CN216705919U - Transfer device is used in production of rainwater grate - Google Patents

Abstract

The utility model discloses a transfer device for rainwater grate production, and belongs to the technical field of rainwater grate processing. The structure comprises a rainwater grate, a support and a top plate, wherein the upper end of the support is fixedly connected with a lower die, the rainwater grate is positioned in the lower die, an upper die corresponding to the lower die is arranged above the lower die, the upper die is vertically and movably arranged below the top plate, a jacking assembly used for jacking the rainwater grate out of the lower die is arranged in the lower die, slide bars are arranged on two sides of the lower die, the upper end parts of the slide bars are arranged on the top plate in a sliding manner, the slide bars are arranged between a transfer conveyor belt and the lower die in a reciprocating sliding manner, a clamping assembly used for clamping the rainwater grate is arranged at the lower end of each slide bar, a transfer conveyor belt is arranged below each clamping assembly, and the transfer conveyor belt is positioned at the rear side of the lower die.

Description

Transfer device is used in production of rainwater grate

Technical Field

The utility model relates to the technical field of rainwater grate processing, in particular to a transfer device for rainwater grate production.

Background

The rainwater grate is a device for draining water, and is known based on basic market research data to be welded or cast by flat steel and twisted square steel or flat steel and flat steel. The rainwater grate has the advantages of attractive appearance, optimal drainage, high strength, multiple specifications, low cost and the like, and in modern construction of cities, the construction of cities and new rural areas is gradually expanded, so that a drainage system is further upgraded and reformed, the rainwater grate is used as an important part of the drainage system, and the demand is increased year by year.

Traditional rainwater grate production mode is relatively laggard behind, pours the shaping back through the mould when the rainwater grate, need take out the rainwater grate after the shaping from the mould through the manual work to transport next process and carry out further processing and can make it become the finished product and use, degree of automation is low, and the cost of labor is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a transfer device for producing rainwater grates, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides a transfer device is used in rainwater grate production, includes rainwater grate, support and roof, support upper end fixedly connected with lower mould, the rainwater grate is located the lower mould, the lower mould top is provided with the last mould that corresponds with the lower mould, the activity sets up the below at the roof from top to bottom on going up the mould, be provided with the jack-up subassembly that is used for the ejecting lower mould of rainwater grate in the lower mould, the both sides of lower mould all are provided with the slide bar, the upper end of slide bar slides and sets up on the roof, the slide bar reciprocating sliding sets up transporting between conveyer belt and the lower mould, the slide bar lower extreme is provided with the centre gripping subassembly that is used for pressing from both sides tight rainwater grate, centre gripping subassembly below is provided with transports the conveyer belt, it is located to transport the conveyer belt the rear side of lower mould.

Adopt above-mentioned technical scheme, through going up the mould activity setting from top to bottom on the roof, after the rainwater grate pouring shaping, make and go up the mould and separate with the lower mould, under the effect of jack-up subassembly, the rainwater grate is by ejecting lower mould, simultaneously under the effect of centre gripping subassembly, press from both sides the rainwater grate tightly, the slide bar drives centre gripping subassembly this moment and slides to transporting the conveyer belt, when centre gripping subassembly slides to transporting the conveyer belt top, the rainwater grate is loosened to the centre gripping subassembly, the rainwater grate falls to transporting on the conveyer belt, carry out processing on next step with other stations of rainwater grate conveyer belt through transporting the conveyer belt, moreover, the steam generator is simple in structure, the automation degree is high, and the cost of labor is effectively reduced.

As a further scheme of the utility model: the jacking assembly comprises a first cylinder fixed on the lower die lower side, the output end of the first cylinder is fixedly connected with a supporting rod penetrating through the lower die bottom wall, the upper end of the supporting rod is fixedly connected with a jacking block, a placing groove used for placing the jacking block is formed in the lower die inner bottom wall, and the placing groove and the jacking block are tightly attached.

