CN213169788U - Transverse bar discharging mechanism of reinforcing mesh production line - Google Patents

Abstract

The utility model discloses a horizontal muscle row's of reinforcing bar net production line material mechanism, including carrying platform and discharge device, the head end and the tail end of carrying the platform all are equipped with the transport cylinder, all process on every transport cylinder's the anchor ring have with the reinforcing bar on the net indulge muscle matched with recess, discharge device installs at carrying a middle part, discharge device includes the row material roller and indulges muscle friction roller, processing has the spacing tooth of multiring on the row material roller, arranges the material roller and is close to and carries a head end one side to install and to indulging muscle friction roller, carry the bench side to be equipped with horizontal muscle and the welding robot that is in the same place of muscle welding. The utility model discloses a set up discharge device, can be in succession and incessant with horizontal muscle conveying to the reinforcing bar of range on, the welding department can also be treated through horizontal muscle friction roller on the discharge device and vertical muscle friction roller simultaneously and polish for eliminate the rust on reinforcing bar surface, with the influence of reduction rust to welding department, guaranteed welded quality.

Description

Transverse bar discharging mechanism of reinforcing mesh production line

Technical Field

The utility model relates to a reinforcing bar net production facility field especially relates to a horizontal muscle of reinforcing bar net production line arranges material mechanism.

Background

The steel bar net is an important supporting member for preventing concrete from cracking in the construction field, and is usually fixed on a region to be poured before concrete is poured, and then the concrete is poured on the steel bar net so that the steel bar net and the concrete are integrally formed. In order to increase the processing speed of the reinforcing mesh, the existing reinforcing mesh is usually welded, most of the welding processing of the reinforcing mesh is to directly weld the staggered transverse bars and longitudinal bars together by a feeding mechanism, but the reinforcing bars are likely to generate corrosion due to storage, and the welding time is short, so that the welded reinforcing bars are easy to fall off, and quality problems are caused, and therefore, a reliable reinforcing bar feeding mechanism is needed.

Disclosure of Invention

An object of the utility model is to provide a horizontal muscle of reinforcing bar net production line arranges material mechanism, should horizontal muscle arrange material mechanism can polish to indulging the muscle when arranging the material to guarantee with the welding stability of horizontal muscle.

The utility model aims at realizing through the following technical scheme:

the utility model provides a horizontal muscle of reinforcing bar net production line arranges material mechanism, is including carrying platform and discharge device, the head end and the tail end of carrying the platform all are equipped with the transport cylinder, all process on the anchor ring of every transport cylinder with the online muscle matched with recess that indulges of reinforcing bar, discharge device installs at carrying the platform middle part, discharge device includes rotatable row material roller and indulges muscle friction roller, processing has the spacing tooth of multiring on the anchor ring of row material roller, and the crisscross setting of recess on spacing tooth of multiring and the transport cylinder, row material roller is close to and carries platform head end one side to install the muscle friction roller of indulging, indulging the muscle friction roller and carry the distance of cylinder contact and the tooth pitch between the spacing tooth to equal, carry the bench side to be equipped with horizontal muscle and the welding robot that indulges the muscle welding together.

The longitudinal rib friction roller is provided with a plurality of uniform friction wheels, and the friction wheels are aligned with the grooves in the conveying roller.

And a transverse rib friction roller is arranged on the conveying table below the longitudinal rib friction roller, and a friction plate aligned with each friction wheel is arranged on the transverse rib friction roller.

The longitudinal rib friction roller and the transverse rib friction roller are both driven by a motor.

And a conveying belt which enables the transverse ribs to move towards the discharging roller is arranged below the transverse rib friction roller.

And the conveying roller at the rear side of the discharging roller is also provided with teeth matched with the transverse ribs.

The utility model provides a horizontal muscle of reinforcing bar net production line arranges beneficial effect of material mechanism utensil is:

(1) by arranging the discharging device, the transverse ribs can be continuously and uninterruptedly conveyed to the arranged reinforcing steel bars, and meanwhile, the welding positions can be polished by the transverse rib friction roller and the longitudinal rib friction roller on the discharging device, so that rust on the surfaces of the reinforcing steel bars can be eliminated, the influence of the rust on the welding positions can be reduced, and the welding quality can be ensured;

(2) the welded reinforcing mesh can be driven to move by the teeth of the conveying roller at the rear side of the conveying table, and the use of a driving mechanism can be reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

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

Fig. 2 is a top view of a conveying table according to an embodiment of the present invention.

Reference numerals: 1. a conveying table; 11. a conveying roller; 12. a groove; 13. teeth; 2. a discharge device; 21. a discharging roller; 22. limiting teeth; 23. longitudinal rib friction rollers; 24. a friction wheel; 25. a transverse rib friction roller; 26. a friction plate; 27. a conveyor belt; 3. a welding robot.

