CN216730607U - Novel double-saw cutting table turnover mechanism of sawing machine - Google Patents

Abstract

The utility model relates to the field of nonferrous metal sawing machine equipment, and discloses a novel double-sawing-table turnover mechanism of a sawing machine, which comprises a sawing table I, a sawing table II, a steel wire rope tensioning device, a cross-sliding trolley I, a cross-sliding trolley II and a cross-sliding driving device, wherein the steel wire rope tensioning device, the cross-sliding trolley I, the cross-sliding trolley II and the cross-sliding driving device are arranged on a foundation, the steel wire rope tensioning device is connected with a steel wire rope, the steel wire rope is connected with a traction trolley, the traction trolley can be connected with the sawing table I or the sawing table II, the cross-sliding driving device is connected with a driving chain wheel, a cross-sliding chain is arranged on the driving chain wheel, the cross-sliding trolley I and the cross-sliding trolley II are both fixedly connected with the cross-sliding chain, and two oil cylinders are arranged on each cross-sliding trolley. The mechanism is provided with two saw cutting tables, one saw cutting table enters the saw cutting area each time, the requirement that the precision saw cutting table can operate in the saw cutting area and the feeding and discharging area can be met, two processes of saw cutting in the saw cutting area and material loading and unloading in the feeding and discharging area can be simultaneously carried out through the alternate turnover of the two saw cutting tables, a large amount of auxiliary time is saved, and the production efficiency is greatly improved.

Description

Novel double-saw cutting table turnover mechanism of sawing machine

Technical Field

The utility model relates to the field of nonferrous metal sawing machine equipment, in particular to a novel double-sawing-table turnover mechanism of a sawing machine.

Background

The precision saw is a key device in the production of aluminum alloy plates, when the plates are sawed, the plates are usually placed on a sawing table, and a sawing machine transversely and longitudinally walks to cut the plates. From the aspects of environmental protection and logistics, the sawing area and the feeding and discharging area of the sawing machine are separately arranged. During sawing, the sawing table needs to be manually charged from the feeding and discharging area, then moves to the sawing area for sawing, and finally returns to the feeding and discharging area for manual discharging. In the process, the sawing of the plate and the manual loading and unloading of the plate are in serial relation, and the time consumption of the processes of manually unloading the waste edges, unloading the finished product, cleaning the table top, loading the plate to be cut and the like is long in the loading and unloading process, so that the time for unloading the material by the manual tool in the whole sawing process is about 30%.

Foreign manufacturers adopt a scheme that two sets of saw cutting tables are arranged in the saw cutting area side by side, the scheme can meet the requirement that plates are cut in parallel with manual feeding and discharging, and the efficiency of the sawing machine is greatly improved. But the side-by-side arrangement requires doubling the width-wise travel of the saw. Greatly increasing the complexity of the saw and the occupied area of the saw.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a double-saw cutting table turnover mechanism of a novel sawing machine.

In order to realize the purpose, the utility model adopts the following technical scheme:

the utility model provides a novel two saws of sawing machine cut platform turnover mechanism, includes saw cutting platform I, saw cutting platform II, installs the wire rope on the ground and rises and tightly install, sideslip dolly I, sideslip dolly II and sideslip drive arrangement, wire rope rises and tightly installs wire rope, wire rope connects the trailer wagon, the trailer wagon can be under wire rope's the traction along installing the operation of saw cutting platform track on the ground, saw cutting platform I or saw cutting platform II can be connected to the trailer wagon, sideslip drive arrangement connects driving sprocket, the last sideslip chain that is provided with of driving sprocket, sideslip dolly I and sideslip dolly II all with sideslip chain fixed connection, install two hydro-cylinders on every sideslip dolly, can lift saw cutting platform I or saw cutting platform II from saw cutting platform track through the hydro-cylinder.

Further, trailer wagon right-hand member designs an up catcher, up catcher can with saw cut platform I or saw cut platform II left side down catcher lock, after trailer wagon's catcher and saw cut platform I or saw cut platform II's catcher lock, trailer wagon can drag saw cut platform I or saw cut platform II and saw cut a track removal.

Furthermore, there is the discontinuity in the middle of the saw cutting platform track, and the department of discontinuity is used for keeping away from the hydro-cylinder on sideslip dolly I and the sideslip dolly II.

Further, saw cut platform I and set up a plurality of groups supporting wheel, every group supporting wheel is two, saw cut platform II and set up a plurality of groups supporting wheel, every group supporting wheel is two, saw cut platform I and saw cut platform II homoenergetic and move on the platform track of sawing that has the discontinuity.

Further, the traverse driving device comprises a motor reducer and a coupling.

Furthermore, the steel wire rope is connected with a steel wire rope driving device, and the steel wire rope driving device structurally drives a steel wire rope drum through a motor reducer.

Furthermore, the steel wire rope tensioning device pulls the pulley through the oil cylinder so as to tension the steel wire rope.

Further, the number of the traverse trolleys can be expanded into a plurality according to the length of the sawing table.