Adopt above-mentioned technical scheme, under the cooperation of first cylinder, bracing piece, kicking block and standing groove, when the rainwater grate when pouring the shaping, the kicking block is placed in the standing groove and closely laminates with the standing groove, has guaranteed the leakproofness of lower mould diapire, makes the process of pouring go on steadily, and after pouring the shaping, first cylinder drive bracing piece upward movement makes the kicking block with the ejecting lower mould of rainwater grate, is convenient for realize the centre gripping subassembly to the centre gripping of rainwater grate, simple structure, is convenient for control.

As a still further scheme of the utility model: the top plate is symmetrically provided with slide ways, the slide rods are arranged in the slide ways in a sliding mode, and a driving assembly used for driving the slide rods to slide is arranged above the top plate.

By adopting the technical scheme, the top plate is provided with the slide way, the slide rod is arranged in the slide way in a sliding manner, the slide rod can easily slide back and forth under the driving of the driving assembly, and the rainwater grate can be transferred.

As a still further scheme of the utility model: the drive assembly is including the pivot that is located the roof top, the both ends of pivot are rotated with two slide bars respectively and are connected, fixedly connected with gear in the pivot, the fixed guide rack that is provided with in roof upper end, the gear is connected with the meshing of guide rack, fixedly connected with motor on the lateral wall of slide bar, the output and the pivot fixed connection of motor.

By adopting the technical scheme, the gear can reciprocate along the guide rack by matching the motor, the rotating shaft, the gear and the guide rack and controlling the motor, so that the rotating shaft drives the sliding rods on two sides to reciprocate, and the device is simple in structure and high in efficiency.

As a still further scheme of the utility model: the clamping assembly comprises clamping blocks which are positioned above two sides of the lower die and used for clamping the rainwater grate, second air cylinders are fixed on the two sliding rods, the second air cylinders are fixed on the side walls of the sliding rods, which are far away from one side of the lower die, and output ends of the second air cylinders penetrate through the sliding rods and are fixedly connected with the clamping blocks.

By adopting the technical scheme, the clamping block can clamp and loosen the rainwater grate by controlling the second air cylinder, the structure is simple, and the working efficiency is high.

As a still further scheme of the utility model: the slide bar is characterized in that the slide blocks are symmetrically and fixedly connected to the side wall of the slide bar, slide grooves corresponding to the slide blocks are symmetrically formed in the inner side wall of the slide way, and the slide blocks are arranged in the slide grooves in a sliding mode.

By adopting the technical scheme, the sliding block is arranged in the sliding groove in the side wall of the sliding way by arranging the sliding block, so that the sliding stability of the sliding rod in the sliding way is further ensured.

As a still further scheme of the utility model: the roof lower extreme fixedly connected with third cylinder, third cylinder output and last mould fixed connection.

Adopt above-mentioned technical scheme, through setting up the third cylinder, alright light realization goes up reciprocating of mould, light laminating and the separation of mould and lower mould of realizing, simple structure, the operating efficiency is high, reduces artifical output.

Compared with the prior art, the utility model has the beneficial effects that: the rainwater grate formed by pouring can be automatically transferred to the next procedure for processing, the degree of automation is high, the structure is simple, and the labor cost is low.

Drawings

FIG. 1 is a front view of a transfer device for producing rain water grates;

FIG. 2 is a top view of a transfer device for producing rain water grates;

FIG. 3 is a schematic view of the positional relationship between the transfer conveyor and the lower mold;

fig. 4 is a partial enlarged view of a sliding rod of the transfer device for producing the rainwater grate.

