CN214778774U - Casting conveying equipment based on gravity - Google Patents

Abstract

The utility model discloses a foundry goods transmission equipment based on gravity is equipped with the first slide and the second slide of slope in the frame, and the foundry goods is along with the slider is at first slide and the motion of second slide to realize the foundry goods in the circulation of station, its transmission that relies on gravity to realize the foundry goods, do not need the extra energy, rely on the gravity of slider and product completely to transmit, effectively solved the energy bottleneck of foundry goods manufacturing enterprise.

Description

Casting conveying equipment based on gravity

Technical Field

The utility model belongs to the technical field of the foundry goods processing technique and specifically relates to a foundry goods transmission equipment based on gravity.

Background

The prior casting production mainly has the following two problems

1. The on-site material placement is not standard and is relatively disordered. The method is mainly characterized in that waiting often occurs in the production flow, so that partial materials are stacked on the site, blanks, finished products, waste materials and semi-finished products are often mixed and stored, and the materials are not classified and stored in different regions, so that the site environment is disordered, the time for searching the materials is prolonged, part collision is easy to occur, the finished products are easy to damage, and the quality problem is seriously influenced.

2. The production mode is backward, the production period is longer, the product stock is more, and the individual production requirements of multiple varieties and small batches cannot be met.

With the development of the technology, some conveying equipment appears, but the equipment consumes a large amount of electric energy during the conveying process, so that the energy of casting manufacturers with large energy requirements conflicts with the national energy limit policy, and the conveying equipment needs to pay extra conveying labor during the transportation process.

SUMMERY OF THE UTILITY MODEL

The utility model provides a foundry goods transmission equipment based on gravity, it has not only effectively solved the material transport problem between the station. It not only does not need extra non-renewable energy, and the product of each station can effectively be transmitted, and easy operation prevents piling up of material simultaneously.

A casting conveying device based on gravity comprises a rack, wherein a first inclined slide way and a second inclined slide way are arranged on the rack, the second slide way is arranged below the first slide way, the high-position side of the second slide way is arranged at the same side as the low-position side of the first slide way, the low-position side of the second slide way is arranged at the same side as the high-position side of the second slide way, a machining section overturning platform is arranged between the first slide way and the second slide way, the machining section overturning platform is arranged at the end parts of the first slide way and the second slide way, a hollow slide block blocking rod is arranged at the top of the machining section overturning platform, the machining section overturning platform stretches the machining section overturning platform to form a certain angle through a tension device, the slide block moves downwards along the first slide way to the machining section overturning platform under the action of self gravity, a manual overturning rod is connected with the machining section overturning platform and drives the machining section overturning platform to overturn, and when the machining section overturning platform inclines downwards, the slider gets into the second slide and along the second slide downstream to the lift platform that the bottom that is located the second slide was established under the action of gravity, the end of second slide is equipped with the slider and blocks the pole, the slider blocks the pole and extends a take the altitude through the chest expander extension, lift platform one side is equipped with slider and blocks pole and slider and blocks mechanism power pole, when lift platform fell, slider block mechanism power pole overcomes the pulling force of chest expander and drives slider and block the pole and lift up, when lift platform rose, slider blocks the pole and falls under the effect of chest expander, one side of lift platform is equipped with the lifter, the lifter passes through the transfer line and is connected with the lift actuating lever, lift platform in-process that rises, pressure portion passes through slider blocks the pole and drives lift platform upset, the slider slides to first slide and along first slide downstream by lift platform under the action of gravity.

Further, the slider includes the slider body, is located the slider stopper at slider body top and is located the slider couple of slider bottom.

Further, the inclination angle of the power rod of the sliding block blocking mechanism and the horizontal plane is 45 degrees.

Further, the power rod of the sliding block blocking mechanism is perpendicular to the horizontal rod.

Further, the processing section overturning platform is arranged at an appearance detection station, and the lifting platform is arranged at a packaging station.

Furthermore, first slide, second slide, processing section upset platform and lift platform all are equipped with fluent strip.