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

(1) the double-saw cutting table turnover mechanism of the novel sawing machine is mainly applied to the sawing machine, particularly an aluminum plate precision sawing machine, two saw cutting tables are arranged, one saw cutting table enters a saw cutting area each time, the requirement that the precision saw cutting table can operate in the saw cutting area and a feeding and discharging area can be met, two processes of saw cutting in the saw cutting area and material loading and unloading in the feeding and discharging area can be carried out simultaneously through the alternative turnover of the two saw cutting tables, a large amount of auxiliary time is saved, and the production efficiency of the precision saw can be greatly improved;

(2) the mechanism layout is compact, the sawing table is arranged in the width direction of the sawing area, the stroke of the sawing machine in the width direction is reduced, and the occupied area of the sawing machine can be reduced;

(3) the mechanism of the utility model uses the steel wire rope to pull the saw cutting table, has simple structure and strong aluminum scrap pollution resistance; is particularly suitable for full-automatic numerical control saw cutting of a precision sawing machine.

Drawings

Other features, objects and advantages of the utility model will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of a double-sawing-table turnover mechanism of the novel sawing machine;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a drawing schematic diagram of the sawing station;

FIG. 4 is a cross-sectional view A-A of FIG. 3;

FIG. 5 is an enlarged partial schematic view of FIG. 4;

FIG. 6 is a schematic diagram of the lateral movement of the sawing table;

FIG. 7 is a cross-sectional view A-A of FIG. 6;

in the figure: the automatic sawing machine comprises a steel wire rope tensioning device 1, a steel wire rope 2, a traction trolley 3, a sawing table I4, a steel wire rope driving device 5, a sawing table rail 6, a transverse moving trolley I7, a trolley rail 8, a transverse moving chain 9, a driving chain wheel 10, a sawing table II11, a transverse moving driving device 12 and a transverse moving trolley II 13.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the utility model, but are not intended to limit the utility model in any way. It should be noted that variations and modifications can be made by persons skilled in the art without departing from the spirit of the utility model. All falling within the scope of the present invention.

As shown in fig. 1-2, a novel double sawing table turnover mechanism of a sawing machine comprises a sawing table I4, a sawing table II11, a steel wire rope tensioning device 1 installed on a foundation, a traverse trolley I7, a traverse trolley II13 and a traverse driving device 12, wherein the steel wire rope tensioning device 1 is connected with a steel wire rope 2, the steel wire rope tensioning device 1 is used for tensioning the steel wire rope 2 through a cylinder pulley, the steel wire rope 2 is connected with a traction trolley 3, the traction trolley 3 can run along a sawing table rail 6 installed on the foundation under the traction of the steel wire rope 2, the traction trolley 3 is connected with a sawing table I4 or a sawing table II11, the traverse driving device 12 is connected with a driving sprocket 10, a traverse chain 9 is arranged on the driving sprocket 10, the traverse trolley I7 and the traverse trolley II13 are both fixedly connected with the traverse chain 9, and two cylinders are installed on each traverse trolley, the sawing table I4 or the sawing table II11 can be lifted from the sawing table rail 6 by means of a cylinder.

3 right-hand members of small tractor designs an upturned catcher, upturned catcher can with saw cut platform I4 or saw cut platform II11 left side down catcher lock, after small tractor's catcher and saw cut platform I or saw cut platform II's catcher lock, small tractor 3 can drag saw cut platform I4 or saw cut platform II11 and remove at saw cut platform track 6.

The middle of the saw cutting table rail 6 is provided with a gap, and the gap is used for avoiding oil cylinders on the transverse moving trolley I7 and the transverse moving trolley II 13; saw cutting platform I4 sets up a plurality of groups supporting wheel, and every group supporting wheel is two, saw cutting platform II11 with saw cutting platform I4 structure the same, saw cutting platform II11 sets up a plurality of groups supporting wheel, and every group supporting wheel is two, saw cutting platform I4 and saw cutting platform II11 homoenergetic are in the operation of saw cutting platform track 6 that has the discontinuity.

The traverse driving device 12 includes a motor reducer and a coupling, and can transmit power to the driving sprocket 10 to drive the traverse carriages I7 and II13 to perform a traverse motion.

The steel wire rope 2 is connected with a steel wire rope driving device 5, and the steel wire rope driving device 5 is structurally characterized in that a motor reducer drives a steel wire rope drum.

The trolley track 8 is used for the operation of the transverse trolley, and the transverse trolley travels back and forth on the trolley track; the trolley rails 8 are mounted on the foundation.

The number of traverse carriages can also be extended to a plurality, depending on the length of the sawing table, as will be appreciated by the person skilled in the art.