In the figure: 1. a lower die; 2. a support; 3. a first cylinder; 4. a support bar; 5. a placement groove; 6. a top block; 7. a transfer conveyor; 8. a second cylinder; 9. a slide bar; 10. a clamping block; 11. a rainwater grate; 12. an upper die; 13. a third cylinder; 14. a top plate; 15. a slider; 16. a slideway; 17. a rotating shaft; 18. a guide rack; 19. a gear; 20. a motor; 21. a chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-4, the embodiment provides a transfer device for producing a rain grate, which includes a rain grate 11, a support 2 and a top plate 14, wherein the upper end of the support 2 is fixedly connected with a lower die 1, the rain grate 11 is located in the lower die 1, an upper die 12 corresponding to the lower die 1 is arranged above the lower die 1, the upper die 12 is movably arranged below the top plate 14 up and down, specifically, as shown in fig. 1, a third cylinder 13 is fixedly connected to the lower side of the top plate 1, the output end of the third cylinder 13 is fixedly connected with the upper die 12, a jacking assembly for jacking the rain grate 11 out of the lower die 1 is arranged in the lower die 1, specifically, the jacking assembly includes a first cylinder 3 fixed at the lower end of the lower die 1, the output end of the first cylinder 3 is fixedly connected with a support rod 4 penetrating through the bottom wall of the lower die 1, the upper end of the support rod 4 is fixedly connected with a jacking block 6, the inner bottom wall of the lower die 1 is provided with a placing groove 5 for placing an ejector block 6, the placing groove 5 and the ejector block 6 are tightly attached, two sides of the lower die 1 are respectively provided with a slide rod 9, the rear side of the lower die 1 is provided with a transfer conveyor belt 7 for conveying a rainwater grate 11, the position relation of the transfer conveyor belt can be shown in a combined manner in figures 1, 2 and 3, the upper end part of each slide rod 9 is arranged on a top plate 14 in a sliding manner, the slide rods 9 are arranged between the transfer conveyor belt 7 and the lower die 1 in a reciprocating sliding manner, specifically, slide ways 16 are symmetrically arranged on the top plate 14, the slide rods 9 are arranged in the slide ways 16 in a sliding manner, preferably, as shown in figures 1 and 4, the side walls of the slide rods 9 are symmetrically and fixedly connected with slide blocks 15, the inner side walls of the slide ways 16 are symmetrically provided with slide grooves 21 corresponding to the slide blocks 15, and the slide blocks 15 are arranged in the slide grooves 21, a driving assembly for driving the sliding rods 9 to slide is arranged above the top plate 14, the driving assembly comprises a rotating shaft 17 positioned above the top plate 14, two ends of the rotating shaft 17 are respectively rotatably connected with the two sliding rods 9, a gear 19 is fixedly connected to the rotating shaft 17, a guide rack 18 is fixedly arranged at the upper end of the top plate 14, the gear 19 is meshed with the guide rack 18, a motor 20 is fixedly connected to the side wall of each sliding rod 9, the output end of the motor 20 is fixedly connected with the rotating shaft 17, a clamping assembly for clamping the rainwater grate 11 is arranged at the lower end of each sliding rod 9, specifically, the clamping assembly comprises clamping blocks 10 which are positioned above two sides of the lower die 1 and used for clamping the rainwater grate 11, second air cylinders 8 are fixed on the two sliding rods 9, the second air cylinders 8 are fixed on the side wall of one side of each sliding rod 9 far away from the lower die 1, the output ends of the second air cylinders 8 penetrate through the sliding rods 9 and are fixedly connected with the clamping blocks 10, the clamping assembly is located above the transfer conveyor 7.

After the rainwater grate 11 is poured and formed, under the action of a third air cylinder 13, an upper die 12 rises to be separated from a lower die 1, under the action of a first air cylinder 3, a jacking block 6 jacks the rainwater grate 11 out of the lower die 1, as shown in fig. 1, at the moment, a second air cylinder 8 drives a clamping block 10 to clamp the rainwater grate 11, then a motor 20 operates to enable a gear 19 to roll along a guide rack 18, and further drive a sliding rod 9 to slide towards the direction of a transfer conveyor belt 7, when the rainwater grate 11 moves to the position above the transfer conveyor belt 7, the second air cylinder 8 drives the clamping block 10 to loosen the rainwater grate 11, and the rainwater grate 11 falls onto the transfer conveyor belt 7 and is conveyed to the next process for further processing.

