects, the slider can pass through fast lock mechanism's control is supported and is pressed on the orbital lateral wall is adjusted to the cylinder body.

Preferably, the sliding block is made of wear-resistant materials or the surface of the sliding block is coated with a wear-resistant coating.

The utility model discloses another aim at is applied to pressure boost cylinder body of die casting machine, the pressure boost cylinder body includes:

the cylinder body is provided with a protruding cylinder body seat, and the cylinder body seat is arranged on a rabbet plate rail of the die casting machine in a sliding manner;

the quick locking mechanism is arranged on the cylinder body seat and can be quickly fixed on a rabbet plate rail of the die casting machine through deformation or extension.

Preferably, the quick lock mechanism includes:

the piston can do telescopic motion relative to the axial direction of the pressurization cylinder body, and when the piston extends out relative to the pressurization cylinder body, the piston can enable the cylinder body seat to abut against the side wall of the track, so that the cylinder body seat is pressed in the cylinder body adjusting track;

the piston hole is formed in the cylinder body seat, a sealing sleeve is sleeved on the piston, and the piston slides in the piston hole; and

the driving device is arranged on the cylinder body seat, a channel penetrates through the cylinder body seat, and the driving device is communicated with the lower end of the piston hole through the channel to provide driving force for the piston to stretch and retract.

The embodiment of the utility model provides a pair of be applied to pressure boost subassembly of die casting machine, when needs move the pressure boost cylinder body on the enterprise board, need not to dismantle any screw or other spare parts, only need control fast lock mechanism and stretch out and draw back or warp, just can be fast with the pressure boost cylinder body from the state of locking on the enterprise board, become pressure boost cylinder body and enterprise board swing joint, and then the pressure boost cylinder body can slide to the relevant position on the enterprise board, the flexible or deformation of fast lock mechanism of the re-control, can lock the pressure boost cylinder body on the enterprise board. The operation process is free from disassembly, the cylinder body can directly slide on the rabbet plate, the position of the pressure cylinder body is convenient to adjust, the position of the locking cylinder body on the rabbet plate is also very quick, simple and convenient, the overall working principle is simple, the operation steps are fewer, the operation process is convenient, and time and labor are saved.

Drawings

Fig. 1 is a cross-sectional view of a pressurizing assembly applied to a die casting machine according to an embodiment of the present invention;

fig. 2 is a front view of a pressurizing assembly applied to a die casting machine according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion A of FIG. 1;

fig. 4 is a schematic structural view of a pressurizing cylinder body applied to a die casting machine according to an embodiment of the present invention;

in the drawings: 1. an rabbet plate; 2. a pressurizing cylinder body; 21. a cylinder block 22, a circumferential projection; 3. pressing a plate; 4. a bolt; 5, a quick locking mechanism; 51. a piston; 52. sealing sleeves; 53. a drive device; 54. a sealing plug; 55. a channel; 6. a slider; 7. the cylinder body adjusts the track.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description is provided for the specific embodiments of the present invention.

As shown in fig. 1, for the embodiment of the utility model provides a be applied to pressure boost assembly's of die casting machine structure chart, include:

a pressurizing cylinder body 2, wherein a cylinder body seat 21 of a circumferential protruding part 22 is arranged on the pressurizing cylinder body 2;

the rabbet plate 1 is provided with a cylinder body adjusting track 7, and a circumferential protruding part 22 of the cylinder body seat 21 is matched with the cylinder body adjusting track 7; and

and a quick lock mechanism 5 which is provided between the cylinder block 21 and the cylinder block adjustment rail 7 and which can lock or release the cylinder block 21 to or from the cylinder block adjustment rail 7 by deformation or expansion and contraction.

