CN211889244U - Sawing tailing discharging and pushing-out mechanism and sawing machine using same - Google Patents

Abstract

The utility model relates to a saw cut tailing ejecting mechanism of unloading and use sawing machine of this mechanism, saw cut tailing ejecting mechanism of unloading includes the frame, the subassembly is led to send subassembly and tailing ejecting subassembly to the section bar, the section bar is led to send the subassembly to set up in the frame top, tailing ejecting subassembly is located the front side that the subassembly was led to the section bar, the subassembly left side is led to send the subassembly as the pan feeding end to the section bar, its right side is as the discharge end, it includes drive arrangement and horizontal interval distribution's guide roller, the drive arrangement drive is connected in one of them guide roller, the tailing ejecting subassembly includes the tailing push pedal by pushing away the material hydro-cylinder, the tailing push pedal sets up in the front end upside of each guide roller, the tailing frame sets up in the rear downside of each guide roller, the tailing push pedal is by pushing away the reciprocal upside front end to the rear end of walking in a plurality of guide. The utility model discloses can will judge the raw materials release to the unified pile of tails frame of useless tails rapidly steadily, guarantee follow-up feeding mechanism who waits that the saw work piece can in time send into the sawing machine saw cuts the action.

Description

Sawing tailing discharging and pushing-out mechanism and sawing machine using same

Technical Field

The utility model belongs to the technical field of the sawing machine, in particular to saw cut tails release mechanism of unloading and use sawing machine of this mechanism.

Background

With the rapid development of domestic economy, the manufacturing industry is rapidly developed. H shaped steel uses extensively, mainly used: various building structures, such as industrial plants, large bridges, heavy equipment, highways, ship frameworks, mine supports, foundation treatment, dam engineering and other occasions requiring large bearing capacity.

Various shaped steel among the prior art are along with the continuous cutting off of raw materials, and when the raw materials shortened to certain length, automatic feed mechanism on the band sawing machine will unable the continuation feeding, perhaps when the tails is not enough to form the work piece that accords with the length requirement, need take out the tails, and present automatic sawing machine, the automation degree of taking out of tails is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a sawing tailing discharge ejecting mechanism and use sawing machine of this mechanism is provided, this mechanism can be rapidly steadily will judge the raw materials release to the tailing frame unified stack of waste tailing, guarantees that follow-up feeding mechanism who waits to saw the work piece can in time send into the sawing machine saw cuts the action.

The utility model discloses a realize like this, the utility model provides a saw cut tails release mechanism of unloading, which comprises a frame, the subassembly is delivered to section bar guide and tails release the subassembly, the section bar is delivered the subassembly and is set up in the frame top, the tails releases the subassembly and is located the section bar and is delivered the front side of subassembly, the section bar is delivered the subassembly and is included drive arrangement and a plurality of interval distribution's guide roller, the tails is delivered the subassembly left side or the right side from the section bar and is entered into on the guide roller, the tails releases the subassembly and is including pushing away material hydro-cylinder and tails push pedal, the tails push pedal sets up in the front end upside of each guide roller, the tails push pedal is by pushing away the upside that the reciprocal walking of material hydro-cylinder drive was a plurality of guide rollers in the section bar is delivered the subassembly, the tails that will be located on the.

Furthermore, two ends of each guide roller are respectively provided with a connecting shaft end, the connecting shaft ends at the two ends are respectively connected with the rack through a bearing and a bearing seat, the driving device is connected with one of the guide rollers in a driving mode, and one end of each guide roller is connected with one of the guide rollers in a transmission mode in sequence.

Furthermore, one end of the front end of each guide roller, which extends out of the bearing and the bearing seat, is respectively connected with two groups of coaxially connected chain wheels; the chain wheel on the front side of one guide roller is connected with the chain wheel on the front side of the adjacent guide roller through a chain, the chain wheel on the rear side of the previous guide roller is connected with the chain wheel on the rear side of the adjacent guide roller on the other side through a chain, and the like, and the guide rollers are sequentially connected in a transmission manner; the power output end of the driving device is connected with a chain wheel on the front side or the rear side of the outermost guide roller on the left side or the right side through chain transmission.

Further, the driving device is a motor.