It should be noted that the above embodiments are only specific and clear descriptions of technical solutions and technical features of the present application. However, to those skilled in the art, aspects or features that are part of the prior art or common general knowledge are not described in detail in the above embodiments.

In addition, the technical solutions of the present application are not limited to the above-described embodiments, and a person skilled in the art should take the description as a whole, and the technical solutions in the embodiments may be appropriately combined, so that other embodiments understood by a person skilled in the art may be formed.

Claims (7)

1. A transfer device for rainwater grate production comprises a rainwater grate (11), a support (2) and a top plate (14), wherein the upper end of the support (2) is fixedly connected with a lower die (1), the rainwater grate (11) is positioned in the lower die (1), an upper die (12) corresponding to the lower die (1) is arranged above the lower die (1), the transfer device is characterized in that the upper die (12) is movably arranged below the top plate (14) up and down, a jacking assembly used for jacking the rainwater grate (11) out of the lower die (1) is arranged in the lower die (1), slide bars (9) are arranged on two sides of the lower die (1), the upper end of each slide bar (9) is arranged on the top plate (14) in a sliding manner, the slide bars (9) are arranged between a transfer conveyor belt (7) and the lower die (1) in a reciprocating sliding manner, and a clamping assembly used for clamping the rainwater grate (11) is arranged at the lower end of each slide bar (9), centre gripping subassembly below is provided with transports conveyer belt (7), transport conveyer belt (7) are located the rear side of lower mould (1).

2. The transfer device for producing the rainwater grate is characterized in that the jacking assembly comprises a first air cylinder (3) fixed on the lower side of a lower die (1), a supporting rod (4) penetrating through the bottom wall of the lower die (1) is fixedly connected to the output end of the first air cylinder (3), a top block (6) is fixedly connected to the upper end of the supporting rod (4), a placing groove (5) used for placing the top block (6) is formed in the bottom wall of the inner portion of the lower die (1), and the placing groove (5) is tightly attached to the top block (6).

3. The transfer device for producing the rainwater grate as claimed in claim 1, wherein the top plate (14) is symmetrically provided with slide ways (16), the slide bars (9) are slidably arranged in the slide ways (16), and a driving assembly for driving the slide bars (9) to slide is arranged above the top plate (14).

4. The transfer device for rainwater grate production according to claim 3, characterized in that the driving assembly comprises a rotating shaft (17) located above the top plate (14), two ends of the rotating shaft (17) are respectively connected with the two sliding rods (9) in a rotating manner, a gear (19) is fixedly connected to the rotating shaft (17), a guide rack (18) is fixedly arranged at the upper end of the top plate (14), the gear (19) is meshed with the guide rack (18), a motor (20) is fixedly connected to the side wall of each sliding rod (9), and the output end of the motor (20) is fixedly connected with the rotating shaft (17).

5. The transfer device for the production of the rainwater grate as claimed in claim 1, wherein the clamping assembly comprises clamping blocks (10) which are positioned above two sides of the lower die (1) and used for clamping the rainwater grate (11), the two sliding rods (9) are respectively fixed with a second air cylinder (8), the second air cylinders (8) are fixed on the side walls of the sliding rods (9) far away from one side of the lower die (1), and the output ends of the second air cylinders (8) penetrate through the sliding rods (9) and are fixedly connected with the clamping blocks (10).

6. The transfer device for producing the rainwater grate according to claim 3, wherein the side walls of the sliding rods (9) are symmetrically and fixedly connected with sliding blocks (15), sliding grooves (21) corresponding to the sliding blocks (15) are symmetrically formed in the inner side walls of the sliding ways (16), and the sliding blocks (15) are arranged in the sliding grooves (21) in a sliding mode.

7. The transfer device for producing the rainwater grate as claimed in claim 1, wherein a third cylinder (13) is fixedly connected to the lower end of the top plate (14), and the output end of the third cylinder (13) is fixedly connected with the upper die (12).

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