In this embodiment, when needs move pressure boost cylinder body 2 on enterprise's board 1, need not to dismantle any screw or other spare parts, only need control quick lock mechanism 5 and stretch out and draw back or warp, just can be fast with pressure boost cylinder body 2 from the state of locking on enterprise's board 1, become pressure boost cylinder body 2 and enterprise's board 1 swing joint, and then pressure boost cylinder body 2 can slide to relevant position on enterprise's board 1, the flexible or deformation of quick lock mechanism 5 of the back control, can lock pressure boost cylinder body 2 on enterprise's board 1. Need not to dismantle work in the course of the work, pressure boost cylinder body 2 can directly slide on enterprise's board 1, and it is convenient to adjust pressure boost cylinder body 2 position, and locking pressure boost cylinder body 2 also very is simple and convenient on enterprise's board 1 position, and the whole theory of operation is simple, and operating procedure is less, and operating process is convenient, labour saving and time saving.

The utility model discloses an in the example, the circumference protruding portion 22 of the cylinder block 21 of pressure boost cylinder body 2 can be adjusted and remove in the cylinder block regulation track 7 on the enterprise board 1, the fast lock mechanism 5 is located between cylinder block 21 and the cylinder block regulation track 7, fast lock mechanism 5 itself is piston 51 mechanism or electronic telescopic machanism or the screw thread screw rod telescopic machanism that can carry out concertina movement, or memory alloy or the elastic mechanism that itself can warp, fast lock mechanism 5 sets up in this embodiment and cylinder block 21 one side of relative clamp plate 3, through the concertina movement of control fast lock mechanism 5, just can be with the relative position locking of cylinder block 21 and cylinder block regulation track 7, thereby realize the position control of pressure boost cylinder body 2 on enterprise board 1.

The quick-lock mechanism 5 includes:

the piston 51 can do telescopic motion relative to the axial direction of the pressurization cylinder body 2, a piston 51 hole is formed in the cylinder body seat 21, a sealing sleeve 52 is sleeved on the piston 51, the piston 51 is in sliding connection with the piston 51 hole, and the sealing sleeve 52 can increase the sliding performance and the sealing performance of the piston 51 when moving in the piston 51 hole; when the piston 51 extends relative to the supercharge cylinder 2, the piston 51 can make the cylinder block 21 abut on the cylinder block adjusting track 7 and press the cylinder block 21 on the cylinder block adjusting track 7; when the piston 51 retracts relative to the pressurizing cylinder 2, the cylinder seat 21 can move along the cylinder adjusting track 7; and

and a driving device 52 for providing a driving force for the extension and contraction of the piston 51. The driving device 52 is disposed on the cylinder block 21, a passage 55 penetrates through the cylinder block 21, and the driving device 52 is communicated with the piston 51 through the passage 55. The driving device 52 is hydraulically driven, the channel 55 is further provided with an oil outlet, a sealing plug 54 is arranged on the oil outlet, and the sealing plug 54 can be in sealing connection with the oil outlet; the channel 55 is filled with hydraulic oil, and the driving device 52 provides power for the piston 51 to move in the piston 51 hole. The external hydraulic drive delivers hydraulic oil to the piston 51 through a passage 55 in the cylinder block 21 and acts on the piston 51 to control the movement of the piston 51 to achieve the lifting and lowering of the entire lock mechanism.

In one embodiment, the cylinder adjusting track 7 comprises two pressing plates 3 arranged on the rabbet plate 1 side by side, the pressing plates 3 are detachably arranged on the rabbet plate 1 through screws 4, a track groove is formed between the pressing plates 3 and the rabbet plate 1, the circumferential protruding part 22 of the cylinder base 21 is embedded in the track groove, and the cylinder base 21 can slide along the track groove; an adjusting allowance is arranged between the circumferential protruding part 22 of the pressure plate 3 and the cylinder seat 21 and the surface of the pressure plate 3 opposite to each other, the piston 51 is embedded in the cylinder seat 21, the driving mechanism drives the piston 51 to move towards the pressure plate 3, when the movement displacement is equal to the adjusting allowance, one end of the piston 51 is abutted against the pressure plate 3, the other end of the piston 51 is abutted against the cylinder seat 21, and the cylinder seat 21 is pressed in the cylinder adjusting track 7 through the mutual acting force.

