CN114309791A

CN114309791A - Building engineering tubular product processingequipment

Info

Publication number: CN114309791A
Application number: CN202210007451.2A
Authority: CN
Inventors: 谷艳玲; 孙家国
Original assignee: Xuzhou College of Industrial Technology
Current assignee: Xuzhou College of Industrial Technology
Priority date: 2022-01-06
Filing date: 2022-01-06
Publication date: 2022-04-12

Abstract

The utility model provides a building engineering tubular product processingequipment, includes cutting device, conveyor, and cutting device includes bottom plate, preceding connecting rod, back connecting rod, the frame that resets, and conveyor is including carrying seat, gyro wheel, No. two gyro wheels, slider, nut board, screw rod, bottom plate upper portion rear side has two pillars, and the pillar is close to the bottom plate left side, has the square hole of left right direction in the middle of every pillar, and every pillar front side has the round pin axle, and left side pillar front portion has the guard plate, and preceding connecting rod lower part has preceding connecting rod hole, and preceding connecting rod upper portion has preceding connecting rod axle, and preceding connecting rod front side has the baffle, and back connecting rod lower part has back connecting rod hole, and back connecting rod upper portion has back connecting rod axle, and the connecting rod right side has the right hole, and right hole left side has the motor cabinet, and the connecting rod left side has the left hole, has the guide arm in the middle of connecting rod rear side.

Description

Building engineering tubular product processingequipment

Technical Field

The invention relates to the field of constructional engineering, in particular to a device for processing a constructional engineering pipe.

Background

In the building engineering tubular product course of working, need the cutting pipe fitting of wholesale, the pipe fitting cutting must fixed length, must keep the straightness that hangs down of pipe fitting terminal surface, and still must keep certain cutting efficiency, just can ensure cutting quality and work efficiency, needs an equipment to satisfy above requirement.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the efficient building engineering pipe processing device which can cut continuously, can fix the length and keep the perpendicularity of the end face.

The purpose of the invention is realized by the following technical scheme:

a building engineering pipe machining device comprises a cutting device and a conveying device, wherein the cutting device comprises a bottom plate, a front connecting rod, a rear connecting rod, a connecting rod and a reset frame, the conveying device comprises a conveying seat, a first roller, a second roller, a sliding block, a nut plate and a screw rod, two pillars are arranged on the rear side of the upper portion of the bottom plate, the pillars are close to the left side of the bottom plate, a square hole in the left-right direction is formed in the middle of each pillar, a pin shaft is arranged on the front side of each pillar, a protection plate is arranged on the front portion of each pillar, a front connecting rod hole is formed in the lower portion of the front connecting rod, a front connecting rod shaft is arranged on the upper portion of the front connecting rod, a baffle is arranged on the front side of the front connecting rod, a rear connecting rod hole is formed in the lower portion of the rear connecting rod, a rear connecting rod shaft is arranged on the upper portion of the rear connecting rod, a right hole is formed in the left side of the right hole, a left hole is formed in the connecting rod, a guide rod is arranged in the middle of the rear side of the reset frame, two symmetrical square shafts are respectively arranged on the left side of the lower portion of the reset frame, the side shaft of every side is the square hole of sliding connection both sides respectively, the reset frame slides in the square hole of both sides, the side outside of the axle of every side embolias a spring, the reset frame and pillar are supported respectively to the spring both sides of every side, the left round pin axle is articulated in preceding connecting rod hole, the round pin axle on the articulated right side in back connecting rod hole, the articulated front connecting rod axle in left hole, the articulated back connecting rod axle in right hole, guide arm sliding connection guide slot, the guide arm slides in the guide slot, a motor right side fixed connection motor cabinet left side, a motor output shaft fixed connection circular saw.

The rear side of the conveying seat is provided with a motor supporting plate, the lower part of the conveying seat is provided with a second roller hole, the upper part of the conveying seat is provided with a notch, the middle of the notch is provided with a chute, the middle of the slider is provided with a slider hole, the upper part of the slider is provided with a slider pin shaft, the middle of the nut plate is provided with a screw rod pin shaft, the upper part of the screw rod is provided with a transverse pin, the second roller is rotatably connected with the second roller hole, the second roller rotates in the second roller hole, the slider is slidably connected with the chute, the slider slides in the chute, the first roller is rotatably connected with the slider hole, the first roller rotates in the slider hole, the nut plate is fixedly connected with the upper part of the conveying seat, the screw rod is in threaded connection with a nut, the second spring is arranged between the screw rod and the slider, the screw rod pin shaft is sleeved on the upper part of the second spring, the slider pin shaft is sleeved on the lower part of the second spring, the upper part of the motor supporting plate is fixedly connected with a second motor, the output shaft is fixedly connected with a second roller intermediate shaft, the bottoms of the plurality of conveying devices are fixedly connected to the right side of the upper part of the bottom plate.

