CN217493744U - Intelligent polishing device with automatic feeding function for steel structural member - Google Patents

Abstract

The utility model provides an intelligent polishing device with an automatic feeding function for steel structural members, which comprises a bottom plate, a conveyer belt, an aligning plate, a feeding assembly, a polishing assembly, a stock guide, a material box, an electric control cabinet and a PLC controller; in the utility model, the feeding component is arranged, the conveying belt conveys the component, the component is conveyed from one end close to the alignment plate to one end close to the feeding component, the alignment plate aligns the component, when the infrared sensor senses the component, the PLC controller controls the feeding telescopic rod to be electrified and operated, meanwhile, the conveying belt stops operating, the feeding telescopic rod pushes the feeding plate to enable the feeding plate to be abutted on the component, the component is pushed between the clamping plates, the purpose of automatically feeding the component is achieved, the component can be conveniently and rapidly polished, and the working efficiency of the polishing device is improved; this steel structural member intelligence grinding device with automatic feeding function simple structure, convenient operation is swift, be convenient for marketing and application.

Description

Intelligent polishing device with automatic feeding function for steel structural member

Technical Field

The utility model belongs to the technical field of steel structural member polishes, especially, relate to a steel structural member intelligence grinding device with automatic feeding function.

Background

Steel structural component need grinding device to polish the use in the processing is used, but current steel structural component grinding device is not convenient for carry out automatic feeding, is unfavorable for carrying out the operation of polishing of component fast, reduces grinding device's work efficiency, for this, we provide a steel structural component intelligence grinding device with automatic feeding function to solve above-mentioned problem, and be convenient for marketing and application.

The existing steel structural member polishing device is inconvenient for automatic feeding, is not beneficial to rapid polishing operation of the member, and reduces the working efficiency of the polishing device.

Therefore, the intelligent polishing device for the steel structural member with the automatic feeding function is very necessary to be invented.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a steel structural component intelligence grinding device with automatic feeding function to solve current steel structural component grinding device and be not convenient for carry out automatic feeding, be unfavorable for carrying out the operation of polishing of component fast, reduce grinding device's work efficiency's problem. An intelligent polishing device with an automatic feeding function for a steel structural member comprises a bottom plate, a conveying belt, an alignment plate, a feeding assembly, a polishing assembly, a material guide plate, a material box, an electric control cabinet and a PLC (programmable logic controller), wherein the conveying belt is arranged above the bottom plate; the alignment plates are arranged on the front side and the rear side of one end above the bottom plate, and the upper ends of the alignment plates are positioned above the conveying belt; the feeding assembly is arranged on the front side of one end, deviating from the aligning plate, of the bottom plate; the grinding assembly is arranged on the rear side of one end, away from the aligning plate, of the bottom plate; the material guide plate is arranged on the rear side of the polishing assembly; the material box is arranged on the rear side below the material guide plate; the electric control cabinet and the PLC are arranged on the side surface of the polishing assembly;

the feeding assembly comprises a vertical plate, a feeding telescopic rod, a feeding plate and an infrared induction sensor, wherein the vertical plate is arranged on the front side of one end, deviating from the aligning plate, above the bottom plate; the feeding telescopic rod is arranged in the middle position above the rear side of the vertical plate and is positioned above the conveying belt; the feeding plate is arranged at the tail end of the feeding telescopic rod and is positioned above the conveying belt; the infrared sensor is arranged at one end, close to the aligning plate, above the rear side of the vertical plate.

Preferably, the polishing assembly comprises a base, a mounting bracket, a lifting telescopic rod, a polishing motor, a mounting plate, a polishing disc, a clamping telescopic rod and a clamping plate, and the base is mounted on the rear side of one end, away from the aligning plate, of the bottom plate; the mounting bracket is mounted above the base; the lifting telescopic rod is arranged in the middle position above the inner part of the mounting bracket; the polishing motor is arranged below the lifting telescopic rod; the mounting plate is arranged below the grinding motor; the polishing disc is arranged below the mounting plate; the number of the clamping telescopic rods is two, and the clamping telescopic rods are arranged below two ends of the inner side of the mounting bracket; the clamping plates are two in number and are arranged at the tail ends of the clamping telescopic rods.

