CN214933446U - Transfer device is used in processing of aluminum alloy template - Google Patents

Abstract

The utility model relates to an aluminum alloy masterplate processing equipment field provides an aluminum alloy is transfer device for template processing, and it is many to aim at solving the aluminum alloy template damage that current transportation mode caused, transports the problem of inefficiency, a plurality of wheels including inside hollow automobile body and automobile body bottom wall mounting, install the motor of marcing that provides power for the wheel in the automobile body inner chamber, automobile body roof one side is equipped with feeding mechanism, and automobile body roof opposite side runs through the automobile body roof and is equipped with storage mechanism, and feeding mechanism is including running through two fixed stop of automobile body roof and vertical installation, and the horizontal rotation installs the conveyer belt between two fixed stop, and the inside rotation of conveyer belt installs a plurality of transmission rollers, and the inner chamber that the rear end of one of them transmission roller runs through fixed stop and extends to the automobile body is connected with driven pulley. The utility model discloses be particularly useful for the transportation of aluminum alloy template processing usefulness, have higher social use value and application prospect.

Description

Transfer device is used in processing of aluminum alloy template

Technical Field

The utility model relates to an aluminum alloy masterplate processing equipment field, concretely relates to transfer device is used in processing of aluminum alloy template.

Background

With the continuous development of metal materials, aluminum alloys become the most widely used non-ferrous metal structural materials in industrial applications, and are widely used in the fields of aviation, automobiles, mechanical manufacturing, chemical engineering, buildings and the like, and with the development of industrial economy, the demand on aluminum alloy structural parts is increasing day by day.

The aluminum alloy template generally refers to a concrete engineering aluminum alloy template, is a new generation template behind relay bamboo, wood plywood and steel templates in the concrete engineering, is a template for concrete engineering made of aluminum alloy sections by machining, welding and other processes, and is widely used in the concrete engineering due to the excellent properties of high strength, light weight, reusability, low cost, wide application range, environmental protection and the like of the aluminum alloy template.

In the production process of current aluminum alloy template, because of the needs of the course of working such as assembly, welding, need transport aluminum alloy template in the course of working in the later stage, current transportation is mainly that the manpower or use shallow etc. stack the transportation, because collision between the aluminum alloy, this kind of transportation mode can cause the aluminum alloy surface to cause the damage, influence aluminum alloy template's quality, a large amount of manpower resources of waste simultaneously, efficiency is lower, for this reason, we have provided a transfer device for aluminum alloy template processing.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The not enough to prior art, the utility model provides an aluminum alloy is transfer device for template processing has overcome the not enough of prior art, reasonable in design, and compact structure aims at solving the problem that the quality is poor, the transportation efficiency is low that the damage is more caused in the aluminum alloy template transportation.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

a transfer device for processing an aluminum alloy template comprises a vehicle body with a hollow interior and a plurality of wheels arranged on the bottom wall of the vehicle body, wherein an advancing motor for providing power for the wheels is arranged in an inner cavity of the vehicle body;

the feeding mechanism comprises two fixed baffles which penetrate through the top wall of the vehicle body and are vertically installed, a conveying belt is horizontally and rotatably installed between the two fixed baffles, a plurality of conveying rollers are rotatably installed inside the conveying belt, the rear end of one of the conveying rollers penetrates through the fixed baffles and extends to the inner cavity of the vehicle body, a driven belt pulley is connected to the inner cavity of the vehicle body, the driven belt pulley is connected with a driving belt pulley through a transmission belt, the driving belt pulley is installed on the output end of a driving motor, and the driving motor is fixedly installed on the inner side wall of the vehicle body through a support;