As another preferred embodiment of the present invention, the pressurizing assembly further includes:

slider 6 is located fast lock mechanism 5 with between the lateral wall of track 7 is adjusted to the cylinder body, with fast lock mechanism 5 is connected, slider 6 can pass through fast lock mechanism 5's control is supported and is pressed on the lateral wall of track 7 is adjusted to the cylinder body. In the embodiment, one side of the slide block 6 is fixedly connected with the piston 51, the other side of the slide block is arranged opposite to the pressure plate 3, an adjusting margin is reserved between the slide block 6 and the pressure plate 3, the hydraulic driving device 52 drives the piston 51 to move in the hole of the piston 51 as the piston 51, and when the piston 51 moves towards the pressure plate 3, the piston 51 drives the slide block 6 to abut against the pressure plate 3 so as to lock the cylinder seat 21; after the hydraulic driving device 52 releases pressure, the piston 51 drives the sliding block 6 to be far away from the pressure plate 3, the position of the pressurizing cylinder body 2 in the rabbet plate 1 is adjusted at the moment, namely the position of the cylinder body seat 21 in the cylinder body adjusting track 7 is adjusted, the sliding block 6 slides in a friction mode relative to the pressure plate 3, the sliding block 6 is made of wear-resistant materials or the surface of the sliding block 6 is coated with a wear-resistant coating, and the friction performance of the sliding block 6 during sliding friction can be improved. Meanwhile, the sliding block 6 isolates the piston 51 from the pressing plate 3, so that the stress area of the pressing plate 3 is increased when the cylinder seat 21 is pressed, and the piston 51 is prevented from being directly contacted with the pressing plate 3 to scratch.

As another preferred embodiment of the present invention,

as shown in fig. 4, the embodiment of the present invention also provides a pressurization cylinder 2 for die casting machine, including:

the cylinder body is provided with a protruding cylinder body seat 21, and the cylinder body seat 21 is arranged on a rabbet plate 1 rail of the die casting machine in a sliding manner;

and the quick locking mechanism 5 is arranged on the cylinder seat 21 and can quickly fix the pressurizing cylinder body 2 on the rail of the rabbet plate 1 of the die casting machine through deformation or extension.

The embodiment of the utility model provides an in, when needs move pressure boost cylinder body 2 on enterprise's board 1, need not to dismantle any screw or other spare parts, only need control quick lock mechanism 5 and stretch out and draw back or warp, just can be fast with pressure boost cylinder body 2 from the state of locking on enterprise's board 1, become pressure boost cylinder body 2 and enterprise's board 1 swing joint, and then pressure boost cylinder body 2 can slide to relevant position on enterprise's board 1, the flexible or deformation of quick lock mechanism 5 of controlling again, can lock pressure boost cylinder body 2 on enterprise's board 1.

The utility model discloses an in the example, the circumference protruding portion 22 of the cylinder block 21 of pressure boost cylinder body 2 slides in the track on enterprise's board 1, quick-lock mechanism 5 is located between cylinder block 21 and cylinder body regulation track 7, quick-lock mechanism 5 itself is piston 51 mechanism or electronic telescopic machanism or the screw thread screw rod telescopic machanism that can carry out concertina movement, or memory alloy or the elastic mechanism that itself can warp, through the motion or the deformation of control quick-lock mechanism 5, just can adjust the relative position locking of track 7 with cylinder block 21 and cylinder body, thereby realize the position control of pressure boost cylinder body 2 on enterprise's board 1.

As a preferred embodiment of the present invention, the quick lock mechanism 5 includes:

a piston 51 capable of performing an axial telescopic motion with respect to the pressurizing cylinder 2, wherein when the piston 51 extends with respect to the pressurizing cylinder 2, the piston 51 is capable of pressing the cylinder block 21 against the sidewall of the rail and pressing the cylinder block 21 into the cylinder adjustment rail 7;

a piston 51 hole which is opened on the cylinder body seat 21, wherein a sealing sleeve 52 is sleeved on the piston 51, and the piston 51 slides in the piston 51 hole; and

and the driving device 52 is arranged on the cylinder body seat 21, a channel 55 penetrates through the cylinder body seat 21, and the driving device 52 is communicated with the lower end of the hole of the piston 51 through the channel 55 and provides driving force for the piston 51 to stretch and retract.