Preferably, the bottom plate is of a cuboid structure; the conveying belt is driven by a driving motor, and the driving motor is respectively connected with the electric control cabinet and the PLC through wires; the alignment plates are symmetrically arranged and used for aligning the components; the rear side of the material guide plate inclines downwards; the upper end of the material box is arranged in an open manner; the electric control cabinet is connected with commercial power through a power line; and the PLC is connected with the electric control cabinet through a wire.

Preferably, the vertical plate is of a cuboid structure; the feeding telescopic rod is respectively connected with the electric control cabinet and the PLC through wires; the feeding plate is of a cuboid structure; the infrared induction sensor is respectively connected with the electric control cabinet and the PLC through wires.

Preferably, the upper end of the base is flush with the upper end of the conveying belt; the lifting telescopic rod is respectively connected with the electric control cabinet and the PLC through wires; the polishing motor is respectively connected with the electric control cabinet and the PLC through wires; the mounting plate adopts a disc-shaped structure; the size of the polishing disc is matched with that of the mounting plate, and the edge of the polishing disc is aligned with that of the mounting plate; the clamping telescopic rod is respectively connected with the electric control cabinet and the PLC through wires; the clamping plates are of cuboid structures, and the middle positions between the clamping plates are aligned with the feeding plates.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses a setting of material loading subassembly, the conveyer belt is carried the component, carry the component to the one end that is close to material loading subassembly from the one end that is close to the alignment board, the alignment board aligns the component, when infrared induction sensor senses the component, PLC controller control material loading telescopic link circular telegram operation, conveyer belt bring to rest simultaneously, the material loading telescopic link promotes the flitch and makes the flitch conflict on the component, push away the component to between the pinch-off blades, reach the purpose to component automatic feeding, be favorable to carrying out the operation of polishing of component fast, grinding device's work efficiency is improved.

2. The utility model discloses a setting of polishing subassembly, PLC controller control presss from both sides tight telescopic link circular telegram operation, press from both sides tight telescopic link and promote the pinch-off blades, make the pinch-off blades contradict in the outside of component, the realization is tight to the clamp of component, PLC controller control lift telescopic link and polishing motor circular telegram operation simultaneously, lift telescopic link promotes polishing motor and polishing disk downstream, make the lower extreme of polishing disk and the upper end laminating of component, polishing motor drives the mounting panel and the polishing disk rotates, polish to the upper end of component through the polishing disk, moreover, the steam generator is simple in structure, high convenience in operation, and convenient for marketing and application.

3. The utility model discloses a stock guide, workbin and material loading telescopic link's setting, after polishing, the PLC controller presss from both sides tight telescopic link and goes up and down to rise the telescopic link and reset, PLC controller control material loading telescopic link circular telegram operation simultaneously, the flitch removes in the material loading telescopic link promotes, push away the component to the stock guide through last flitch, the component passes through the stock guide and slides to the workbin in, accomplish the operation of polishing of a component, PLC controller control material loading telescopic link resets, PLC controller control conveyer belt circular telegram operation simultaneously, the operation of polishing of next component carries out, realize grinding device's automated control.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the feeding assembly of the present invention.

Fig. 3 is a schematic structural view of the polishing assembly of the present invention.

In the figure:

1-bottom plate, 2-conveying belt, 3-aligning plate, 4-feeding assembly, 41-vertical plate, 42-feeding telescopic rod, 43-feeding plate, 44-infrared sensor, 5-polishing assembly, 51-base, 52-mounting bracket, 53-lifting telescopic rod, 54-polishing motor, 55-mounting plate, 56-polishing disc, 57-clamping telescopic rod, 58-clamping plate, 6-material guide plate, 7-material box, 8-electric control cabinet and 9-PLC controller.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 3

