CN210758698U - Rubber mold spray-washing equipment - Google Patents

Abstract

The utility model discloses a rubber mold spray rinsing equipment, including the work box, the top is equipped with washing nozzle, its characterized in that in this work box: a die worktable is arranged in the working box; the mould workbench comprises a bracket, a track wheel, a displacement seat, a lifting mechanism, a turntable and a first rotary power source; the bracket is fixedly arranged in the working box, a box door is arranged on the side wall of the working box, the rail is fixed on the bracket and is provided with an inner rail section and an outer extension section, and the outer extension section extends outwards from the box door; a rail wheel is arranged on the displacement seat and matched with the rail; the turntable is arranged above the displacement seat through a lifting mechanism, and the lifting mechanism is used for adjusting the height of the turntable; the first rotary power source is connected with the turntable and drives the turntable to rotate. The utility model discloses can improve rubber mold and wash effect and work efficiency, be convenient for simultaneously to sending into and taking out of rubber mold.

Description

Rubber mold spray-washing equipment

Technical Field

The utility model relates to a rubber mold spray rinsing equipment.

Background

The rubber product is molded by a rubber mold. The rubber mold is the determiner of the product appearance and the key factor for ensuring the internal quality of the finished product. The sizing material must be heated to fill the die cavity, and then cross-linking and shaping are carried out to achieve various performance indexes. Therefore, the rubber mold provides a necessary pressurized closed space for the flowing of the rubber material; and the rubber mold inevitably generates dirt on the surface in the long-term use process, and the dirt amount increases along with time, so that the appearance of the product is influenced, and the precision of the outer edge dimension of the product is influenced along with the increasing of the thickness of the dirt layer. Therefore, in order to ensure the normal use of the mold, the mold must be periodically cleaned.

The rubber mold is placed into a working box during use, the rubber mold in the working box is washed by a nozzle, and the cleaning agent is sprayed to the surface of the mold cavity to wash away dirt and impurities and the like remained on the surface. The existing spray washing equipment is found to have the following defects in work and is analyzed as follows:

firstly, because the rubber mold needs to be lifted into the working box before spray-washing and lifted out of the working box after spray-washing,

the rubber mold is limited, and when the rubber mold is large in appearance, the rubber mold is very inconvenient to lift in or out due to very heavy weight;

secondly, because the nozzle is fixed to be set up, when to the mould spray rinsing, and the mould can not rotate, and the height is unadjustable, has the mould side and has the nozzle to spout the blind area with the bottom, can not fully wash. In addition, it is particularly apparent when the mold is large in profile.

SUMMERY OF THE UTILITY MODEL

In order to solve one or more defects in the above-mentioned that prior art exists, the utility model provides a rubber mold spray rinsing equipment.

In order to achieve the purpose, the utility model provides a rubber mold spray rinsing equipment, including work box (1), the top is equipped with washing nozzle (2), its characterized in that in this work box (1): a mould workbench (3) is arranged in the working box (1);

the mould workbench (3) comprises a support (3-1), a track (3-2), track wheels (3-3), a displacement seat (3-4), a lifting mechanism (3-5), a rotary table (3-6) and a first rotary power source (3-7);

the support (3-1) is fixedly arranged in the working box (1), a box door (1-1) is arranged on the side wall of the working box (1), the track (3-2) is fixed on the support (3-1), the track (3-2) is provided with an inner track section (3-21) and an outer extension section (3-22), and the outer extension section (3-22) extends outwards from the box door (1-1);

a rail wheel (3-3) is arranged on the displacement seat (3-4), and the rail wheel (3-3) is matched with the rail (3-2);

the rotary table (3-6) is connected with the displacement seat (3-4) through a lifting mechanism (3-5), and the lifting mechanism (3-5) is used for adjusting the height of the rotary table (3-6);

the first rotary power source (3-7) is connected with the rotary disc (3-6) and drives the rotary disc (3-6) to rotate.

Preferably, the lifting mechanism (3-5) comprises a lifting plate (3-51), a first connecting rod (3-52), a second connecting rod (3-53) and a driving cylinder (3-54); the lifting plate (3-51) is positioned above the displacement seat (3-4); the middle parts of the first connecting rods (3-52) and the second connecting rods (3-53) are crossed and hinged with each other, the upper ends of the first connecting rods (3-52) are hinged with the lifting plate (3-51), the lower ends of the first connecting rods (3-52) are provided with lower rollers (3-55), the displacement seats (3-4) are provided with lower guide grooves (3-41) matched with the lower rollers (3-55), the upper ends of the second connecting rods (3-53) are provided with upper rollers (3-56), the lifting plate (3-51) is provided with upper guide grooves (3-511) matched with the upper rollers (3-56), and the lower ends of the second connecting rods (3-53) are hinged with the displacement seats (3-4); the tail seat of the driving cylinder (3-53) is hinged with the displacement seat (3-4), and the output end of the driving cylinder (3-53) is hinged with the lifting plate (3-51) or the first connecting rod (3-52) or the second connecting rod (3-53); the rotary table (3-6) is positioned above the lifting plate (3-51), and the rotary table (3-6) is rotatably connected with the lifting plate (3-51) through a rotating shaft (3-8).