Adopt the technical scheme of the utility model, following technological effect has:

1. the utility model discloses a scheme does not need the extra energy, relies on the gravity of slider and product to transmit completely, has effectively solved foundry goods manufacturing enterprise's energy bottleneck.

2. The utility model discloses a foundry goods product is placed through the couple that sets up under the slider to the scheme, and the slider is arranged in proper order and is made gradually more orderly in transmission course, can not bump between the foundry goods and pile up, prevents that the fish tail scheduling problem on foundry goods surface from taking place.

3. The technical scheme of the utility model only need with the foundry goods on the couple, the manual upset pole of pulling can transmit product and slider to next station, takes off the back with the foundry goods, only needs to step on the lifter, can return next station with the slider, and the operation is very simple.

4. The technical scheme of the utility model all adopt mechanical structure to control, it is compared in the equipment that relies on the electronic product, and the performance is more reliable.

Drawings

Fig. 1 is a schematic structural diagram of the first embodiment.

Fig. 2 is a schematic structural diagram of the slide block sliding to the processing section turning platform.

Fig. 3 is a schematic structural diagram of the overturning process of the overturning platform of the processing section.

Fig. 4 is a schematic structural diagram of the processing section overturning platform after overturning.

Fig. 5 is a schematic structural diagram of a slide block blocking a rod through the slide block.

Fig. 6 is a schematic view of a slider structure.

Fig. 7 is a schematic diagram of the lifting structure of the lifting platform.

Fig. 8 is a schematic structural view of the slider blocking rod blocking the slider.

The device comprises a frame 2, an expansion wheel 1, a longitudinal rod 29, a cross rod 28, a first slideway 21, a second slideway 22, a machining section overturning platform 23, a platform part 231, an empty slide block blocking rod 232, a slide block 4, a slide block body 41, a slide block blocking block 42, a slide block hook 43, a lifting platform 5, a block blocking mechanism power rod 51, a slide block blocking rod 7, a lifting rod 52, a lifting driving rod 53, a pressure part 6, a pressure rod 55, a casting 8 and a horizontal rod 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

It is to be noted that, in the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

A casting conveying device based on gravity comprises a frame 2 and an expansion wheel 1 positioned below the frame, wherein the frame 2 can move through the expansion wheel 1, and the frame 2 can be fixed at a required position through a brake piece of the expansion wheel 1.

Frame 2 includes four vertical poles 29 and four horizontal poles 28, the cuboid is constituteed to total pole and horizontal pole, is equipped with the first slide 21 and the second slide 22 of slope in frame inside, and the high-order side of second slide 22 sets up with the low-order side homonymy of first slide 21, and the low-order side of second slide 22 sets up with the high-order side homonymy of first slide 21, and first slide 21 and second slide 22 all are equipped with fluent strip, and when the slider was placed at first slide 21 and second slide 22, can be along first slide 21 and second slide 22 downstream under the action of gravity.

Be equipped with processing section upset platform 23 between first slide 21 and the second slide 22, processing section upset platform 23 is including the platform portion 231 that is equipped with fluent strip and the empty slider that is located the top stops pole 232, and processing section upset platform 23 is through the chest expander with processing section upset platform 23 upwards tensile, and under the normality, the inclination of platform portion 231 is unanimous basically with the inclination of first slide 21 for the slider can smoothly move to the platform portion 231 of downstream to processing section upset platform 23 under the action of gravity. When a plurality of sliding blocks are arranged on the first slide rail 21, the sliding block at the forefront moves to the overturning platform 23, and the sliding blocks at the back abut against the tail part of the sliding block at the front and are sequentially arranged. The length of the platform portion 231 is equal to or less than the length of the slider 4 so that the latter slider is blocked outside the turn platform 23.

