CN216804125U - Energy-saving vulcanizing machine - Google Patents

Abstract

The utility model discloses an energy-saving vulcanizing machine, which relates to the field of vulcanizing machines, and adopts the technical scheme that the energy-saving vulcanizing machine comprises a vulcanizing machine body, wherein the vulcanizing machine body comprises a base below and a top beam above, the base is provided with a die sliding plate, two sides of the base are provided with sliding rails respectively matched with the end edges of two sides of the die sliding plate, and the sliding rails extend out towards one side of the vulcanizing machine body; and a lower heating plate for fixing the die is arranged on the die sliding plate. Can carry out the whole heating of in-process of vulcanizer at the mould, keep the constancy of temperature, avoid heat loss, improve the efficiency of drawing of patterns.

Description

Energy-saving vulcanizing machine

Technical Field

The utility model relates to the field of vulcanizing machines, in particular to an energy-saving vulcanizing machine.

Background

A vulcanizer is a main molding apparatus for molding rubber into various shapes by using a molding die, and is widely used in various fields in daily life, and today, the vulcanizer is rapidly developed in the rubber industry, and plays an important role in quantity or variety, and the final rubber molding is realized by using a molding machine and a die.

After accomplishing the mould pressing on the vulcanizer, need demold the mould, the drawing of patterns process needs dedicated equipment operation, directly operates on the vulcanizer, receives to be made the space, and the drawing of patterns is hardly carried out smoothly, consequently can shift out the mould and carry out the drawing of patterns processing on dedicated equipment usually, but at present after the mould is carried out the vulcanizer, the cooling is too fast, is difficult to keep the temperature of mould, needs reheating, directly influences the effect that the mould demolded.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides an energy-saving vulcanizing machine which can heat the whole process when a mould is conveyed out of the vulcanizing machine, keep the temperature constant, avoid heat loss and improve the demoulding efficiency.

The technical scheme adopted by the utility model for solving the technical problems is as follows: an energy-saving vulcanizing machine comprises a vulcanizing machine body, wherein the vulcanizing machine body comprises a base below and a top beam above, the base is provided with a die sliding plate, two sides of the base are provided with sliding rails respectively matched with the end edges of two sides of the die sliding plate, and the sliding rails extend out towards one side of the vulcanizing machine body; and a lower heating plate for fixing the die is arranged on the die sliding plate.

This scheme is through setting up slide rail and mould slide, with the mould after the mould pressing is accomplished, follow the slide rail roll-off on the vulcanizer, then carry out the drawing of patterns operation to it, avoid the drawing of patterns process to confine to the narrow space of vulcanizer, for the temperature of mould roll-off vulcanizer, set up the hot plate in mould slide department, on the one hand faster to mould direct heating, can keep the stability of the temperature of mould simultaneously, be convenient for carry out the drawing of patterns and handle.

Preferably, the other side of the vulcanizer body is provided with a material pushing hydraulic cylinder for pushing the mold out of the base. The mold can be easily pushed to the slide rail from the vulcanizing machine through the material pushing hydraulic cylinder and then conveyed to the demolding station through the slide rail for demolding.

Preferably, the inner side surface of the slide rail is provided with side grooves matched with the end edges of the two sides of the die slide plate. The die slide plate and the slide rail can be matched more stably through the side groove.

Preferably, a pulley for supporting the die slide plate is arranged below the side groove. The die slide plate is convenient to slide in the side groove more easily.

Preferably, the lateral part of mould is equipped with fixed otic placode, the upper surface of lower hot plate is equipped with two and goes up T type grooves side by side, the nut of bolt hang upside down in go up T type inslot, the tip of bolt upwards with fixed otic placode is connected. The T-shaped groove can be used for fixing the die and the heating plate more flexibly, and heat transfer is convenient for the die.

Preferably, the heating plate is provided with a through hole, the upper surface of the die slide plate is provided with a lower T-shaped groove, a nut of a bolt is inversely hung in the lower T-shaped groove, and the end part of the bolt upwards penetrates through the through hole to be locked with the nut. The heating plate can be fixed with the die slide plate very stably.

