CN216373096U - Quick production line of nonmetal bumper shock absorber cover - Google Patents

Abstract

The utility model discloses a non-metal shock absorber cover rapid production line, which relates to the technical field of shock absorbers and comprises an outer die, a supporting plate and an inner die, wherein first supporting frames are arranged on two sides of the supporting plate, a piston is arranged at the upper end of each first supporting frame, an output shaft on the piston is connected with the outer die, a cooling chamber is arranged in the outer die and is connected with a water delivery pipe, each first supporting frame is connected with a second supporting frame, a branch conveying pipe penetrates through the second supporting frames, the branch conveying pipe penetrates through a rotating motor, one end of the branch conveying pipe is provided with a rotating snap ring, the rotating snap ring is rotatably connected with a main conveying pipe, the other end of the branch conveying pipe is fixedly connected with a control ring, the control ring is connected with the inner die, the control ring is provided with an ejection ring, and a die reversing bin is arranged between the inner die and the outer die. The utility model has simple structure and easy operation, can manufacture a plurality of nonmetal shock absorber covers at one time, improves the efficiency of a production line by accelerating the cooling process and manufacturing a plurality of nonmetal shock absorber covers at one time, has strong practicability and is suitable for popularization.

Description

Quick production line of nonmetal bumper shock absorber cover

Technical Field

The utility model belongs to the technical field of shock absorbers, and particularly relates to a rapid production line for a nonmetal shock absorber cover.

Background

The automobile shock absorber is provided with the dust cover, sand or dust is mainly prevented from entering a shock absorber core, oil leakage is easy to occur after the dust cover is rubbed with an oil seal, the service life of the shock absorber is shortened, for the nonmetal shock absorber cover, melted plastic is generally injected into a plastic product mold by utilizing pressure, and the nonmetal shock absorber cover in various shapes is obtained through cooling forming. However, in the production process, the time required by the processes such as grouting and cooling is too long, and the production efficiency is low, so that the embodiment provides a production line of the nonmetal shock absorber covers, which can be used for manufacturing a plurality of nonmetal shock absorber covers at one time, and has the advantages of quickening the cooling process, improving the production line by manufacturing a plurality of nonmetal shock absorber covers at one time and strong practicability.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a non-metal damper cover rapid production line which is simple in structure, easy to operate, capable of manufacturing a plurality of non-metal damper covers at one time, high in practicability and suitable for popularization, and the efficiency of the production line is improved by accelerating the cooling process and manufacturing a plurality of non-metal damper covers at one time.

The utility model provides the following technical scheme: the utility model provides a quick production line of non-metallic damper cover, includes outer mould, backup pad, interior mould, the backup pad both sides are equipped with four first support frames of symmetry, first support frame upper end is equipped with the piston, the outer mould of piston output shaft fixedly connected with on the piston, outer mould is two parts of symmetry, the inside cooling chamber that is equipped with of outer mould, the cooling chamber is connected with the raceway that runs through outer mould, the raceway other end is connected with circulating pipe.

First support frame one side fixedly connected with second support frame, the even running through of second support frame is equipped with the branch conveyer pipe, divide the conveyer pipe to run through the rotating electrical machines who links to each other with the second support frame is fixed, the one end that divides the conveyer pipe to run through rotating electrical machines is equipped with rotatory snap ring, rotatory snap ring and total conveyer pipe swivelling joint, divide the conveyer pipe other end and control ring fixed connection, mould in the control ring fixedly connected with, the control ring is equipped with the ejecting ring that encircles the round with interior mould junction, be equipped with the mode reversing storehouse between interior mould and the outer mould.

Preferably, a conveying belt is arranged above the supporting plate, and a groove is formed in the center line of the conveying belt.

Preferably, the branch conveying pipe penetrates through the outer die to be connected with the control ring, and the joint of the outer die and the branch conveying pipe is in sliding connection.

Preferably, a sealing gasket is arranged at the joint of the outer die and the inner die.

Preferably, the main conveying pipe is internally provided with a grouting pipe, and the grouting pipe is connected to the control ring through the main conveying pipe and the branch conveying pipe and is communicated with the reverse mold cabin.

The utility model has the beneficial effects that: simple structure, easily operation can once make a plurality of nonmetal bumper shock absorbers covers, through accelerating cooling process, once make a plurality of efficiency that promote the production line, the practicality is strong, specifically as follows:

(1) the utility model is provided with the branch conveying pipe, the grouting pipe is connected to the control ring through the main conveying pipe and the branch conveying pipe, the grouting pipe injects the grout into the reverse mold bin through the control ring, the reverse mold bin is divided into the same parts by the control ring, so that a plurality of products can be produced by one-time grouting, the cooling chamber is arranged in the outer mold, and the water pipe is used for injecting water into the cooling chamber to form water circulation in the cooling chamber, thereby accelerating the cooling speed.