Has the advantages that:

when the device is used, each screw is sequentially loosened, a steel pipe is inserted between a first roller and a second roller of each conveying device, then each screw is sequentially screwed, the first motor and the second motor are started, the second motor rotates, the steel pipe moves to the left under the action of the first roller and the second roller, the steel pipe moves to the left, the left side of the steel pipe can touch a baffle, the steel pipe pushes the baffle to move to the left, a front connecting rod rotates around a left pin shaft, a bottom plate, a front connecting rod, a rear connecting rod and a connecting rod form a parallel connecting rod structure, the front connecting rod drives the rear connecting rod to synchronously rotate through the connecting rod, the connecting rod keeps synchronously moving to the left in parallel with the steel pipe, a resetting frame is driven to slide to the left along a square hole when the connecting rod moves to the left, a spring on the left side is compressed, the connecting rod moves to the left side and simultaneously moves to the lower side, the connecting rod drives a motor and a circular saw to synchronously move, and the circular saw can contact the steel pipe when the circular saw moves to the left, and begin to cut the steel pipe, move to the left side with the steel pipe is synchronous when circular saw cuts the steel pipe, until the steel pipe is cut off, can fall after the steel pipe is cut off, and preceding connecting rod loses the thrust of steel pipe, and the reset frame restores to the meso position under the spring action of both sides one number, and reset frame resets and drives the connecting rod and resets, and the steel pipe continues to move to the left side under the gyro wheel of one number and No. two gyro wheels effects simultaneously, begins next duty cycle.

The invention can realize the fixed-length cutting uninterruptedly, and can keep the end face verticality, the conveying device can realize the feeding, can keep the cutting verticality, and can adapt to the deformation of the steel pipe, the clamping force of the first roller and the second roller to the steel pipe and the friction force of the conveying are adjusted by adjusting the tightness of the screw rod, the vibration is prevented, meanwhile, the elastic force of the second spring can enable the steel pipe to pass smoothly without being blocked when being deformed, the conveying is more stable by using a plurality of groups of conveying devices simultaneously, the stress is balanced, the balance is good, the steel pipe is kept vertical to the circular saw when being conveyed, the cutting device can realize the uninterrupted continuous cutting, the bottom plate, the front connecting rod, the rear connecting rod and the connecting rod form a parallel connecting rod structure, the interaction and the matching among the components are smooth, the blocking is prevented, the stress is balanced, the balance is good, the connecting rod keeps the parallel and leftward synchronous movement of the steel pipe, the circular saw moves towards the left side along with the connecting rod while cutting, so that cutting and moving are synchronously performed, the reset frame is driven to slide towards the left side along the square hole when the connecting rod moves towards the left side, the spring at the left side is compressed, the reset frame drives the connecting rod to reset after the steel pipe is cut off, and meanwhile, the steel pipe at the left side is continuously input, so that the circular saw has extremely high cutting efficiency.

Drawings

Fig. 1 is a schematic structural view of a pipe machining device for construction engineering according to the present invention.

Fig. 2 is a schematic structural diagram of the pipe machining device for construction engineering during cutting.

Fig. 3 is a schematic structural diagram of the rear part of the pipe machining device for construction engineering, which is disclosed by the invention.

Fig. 4 is a schematic structural diagram of the conveying device according to the present invention.

Fig. 5 is a schematic diagram of the explosive structure of the conveying device according to the invention.

Fig. 6 is a schematic view of the bottom plate structure according to the present invention.

Fig. 7 is a schematic view of the front link structure according to the present invention.

Fig. 8 is a schematic view of a rear link structure according to the present invention.

Fig. 9 is a schematic view of a connecting rod structure according to the present invention.

Fig. 10 is a schematic structural view of the reduction frame according to the present invention.