The utility model provides an in the above-mentioned embodiment, be applied to the pressure boost subassembly of die casting machine to provide a pressure boost cylinder body 2 of being applied to the die casting machine based on this pressure boost subassembly, set up piston 51 telescoping device through pressure boost cylinder body 2 itself, can make quick locking and the release of pressure boost cylinder body 2 on enterprise's board 1.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a be applied to pressure boost subassembly of die casting machine which characterized in that, pressure boost subassembly includes:

the pressurizing cylinder body is provided with a cylinder body seat with a circumferential protruding part;

the rabbet plate is provided with a cylinder body adjusting track, and the circumferential protruding part of the cylinder body seat is matched with the cylinder body adjusting track; and

the quick locking mechanism is arranged between the cylinder body seat and the cylinder body adjusting track and can lock or release the cylinder body seat on the cylinder body adjusting track through deformation or extension.

2. The boost assembly of claim 1, wherein the snap-lock mechanism comprises:

the piston can do telescopic motion relative to the axial direction of the pressurization cylinder body, and when the piston extends out relative to the pressurization cylinder body, the piston can enable the cylinder body seat to abut against the cylinder body adjusting track to press the cylinder body seat on the cylinder body adjusting track; when the piston retracts relative to the pressurizing cylinder body, the cylinder body seat can move along the cylinder body adjusting track; and

and the driving device is used for providing driving force for the extension and contraction of the piston.

3. The supercharging assembly according to claim 1 or 2, wherein the cylinder body adjusting rail comprises two pressure plates arranged on the rabbet plate side by side, a rail groove is formed between the pressure plates and the rabbet plate, and a circumferential protruding part of the cylinder body seat is embedded in the rail groove; and an adjusting allowance is arranged between the pressure plate and the circumferential protruding part of the cylinder body seat.

4. The boosting assembly as claimed in claim 2, wherein the cylinder block defines a piston bore, the piston is sleeved with a sealing sleeve, and the piston slides in the piston bore.

5. The booster assembly of claim 2 wherein said drive means is disposed on said cylinder block with a passage therethrough, said drive means communicating with said piston bore through said passage.

6. The boost assembly of claim 5, wherein the driving device is hydraulically driven, the passage further defines an oil outlet, and the oil outlet defines a sealing plug; the channel is filled with hydraulic oil, and the driving device provides power for the piston to move in the piston hole.

7. The boost assembly of claim 1, further comprising:

the slider is located fast lock mechanism with between the orbital lateral wall is adjusted to the cylinder body, with fast lock mechanism connects, the slider can pass through fast lock mechanism's control is supported and is pressed on the orbital lateral wall is adjusted to the cylinder body.

8. The supercharging assembly of claim 7, wherein the slide is a wear resistant material or a wear resistant coating is applied to a surface of the slide.

9. The utility model provides a be applied to pressure boost cylinder body of die casting machine which characterized in that, pressure boost cylinder body includes:

the cylinder body is provided with a protruding cylinder body seat, and the cylinder body seat is arranged on a rabbet plate rail of the die casting machine in a sliding manner;

the quick locking mechanism is arranged on the cylinder body seat and can be quickly fixed on a rabbet plate rail of the die casting machine through deformation or extension.

10. The supercharging cylinder of claim 9, wherein the quick-lock mechanism comprises:

the piston can do telescopic motion relative to the axial direction of the pressurizing cylinder body, and when the piston extends out relative to the pressurizing cylinder body, the piston can enable the cylinder body seat to be abutted against the side wall of the track, so that the cylinder body seat is pressed in the rabbet track of the die-casting machine;

the piston hole is formed in the cylinder body seat, a sealing sleeve is sleeved on the piston, and the piston slides in the piston hole; and

the driving device is arranged on the cylinder body seat, a channel penetrates through the cylinder body seat, and the driving device is communicated with the lower end of the piston hole through the channel to provide driving force for the piston to stretch and retract.

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