Detailed Description

Examples

As shown in fig. 1 and 2, the transverse bar discharging mechanism of the reinforcing mesh production line provided in this embodiment includes a conveying table 1 and a discharging device 2, the head end and the tail end of the conveying table 1 are both provided with a conveying roller 11, the conveying roller 11 is driven by a stepping motor, the length of each rotation of the conveying roller 11 is a gap of a transverse bar, a groove 12 matched with a longitudinal bar on a reinforcing mesh is processed on the ring surface of each conveying roller, the discharging device 2 is installed in the middle of the conveying table 1, the discharging device 2 includes a rotatable discharging roller 21 and a longitudinal bar friction roller 23, a plurality of rings of limiting teeth 22 are processed on the ring surface of the discharging roller, and the plurality of rings of limiting teeth 22 are staggered with the grooves 12 on the conveying roller 11, so that collision between the limiting teeth 22 and the longitudinal bar of the reinforcing mesh can be prevented, the processing stability is ensured, the discharging roller 21 is driven by the stepping motor, the rotation length that step motor drove row material roller 21 at every turn is the length that horizontal muscle was predetermine, and row material roller 21 is close to and carries 1 head end one side to install to indulging muscle friction roller 23, the tooth pitch between the distance of muscle friction roller 23 and the transport cylinder contact equals with spacing tooth 22 indulges, be equipped with a plurality of even friction pulley 24 on the muscle friction roller 23 indulging, friction pulley 24 aligns with recess 12 on the transport cylinder, be equipped with horizontal muscle friction roller 25 on the transport table 1 of indulging muscle friction roller 23 below, be equipped with the friction disc 26 that aligns with every friction pulley 24 on the horizontal muscle friction roller 25, it all passes through motor drive with horizontal muscle friction roller 24 to indulge muscle friction roller 23, horizontal muscle friction roller 24 below is equipped with makes horizontal muscle towards the conveyer belt 27 that row material roller removed, conveyer belt 27 both sides are equipped with the spacing baffle to horizontal muscle, it is equipped with horizontal muscle welding robot 3 together to carry 1 top, the welding robot 3 welds the abutted transverse ribs and longitudinal ribs each time the stepping motor is halted.

Conveying roller 11 of row material roller rear side still processes on have with horizontal muscle matched with tooth 13, can promote the horizontal muscle removal after the welding through tooth 13 to reduce actuating mechanism and promote to indulge the muscle, reduced manufacturing cost.

The utility model discloses a use method is:

when the device is used, a plurality of longitudinal bars are placed in the grooves 12 of the conveying roller of the conveying platform 1 at one time, then the longitudinal bars are conveyed to a welding position through the conveying roller by utilizing friction force, when the longitudinal bars reach the welding position, the longitudinal bar friction roller 23 rotates to polish the bottom surface of the longitudinal bars, the purpose is to remove rust on the bottom surface of the longitudinal bars to ensure the welding effect, then a plurality of transverse bars are conveyed to the conveying belt 27, the conveying belt 27 conveys the transverse bars to the discharging roller 21, when the conveying belt 27 conveys, the transverse bar friction roller 24 is started to polish rust at corresponding positions on the transverse bars so as to prevent the rust from influencing the welding effect, then the polished transverse bars are conveyed to the welding position under the rotating discharging roller 21 in sequence, then the welding robot 3 welds the abutted transverse bars and the longitudinal bars, and the transverse bars are conveyed to the conveying roller 11 with the teeth 13 after the welding is completed, at this time, the teeth 13 on the delivery drum 11 push the transverse bars to drive the reinforcing mesh to move intermittently, so as to realize continuous welding.

The above is only the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any modification and replacement based on the technical solution and the utility model should be covered in the protection scope of the present invention. It should be noted that structures or components illustrated in the drawings are not necessarily drawn to scale, and descriptions of well-known components and processing techniques and technologies are omitted to avoid unnecessarily limiting the invention.

Claims (6)

1. The utility model provides a horizontal muscle of reinforcing bar net production line arranges material mechanism which characterized in that: including carrying platform and discharge device, the head end and the tail end of carrying the platform all are equipped with the transport cylinder, all process on the anchor ring of every transport cylinder with the reinforcing bar net on the recess that indulges muscle matched with, discharge device installs at carrying the platform middle part, discharge device includes rotatable row material roller and indulges muscle friction roller, processing has the spacing tooth of many rings on the anchor ring of row material roller, and the crisscross setting of recess on spacing tooth of many rings and the transport roller, row material roller is close to and carries a head end one side to install to indulging muscle friction roller, indulge muscle friction roller and the distance of carrying the cylinder contact and the tooth pitch between the spacing tooth equal, carry the bench side to be equipped with horizontal muscle and the welding robot that is in the same place of indulging the muscle welding.

2. The transverse bar discharging mechanism of the reinforcing mesh production line as claimed in claim 1, wherein: the longitudinal rib friction roller is provided with a plurality of uniform friction wheels, and the friction wheels are aligned with the grooves in the conveying roller.

3. The transverse bar discharging mechanism of the reinforcing mesh production line as claimed in claim 2, wherein: and a transverse rib friction roller is arranged on the conveying table below the longitudinal rib friction roller, and a friction plate aligned with each friction wheel is arranged on the transverse rib friction roller.

4. The transverse bar discharging mechanism of the reinforcing mesh production line as claimed in claim 3, wherein: the longitudinal rib friction roller and the transverse rib friction roller are both driven by a motor.

5. The transverse bar discharging mechanism of the reinforcing mesh production line as claimed in claim 3, wherein: and a conveying belt which enables the transverse ribs to move towards the discharge roller is arranged below the transverse rib friction roller.

6. The transverse bar discharging mechanism of the reinforcing mesh production line as claimed in claim 1, wherein: and the conveying roller at the rear side of the discharge roller is also provided with teeth matched with the transverse ribs.

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