Detailed Description

The invention is explained in more detail below with reference to the figures and examples:

a building engineering pipe machining device comprises a cutting device 100 and a conveying device 200, wherein the cutting device 100 comprises a base plate 110, a front connecting rod 120, a rear connecting rod 130, a connecting rod 140 and a reset frame 150, the conveying device 200 comprises a conveying seat 210, a first roller 220, a second roller 221, a sliding block 230, a nut plate 240 and a screw 250, two support columns 111 are arranged on the rear side of the upper portion of the base plate 110, the support columns 111 are close to the left side of the base plate 110, a left-right square hole 112 is formed in the middle of each support column 111, a pin shaft 113 is arranged on the front side of each support column 111, a protection plate 114 is arranged in the front portion of the left support column 111, a front connecting rod hole 121 is formed in the lower portion of the front connecting rod 120, a front connecting rod shaft 122 is formed in the upper portion of the front connecting rod 120, a rear connecting rod hole 131 is formed in the lower portion of the rear connecting rod 130, a rear connecting rod shaft 132 is formed in the upper portion of the rear connecting rod 130, a right side of the connecting rod 140, a right hole 141 is formed in the left side of the right hole 141, a motor seat 143 is formed in the left side of the right hole 141, the left side of the connecting rod 140 is provided with a left hole 142, the middle of the rear side of the connecting rod 140 is provided with a guide rod 144, the middle of the reset frame 150 is provided with a guide groove 151, the left side and the right side of the lower part of the reset frame 150 are respectively provided with a square shaft 152 which are symmetrically arranged, each side of the square shaft 152 is respectively connected with the square holes 112 at the two sides in a sliding way, the reset frame 150 slides in the square holes 112 at the two sides, a first spring 160 is sleeved outside each side of the square shaft 152, the two sides of each side of the first spring 160 are respectively propped against the reset frame 150 and the supporting column 111, the front connecting rod hole 121 is hinged with the pin shaft 113 at the left side, the rear connecting rod hole 131 is hinged with the pin shaft 113 at the right side, the left hole 142 is hinged with the front connecting rod shaft 122, the right hole 141 is hinged with the rear connecting rod shaft 132, the guide rod 144 is connected with the guide groove 151 in a sliding way, the right side of a motor 180 is fixedly connected with the motor base 143, and the output shaft of the motor 180 is fixedly connected with the circular saw 190.

The rear side of the conveying seat 210 is provided with a motor supporting plate 211, the lower part of the conveying seat 210 is provided with a second roller hole 212, the upper part of the conveying seat 210 is provided with a notch 213, the middle of the notch 213 is provided with a sliding groove 214, the middle of the sliding block 230 is provided with a sliding block hole 231, the upper part of the sliding block 230 is provided with a sliding block pin 232, the middle of the nut plate 240 is provided with a sliding block hole 231, the lower part of the screw rod 250 is provided with a screw rod pin shaft 251, the upper part of the screw rod 250 is provided with a transverse pin 252, the second roller 221 is rotatably connected with the second roller hole 212, the second roller 221 rotates in the second roller hole 212, the sliding block 230 is slidably connected with the sliding groove 214, the sliding block 230 slides in the sliding groove 214, the first roller 220 is rotatably connected with the sliding block hole 231, the first roller 220 rotates in the sliding block hole 231, the nut plate 240 is fixedly connected with the upper part of the conveying seat 210, the screw rod 250 is in threaded connection with the nut 241, the second spring 270 is arranged between the screw rod 250 and the sliding block 230, the upper part of the second spring 270 is sleeved with the screw rod pin shaft 251, the lower part of the second spring 270 is sleeved into the sliding block pin shaft 232, the upper part of the motor supporting plate 211 is fixedly connected with a second motor 260, the output shaft of the second motor 260 is fixedly connected with a second roller 221 intermediate shaft, and the bottoms of the plurality of conveying devices 200 are fixedly connected to the right side of the upper part of the bottom plate 110.