Furthermore, the rear side of the profile guide assembly is provided with a tailing frame opposite to the tailing pushing assembly, the tailing frame is arranged on the lower side of the rear side of each guide roller, the tailing pushing assembly further comprises a supporting frame and an oil cylinder fixing seat, the supporting frame is arranged on the front side of the rack, the cylinder body end of the pushing oil cylinder is connected to the upper end of the supporting frame through the oil cylinder fixing seat, the piston rod end of the pushing oil cylinder is in driving connection with a tailing pushing plate, and the tailing positioned on the guide rollers is pushed away from the tailing frame.

Furthermore, the support frames on the two sides of the oil cylinder fixing seat are fixedly connected with guide seats, at least one guide sleeve is arranged in each guide seat, guide rods are respectively arranged on the two sides of the material pushing oil cylinder, one end of each guide rod is respectively connected with the guide sleeve in the guide seat on the two sides in a guiding mode, and the other end of each guide rod is respectively fixedly connected with the tailing push plate.

Furthermore, two guide sleeves are arranged in each guide seat, and one end of each guide rod is respectively connected with the two guide sleeves in a penetrating and guiding manner.

Furthermore, a tailing supporting plate connected with the rack is arranged between every two adjacent material guiding rollers, and the upper end face of each tailing supporting plate is lower than the upper side tangent line between every two adjacent material guiding rollers.

Furthermore, the lower side of the rear end of each tailing supporting plate is provided with a material pushing inclined sliding plate respectively, each material pushing inclined sliding plate comprises an inclined part, the upper end of each inclined part is connected to the lower edge of the rear end of the tailing supporting plate respectively, and the lower end of each inclined part faces the tailing frame downwards in an inclined mode.

The sawing machine comprises a feeding mechanism, wherein the feeding mechanism is butted with the left side or the right side of a section bar guiding and conveying assembly of the sawing tailing discharging and pushing mechanism, and the tailing sawn by the sawing machine is conveyed to the section bar guiding and conveying assembly by the feeding mechanism.

Compared with the prior art, the sawing tailing discharging and pushing mechanism and the sawing machine using the same can rapidly and stably push the raw materials judged as waste tailings to the tailing frame for uniform stacking, and ensure that the subsequent workpieces to be sawn can be timely fed into the feeding mechanism of the sawing machine for sawing; the guide sleeve in the guide seat and the guide rod in guide connection with the guide sleeve are arranged, so that the pushing oil cylinder is more stable and reliable when driving the tailing push plate; by arranging the tailing supporting plate, the supporting strength of the profile guide assembly and the stability of profile steel conveying are improved; through the arrangement of the material pushing oblique sliding plate, the profile tailings can fall into the tailing frame along the oblique part, and stacking and orderly overlapping are facilitated.

Drawings

FIG. 1 is a top plan view schematic of a sawing machine using a sawing tail discharge push-out mechanism;

fig. 2 is one of the schematic perspective views of the sawing tailing discharging and pushing-out mechanism.

Fig. 3 is a second perspective view of the sawing tailing discharging and pushing-out mechanism.

Fig. 4 is a schematic plan front view of the sawing tail discharging and pushing-out mechanism.

Fig. 5 is an installation schematic diagram of the oil cylinder fixing seat, the guide seat, the material pushing oil cylinder and the guide rod in fig. 1.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Please refer to fig. 1 to 5, the present invention discloses a preferred embodiment of a saw cutting tailing discharging and pushing mechanism, which comprises a frame 1, a section guiding and feeding assembly 2 and a tailing pushing assembly 3, wherein the section guiding and feeding assembly 2 is arranged above the frame 1, the tailing pushing assembly 3 is arranged at the front side of the section guiding and feeding assembly 2, the section guiding and feeding assembly 2 comprises a driving device and a plurality of guiding rollers 21 distributed at intervals, the tailing enters the guiding rollers 21 from the left side or the right side of the section guiding and feeding assembly 2, the tailing pushing assembly 3 comprises a tailing pushing plate 32 driven by a material pushing cylinder 31, the tailing pushing plate 32 is arranged at the upper side of the front end of each guiding roller 21, the tailing pushing plate 32 is driven by the material pushing cylinder 31 to reciprocate on the upper sides of the plurality of guiding rollers 21 in the section guiding and feeding assembly 2, and the tailing positioned on the guiding rollers 21 is pushed out of the guiding rollers 21 from the front end thereof. The two ends of each guide roller 21 are respectively provided with a connecting shaft end, the connecting shaft ends at the two ends are respectively connected with the rack 1 through a bearing and a bearing seat 22, the driving device is connected with one of the guide rollers 21 in a driving mode, and one end of each guide roller 21 is connected in sequence in a transmission mode. The drive means is a motor 26. The rear side of the section bar guiding and conveying assembly 2 is provided with a tailing frame 4 opposite to the tailing pushing-out assembly 3, the tailing frame 4 is arranged on the lower side of the rear part of each guiding roller 21, the tailing pushing-out assembly 3 further comprises a supporting frame 33 and an oil cylinder fixing seat 34, the supporting frame 33 is arranged on the front side of the rack 1, the cylinder body end of the pushing oil cylinder 31 is connected to the upper end of the supporting frame 33 through the oil cylinder fixing seat 34, the piston rod end of the pushing oil cylinder is in driving connection with a tailing pushing plate 32, and the tailing positioned on the guiding rollers 21 is pushed away from the tailing frame 4.

