CN213833633U - A feed structure for square pipe detects - Google Patents

Abstract

The utility model discloses a feeding structure for square tube detection, which comprises a conveying belt structure; the conveying belt structure comprises a plurality of conveying belts, and the conveying belts are arranged at intervals; the tail end of the conveying belt is provided with a feeding structure; the feeding structure comprises a material taking structure; the material taking structure is driven by a driving end of the feeding structure to penetrate through the plurality of conveying belts up and down, and the square pipe material is extracted by the material taking structure. The utility model provides a material loading structure for square pipe detection can effectually lift the square pipe after detecting and upwards transport away the effect.

Description

A feed structure for square pipe detects

Technical Field

The utility model relates to a side's pipe detection area especially relates to the material loading structure field that side's pipe detected.

Background

In social construction, a lot of square pipe materials are often used; therefore, the using effect of the square tube material can also influence the effect of the constructed object; therefore, when the square tube is produced, the produced square tube needs to be detected so as to ensure the quality of the square tube, avoid the damage of a constructed object caused by the problem of using a rear tube and reduce the risk of damage to the maximum extent; however, in the detection, the square tube is not convenient to transport due to the large weight of the square tube, so that the square tube needs to be transported by using a feeding structure in an auxiliary manner.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the not enough of existence among the prior art, the utility model provides a material loading structure for square pipe detection can effectually lift the square pipe after detecting and upwards transport the effect of going out.

The technical scheme is as follows: in order to achieve the above purpose, the technical scheme of the utility model is as follows:

a feeding structure for square tube detection comprises a conveyer belt structure; the conveying belt structure comprises a plurality of conveying belts, and the conveying belts are arranged at intervals; the front end of the conveying belt is provided with a feeding structure; the feeding structure comprises a material taking structure; the driving end of the feeding structure drives the material taking structure to vertically pass through the plurality of conveying belts, and the material taking structure correspondingly takes and places square pipe materials; convenient and fast's transport places square pipe.

Further, the conveying belt structure is arranged on the rack; the driving device is in driving connection with the conveying belt; a support frame is fixedly arranged on the rack corresponding to the front end of the conveying belt; the feeding structure is fixed on the support frame; the driving end of the feeding structure drives the material taking structure to penetrate through the gap between the conveying belts; the square tube is convenient to take and place.

Furthermore, the feeding structure also comprises a lifting structure; the lifting structure is arranged on the bottom plate; the bottom plate is fixedly erected on the support frame through fixing plates with two symmetrical ends; a plurality of parallel sliding grooves are formed in the bottom plate, and the sliding grooves are arranged along the conveying direction of the conveying belt; the bottom plate is provided with an adjusting block; the guide rod at the bottom of the adjusting block is correspondingly embedded in the sliding groove; the lifting structure hydraulic mechanism is fixed on the side wall of the adjusting block through a bolt; the adjusting block drives the lifting structure to move under the action of external force; can rationally adjust the position of getting material structure and square pipe, avoid bumping.

Further, the lifting structure comprises a telescopic rod; the hydraulic mechanism is in driving connection with the bottom end of the telescopic rod; the top end of the telescopic rod is provided with a connecting block; a material taking structure is fixedly arranged on the side wall of the connecting block facing the conveying direction; the telescopic rod drives the connecting block and the material taking structure to move up and down; convenient to carry and labor-saving.

Furthermore, the material taking structure comprises a material taking bracket and a connecting rod column; the connecting bars are arranged side by side at intervals and are respectively and correspondingly arranged among the conveying belts; one side wall of the connecting bar column is fixed on one side of the connecting block; the bottoms of the connecting bars are fixedly connected in series through a cross beam, and the cross beam is lower than the conveying belt; a plurality of connecting bar top sets up respectively and gets the material support groove, and a plurality of materials are got the material support groove and are held up square pipe in coordination, avoid empting.

Further, the material taking bracket comprises an inclined plate; one end of the inclined plate is fixed at the top of the connecting bar column, and the other end of the inclined plate is arranged in a downward inclined mode towards one side of the conveying direction; a plurality of material clamping plates are fixed on the surface of the downward inclined end of the inclined plate at intervals; the connecting blocks respectively drive the corresponding inclined plates to move up and down among the conveying belts, and the square pipe materials are clamped among the plurality of material clamping plates; can effectually block square pipe, avoid dropping.