When the invention is used, each screw 250 is loosened in sequence, the steel pipe 280 is inserted between the first roller 220 and the second roller 221 of each conveying device 200, then each screw 250 is tightened in sequence, the first motor 180 and the second motor 260 are started, the second motor 260 rotates, the steel pipe 280 moves to the left under the action of the first roller 220 and the second roller 221, the steel pipe 280 moves to the left, the steel pipe 280 touches the baffle 123 at the left side, the steel pipe 280 pushes the baffle 123 to move to the left, the front connecting rod 120 rotates around the left pin shaft 113, the bottom plate 110, the front connecting rod 120, the rear connecting rod 130 and the connecting rod 140 form a parallel connecting rod structure, the front connecting rod 120 drives the rear connecting rod 130 to synchronously rotate through the connecting rod 140, the connecting rod 140 keeps the connecting rod 140 and the steel pipe 280 to synchronously move to the left in parallel, the reset frame 150 is driven to slide to the left along the square hole 112 when the connecting rod 140 moves to the left, the first spring 160 on the left side is compressed, the connecting rod 140 moves to the left side and simultaneously moves to the lower side, the connecting rod 140 drives the first motor 180 and the circular saw 190 to move synchronously, the circular saw 190 contacts the steel pipe 280 when moving towards the left lower side and starts to cut the steel pipe 280, the circular saw 190 and the steel pipe 280 move towards the left side synchronously while cutting the steel pipe 280, the steel pipe 280 falls down after being cut, the front connecting rod 120 loses the thrust of the steel pipe 280, the reset frame 150 restores to the middle position under the action of the first springs 160 on the two sides, the reset frame 150 resets to drive the connecting rod 140 to reset, and meanwhile, the steel pipe 280 continues to move towards the left side under the action of the first idler wheels 220 and the second idler wheels 221 to start the next working cycle.

The invention can realize the fixed-length cutting uninterruptedly, and can keep the end face verticality, the conveying device 200 can realize the feeding, can keep the cutting verticality, and can adapt to the deformation of the steel pipe 280, the clamping force of the first roller 220 and the second roller 221 to the steel pipe 280 and the conveying friction force are adjusted by adjusting the tightness of the screw 250, meanwhile, the elastic force of the second spring 270 can enable the steel pipe 280 to pass smoothly when deforming, and can not be blocked, the conveying is more stable by using the plurality of groups of conveying devices 200 simultaneously, the steel pipe 280 is kept vertical to the circular saw 190 when conveying, the parts are mutually matched smoothly, the blocking is prevented, the stress is balanced, the balance is good, the cutting device 100 can realize the uninterrupted continuous cutting, the bottom plate 110, the front connecting rod 120, the rear connecting rod 130 and the connecting rod 140 form a parallel connecting rod structure, the connecting rod 140 keeps the steel pipe 280 moving synchronously towards the left side in parallel, the circular saw 190 moves to the left side along with the connecting rod 140 while cutting, so that synchronous cutting and moving are achieved, the connecting rod 140 drives the reset frame 150 to slide to the left side along the square hole 112 when moving to the left side, the left side first spring 160 is compressed, the reset frame 150 drives the connecting rod 140 to reset after the steel pipe 280 is cut off, and meanwhile, the left side steel pipe 280 is continuously input, so that the circular saw has extremely high cutting efficiency.

An operation method of a building engineering pipe machining device is characterized by comprising the following steps: in a first step, using the present invention, each screw 250 is loosened in turn, a steel tube 280 is inserted between the first roller 220 and the second roller 221 of each conveyor 200, and then each screw 250 is tightened in turn. And secondly, starting the first motor 180 and the second motor 260, wherein the second motor 260 rotates, and the steel pipe 280 moves to the left side under the action of the first roller 220 and the second roller 221 and is cut uninterruptedly. Specifically, when the invention is used, each screw is sequentially loosened, a steel pipe is inserted between a first roller and a second roller of each conveying device, then each screw is sequentially screwed, a first motor and a second motor are started, the second motor rotates, the steel pipe moves to the left under the action of the first roller and the second roller, the steel pipe moves to the left, the left side of the steel pipe can touch a baffle, the steel pipe pushes the baffle to move to the left, a front connecting rod rotates around a left pin shaft, a bottom plate, a front connecting rod, a rear connecting rod and a connecting rod form a parallel connecting rod structure, the front connecting rod drives the rear connecting rod to synchronously rotate through the connecting rod, the connecting rod keeps synchronously moving to the left with the steel pipe in parallel, the connecting rod drives a reset frame to slide to the left along a square hole when moving to the left, a spring on the left side is compressed, the connecting rod moves to the left side and simultaneously moves to the lower side, the connecting rod drives a motor and a circular saw to synchronously move, and the circular saw can contact the steel pipe when moving to the left side, and begin to cut the steel pipe, move to the left side with the steel pipe is synchronous when circular saw cuts the steel pipe, until the steel pipe is cut off, can fall after the steel pipe is cut off, and preceding connecting rod loses the thrust of steel pipe, and the reset frame restores to the meso position under the spring action of both sides one number, and reset frame resets and drives the connecting rod and resets, and the steel pipe continues to move to the left side under the gyro wheel of one number and No. two gyro wheels effects simultaneously, begins next duty cycle.