The machining section overturning platform 23 is connected with the manual overturning rod 25, after the materials are arranged on the sliding block, the manual overturning rod 25 is pulled by hands, the machining section overturning platform 23 overcomes the pulling force of the chest expander 24 to rotate downwards, so that the machining section overturning platform 23 rotates downwards from upward inclination, and when the platform part 231 rotates downwards from inclination, the sliding block in the overturning platform 23 enters the second slideway 22 under the action of gravity and moves downwards along the second slideway 22. In the process of overturning the overturning platform 23, the idle sliding block blocking rod 232 blocks the movement of the slide block behind, when the manual overturning rod 25 is pulled and loosened, the machining section overturning platform 23 rotates upwards under the action of the chest expander 24, and when the bottom of the idle sliding block blocking rod 232 is higher than the upper surface of the slide block behind, the second slide block moves to the platform part 231 of the machining section overturning platform 23 under the action of gravity, so that the operation of the next slide block is realized.

The slider includes slider body 41, is located the slider stopper 42 of slider body top and is located the slider couple 43 of slider bottom, at the station that machining section upset platform 23 corresponds, hangs the foundry goods on slider couple 43, and the foundry goods can slide to in the second slide 22 along with slider body 41. The bottom of second slide 22 is equipped with lift platform 5, and the end of second slide 22 is equipped with slider and blocks pole 7, and slider blocks pole 7 and exert decurrent pulling force to slider through the chest expander, and lift platform one side is equipped with slider and blocks mechanism power pole 51, and slider blocks mechanism power pole 51 and slider and blocks pole 7 below and be equipped with a horizon bar 9, and slider blocks mechanism power pole 51 and slider and blocks pole 7 and set up respectively at the both ends of horizon bar, the horizon bar can rotate. In a natural state, the lifting platform 5 descends and is connected to the second slideway 22, the power rod 51 of the slide block blocking mechanism applies pressure downwards and horizontally and overcomes the pulling force of the chest expander, so that the other horizontal side drives the lifting of the slide block blocking rod 7, and the slide block blocking block 42 can smoothly enter the lifting platform 5 through the slide block blocking rod 7. When a plurality of sliding blocks exist, the first sliding block enters the lifting platform, and the front part of the rear sliding block abuts against the rear part of the front sliding block and is sequentially arranged. The stop 42 of the second slide is located behind the slide stop rod 7. After the casting is taken down by an operator, the lifting platform 5 is lifted upwards, and the power rod 51 of the block blocking mechanism is lifted upwards, so that the pressure on the sliding block blocking rod 7 disappears, and the sliding block blocking rod 7 moves downwards under the action of the chest expander and abuts against the sliding block blocking block 42 to block the sliding block from moving. When the lifting platform descends, pressure is applied to the horizontal rod again, the sliding block blocking rod 7 moves upwards and is lifted, and therefore the sliding block blocking block 42 passes through the sliding block blocking rod 7. And realizing the operation of the next material.

Lifting platform 5's one side is equipped with lifter 52, and the lifter both ends are equipped with sliding connection's draw-in groove, and the lifter can slide relative the vertical pole, and lifting platform 5 one side is connected with lifter 52 and can rotate along lifter 52, and lifting platform's opposite side is passed through the chest expander and is connected with the lifter, and under the normality, lifting platform 5 is unanimous basically with the angle of second slide to make the slider of second slide can smoothly slide into lifting platform 5. Lifting platform below is equipped with lift actuating lever 53, lift actuating lever 53 is connected with lifting platform through the transfer line, when exerting pressure to lift actuating lever downwards, drive lifting platform upward movement through the transfer line, thereby drive lifting platform 5, slider and lifter upward movement in the lifting platform, the vertical pole is equipped with pressure portion 6 in lifting platform 5's top, after lifting platform 5 upward movement, lifting platform 5's pressure pole 55 and pressure portion contact, continue to exert pressure through the lift actuating lever, when the pulling force that exerts is greater than the chest expander, then lifting platform 5 takes place to rotate, lifting platform 5 is the downward sloping by the tilt up rotation, thereby make the slider follow lifting platform 5 slide in second slide 22. Thereby achieving circulation of the slide within the transport device. When the lifting driving rod is loosened, the lifting platform 5 moves downwards under the action of gravity, and the lifting platform 5 is restored to the upwards inclined state under the action of the chest expander. When the lifting platform 5 reaches a certain position, the power rod 51 of the block blocking mechanism of the lifting platform 5 downwards compresses the horizontal rod, so that the sliding block blocking rod 7 is upwards lifted, and the next sliding block smoothly moves towards the lifting platform 5 through the sliding block blocking rod 7.