(2) The utility model is provided with a piston, when the product in the mold reversing bin is cooled, the two outer molds are pulled towards the direction of the first support frame through the piston to separate the two outer molds, in the process, the delivery pipe penetrates through the outer molds to be connected with the control ring, the connection part of the outer molds and the delivery pipe is in sliding connection, the delivery pipe is not influenced, so that the cooled product is exposed outside, the rotating motor on the second support frame starts to operate to drive the control ring to rotate, the inner molds are deviated, the ejection ring on the control ring moves, and the product is ejected out and falls off from the inner molds.

(3) The utility model is provided with the conveying belt, the conveying belt is provided with the grooves, the grooves prevent products from rolling out of the conveying belt after falling, the conveying belt conveys the products falling onto the grooves to a designated position, the inner mold is reset by the rotating motor, the outer mold is closed by the piston, and then grouting production can be carried out again.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is an overall schematic view of the present invention;

FIG. 2 is a schematic view of the inner mold of the present invention;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is an enlarged cross-sectional view of the rotary collar of the present invention;

labeled as: the automatic casting machine comprises an outer mold 1, a support plate 2, a conveyor belt 3, a water conveying pipe 4, a first support frame 5, a piston 6, a piston output shaft 7, a second support frame 8, a main conveying pipe 9, a rotating motor 10, a branch conveying pipe 11, an inner mold 12, a control ring 13, an ejection ring 14, a cooling chamber 15, a reverse mold bin 16, a grouting pipe 17, a rotary snap ring 18 and a groove 19.

Detailed Description

The utility model will be further illustrated with reference to the following specific examples. These examples are intended to illustrate the utility model and are not intended to limit the scope of the utility model. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided" and "connected" are to be interpreted broadly, e.g. as a fixed connection, a detachable connection or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The structural features of the present invention will now be described in detail with reference to the accompanying drawings.

Referring to fig. 1, the non-metal damper cover rapid production line comprises an outer die 1, a support plate 2 and an inner die 12, wherein four symmetrical first support frames 5 are arranged on two sides of the support plate 2, a piston 6 is arranged at the upper end of each first support frame 5, an outer die 1 is fixedly connected to a piston output shaft 7 on the piston 6, the outer die 1 is opened and closed by the piston 6, the outer die 1 is symmetrical, a cooling chamber 15 is arranged inside the outer die 1, cooling of a product is accelerated by the cooling chamber 15, the cooling chamber 15 is connected with a water pipe 4 penetrating through the outer die 1, the other end of the water pipe 4 is connected with a circulating water pipe, and the water pipe 4 is used for circularly injecting water into the cooling chamber 15.

Referring to fig. 2-4, a second support frame 8 is fixedly connected to one side of the first support frame 5, the second support frame 8 supports a split conveying pipe 11 and a rotating motor 10, the split conveying pipe 11 is uniformly arranged on the second support frame 8 in a penetrating manner, the split conveying pipe 11 is responsible for connecting a main conveying pipe 9 and a control ring 13, and a channel of a grouting pipe 17 is provided inside the split conveying pipe, the split conveying pipe 11 penetrates through the rotating motor 10 fixedly connected with the second support frame 8, the split conveying pipe 11 is driven to rotate by the rotating motor 10, a rotating snap ring 18 is arranged at one end of the split conveying pipe 11 penetrating through the rotating motor 10, the split conveying pipe 11 does not affect the main conveying pipe 9 and the grouting pipe 17 when rotating by the rotating snap ring 18, the rotating snap ring 18 is rotatably connected with the main conveying pipe 9, the other end of the split conveying pipe 11 is fixedly connected with the control ring 13, the control ring 13 is used for splitting the reverse mold bin 16, and completing grouting and demolding, wherein the control ring 13 is fixedly connected with an inner mold 12, a demolding bin 16 is formed by the inner mold 12 and the outer mold 1, a circle of ejection ring 14 is arranged at the joint of the control ring 13 and the inner mold 12, the ejection ring is controlled by a motor, and is ejected outwards when the control ring 13 rotates, so that a product falls off from the inner mold 12, the demolding bin 16 is arranged between the inner mold 12 and the outer mold 1, and the concrete shape and size of the product are limited by the demolding bin, and grouting production is performed.

Referring to fig. 1, a conveyor belt 3 is arranged above the support plate 2, a groove 19 is arranged on the center line of the conveyor belt 3, the groove 19 prevents products from falling off and then rolling out of the conveyor belt 3, and the conveyor belt 3 conveys the products falling on the groove 19 to a designated position.