The utility model provides a steel structural member intelligent polishing device with automatic feeding function, which comprises a bottom plate 1, a conveyer belt 2, an aligning plate 3, a feeding component 4, a polishing component 5, a stock guide 6, a material box 7, an electric control cabinet 8 and a PLC (programmable logic controller) 9, wherein the conveyer belt 2 is arranged above the bottom plate 1; the aligning plates 3 are arranged on the front side and the rear side of one end above the bottom plate 1, and the upper ends of the aligning plates 3 are positioned above the conveying belt 2; the feeding assembly 4 is arranged on the front side of one end, which is far away from the aligning plate 3, above the bottom plate 1; the grinding assembly 5 is arranged on the rear side of one end of the bottom plate 1, which is far away from the aligning plate 3; the material guide plate 6 is arranged at the rear side of the polishing assembly 5; the material box 7 is arranged at the rear side below the material guide plate 6; the electric control cabinet 8 and the PLC 9 are arranged on the side surface of the polishing component 5; the bottom plate 1 adopts a cuboid structure; the conveyer belt 2 is driven by a driving motor, and the driving motor is respectively connected with an electric control cabinet 8 and a PLC (programmable logic controller) 9 through wires; the alignment plates 3 are symmetrically arranged, and the alignment plates 3 are used for aligning the components; the rear side of the material guide plate 6 inclines downwards; the upper end of the material box 7 is arranged in an open manner; the electric control cabinet 8 is connected with commercial power through a power line; the PLC 9 is connected with the electric control cabinet 8 through a wire; after polishing, PLC controller 9 controls clamping telescopic rod 57 and lifting telescopic rod 53 to reset, PLC controller 9 controls feeding telescopic rod 42 to power on and operate, feeding telescopic rod 42 pushes feeding plate 43 to move, push the component to guide plate 6 through feeding plate 43, the component slides to the interior of material box 7 through guide plate 6, the polishing operation of a component is completed, PLC controller 9 controls feeding telescopic rod 42 to reset, PLC controller 9 controls conveying belt 2 to power on and operate simultaneously, the polishing operation of the next component is performed, and the automatic control of the polishing device is realized.

In this embodiment, the feeding assembly 4 includes a vertical plate 41, a feeding telescopic rod 42, a feeding plate 43 and an infrared sensor 44, and the vertical plate 41 is installed on the front side of one end of the bottom plate 1 deviating from the aligning plate 3; the feeding telescopic rod 42 is arranged in the middle position above the rear side of the vertical plate 41, and the feeding telescopic rod 42 is positioned above the conveying belt 2; the feeding plate 43 is arranged at the tail end of the feeding telescopic rod 42, and the feeding plate 43 is positioned above the conveying belt 2; the infrared induction sensor 44 is arranged at one end close to the alignment plate 3 above the rear side of the vertical plate 41; the vertical plate 41 adopts a cuboid structure; the feeding telescopic rod 42 is respectively connected with the electric control cabinet 8 and the PLC 9 through wires; the feeding plate 43 adopts a cuboid structure; the infrared induction sensor 44 is respectively connected with the electric control cabinet 8 and the PLC 9 through wires; conveyer belt 2 carries the component, carry the component to the one end that is close to material loading subassembly 4 from the one end that is close to alignment board 3, alignment board 3 aligns the component, when infrared induction sensor 44 senses the component, PLC controller 9 controls material loading telescopic link 42 circular telegram operation, conveyer belt 2 stall simultaneously, material loading telescopic link 42 promotes material loading board 43 and makes material loading board 43 contradict on the component, push the component to between the pinch-off blades 58, reach the purpose to component automatic feeding, be favorable to carrying out the operation of polishing of component fast, grinding device's work efficiency is improved.