Preferably, the top beam is provided with an upper heating plate, a heat conducting plate is arranged below the upper heating plate, and the heat conducting plate is in contact with the upper surface of the die. The upper heating plate transfers heat to the die by means of the heat-conducting plate, and heats the upper part of the die during die pressing.

Preferably, the top beam is provided with a downward-pressing hydraulic cylinder, the end part of a piston rod of the downward-pressing hydraulic cylinder is fixed with the heat-conducting plate, and the heating plate and the heat-conducting plate move synchronously. The heat-conducting plate is driven to move up and down through the downward pressing hydraulic cylinder, so that the heat-conducting plate is contacted with the die, and meanwhile, the upper heating plate heats the die along with the movement of the heat-conducting plate.

Preferably, a plurality of guide rods are arranged above the heat conducting plate, and the upper ends of the guide rods are in sliding fit with the top beam. The stability of the heat conducting plate sliding up and down can be improved through the guide rod.

The utility model has the beneficial effects that:

1. the lower heating plate and the lower heating plate can quickly heat the die, so that the constant temperature of the die is kept, and the demolding qualification rate is high;

2. the slide rails and the die slide plate are utilized, so that the die can be conveyed out of the vulcanizing machine after the die pressing is finished, and then the die is demolded at a special demolding station, so that the demolding can be more convenient;

3. the heating plate is directly contacted with the die, so that the heat conduction efficiency is higher, the die can be rapidly heated, the heat loss is reduced, and the energy is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments will be briefly introduced below, it is obvious that the drawings in the following description are only two of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a front view of an embodiment of the present invention;

FIG. 2 is a right side view of an embodiment of the present invention;

the device comprises a base 1, a die sliding plate 2, a lower heating plate 3, a die 4, a heat conducting plate 5, an upper heating plate 6, a top beam 7, a lower hydraulic cylinder 8, a guide rod 9, a slide rail 10, a pulley 11 and a pushing hydraulic cylinder 12.

Detailed Description

For the purpose of enhancing the understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and examples, which are provided for the purpose of illustration only and are not intended to limit the scope of the present invention.

Examples

As shown in fig. 1, an energy-saving vulcanizer comprises a vulcanizer body including a lower base 1 and an upper top beam 7.

The base 1 is provided with a mould slide 2, which mould slide 2 on the one hand supports a mould 4 and on the other hand can carry the mould 4. Referring to fig. 2, two sides of the base 1 are provided with slide rails 10 respectively matched with two side edges of the mold slide plate 2, the slide rails 10 extend out to one side of the vulcanizer body, the slide rails 10 are connected with a demolding station, and the mold 4 is demolded after the mold 4 moves to the demolding station.

The die slide 2 is provided with a lower heating plate 3 for fixing the die 4 so that the die 4 can be released during the molding of the die 4 and the transportation to the slide 10.

The lateral part of mould 4 is equipped with fixed otic placode, the upper surface of lower hot plate 3 is equipped with two upper T type grooves side by side, the nut of bolt hang upside down in go up T type inslot, the tip of bolt upwards with fixed otic placode is connected, adopts T type groove can be more nimble fixed mould 4 and hot plate, is convenient for carry out heat transfer to mould 4. The hot plate is equipped with the through-hole, the upper surface of mould slide 2 is equipped with down T type groove, the nut of bolt hang upside down in T type inslot down, the tip of bolt upwards passes the through-hole is locked with the nut, can be very stable with mould slide 2 fixed.

The top beam 7 is provided with an upper heating plate 6, a heat conduction plate 5 is arranged below the upper heating plate 6, the heat conduction plate 5 is in contact with the upper surface of the mold 4, the upper heating plate 6 conducts heat to the mold 4 by means of the heat conduction plate 5, and the upper side of the mold 4 is heated in the mold pressing process.

Through setting up slide rail 10 and mould slide 2, accomplish mould 4 after the mould pressing, follow slide rail 10 roll-off on the vulcanizer, then carry out the drawing of patterns operation to it, avoid the drawing of patterns process to confine to the narrow space of vulcanizer, for the temperature of 4 roll-off vulcanizers of mould, set up the hot plate in 2 departments of mould slide, on the one hand faster to 4 direct heating of mould, can keep the stability of the temperature of mould 4 simultaneously, be convenient for carry out the drawing of patterns and handle.