The supporting frames 33 on two sides of the oil cylinder fixing seat 34 are fixedly connected with guide seats 35, at least one guide sleeve 37 is arranged in each guide seat 35, guide rods 36 are respectively arranged on two sides of the material pushing oil cylinder 31, one end of each guide rod 36 is respectively connected with the guide sleeve 37 on the guide seat 35 on two sides in a guiding mode, and the other end of each guide rod 36 is respectively fixedly connected with the tailing pushing plate 32. On the basis, preferably, two guide sleeves 37 are arranged in each guide seat 35, and one end of the guide rod 36 is respectively connected with the two guide sleeves 37 in a penetrating and guiding manner, so that the pushing cylinder 31 is ensured to be more stable and reliable when driving the tailing push plate 32.

A tailing supporting plate 23 connected with the rack 1 is respectively arranged between every two adjacent guide rollers 21, so that the supporting strength of the profile guide assembly and the stability of profile steel conveying are improved; the upper end face of each tailing supporting plate 23 is lower than the upper tangent line between two adjacent guide rollers 21, so that each guide roller 21 can touch the lower side face of the section steel all the time and feed forwards or backwards. The lower side of the rear end of each tailing supporting plate 23 is provided with a material pushing inclined sliding plate 24, each material pushing inclined sliding plate 24 comprises an inclined portion 241, the upper end of each inclined portion 241 is connected to the lower edge of the rear end of each tailing supporting plate 23, and the lower end of each inclined portion 241 faces the tailing frame 4 in a downward inclined mode, so that profile tailings can fall into the tailing frame 4 along the inclined portions 241, and stacking is facilitated.

One end of the front end of each guide roller 21 extending out of the bearing and the bearing seat 22 is respectively connected with two groups of coaxially connected chain wheels 25; the chain wheel 25 on the front side of one guide roller 21 is connected with the chain wheel 25 on the front side of the adjacent guide roller 21 through a chain, the chain wheel 25 on the rear side of the previous guide roller 21 is connected with the chain wheel 25 on the rear side of the adjacent guide roller 21 on the other side through a chain, and so on, and the guide rollers 21 are sequentially connected in a transmission manner; the power output end of the driving device is connected with a chain wheel 25 on the front side or the rear side of the outermost guide roller 21 on the left side or the right side through chain transmission.

Referring to fig. 1, the sawing machine using the sawing tailing discharging and pushing-out mechanism is characterized in that the sawing machine 5 comprises a feeding mechanism 51, the feeding mechanism 51 is butted with the left side or the right side of a section guiding and feeding assembly 2 of the sawing tailing discharging and pushing-out mechanism, and the tailing sawn by the sawing machine 5 is conveyed to the section guiding and feeding assembly 2 by the feeding mechanism 51. The detection elements are arranged at the corresponding positions of the sawing tailing discharging and pushing mechanism, the tailing processing advancing state is detected in real time through the detection elements, and when waste tailings are detected, the material pushing oil cylinder 31 is started to drive the tailing pushing plate 32 to push the waste tailings into the tailing frame along each material guide roller 21. When the rear section steel can be detected to be capable of being continuously sawed to form a workpiece meeting the length requirement, the section steel guiding and conveying assembly 2 outputs the section steel to the feeding mechanism 51 in a rolling mode to be sawed.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A sawing tailing discharging and pushing mechanism is characterized by comprising a machine frame (1), the profile guiding and conveying component (2) and the tailing pushing component (3) are arranged above the rack (1), the tailing pushing component (3) is located on the front side of the profile guiding and conveying component (2), the profile guiding and conveying component (2) comprises a driving device and a plurality of guiding rollers (21) distributed at intervals, tailing enters the guiding rollers (21) from the left side or the right side of the profile guiding and conveying component (2), the tailing pushing component (3) comprises a pushing oil cylinder (31) and a tailing pushing plate (32), the tailing pushing plate (32) is arranged on the upper side of the front end of each guiding roller (21), the tailing pushing plate (32) is driven by the pushing oil cylinder (31) to walk on the upper sides of the plurality of guiding rollers (21) in the profile guiding and conveying component (2) in a reciprocating mode, and the tailing positioned on the guiding rollers (21) is pushed out of the guiding rollers (21) from the front end to the rear end of the guiding rollers.