The branch conveying pipe 11 penetrates through the outer die 1 and is connected with the control ring 13, the joint of the outer die 1 and the branch conveying pipe 11 is in sliding connection, and the branch conveying pipe 11 is not influenced when the outer die 1 moves.

The opening and closing positions of the outer die 1 are provided with sealing gaskets to prevent liquid leakage during grouting.

The main conveying pipe 9 is internally provided with a grouting pipe 17, and the grouting pipe 17 is connected to the control ring 13 through the main conveying pipe 9 and the branch conveying pipes 11 and is communicated with the reverse mold bin 16.

The non-metal damper cover rapid production line is simple in structure and easy to operate, can be used for manufacturing a plurality of non-metal damper covers at one time, improves the production line efficiency by accelerating the cooling process and manufacturing a plurality of non-metal damper covers at one time, is high in practicability and is suitable for popularization.

Specifically, referring to fig. 1-4, a grouting pipe 17 is connected to a control ring 13 through a main conveying pipe 9 and a branch conveying pipe 11, grout is injected into a reverse mold bin 16 through the control ring 13 through the grouting pipe 17, the reverse mold bin 16 is divided into several same parts by the control ring 13, so that a plurality of products can be produced by one-time grouting, a cooling chamber 15 is arranged in each outer mold 1, water is injected into the cooling chamber 15 through a water conveying pipe 4 to form water circulation inside the cooling chamber 15, after the products in the reverse mold bin 16 are cooled, the two outer molds 1 are pulled towards the direction of a first support frame 5 through a piston 6 to separate the two outer molds 1, in the process, the branch conveying pipe 11 penetrates through the outer molds 1 to be connected with the control ring 13, the connection position of the outer molds 1 and the branch conveying pipe 11 is in sliding connection, the branch conveying pipe 11 is not affected, so that the cooled products are exposed outside, the rotating motor 10 on the second support frame 8 starts to operate to drive the control ring 13 to rotate, so that the inner mold 12 deviates, and the ejection ring 14 on the control ring 13 moves to eject the product out and fall off from the inner mold 12.

The product drops to recess 19 after droing, and the product that the recess 19 will be dropped on to conveyer belt 3 conveys the assigned position, and rotating electrical machines 10 resets interior mould 12, and piston 6 is closed with outer mould 1, can carry out slip casting production once more.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A non-metal shock absorber cover rapid production line comprises an outer die (1), a support plate (2) and an inner die (12), and is characterized in that four symmetrical first support frames (5) are arranged on two sides of the support plate (2), a piston (6) is arranged at the upper end of each first support frame (5), a piston output shaft (7) on each piston (6) is fixedly connected with the outer die (1), the outer die (1) is in two symmetrical parts, a cooling chamber (15) is arranged inside the outer die (1), the cooling chamber (15) is connected with a water conveying pipe (4) penetrating through the outer die (1), and the other end of the water conveying pipe (4) is connected with a circulating water pipe;

first support frame (5) one side fixedly connected with second support frame (8), even running through of second support frame (8) is equipped with branch conveyer pipe (11), divide conveyer pipe (11) to run through rotating electrical machines (10) that link to each other with second support frame (8) is fixed, the one end that divides conveyer pipe (11) to run through rotating electrical machines (10) is equipped with rotatory snap ring (18), rotatory snap ring (18) and total conveyer pipe (9) swivelling joint, divide conveyer pipe (11) other end and control ring (13) fixed connection, mould (12) in control ring (13) fixed connection, control ring (13) and interior mould (12) junction are equipped with ejecting ring (14) around the round, be equipped with between interior mould (12) and outer mould (1) and fall die storehouse (16).

2. A non-metal damper cover fast production line according to claim 1, characterized in that a conveyor belt (3) is arranged above the support plate (2), and a groove (19) is arranged on the center line of the conveyor belt (3).

3. A non-metal damper cover fast production line according to claim 1, characterized in that the branch conveying pipe (11) penetrates through the outer die (1) and is connected with the control ring (13), and the joint of the outer die (1) and the branch conveying pipe (11) is in sliding connection.

4. The non-metal shock absorber cover rapid production line according to claim 1, wherein a sealing gasket is arranged at the junction of the outer mold (1).

5. A non-metal damper cover fast production line according to claim 1, characterized in that a grouting pipe (17) is arranged inside the main conveying pipe (9), and the grouting pipe (17) is connected to the control ring (13) through the main conveying pipe (9) and the branch conveying pipes (11) and is communicated with the mold reversing bin (16).

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