the storage mechanism comprises a rack fixedly installed on the position of the top wall of the vehicle body corresponding to one side of the output end of the conveyor belt, the rack is of a box body structure which is not closed and close to one side of the output end of the conveyor belt, a storage box is installed on the inner wall of the rack through a vertical guide rail in a sliding manner, the lower end of the storage box penetrates through the top wall of the vehicle body and is connected to the telescopic ends of a plurality of lifting cylinders, the plurality of lifting cylinders are fixedly installed on the inner bottom wall of the vehicle body, two positioning plates are vertically and symmetrically installed in the inner cavity of the storage box, a plurality of groups of rollers which are arranged in parallel up and down are rotatably installed between the two positioning plates, each group of rollers comprises a plurality of rollers which are arranged horizontally, the front side of a central shaft of each roller penetrates through the positioning plates and is rotatably installed on the inner side wall of the storage box through a shaft seat, the rear side of the central shaft of each group of rollers which are positioned on the same vertical line penetrates through the side wall of the storage box and is connected with a driven end face gear, a driving face gear is arranged on the same vertical plane corresponding to the plurality of the driven end face gear in the inner cavity of the vehicle body, the fixed cover of drive face gear is established in the axis of rotation, and the axis of rotation rotates to be connected on telescopic cylinder's flexible end, and telescopic cylinder fixed mounting is on the inside wall of automobile body, and the cover is equipped with driven gear in the axis of rotation, and driven gear meshing has drive gear, and drive gear's thickness is many times in driven gear, and the fixed cover of drive gear is established on servo motor's output, and servo motor passes through support fixed mounting on the automobile body inside wall.

Preferably, the electromagnets are symmetrically installed on the inner side wall of the storage box corresponding to the positions above the multiple groups of rollers, the material pressing blocks are installed on the positioning plate corresponding to the positions of the electromagnets in a horizontal sliding mode, and permanent magnets are embedded in the positions, close to the electromagnets, of the material pressing blocks.

More preferably, a plurality of both sides of pressing the material piece all are equipped with and are the constant head tank of bar, and sliding connection has the locating pin in the constant head tank.

More preferably, the material on the opposite side of the material pressing blocks is hard rubber.

Preferably, a plurality of the center pin front side of roller all is equipped with the belt pulley, and all is connected through synchronous belt between every layer of belt pulley.

Preferably, a control box is installed on the front wall of the vehicle body, a control panel is arranged on the control box, and a PLC is arranged in the control box.

(III) advantageous effects

The embodiment of the utility model provides a transfer device is used in processing of aluminum alloy template possesses following beneficial effect:

1. transfer the aluminum alloy template through transmission roller cooperation roller, the aluminum alloy template of taking automatically has reduced manual operation, piles up the aluminum alloy template simultaneously and deposits, the effectual capacity that improves transfer device, the effectual transfer efficiency that improves transfer device, the human cost of reduction.

2. Pile up through the roller to aluminum alloy template and deposit, avoided the direct contact between the aluminum alloy template, reduced the collision of each other between the aluminum alloy template, the cooperation is pressed the material piece simultaneously and is fixed aluminum alloy template, has increased the stability of transportation, avoids the collision between aluminum alloy template and bin and the locating plate, the effectual damage that reduces in the aluminum alloy template transportation, has improved aluminum alloy template's quality.

Drawings

The above features, technical features, advantages and modes of realisation of a transfer device for aluminium alloy formwork processing will be further described in the following, in a clearly understandable manner, with reference to the accompanying drawings, which illustrate preferred embodiments.

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic side view of the present invention;

fig. 4 is a schematic top view of the present invention.

In the figure: the device comprises a vehicle body 1, wheels 2, a feeding mechanism 3, a transmission roller 31, a conveying belt 32, a fixed baffle 33, a driven pulley 34, a driving pulley 35, a driving motor 36, a storage mechanism 4, a lifting cylinder 40, a rack 41, a guide rail 42, a storage box 43, a positioning plate 44, a roller 45, a pulley 46, a driven face gear 47, a driving face gear 48, a rotating shaft 49, a telescopic cylinder 410, a driven gear 411, a driving gear 412, a servo motor 413, an electromagnet 414, a material pressing block 415, a permanent magnet 416, a positioning groove 417, a positioning pin 418 and a control box 5.