The processing section overturning platform 23 is arranged at a production station, and the lifting platform 5 is arranged at an appearance detection station. After production is completed, hang the part on couple 43, spur manual upset pole 25, can transport the part to the outward appearance detection station under the action of gravity through the slider, the part is taken off to the outward appearance detection station, can transmit the slider to the second slide through pressing down the lift actuating lever, transmits to the processing station through the second slide, realizes the slider transmission based on gravity from this.

The scheme of this embodiment does not need the extra energy, relies on the gravity of slider and product completely to transmit, has effectively solved foundry goods manufacturing enterprise's energy bottleneck.

The utility model discloses a foundry goods product is placed through the couple that sets up under the slider to the scheme, and the slider is arranged in proper order and is made gradually more orderly in transmission course, can not bump between the foundry goods and pile up, prevents that the fish tail scheduling problem on foundry goods surface from taking place.

The technical scheme of the utility model only need with the foundry goods on the couple, the manual upset pole of pulling can transmit product and slider to next station, takes off the back with the foundry goods, only needs to step on the lifter, can return next station with the slider, and the operation is very simple.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A casting conveying device based on gravity is characterized by comprising a rack, wherein a first inclined slide way and a second inclined slide way are arranged on the rack, the second slide way is arranged below the first slide way, the high-position side of the second slide way is arranged on the same side as the low-position side of the first slide way, the low-position side of the second slide way is arranged on the same side as the high-position side of the second slide way, a machining section overturning platform is arranged between the first slide way and the second slide way, the machining section overturning platform is arranged at the end parts of the first slide way and the second slide way, a hollow slide block blocking rod is arranged at the top of the machining section overturning platform, the machining section overturning platform stretches the machining section overturning platform to form a certain angle through a tension device, the slide block moves downwards to the machining section overturning platform along the first slide way under the action of self gravity, a manual overturning rod is connected with the machining section overturning platform and drives the machining section overturning platform to overturn, and when the machining section overturning platform inclines downwards, the slider gets into the second slide and along the second slide downstream to the lift platform that the bottom that is located the second slide was established under the action of gravity, the end of second slide is equipped with the slider and blocks the pole, the slider blocks the pole and extends a take the altitude through the chest expander extension, lift platform one side is equipped with slider and blocks pole and slider and blocks mechanism power pole, when lift platform fell, slider block mechanism power pole overcomes the pulling force of chest expander and drives slider and block the pole and lift up, when lift platform rose, slider blocks the pole and falls under the effect of chest expander, one side of lift platform is equipped with the lifter, the lifter passes through the transfer line and is connected with the lift actuating lever, lift platform in-process that rises, pressure portion passes through slider blocks the pole and drives lift platform upset, the slider slides to first slide and along first slide downstream by lift platform under the action of gravity.

2. The gravity-based casting transfer apparatus of claim 1, wherein the slide includes a slide body, a slide stop at a top of the slide body, and a slide catch at a bottom of the slide.

3. The gravity-based casting transfer apparatus of claim 1 wherein the ram blocking mechanism power rod is inclined at an angle of 45 ° to the horizontal.

4. The gravity-based casting transfer apparatus of claim 1, wherein the ram blocking mechanism power bars are disposed perpendicular to the horizontal bars.

5. The gravity-based casting transfer apparatus of claim 1, wherein the staging platform is disposed at an appearance inspection station and the lift platform is disposed at a packaging station.

6. The gravity-based casting transfer apparatus of claim 1, wherein the first slide, second slide, section tumbling platform, and lifting platform are each provided with a fluent strip.

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