In this embodiment, the polishing assembly 5 includes a base 51, a mounting bracket 52, a lifting telescopic rod 53, a polishing motor 54, a mounting plate 55, a polishing disc 56, a clamping telescopic rod 57 and a clamping plate 58, wherein the base 51 is mounted on the rear side of one end of the bottom plate 1 away from the aligning plate 3; the mounting bracket 52 is mounted above the base 51; the lifting telescopic rod 53 is arranged at the middle position above the inner part of the mounting bracket 52; the grinding motor 54 is arranged below the lifting telescopic rod 53; the mounting plate 55 is mounted below the grinding motor 54; the polishing disc 56 is mounted below the mounting plate 55; two clamping telescopic rods 57 are adopted, and the clamping telescopic rods 57 are arranged below two ends of the inner side of the mounting bracket 52; two clamping plates 58 are adopted, and the clamping plates 58 are arranged at the tail ends of the clamping telescopic rods 57; the upper end of the base 51 is flush with the upper end of the conveying belt 2; the lifting telescopic rod 53 is respectively connected with the electric control cabinet 8 and the PLC 9 through wires; the grinding motor 54 is respectively connected with the electric control cabinet 8 and the PLC 9 through wires; the mounting plate 55 is of a disc-shaped configuration; the size of the grinding disc 56 matches the size of the mounting plate 55, and the edge of the grinding disc 56 is aligned with the edge of the mounting plate 55; the clamping telescopic rod 57 is respectively connected with the electric control cabinet 8 and the PLC 9 through wires; the clamping plates 58 are of a rectangular parallelepiped structure, and the middle positions between the clamping plates 58 are aligned with the upper material plates 43; PLC controller 9 control presss from both sides tight telescopic link 57 circular telegram operation, it promotes pinch plate 58 to press from both sides tight telescopic link 57, make pinch plate 58 contradict in the outside of component, the realization is tight to the clamp of component, PLC controller 9 control lift telescopic link 53 and grinding motor 54 circular telegram operation simultaneously, lift telescopic link 53 promotes grinding motor 54 and grinding disc 56 and moves down, make the lower extreme of grinding disc 56 and the upper end laminating of component, grinding motor 54 drives mounting panel 55 and grinding disc 56 and rotates, polish through grinding disc 56 to the upper end of component, moreover, the steam generator is simple in structure, and convenient and fast in operation, and the market promotion and application are convenient for.

Principle of operation

In the utility model, when in use, the electric control cabinet 8 is connected with the commercial power to supply power, the PLC controller 9 is controlled by the power-on operation, the conveyer belt 2 is used for conveying the component, the component is conveyed from one end close to the aligning plate 3 to one end close to the feeding component 4, the aligning plate 3 is used for aligning the component, when the infrared induction sensor 44 senses the component, the PLC controller 9 is used for controlling the feeding telescopic rod 42 to be powered on and operated, meanwhile, the conveyer belt 2 stops operating, the feeding telescopic rod 42 pushes the feeding plate 43 to enable the feeding plate 43 to be abutted against the component, the component is pushed between the clamping plates 58, the purpose of automatically feeding the component is achieved, the rapid polishing operation of the component is facilitated, the working efficiency of the polishing device is improved, the PLC controller 9 is used for controlling the clamping telescopic rod 57 to be powered on and operated, the clamping telescopic rod 57 pushes the clamping plate 58 to enable the clamping plate 58 to be abutted against the outer side of the component, the clamping of the component is realized, meanwhile, the PLC 9 controls the lifting telescopic rod 53 and the polishing motor 54 to be electrified and operated, the lifting telescopic rod 53 pushes the polishing motor 54 and the polishing disc 56 to move downwards, the lower end of the polishing disc 56 is attached to the upper end of a component, the polishing motor 54 drives the mounting plate 55 and the polishing disc 56 to rotate, the upper end of the component is polished by the polishing disc 56, the structure is simple, the operation is convenient and rapid, the market popularization and application are convenient, after polishing is finished, the PLC 9 controls the clamping telescopic rod 57 and the lifting telescopic rod 53 to reset, the PLC 9 controls the feeding telescopic rod 42 to be electrified and operated, the feeding telescopic rod 42 pushes the feeding plate 43 to move, the component is pushed to the material guide plate 6 through the feeding plate 43, the component slides into the material box 7 through the material guide plate 6, the polishing operation of the component is finished, the PLC 9 controls the feeding telescopic rod 42 to reset, and the PLC 9 controls the conveyer belt 2 to be electrified and operated, and carrying out the polishing operation of the next component to realize the automatic control of the polishing device.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (5)