Preferably, the driving cylinders (3-54) adopt electric cylinders or pneumatic telescopic cylinders.

Preferably, the output end of the first rotary power source (3-7) is sleeved with a driving gear (3-9), the rotating shaft (3-8) is sleeved with a driven gear (3-10), and the driving gear (3-9) is meshed with the driven gear (3-10).

Preferably, the rail wheel (3-3) is connected with a second rotary power source (3-11), and the second rotary power source (3-11) is used for driving the rail wheel (3-3) to rotate.

The utility model has the advantages that:

firstly, the rubber mould does not need to be manually lifted into the working box before spray-washing, and the rubber mould is manually lifted out of the working box after spray-washing, so the operation is very convenient, and the rubber mould is more obvious particularly when the rubber mould has a larger shape and is very heavy;

second, the utility model discloses because first rotary power source drive the carousel rotates, and this carousel drives the rubber mold rotary motion above that, and consequently the washing nozzle can spray the different positions of circumference of rubber mold to reduce and avoid rubber mold's the injection blind area, can realize abundant and high-efficient washing. The effect is more obvious especially when the number of the flushing nozzles is limited and the appearance of the mould is larger;

third, the utility model discloses because but the lift and the altitude mixture control of this carousel of this elevating system automatic control can realize going upward rubber mold or descend, can satisfy the spray rinsing requirement to its not co-altitude position, improve spray rinsing effect and work efficiency, reduce simultaneously and avoid the middle bottom of spray rinsing blind area, especially large-scale mould. Meanwhile, the height of the turntable is reduced, so that the rubber mold can be put in or taken off at a low position, and the operation is more convenient and safer.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a front view of the mold table.

Fig. 4 is a perspective view of the mold table.

Fig. 5 is a perspective view of the mold table (without the turntable or the like) after the lifting plate is removed.

Detailed Description

The invention will be further explained with reference to the following figures and examples:

referring to fig. 1-5, a rubber mold spray-washing apparatus comprises a work box 1, wherein at least the top of the work box 1 is provided with a washing nozzle 2.

In this embodiment, the working chamber 1 is preferably also provided with a flushing nozzle 2 laterally therein.

The key of the utility model lies in: and a mould worktable 3 is arranged in the working box 1. In the embodiment, the mold workbench 3 comprises a support 3-1, a rail 3-2, rail wheels 3-3, a displacement seat 3-4, a lifting mechanism 3-5, a rotary table 3-6 and a first rotary power source 3-7.

The support 3-1 is fixedly arranged in the working box 1, the box door 1-1 is arranged on the side wall of the working box 1, the rail 3-2 is fixed on the support 3-1, the rail 3-2 is provided with an inner rail section 3-21 and an outer extension section 3-22, and the outer extension section 3-22 extends outwards from the box door 1-1.

And the displacement seat 3-4 is provided with a rail wheel 3-3, and the rail wheel 3-3 is matched with the rail 3-2. The rail wheel 3-3 rolls along the rail 3-2 to travel due to the rail wheel 3-3 engaged with the rail 3-2, and the rail 3-2 has an inner rail section 3-21 and an outer extension section 3-22, so that the displacement base 3-4 can be moved into the work box 1 from the box door 1-1 along the rail 3-2 and can be also moved out of the work box 1 from the box door 1-1 along the rail 3-2.

Preferably, the track 3-2 has two. Four mounting rail wheels 3-3 are rotatably arranged on the displacement seat 3-4, and each rail 3-2 is provided with 2 rail wheels 3-3.

The turntables 3-6 can enter the work box 1 and simultaneously can go out of the box door 1-1. Therefore, when the rotary table 3-6 is arranged outside the working box 1, the cleaned rubber mold on the rotary table 3-6 can be conveniently lifted off by a forklift or a travelling crane. Meanwhile, when the rotary tables 3-6 are arranged outside the working box 1, the rubber mold to be cleaned can be conveniently placed on the rotary tables 3-6 by a forklift or a travelling crane. In addition, because the rail wheels 3-3 on the displacement seat 3-4 are matched with the rails 3-2, the resistance is very small due to rolling friction during displacement, and the operator can stand outside the box door 1-1 of the working box 1 to manually pull out or push in the displacement seat 3-4, which is also very convenient and labor-saving.