The use method of the double-sawing table turnover mechanism of the novel sawing machine is as follows:

saw cut the completion, saw cut the bench and saw cut the district and unload to saw cut bench I ejection of compact to the station of unloading of top as an example:

the first step is as follows: the steel wire rope reel in the steel wire rope driving device 1 rotates clockwise, the steel wire rope 2 pulls the traction trolley 3 to move rightwards, and the connecting hand on the traction trolley 3 is in a buckling state with the connecting hand on the sawing table I4, so that the sawing table I4 is pushed rightwards to the position shown in the figure by the traction trolley 3, and the state is shown in figures 3-5 at the moment;

the second step is that: lifting oil cylinders on the transverse trolley I7 and the transverse trolley II13 which are positioned under the sawing table I4, and lifting the sawing table I4 to separate the sawing table from the sawing table roller bed 6;

thirdly, the transverse moving driving device 12 drives the driving chain wheel 10 to rotate, and the transverse moving chain 9 on the driving chain wheel 10 transports the transverse moving trolley I7 and the transverse moving trolley II13 together with the saw cutting table I4 lifted thereon to the upper loading and unloading station;

and fourthly, after the loading and unloading station above is reached, at the moment, as shown in the states of fig. 6-7, the oil cylinders on the transverse trolley I7 and the transverse trolley II13 fall down and are separated from the contact with the sawing table I4, at the moment, the sawing table I4 falls on the foundation, and then the sawing table is manually unloaded and loaded.

The loading is completed and the sawing table enters the sawing zone to be sawed, so that the sawing table II at the unloading station below enters the sawing zone as an example:

the first step is as follows: the transverse moving driving device 12 drives the driving chain wheel 10 to rotate, and the transverse moving chain 9 on the driving chain wheel 10 moves the transverse moving trolley I7 and the transverse moving trolley II13 to be right below the sawing table II11 of the discharging station;

the second step is that: lifting oil cylinders on the transverse trolley I7 and the transverse trolley II13, and lifting the sawing table II11 to separate the sawing table from the foundation;

thirdly, the transverse moving driving device 12 drives the driving chain wheel 10 to rotate, and the transverse moving chain 9 on the driving chain wheel 10 transports the transverse moving trolley I7 and the transverse moving trolley II13 together with the saw cutting table II11 lifted on the transverse moving trolley I3878 to the middle position;

fourthly, the oil cylinders on the transverse trolley I7 and the transverse trolley II13 fall down, the sawing table II11 just falls on the sawing table roller table 6 at the moment, and a catcher on the left side of the sawing table II11 is buckled with a catcher on the traction trolley 3;

fifthly, the steel wire rope reel in the steel wire rope driving device 5 rotates anticlockwise, the steel wire rope 2 moves the traction trolley 3 leftwards, the sawing table II11 is pulled leftwards by the traction trolley 3 to the sawing area and then stops, and then the sawing machine performs sawing.

The above only describes that the sawing station I4 moves out of the sawing zone and the sawing station II11 moves into the sawing zone, and the process that the sawing station II11 moves out of the sawing zone is similar to the process that the sawing station I4 moves into the sawing zone, and the processes are not described one by one.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the utility model.

Claims (8)

1. The utility model provides a novel two saws of sawing machine cut platform turnover mechanism, a serial communication port, including saw cutting platform I, saw cutting platform II, install wire rope tension device, sideslip dolly I, sideslip dolly II and sideslip drive arrangement on the ground, wire rope tension device connects wire rope, wire rope connects the trailer wagon, the trailer wagon can be under wire rope's the traction along installing the track operation of saw cutting platform on the ground, saw cutting platform I or saw cutting platform II can be connected to the trailer wagon, sideslip drive arrangement connects drive sprocket, the last sideslip chain that is provided with of drive sprocket, sideslip dolly I and sideslip dolly II all with sideslip chain fixed connection, install two hydro-cylinders on every sideslip dolly, can lift saw cutting platform I or saw cutting platform II from saw cutting platform track through the hydro-cylinder.

2. The novel double-sawing-table turnover mechanism of the sawing machine as claimed in claim 1, wherein an upward-facing catcher is designed at the right end of the traction trolley, the upward-facing catcher can be buckled with the catcher with the left side of the sawing table I or the sawing table II facing downward, and after the catcher of the traction trolley is buckled with the catcher of the sawing table I or the sawing table II, the traction trolley can drag the sawing table I or the sawing table II to move on the sawing table rail.

3. The novel dual sawing table turnover mechanism of sawing machine as claimed in claim 1, wherein there is a break in the middle of the sawing table rail, where the break is used to avoid the oil cylinders on the traverse trolley I and the traverse trolley II.

4. The novel double-sawing-table turnover mechanism of the sawing machine as claimed in claim 3, wherein the sawing table I is provided with a plurality of sets of two support wheels, the sawing table II is provided with a plurality of sets of two support wheels, and both the sawing table I and the sawing table II can run on the sawing table rail with a break.

5. The dual table transfer mechanism of the novel sawing machine of claim 1 wherein the traverse drive means comprises a motor reducer and a coupling.

6. The dual table transfer mechanism of sawing machine as claimed in claim 1 wherein said wire rope is connected to a wire rope drive device configured to drive a wire rope drum by a motor reducer.

7. The novel double-sawing-table turnover mechanism of the sawing machine as claimed in claim 1, wherein the steel wire rope tensioning device is used for tensioning the steel wire rope by pulling a pulley through an oil cylinder.

8. The double sawing table turnover mechanism of the novel sawing machine as claimed in claim 1, wherein the number of the traverse trolleys can be expanded into a plurality according to the length of the sawing table.

Images