1. The utility model provides a steel structural member intelligence grinding device with automatic feeding function which characterized in that: the automatic feeding device comprises a bottom plate (1), a conveying belt (2), an aligning plate (3), a feeding assembly (4), a polishing assembly (5), a material guide plate (6), a material box (7), an electric control cabinet (8) and a PLC (programmable logic controller) controller (9), wherein the conveying belt (2) is arranged above the bottom plate (1); the aligning plates (3) are arranged on the front side and the rear side of one end above the bottom plate (1), and the upper ends of the aligning plates (3) are positioned above the conveying belt (2); the feeding assembly (4) is arranged on the front side of one end, deviating from the aligning plate (3), of the upper part of the bottom plate (1); the grinding assembly (5) is arranged on the rear side of one end, deviating from the aligning plate (3), of the bottom plate (1); the material guide plate (6) is arranged on the rear side of the polishing assembly (5); the feed box (7) is arranged on the rear side below the material guide plate (6); the electric control cabinet (8) and the PLC (9) are arranged on the side surface of the polishing assembly (5);

the feeding assembly (4) comprises a vertical plate (41), a feeding telescopic rod (42), a feeding plate (43) and an infrared induction sensor (44), wherein the vertical plate (41) is arranged on the front side of one end, deviating from the aligning plate (3), above the bottom plate (1); the feeding telescopic rod (42) is arranged in the middle position above the rear side of the vertical plate (41), and the feeding telescopic rod (42) is positioned above the conveying belt (2); the feeding plate (43) is arranged at the tail end of the feeding telescopic rod (42), and the feeding plate (43) is positioned above the conveying belt (2); the infrared induction sensor (44) is arranged at one end, close to the alignment plate (3), of the upper portion of the rear side of the vertical plate (41).

2. The intelligent grinding device with the automatic feeding function for the steel structural members, as recited in claim 1, is characterized in that: the polishing assembly (5) comprises a base (51), a mounting bracket (52), a lifting telescopic rod (53), a polishing motor (54), a mounting plate (55), a polishing disc (56), a clamping telescopic rod (57) and a clamping plate (58), wherein the base (51) is mounted on the rear side of one end, deviating from the aligning plate (3), of the bottom plate (1); the mounting bracket (52) is mounted above the base (51); the lifting telescopic rod (53) is arranged in the middle position above the inner part of the mounting bracket (52); the grinding motor (54) is arranged below the lifting telescopic rod (53); the mounting plate (55) is mounted below the grinding motor (54); the polishing disc (56) is arranged below the mounting plate (55); the number of the clamping telescopic rods (57) is two, and the clamping telescopic rods (57) are arranged below two ends of the inner side of the mounting bracket (52); the number of the clamping plates (58) is two, and the clamping plates (58) are arranged at the tail ends of the clamping telescopic rods (57).

3. The intelligent grinding device with the automatic feeding function for the steel structural members, as recited in claim 1, is characterized in that: the bottom plate (1) adopts a cuboid structure; the conveying belt (2) is driven by a driving motor, and the driving motor is respectively connected with an electric control cabinet (8) and a PLC (programmable logic controller) (9) through wires; the alignment plates (3) are symmetrically arranged, and the alignment plates (3) are used for aligning components; the rear side of the material guide plate (6) inclines downwards; the upper end of the material box (7) is arranged in an open manner; the electric control cabinet (8) is connected with commercial power through a power line; the PLC (9) is connected with the electric control cabinet (8) through a wire.

4. The intelligent grinding device with the automatic feeding function for the steel structural members, as recited in claim 1, is characterized in that: the vertical plate (41) adopts a cuboid structure; the feeding telescopic rod (42) is respectively connected with the electric control cabinet (8) and the PLC (9) through wires; the feeding plate (43) is of a cuboid structure; the infrared induction sensor (44) is respectively connected with the electric control cabinet (8) and the PLC (9) through wires.

5. The intelligent grinding device with the automatic feeding function for the steel structural members as claimed in claim 2, wherein: the upper end of the base (51) is flush with the upper end of the conveying belt (2); the lifting telescopic rod (53) is respectively connected with the electric control cabinet (8) and the PLC (9) through wires; the polishing motor (54) is respectively connected with the electric control cabinet (8) and the PLC (9) through wires; the mounting plate (55) adopts a disc-shaped structure; the size of the polishing disc (56) is matched with that of the mounting plate (55), and the edge of the polishing disc (56) is aligned with that of the mounting plate (55); the clamping telescopic rod (57) is respectively connected with the electric control cabinet (8) and the PLC (9) through wires; the clamping plates (58) are of a cuboid structure, and the middle positions between the clamping plates (58) are aligned with the feeding plates (43).

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