2. The sawing tail discharge push-out mechanism according to claim 1, characterized in that the two ends of each guide roller (21) are respectively provided with a connecting shaft end, the connecting shaft ends at the two ends are respectively connected with the machine frame (1) through a bearing and a bearing seat (22), the driving device is connected with one of the guide rollers (21) in a driving way, and one end of each guide roller (21) is sequentially connected in a transmission way.

3. The sawing tail discharge push-out mechanism according to claim 2, characterized in that one end of the front end of each guide roller (21) extending out of the bearing and the bearing seat (22) is respectively connected with two groups of coaxially connected chain wheels (25); the chain wheel (25) on the front side of one guide roller (21) is connected with the chain wheel (25) on the front side of the adjacent guide roller (21) through a chain, the chain wheel (25) on the rear side of the previous guide roller (21) is connected with the chain wheel (25) on the rear side of the adjacent guide roller (21) through a chain, and the like, and the guide rollers (21) are sequentially connected in a transmission manner; the power output end of the driving device is connected with a chain wheel (25) on the front side or the rear side of the outermost guide roller (21) on the left side or the right side through chain transmission.

4. The sawing tail discharge push-out mechanism according to claim 1, 2 or 3, characterized in that the drive means is a motor (26).

5. The sawing tailing discharging and pushing mechanism according to claim 1, characterized in that a tailing frame (4) opposite to the tailing pushing assembly (3) is arranged on the rear side of the profile guiding and feeding assembly (2), the tailing frame (4) is arranged on the lower rear side of each guiding roller (21), the tailing pushing assembly (3) further comprises a support frame (33) and an oil cylinder fixing seat (34), the support frame (33) is arranged on the front side of the machine frame (1), the cylinder body end of the pushing oil cylinder (31) is connected to the upper end of the support frame (33) through the oil cylinder fixing seat (34), the piston rod end of the pushing oil cylinder is in driving connection with a tailing pushing plate (32), and the tailing on the guiding rollers (21) is pushed away into the tailing frame (4).

6. The sawing tailing discharging and ejecting mechanism according to claim 5, characterized in that guide seats (35) are fixedly connected to the support frames (33) on both sides of the cylinder fixing seat (34), at least one guide sleeve (37) is arranged in each guide seat (35), guide rods (36) are respectively arranged on both sides of the pushing cylinder (31), one end of each guide rod (36) is respectively connected to the guide sleeve (37) in the guide seat (35) on both sides in a guiding manner, and the other end of each guide rod is respectively fixedly connected with the tailing pushing plate (32).

7. The sawing tail discharge push-out mechanism according to claim 5, characterized in that two guide sleeves (37) are arranged in each guide seat (35), and one end of each guide rod (36) is respectively connected with the two guide sleeves (37) in a penetrating and guiding manner.

8. The sawing tail discharge push-out mechanism according to claim 5, characterized in that a tail support plate (23) connected with the machine frame (1) is respectively arranged between the adjacent guide rollers (21), and the upper end surface of each tail support plate (23) is lower than the upper tangent line between the two adjacent guide rollers (21).

9. The sawing tail discharge push-out mechanism according to claim 8, characterized in that the lower sides of the rear ends of the tail support plates (23) are respectively provided with a pushing inclined slide plate (24), the pushing inclined slide plate (24) comprises an inclined part (241), the upper ends of the inclined parts (241) are respectively connected with the lower edges of the rear ends of the tail support plates (23), and the lower ends of the inclined parts are inclined downwards towards the tail frame (4).

10. A sawing machine using the sawing tail discharge push-out mechanism of any one of claims 1 to 9, characterized in that: the sawing machine (5) comprises a feeding mechanism (51), the feeding mechanism (51) is in butt joint with the left side or the right side of the section bar guiding and conveying assembly (2) of the sawing tailing discharging and pushing mechanism, and the tailing sawed by the sawing machine (5) is conveyed onto the section bar guiding and conveying assembly (2) through the feeding mechanism (51).

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