Claims

1. A building engineering pipe machining device is characterized by comprising a cutting device and a conveying device, wherein the cutting device comprises a bottom plate, a front connecting rod, a rear connecting rod, a connecting rod and a reset frame, the conveying device comprises a conveying seat, a first roller, a second roller, a sliding block, a nut plate and a screw rod, two support columns are arranged on the rear side of the upper portion of the bottom plate, the support columns are close to the left side of the bottom plate, a square hole in the left-right direction is formed in the middle of each support column, a pin shaft is arranged on the front portion of each support column, a protection plate is arranged on the front portion of each support column, a front connecting rod hole is formed in the lower portion of each front connecting rod, a front connecting rod shaft is arranged on the upper portion of each front connecting rod, a baffle plate is arranged on the front side of each front connecting rod, a rear connecting rod hole is formed in the lower portion of each rear connecting rod, a rear connecting rod shaft is arranged on the upper portion of each rear connecting rod, a right hole is formed in the left side of each connecting rod, a motor seat is arranged on the left side of each connecting rod, a guide rod is arranged in the middle of the rear side of each reset frame, a guide groove is arranged in the middle of each reset frame, the side shaft of every side is the square hole of sliding connection both sides respectively, the reset frame slides in the square hole of both sides, the side outside of the axle of every side embolias a spring, the reset frame and pillar are supported respectively to the spring both sides of every side, the left round pin axle is articulated in preceding connecting rod hole, the round pin axle on the articulated right side in back connecting rod hole, the articulated front connecting rod axle in left hole, the articulated back connecting rod axle in right hole, guide arm sliding connection guide slot, the guide arm slides in the guide slot, a motor right side fixed connection motor cabinet left side, a motor output shaft fixed connection circular saw.

2. The building engineering pipe machining device of claim 1, wherein the rear side of the conveying seat is provided with a motor supporting plate, the lower portion of the conveying seat is provided with a second roller hole, the upper portion of the conveying seat is provided with a notch, the middle of the notch is provided with a sliding groove, the middle of the sliding block is provided with a sliding block hole, the upper portion of the sliding block is provided with a sliding block pin shaft, and the middle of the nut plate is provided with a sliding block hole.

3. The tube processing device for the building engineering according to claim 2, wherein the lower part of the screw rod is provided with a screw rod pin shaft, the upper part of the screw rod is provided with a cross pin, the second roller is rotatably connected with a second roller hole, the second roller rotates in the second roller hole, the sliding block is slidably connected with the sliding groove, the sliding block slides in the sliding groove, the first roller is rotatably connected with a sliding block hole, the first roller rotates in the sliding block hole, the nut plate is fixedly connected with the upper part of the conveying seat, and the screw rod is in threaded connection with the nut.

4. The building engineering pipe machining device as claimed in claim 3, wherein a second spring is arranged between the screw and the slide block, a screw pin is sleeved on the upper portion of the second spring, a slide block pin is sleeved on the lower portion of the second spring, a second motor is fixedly connected to the upper portion of the motor supporting plate, an output shaft of the second motor is fixedly connected to a second roller intermediate shaft, and bottoms of the plurality of conveying devices are fixedly connected to the right side of the upper portion of the bottom plate.

5. The operation method of the pipe machining device for the constructional engineering as claimed in claim 4, wherein the method comprises the following steps: firstly, when in use, loosening each screw rod in sequence, inserting a steel pipe between a first roller and a second roller of each conveying device, and then screwing each screw rod in sequence; and secondly, starting the first motor and the second motor, rotating the second motor, moving the steel pipe to the left under the action of the first roller and the second roller, and uninterruptedly cutting the steel pipe.