Has the advantages that: the utility model can lift the square tube and place the square tube on the conveyer belt; manual carrying is avoided, and convenience and rapidness are realized; including but not limited to the following benefits;

1) the feeding structure is arranged between the conveying belts, so that the feeding structure can conveniently move to the lower part of the square pipe, and then the supported square pipe is placed on the conveying belts, so that the square pipe can be conveniently and quickly conveyed, labor is saved, and the square pipe can be prevented from being damaged;

2) the card silo slope that a plurality of card flitchs formed sets up, and square pipe card is established in a plurality of card silos that form like this, just so can avoid square pipe to take place to empty in handling and drop, avoids square pipe to receive the damage.

Drawings

FIG. 1 is a drawing of a feeding structure of square tube detection;

FIG. 2 is a diagram of a conveyor belt;

FIG. 3 is a view of a lifting structure;

FIG. 4 is a diagram of a conditioning block;

figure 5 is a drawing of the materials structure.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in the attached figures 1-5: a feeding structure for square tube detection comprises a conveying belt structure 1; the conveyer belt structure 1 comprises a plurality of conveyer belts 11, and the conveyer belts 11 are arranged at intervals; the front end of the conveying belt 11 is provided with a feeding structure 2; the feeding structure 2 comprises a material taking structure 21; the material taking structure 21 is driven by the driving end of the feeding structure 2 to vertically pass through the plurality of conveying belts 11, and the material taking structure 21 correspondingly takes and places square pipe materials. The square pipe is conveyed through the conveying belt 11 and is detected in the conveying process, the square pipe is conveyed to the feeding structure 2, and then the driving end of the feeding structure 2 drives the material taking structure 21 to lift and place the square pipe material on the conveying belt; can avoid artifical transport square pipe material like this, reduce the labour, simultaneously because square pipe self weight is heavier, avoid artificial placing to damage the conveyer belt.

The conveyer belt structure 1 is arranged on the frame 3; the driving device is in driving connection with the conveying belt 11; a support frame 31 is fixedly arranged on the rack 3 corresponding to the front end of the conveying belt 11; the feeding structure 2 is fixed on the support frame 31; the driving end of the feeding structure 2 drives the material taking structure 21 to penetrate through the gap between the conveying belts 11; the material taking structure 21 can move downwards conveniently, and then the square tube can be placed conveniently and is convenient to carry.

The feeding structure 2 further comprises a lifting structure 22; the lifting structure 22 is arranged on the bottom plate 23; the bottom plate 23 is fixedly arranged on the support frame 31 through fixing plates 24 with two symmetrical ends; a plurality of parallel sliding grooves 231 are formed in the bottom plate 23, and the sliding grooves 231 are arranged along the conveying direction of the conveying belt 11; the bottom plate 23 is provided with an adjusting block 25; the guide rod 251 at the bottom of the adjusting block 25 is correspondingly embedded in the sliding groove 231; the hydraulic mechanism of the lifting structure 22 is fixed on the side wall of the adjusting block 25 through a bolt; the lifting structure 22 is driven to move by the external force action adjusting block 25; the whole lifting structure 22 is fixed on the support frame 31 of the frame 3, and then the driving end of the lifting structure 22 moves up and down between the conveyer belts 11, so that the square tube can be conveniently taken and placed by the material taking structure 21; and can adjust elevation structure 22 position on the direction of delivery on conveyer belt 11 through regulating block 25, be convenient for get material structure 21 more steady place side's pipe, avoid the collision to cause side's pipe to drop, also avoid the conveyer belt to receive the damage simultaneously.

The lifting structure 22 comprises a telescopic rod 221; the hydraulic mechanism is in driving connection with the bottom end of the telescopic rod 221; the top end of the telescopic rod 221 is provided with a connecting block 222; the connecting block 222 is fixedly provided with a material taking structure 21 on the side wall facing the conveying direction; the telescopic rod 221 drives the connecting block 222 and the material taking structure 21 to move up and down. The hydraulic mechanism drives the telescopic rod 221 to drive the connecting block 222 to move up and down, the connecting block 222 drives the material taking structure 21 to move up and down between the conveying belts 11, and then the square pipes are lightly placed on the conveying belts, so that manual carrying is avoided, and the conveying device is convenient and fast.

The material taking structure 21 comprises a material taking bracket 211 and a connecting bar 212; the connecting bars 212 are arranged side by side at intervals, and the connecting bars 212 are respectively and correspondingly arranged among the conveyer belts 11; one of the connecting bars 212 is fixed on one side of the connecting block 222; the bottoms of the connecting columns 212 are fixedly connected in series through a cross beam 215, and the cross beam 215 is lower than the conveying belt 11; a material taking bracket 211 is respectively arranged at the top of the connecting bars 212; a square tube is arranged in the material taking bracket 211; the connecting rods 212 drive the material taking bracket 211 to move downwards to the position below the surface of the conveying belt 11, and the square pipe is placed on the conveying belt; the damage of the conveying belt caused by manual operation is avoided; the manual handling is reduced, and the labor is saved.