The other side of the vulcanizer body is provided with a material pushing hydraulic cylinder 12 for pushing the mold 4 out of the base 1, the mold 4 can be easily pushed to the slide rail 10 from the vulcanizer by the material pushing hydraulic cylinder 12, and then the mold is conveyed to a demolding station by the slide rail 10 for demolding.

The inner side of the slide rail 10 is provided with side grooves adapted to the end edges of the two sides of the die slide plate 2, and the die slide plate 2 and the slide rail 10 can be matched more stably through the side grooves. And a pulley 11 for supporting the die sliding plate 2 is arranged below the side groove, so that the die sliding plate 2 can slide in the side groove more easily.

The back timber 7 is equipped with down and pushes down pneumatic cylinder 8 downwards, the tip of the piston rod of pushing down pneumatic cylinder 8 with heat-conducting plate 5 is fixed, the hot plate with heat-conducting plate 5 simultaneous movement drives heat-conducting plate 5 through pushing down pneumatic cylinder 8 and moves from top to bottom, and then with the contact of mould 4, goes up hot plate 6 and heats mould 4 along with the removal of heat-conducting plate 5 simultaneously. A plurality of guide rods 9 are arranged above the heat conduction plate 5, the upper ends of the guide rods 9 are in sliding fit with the top beam 7, and the stability of up-and-down sliding of the heat conduction plate 5 can be improved through the guide rods 9.

The mold 4 can be rapidly heated through the lower heating plate 3 and the lower heating plate 3, the constant temperature of the mold 4 is kept, and the mold 4 slides out of the vulcanizing machine; by utilizing the slide rail 10 and the die slide plate 2, the die 4 can be conveyed out of the vulcanizing machine after the die pressing is finished, and then the demolding is carried out at a special demolding station, so that the demolding can be carried out more conveniently; the hot plate is direct to contact with the mould 4, and heat conduction efficiency is higher, can heat mould 4 fast, reduces the heat loss, and is more energy-conserving.

The above embodiments should not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent transformations fall within the protection scope of the present invention.

Claims (4)

1. An energy-saving vulcanizing machine comprises a vulcanizing machine body, wherein the vulcanizing machine body comprises a lower base (1) and an upper top beam (7), and is characterized in that a die sliding plate (2) is arranged on the base (1), sliding rails (10) which are respectively matched with the end edges of two sides of the die sliding plate (2) are arranged on two sides of the base (1), and the sliding rails (10) extend out towards one side of the vulcanizing machine body; a lower heating plate (3) for fixing the die (4) is arranged on the die sliding plate (2); a material pushing hydraulic cylinder (12) for pushing the die (4) out of the base (1) is arranged on the other side of the vulcanizing machine body; the inner side surface of the sliding rail (10) is provided with side grooves matched with the end edges of the two sides of the die sliding plate (2); a pulley (11) for supporting the die slide plate (2) is arranged below the side groove; a fixing lug plate is arranged on the side part of the die (4), two upper T-shaped grooves are arranged on the upper surface of the lower heating plate (3) in parallel, nuts of bolts are inversely hung in the upper T-shaped grooves, and the end parts of the bolts are upwards connected with the fixing lug plate; the heating plate is provided with a through hole, the upper surface of the die sliding plate (2) is provided with a lower T-shaped groove, a nut of a bolt is inversely hung in the lower T-shaped groove, and the end part of the bolt upwards penetrates through the through hole to be locked with the nut.

2. An energy efficient vulcanizer as set forth in claim 1, wherein: the top beam (7) is provided with an upper heating plate (6), a heat conducting plate (5) is arranged below the upper heating plate (6), and the heat conducting plate (5) is in contact with the upper surface of the die (4).

3. An energy efficient vulcanizer according to claim 2, wherein: the roof beam (7) is equipped with down and pushes down pneumatic cylinder (8) downwards, the tip of the piston rod of pushing down pneumatic cylinder (8) with heat-conducting plate (5) are fixed, the hot plate with heat-conducting plate (5) simultaneous movement.

4. An energy efficient vulcanizer as set forth in claim 3, wherein: a plurality of guide rods (9) are arranged above the heat conducting plate (5), and the upper ends of the guide rods (9) are in sliding fit with the top beam (7).

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