Because the rubber mould does not need to be manually lifted into the working box before spray-washing, and the rubber mould is manually lifted out of the working box after spray-washing, the operation is very convenient and safe, and the rubber mould is more obvious particularly when the rubber mould has a larger shape and is very heavy.

In this embodiment, the rail wheel 3-3 is connected to a second rotary power source 3-11, the second rotary power source 3-11 is used for driving the rail wheel 3-3 to rotate, and the rail wheel 3-3 rolls along the rail 3-2 to automatically travel. The rail wheel 3-3 is driven to rotate and further move along the rail 3-2, so that the displacement seat 3-4, the lifting mechanism 3-5 and the rotary table 3-6 are driven to integrally move. Therefore, the displacement seat 3-4 can be automatically driven to move in and out of the box door 1-1 of the working box 1.

The rotary tables 3-6 are connected with the displacement seats 3-4 through lifting mechanisms 3-5, and the lifting mechanisms 3-5 are used for adjusting the heights of the rotary tables 3-6.

The first rotary power source 3-7 is connected with the rotary discs 3-6 and drives the rotary discs 3-6 to rotate. When the rotary discs 3-6 rotate, the rotary discs 3-6 drive the rubber molds thereon to rotate, so that the flushing nozzles 2 can be sprayed to different circumferential positions of the rubber molds, thereby reducing and avoiding dead injection zones of the rubber molds and realizing full and efficient cleaning. This is particularly true when the number of flushing nozzles 2 is limited and the mould profile is large.

In the present embodiment, the lifting mechanism 3-5 includes a lifting plate 3-51, a first link 3-52, a second link 3-53, and a driving cylinder 3-54; the lifting plate 3-51 is positioned above the displacement seat 3-4; the middle parts of the first connecting rods 3-52 and the second connecting rods 3-53 are crossed and hinged with each other, the upper ends of the first connecting rods 3-52 are hinged with the lifting plates 3-51, the lower ends of the first connecting rods 3-52 are rotatably provided with lower rollers 3-55, the displacement seats 3-4 are provided with lower guide grooves 3-41 matched with the lower rollers 3-55, the upper ends of the second connecting rods 3-53 are rotatably provided with upper rollers 3-56, the lifting plates 3-51 are provided with upper guide grooves 3-511 matched with the upper rollers 3-56, and the lower ends of the second connecting rods 3-53 are hinged with the displacement seats 3-4; the tail seat of the driving cylinder 3-53 is hinged with the displacement seat 3-4, and the output end of the driving cylinder 3-53 is hinged with the lifting plate 3-51 or the first connecting rod 3-52 or the second connecting rod 3-53; the rotary table 3-6 is positioned above the lifting plate 3-51, and the rotary table 3-6 is rotatably connected with the lifting plate 3-51 through a rotary shaft 3-8.

Referring to fig. 5, the lower guide grooves 3 to 41 and the upper guide grooves 3 to 511 may be formed in a U-shaped groove. The lower rollers 3-55 are located in the lower guide grooves 3-41 and are rollably engaged. The upper rollers 3-56 are located within the upper channels 3-511 and are rollably engaged.

Referring to fig. 5, preferably, the first links 3-52 have two parallel arrangements and the second links 3-53 have two parallel arrangements.

Referring to fig. 5, the two second links 3-53 are fixed integrally with each other by the intermediate beam 3-57. And the output end of the driving cylinder 3-53 is hinged with the middle beam 3-57.

When the lifting mechanism 3-5 works, the output end of the driving cylinder 3-54 extends and retracts, the middle parts of the first connecting rod 3-52 and the second connecting rod 3-53 are intersected and hinged with each other, the included angle is changed, the upper end of the first connecting rod 3-52 is hinged and matched with the first hinged lug 3-512 on the lifting plate 3-51 to be hinged and rotated, the lower roller 3-55 on the lower end of the first connecting rod 3-52 is guided and rolled in the lower guide groove 3-41 of the displacement seat 3-4, the upper roller 3-56 on the upper end of the second connecting rod 3-53 is guided and rolled in the upper guide groove 3-511 of the lifting plate 3-51, the lower end of the second connecting rod 3-53 is hinged and matched with the second hinged lug 3-42 on the displacement seat 3-4 to be hinged and rotated, and further the height of the lifting plate 3-51 and the displacement seat 3-4 is changed, to enable adjustment of the height of the lifter plates 3-51. The rotary table 3-6 and the lifting plate 3-51 are lifted simultaneously, and the rotary table 3-6 is rotationally connected with the lifting plate 3-51 through a rotary shaft 3-8; the rotating shaft 3-8 is driven to rotate by the second rotating power source 3-1, and then the rotating disc 3-6 is driven to rotate.