Detailed Description

The invention will be further described with reference to the following figures 1-4 and examples:

a transfer device for processing an aluminum alloy template comprises a vehicle body 1 with a hollow interior and a plurality of wheels 2 arranged on the bottom wall of the vehicle body 1, wherein an advancing motor for providing power for the wheels 2 is arranged in the inner cavity of the vehicle body 1, a feeding mechanism 3 is arranged on one side of the top wall of the vehicle body 1, and a storage mechanism 4 is arranged on the other side of the top wall of the vehicle body 1 and penetrates through the top wall of the vehicle body 1;

in this embodiment, as shown in fig. 1 to 4, the feeding mechanism 3 includes two fixed baffles 33 penetrating through the top wall of the vehicle body 1 and vertically installed, a conveying belt 32 is horizontally installed between the two fixed baffles 33 in a rotating manner, and a plurality of conveying rollers 31 are installed inside the conveying belt 32 in a rotating manner, wherein a rear end of one of the conveying rollers 31 penetrates through the fixed baffle 33 and extends to an inner cavity of the vehicle body 1 to be connected with a driven pulley 34, the driven pulley 34 is connected with a driving pulley 35 through a transmission belt, the driving pulley 35 is installed at an output end of a driving motor 36, and the driving motor 36 is fixedly installed on an inner side wall of the vehicle body 1 through a bracket;

in this embodiment, as shown in fig. 1-4, the storage mechanism 4 includes a frame 41 fixedly mounted on a top wall of the vehicle body 1 corresponding to one side of the output end of the conveyor belt 32, the frame 41 is a box structure with one side close to the output end of the conveyor belt 32 and not closed, a storage box 43 is slidably mounted on an inner wall of the frame 41 through a vertical guide rail 42, a lower end of the storage box 43 penetrates through the top wall of the vehicle body 1 and is connected to a telescopic end of a plurality of lifting cylinders 40, the lifting cylinders 40 are fixedly mounted on an inner bottom wall of the vehicle body 1, two positioning plates 44 are vertically and symmetrically mounted in an inner cavity of the storage box 43, a plurality of sets of rollers 45 arranged in parallel up and down are rotatably mounted between the two positioning plates 44, each set of rollers 45 includes a plurality of rollers 45 arranged in horizontal direction, a front side of a central shaft of each roller 45 penetrates through the positioning plate 44 and is rotatably mounted on an inner side wall of the storage box 43 through a shaft seat, and a rear side of the central shaft of each set of rollers 45 positioned on the same vertical line penetrates through a side of the storage box 43 and is connected to the side of the storage box 43 The aluminum alloy formwork is provided with driven end face gears 47, the driving end face gears 48 are arranged on the same vertical plane corresponding to a plurality of driven end face gears 47 in an inner cavity of the vehicle body 1, the driving end face gears 48 are fixedly sleeved on a rotating shaft 49, the rotating shaft 49 is rotatably connected to the telescopic end of a telescopic cylinder 410, the telescopic cylinder 410 is fixedly arranged on the inner side wall of the vehicle body 1, a driven gear 411 is sleeved on the rotating shaft 49, the driven gear 411 is meshed with a driving gear 412, the thickness of the driving gear 412 is multiple times that of the driven gear 411, the driving gear 412 is fixedly sleeved on the output end of a servo motor 413, the servo motor 413 is fixedly arranged on the inner side wall of the vehicle body 1 through a support, the aluminum alloy formwork is stored in a separated mode through a multilayer roller 45, damage caused by mutual collision among the aluminum alloy formworks is avoided, the quality of the aluminum alloy formwork is effectively improved, and multilayer automatic placement is carried out through matching with a lifting cylinder 40, the transfer efficiency is improved.

In this embodiment, as shown in fig. 1 to 4, electromagnets 414 are symmetrically installed on the inner side wall of the storage box 43 above the plurality of sets of rollers 45, pressing blocks 415 are horizontally installed on the positioning plate 44 in a sliding manner and correspond to the electromagnets 414, permanent magnets 416 are embedded in the positions of the pressing blocks 415 close to the electromagnets 414, and the aluminum alloy template is pressed and fixed by the pressing blocks 415 in cooperation with repulsive force of the electromagnets 414 and the permanent magnets 416 in the transferring process, so that stability of the transferring process is increased, and damage caused by collision of the aluminum alloy template is avoided.