The take out bracket 211 includes an angled plate 213; one end of the inclined plate 213 is fixed on the top of the connecting rod 212, and the other end of the inclined plate 213 is inclined downwards towards one side of the conveying direction; a plurality of material clamping plates 214 are fixed on the surface of the downward inclined end of the inclined plate 213 at intervals; the connecting blocks 222 respectively drive the corresponding inclined plates 213 to move up and down among the plurality of conveyor belts 11, and the square pipe materials are clamped among the plurality of material clamping plates 214; therefore, the square tube can be carried downwards and then placed on a conveying belt; avoid artifical transport, avoid causing the damage of square pipe and conveyer belt.

The above description is of the preferred embodiment of the present invention, and it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the principles of the invention, and these modifications and variations are considered to be within the scope of the invention.

Claims (6)

1. The utility model provides a feed structure for square pipe detects which characterized in that: comprises a conveyor belt structure (1); the conveying belt structure (1) comprises a plurality of conveying belts (11), and the conveying belts (11) are arranged at intervals; the front end of the conveying belt (11) is provided with a feeding structure (2); the feeding structure (2) comprises a material taking structure (21); the feeding device is characterized in that the material taking structure (21) is driven by the driving end of the feeding structure (2) to vertically penetrate among the plurality of conveying belts (11), and the material taking structure (21) correspondingly takes and places square pipe materials.

2. The feeding structure for square tube detection according to claim 1, wherein: the conveying belt structure (1) is arranged on the rack (3); the driving device is in driving connection with the conveying belt (11); a support frame (31) is fixedly arranged on the rack (3) corresponding to the front end of the conveying belt (11); the feeding structure (2) is fixed on the support frame (31); the driving end of the feeding structure (2) drives the material taking structure (21) to penetrate through the gap between the conveying belts (11).

3. The feeding structure for square tube detection according to claim 1, wherein: the feeding structure (2) further comprises a lifting structure (22); the lifting structure (22) is arranged on the bottom plate (23); the bottom plate (23) is fixedly arranged on the support frame (31) through fixing plates (24) with two symmetrical ends; a plurality of parallel sliding grooves (231) are formed in the bottom plate (23), and the sliding grooves (231) are arranged along the conveying direction of the conveying belt (11); the bottom plate (23) is provided with an adjusting block (25); the guide rod (251) at the bottom of the adjusting block (25) is correspondingly embedded in the sliding groove (231); the hydraulic mechanism of the lifting structure (22) is fixed on the side wall of the adjusting block (25) through a bolt; the external force action adjusting block (25) drives the lifting structure (22) to move.

4. The feeding structure for square tube detection according to claim 3, wherein: the lifting structure (22) comprises a telescopic rod (221); the hydraulic mechanism is in driving connection with the bottom end of the telescopic rod (221); the top end of the telescopic rod (221) is provided with a connecting block (222); the side wall of the connecting block (222) facing the conveying direction is fixedly provided with a material taking structure (21); the telescopic rod (221) drives the connecting block (222) and the material taking structure (21) to move up and down.

5. The feeding structure for square tube detection according to claim 4, wherein: the material taking structure (21) comprises a material taking bracket (211) and a connecting bar column (212); the connecting bars (212) are arranged in parallel at intervals, and the connecting bars (212) are respectively and correspondingly arranged among the conveying belts (11); one side wall of the connecting bar column (212) is fixed on one side of the connecting block (222); the bottoms of the connecting columns (212) are fixedly connected in series through a cross beam (215), and the cross beam (215) is lower than the conveying belt (11); and material taking brackets (211) are respectively arranged at the tops of the connecting bars (212).

6. The feeding structure for square tube detection according to claim 5, wherein: the take out bracket (211) includes an angled plate (213); one end of the inclined plate (213) is fixed at the top of the connecting bar column (212), and the other end of the inclined plate (213) is inclined downwards towards one side of the conveying direction; a plurality of material clamping plates (214) are fixed on the surface of the downward inclined end of the inclined plate (213) at intervals; the connecting blocks (222) respectively drive the corresponding inclined plates (213) to move up and down among the plurality of conveying belts (11), and the square tube materials are clamped among the plurality of clamping plates (214).

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