Because the lifting mechanisms 3-5 can automatically control the lifting of the turntables 3-6 and adjust the height, the rubber mould can be lifted or lowered, the spray washing requirements on different height positions of the rubber mould can be met, the spray washing effect and the working efficiency are improved, and meanwhile, spray washing blind areas, especially the middle bottom of a large mould, are reduced and avoided. Meanwhile, the height of the rotary tables 3-6 is reduced, so that the rubber mold can be put in or taken off at a low position, and the operation is more convenient and safer.

Specifically, the lower end of the rotating shaft 3-8 is rotatably connected with the lifting plate 3-51 through a bearing, and the rotating disc 3-6 is fixed at the upper end of the rotating shaft 3-8.

In the embodiment, the driving cylinders 3 to 54 adopt electric cylinders or pneumatic telescopic cylinders.

In this embodiment, the output end of the first rotary power source 3-7 is sleeved with a driving gear 3-9, the rotating shaft 3-8 is sleeved with a driven gear 3-10, and the driving gear 3-9 is engaged with the driven gear 3-10.

When the rotary table works, the output end of the first rotary power source 3-7 drives the driving gear 3-9 to rotate, the driving gear 3-9 drives the driven gear 3-10 to rotate, the rotating shaft 3-8 and the driven gear 3-10 move coaxially, and the rotary table 3-6 and the rotating shaft 3-8 move coaxially.

In the present embodiment, the first rotary power source 3-7 or/and the second rotary power source 3-11 may employ a pneumatic motor, a hydraulic motor, or an electric motor.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (5)

1. The utility model provides a rubber mold spray-washing equipment, includes work box (1), and the top is equipped with washing nozzle (2) in this work box (1), its characterized in that: a mould workbench (3) is arranged in the working box (1);

the mould workbench (3) comprises a support (3-1), a track (3-2), track wheels (3-3), a displacement seat (3-4), a lifting mechanism (3-5), a rotary table (3-6) and a first rotary power source (3-7);

the support (3-1) is fixedly arranged in the working box (1), a box door (1-1) is arranged on the side wall of the working box (1), the track (3-2) is fixed on the support (3-1), the track (3-2) is provided with an inner track section (3-21) and an outer extension section (3-22), and the outer extension section (3-22) extends outwards from the box door (1-1);

a rail wheel (3-3) is arranged on the displacement seat (3-4), and the rail wheel (3-3) is matched with the rail (3-2);

the rotary table (3-6) is connected with the displacement seat (3-4) through a lifting mechanism (3-5), and the lifting mechanism (3-5) is used for adjusting the height of the rotary table (3-6);

the first rotary power source (3-7) is connected with the rotary disc (3-6) and drives the rotary disc (3-6) to rotate.

2. The rubber mold spray-washing apparatus as recited in claim 1, wherein: the lifting mechanism (3-5) comprises a lifting plate (3-51), a first connecting rod (3-52), a second connecting rod (3-53) and a driving cylinder (3-54);

the lifting plate (3-51) is positioned above the displacement seat (3-4);

the middle parts of the first connecting rods (3-52) and the second connecting rods (3-53) are crossed and hinged with each other, the upper ends of the first connecting rods (3-52) are hinged with the lifting plate (3-51), the lower ends of the first connecting rods (3-52) are provided with lower rollers (3-55), the displacement seats (3-4) are provided with lower guide grooves (3-41) matched with the lower rollers (3-55), the upper ends of the second connecting rods (3-53) are provided with upper rollers (3-56), the lifting plate (3-51) is provided with upper guide grooves (3-511) matched with the upper rollers (3-56), and the lower ends of the second connecting rods (3-53) are hinged with the displacement seats (3-4);

the tail seat of the driving cylinder (3-54) is hinged with the displacement seat (3-4), and the output end of the driving cylinder (3-54) is hinged with the lifting plate (3-51) or the first connecting rod (3-52) or the second connecting rod (3-53);

the rotary table (3-6) is positioned above the lifting plate (3-51), and the rotary table (3-6) is rotatably connected with the lifting plate (3-51) through a rotating shaft (3-8).

3. The rubber mold spray-washing apparatus as recited in claim 2, wherein: the driving cylinders (3-54) adopt electric cylinders or pneumatic telescopic cylinders.

4. The rubber mold spray-washing apparatus as recited in claim 2, wherein: the output end of the first rotary power source (3-7) is sleeved with a driving gear (3-9), the rotating shaft (3-8) is sleeved with a driven gear (3-10), and the driving gear (3-9) is meshed with the driven gear (3-10).

5. A rubber mold spray-washing apparatus as defined in any one of claims 1 to 4, wherein: the rail wheels (3-3) are connected with a second rotary power source (3-11), and the second rotary power source (3-11) is used for driving the rail wheels (3-3) to rotate.

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