In this embodiment, as shown in fig. 1 to 4, strip-shaped positioning grooves 417 are disposed on both sides of the material pressing blocks 415, positioning pins 418 are slidably connected in the positioning grooves 417, and the positioning pins 418 are fixedly mounted on the positioning plate 44 to control the moving range of the material pressing blocks 415, so as to prevent the material pressing blocks 415 from coming off.

In this embodiment, as shown in fig. 1 to 4, the material on the opposite side of the pressing blocks 415 is hard rubber, so that rigid collision between the aluminum alloy template and the positioning plate 44 is avoided, damage to the aluminum alloy template during transportation is reduced, and the quality of the aluminum alloy template is improved.

In this embodiment, as shown in fig. 1 to 4, a plurality of belt pulleys 46 are sleeved on the front side of the central shaft of the roller 45, and each layer of belt pulleys 46 are connected through a synchronous belt, so that the transmission process is smooth, and the transfer process is more stable.

In this embodiment, as shown in fig. 1 to 4, a control box 5 is installed on the front wall of the vehicle body 1, a control panel is installed on the control box 5, and a PLC controller is installed in the control box 5, in this embodiment, the model of the PLC controller is siemens S7 to 200, and the control box 5 is connected to the driving motor 36, the lifting cylinder 40, the telescopic cylinder 410, the servo motor 413, and the electromagnet 414 through electrical control lines.

According to the transferring device for processing the aluminum alloy template of the embodiment of the invention, an operator places the aluminum alloy template to be transferred on the conveyer belt 32, the operator starts the driving motor 36 by matching with the PLC controller arranged in the control box 5 through the control panel arranged on the control box 5, the driving motor 36 is matched with the transmission roller 31 to drive the conveyer belt 32 to rotate, the aluminum alloy template is conveyed to the roller 45, the telescopic cylinder 410 extends to enable the driven end face gear 47 to be meshed with the driving end face gear 48, the servo motor 413 is started to drive the driven gear 411 and the driving end face gear 48 to rotate, the matching belt pulley 46 drives the plurality of rollers 45 to rotate to place the aluminum alloy template stably, the electromagnet 414 is started, the matching permanent magnet 416 is matched with the material pressing block 415 by utilizing repulsive force between magnets to compress the aluminum alloy template, collision in the transferring process is avoided, then the telescopic cylinder 410 contracts, and the driven end face gear 47 is separated from the driving end face gear 48, the decline of lift cylinder 40, the roller 45 that will not load descends to the same level of transmission roller 31 and begins to load, and the loading is accomplished back cooperation wheel 2 and is transported, later see off the aluminum alloy template through the reverse operation of roller 45 cooperation transmission roller 31, utilize the loading that the multilayer overlaps, effectual utilization transfer device's vertical space increases the transfer efficiency, and the fixed aluminum alloy template of cooperation swager piece 415 avoids the collision of transportation, causes the damage of aluminum alloy template.

The embodiment of the present invention discloses a preferred embodiment, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention according to the above embodiment, and make different extensions and changes, but do not depart from the spirit of the present invention, all of which are within the protection scope of the present invention.

Claims (6)

1. A transfer device for processing an aluminum alloy template comprises a vehicle body (1) with a hollow interior and a plurality of wheels (2) arranged on the bottom wall of the vehicle body (1), and is characterized in that an advancing motor for providing power for the wheels (2) is arranged in the inner cavity of the vehicle body (1), a feeding mechanism (3) is arranged on one side of the top wall of the vehicle body (1), and a storage mechanism (4) is arranged on the other side of the top wall of the vehicle body (1) in a way of penetrating through the top wall of the vehicle body (1);

the feeding mechanism (3) comprises two fixed baffle plates (33) which penetrate through the top wall of the vehicle body (1) and are vertically installed, a conveying belt (32) is horizontally installed between the two fixed baffle plates (33) in a rotating mode, a plurality of conveying rollers (31) are installed inside the conveying belt (32) in a rotating mode, the rear end of one of the conveying rollers (31) penetrates through the fixed baffle plates (33) and extends to the inner cavity of the vehicle body (1) to be connected with a driven belt pulley (34), the driven belt pulley (34) is connected with a driving belt pulley (35) through a transmission belt, the driving belt pulley (35) is installed at the output end of a driving motor (36), and the driving motor (36) is fixedly installed on the inner side wall of the vehicle body (1) through a support;

the storage mechanism (4) comprises a frame (41) fixedly mounted on the position of the top wall of the vehicle body (1) corresponding to one side of the output end of the conveyor belt (32), the frame (41) is a box body structure which is not closed and close to one side of the output end of the conveyor belt (32), a storage box (43) is slidably mounted on the inner wall of the frame (41) through a vertical guide rail (42), the lower end of the storage box (43) penetrates through the top wall of the vehicle body (1) and is connected to the telescopic end of a plurality of lifting cylinders (40), the lifting cylinders (40) are fixedly mounted on the inner bottom wall of the vehicle body (1), two positioning plates (44) are vertically and symmetrically mounted in the inner cavity of the storage box (43), a plurality of groups of rollers (45) which are arranged in an up-down parallel mode are rotatably mounted between the two positioning plates (44), each group of rollers (45) comprises a plurality of rollers (45) which are arranged in a horizontal mode, the front side of a central shaft of each roller (45) penetrates through the positioning plate (44) and is rotatably mounted on the inner side wall of the storage box (43) through a shaft seat, the rear sides of the central shafts of the rollers (45) of each group on the same vertical line penetrate through the side wall of the storage box (43) and are connected with driven end face gears (47), the driving end face gears (48) are arranged on the same vertical plane corresponding to the driven end face gears (47) in the inner cavity of the vehicle body (1), the driving end face gears (48) are fixedly sleeved on a rotating shaft (49), the rotating shaft (49) is rotatably connected to the telescopic end of a telescopic cylinder (410), the telescopic cylinder (410) is fixedly arranged on the inner side wall of the vehicle body (1), driven gears (411) are sleeved on the rotating shaft (49), and the driven gears (411) are meshed with a driving gear (412), and the thickness of the driving gear (412) is multiple times of that of the driven gear (411), the driving gear (412) is fixedly sleeved on the output end of the servo motor (413), and the servo motor (413) is fixedly installed on the inner side wall of the vehicle body (1) through a support.

2. The transfer device for processing the aluminum alloy template as recited in claim 1, wherein: electromagnets (414) are symmetrically arranged at positions above the inner side wall of the storage box (43) corresponding to the plurality of groups of rollers (45), material pressing blocks (415) are horizontally and slidably arranged at positions on the positioning plate (44) corresponding to the electromagnets (414), and permanent magnets (416) are embedded at positions of the material pressing blocks (415) close to the electromagnets (414).

3. The transfer device for processing the aluminum alloy template as recited in claim 2, wherein: the two sides of the material pressing blocks (415) are respectively provided with a strip-shaped positioning groove (417), and the positioning grooves (417) are internally and slidably connected with positioning pins (418).

4. The transfer device for processing the aluminum alloy template as recited in claim 2, wherein: the opposite side of the material pressing blocks (415) is hard rubber.

5. The transfer device for processing the aluminum alloy template as recited in claim 1, wherein: a plurality of the front side of the central shaft of the roller (45) is sleeved with a belt pulley (46), and each layer of belt pulley (46) is connected with each other through a synchronous belt.

6. The transfer device for processing the aluminum alloy template as recited in claim 1, wherein: the front wall of the vehicle body (1) is provided with a control box (5), the control box (5) is provided with a control panel and a PLC is arranged in the control panel.

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