CN214109532U

CN214109532U - Multi-station section processing device

Info

Publication number: CN214109532U
Application number: CN202023158916.XU
Authority: CN
Inventors: 陶强; 臧新海; 范春杰; 范小满; 秦翰文; 赵延明; 刘丛波; 王国防
Original assignee: Weifang Xinao Machinery Co ltd
Current assignee: Weifang Xinao Machinery Co ltd
Priority date: 2020-12-24
Filing date: 2020-12-24
Publication date: 2021-09-03
Anticipated expiration: 2030-12-24

Abstract

The utility model discloses a multi-station section bar processing device, which comprises a frame, wherein a processing platform for the longitudinal operation of the section bar is arranged on the frame, the machine frame is connected with a sliding frame which is driven by a first power machine to vertically slide, the sliding frame is provided with two cutting seats which are arranged at intervals up and down, the two cutting seats are correspondingly connected with cutting blades which are driven by a cutting motor and arranged at a set included angle with the operation direction of the section bar, the projections of the two cutting blades in a overlooking state are arranged in a vertical state, a cutting groove for the cutting blades to pass through is arranged on the processing platform, the machine frame is provided with a positioning and pressing mechanism, the machine frame is also provided with a drilling mechanism which is positioned at one side of the processing platform and can drill the clamped section, the processing platform is also connected with a clamping mechanism and a flow guide pressing mechanism which are arranged at intervals in the front and back, and a punching mechanism positioned between the clamping mechanism and the flow guide pressing mechanism is arranged on the processing platform. The utility model has the advantages of labor efficiency is high, machining precision is high.

Description

Multi-station section processing device

Technical Field

The utility model belongs to section bar processing equipment field specifically is a multistation section bar processingequipment.

Background

In the door and window processing industry, the sash materials (including frames, mullions and the like) of doors and windows need to be cut, punched and the like. When doors and windows are machined in existing factories, automatic sawing machines are mostly adopted for blanking, after the cutting is finished, drilling is carried out by using drilling machines, the lower bottom edges of the doors and windows are punched (water flowing holes), and finally the doors and windows are assembled. The operation of clamping and processing for multiple times not only has low labor efficiency, but also is easy to cause the problem of processing error caused by non-uniform positioning for multiple times, and has great influence on the assembly procedure in the later period.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a multistation section bar processingequipment, can high-efficient saw cutting, drilling and the process of punching a hole simultaneously of realizing the section bar to in improving labor efficiency, improve the machining precision.

In order to solve the technical problem, the utility model provides a multistation section bar processingequipment, including the frame, be equipped with the processing platform that supplies the section bar to vertically move in the frame, its structural feature is: the frame is connected with a sliding frame which is driven by a first power machine to vertically slide, two saw cutting seats which are arranged at an upper interval and a lower interval are arranged on the sliding frame, the two saw cutting seats are correspondingly connected with cutting blades which are driven by a saw cutting motor and are arranged at a set included angle with the operation direction of a section bar, the projection of the two cutting blades in a overlooking state is arranged in a vertical state, a cutting groove for the cutting blades to pass is formed in the processing platform, a positioning and pressing mechanism is arranged on the frame, a drilling mechanism which is positioned on one side of the processing platform and can drill the clamped section bar is also arranged on the frame, a clamping mechanism and a flow guide and pressing mechanism which are arranged at a front interval and a rear interval are also connected on the processing platform, and a punching mechanism which is positioned between the clamping mechanism and the flow guide and pressing mechanism is arranged on the processing platform.

After the structure is adopted, the section bar longitudinally runs on the processing platform, after the section bar runs to a proper position, the section bar is pressed and positioned by the pressing and positioning mechanism, the sliding frame slides under the driving of the power of the first power machine, the cutting blade of one of the cutting seats cuts the section bar, the end surface of the section bar has a certain inclination angle, the later assembly is convenient, meanwhile, the drilling mechanism drills the section bar, the two procedures of saw cutting and drilling are realized, after the clamping mechanism and the guide pressing mechanism clamp the section bar, the punching mechanism punches the section bar, the complete processing of the section bar is further completed, after the saw cutting is completed, the front end surface of the rear section bar meets the requirement, after the section bar continuously runs forwards, the sliding frame reversely slides under the driving of the first power machine when the next section bar is saw cut, and the rear end surface of the next section bar is just vertical to the front end surface, the sawing requirement of the sectional material is met, and the working efficiency is greatly improved.

The positioning and pressing mechanism comprises two pressing seats which are connected to the rack and arranged at intervals in the front-back direction, the pressing seats are connected to the rack in a sliding mode and driven by the power of a pressing power machine to slide up and down, and a pressing plate which can be matched with the upper surface of the machining platform to press the profile is arranged at the top of each pressing seat.

The processing platform is provided with a vertical plate for the profile to lean against and slide, the rack is also connected with an extrusion plate corresponding to the pressing seat, the extrusion plate is driven by an extrusion power machine connected to the rack to slide transversely, and the extrusion plate can be matched with the vertical plate to form a sliding groove for the profile to slide after sliding transversely.

The drilling mechanism comprises a lower sliding seat which is connected to the rack and is driven by a first drilling power machine to slide transversely, an upper sliding seat which is driven by a second drilling power machine to slide longitudinally is connected to the lower sliding seat, a drilling seat which is driven by a third drilling power machine to slide vertically is connected to the upper sliding seat, and a drilling motor is arranged on the drilling seat.

The sliding frame is connected to the rack in a sliding mode through a matching structure of the sliding block and the sliding rail, a power screw rod driven by a first power machine to rotate is connected to the rack in a rotating mode, and a nut in threaded connection with the power screw rod is mounted on the sliding frame.

The frame is equipped with the support frame that upwards stretches out, the slip frame sets up in one side of support frame, and the opposite side sliding connection of support frame has the balancing weight, is connected with the fixed pulley on the support frame, be connected with the connection rope that bypasses the fixed pulley between balancing weight and the slip frame.

The guide pressing mechanism comprises a translation roller and a calm roller which are connected to the front portion of the processing platform and are transversely arranged oppositely, a section channel penetrates through the translation roller and the calm roller, a translation cylinder capable of pushing the translation roller to the calm roller is connected to the processing platform, an upper moving roller and a lower calm roller which are vertically arranged oppositely are further mounted on the front portion of the processing platform, the section channel penetrates through the upper moving roller and the lower calm roller, and a vertical moving cylinder capable of pushing the upper moving roller to the lower calm roller is connected to the processing platform.

The processing platform is provided with a vertical plate for the profile to lean against and slide, the clamping mechanism comprises a clamping plate connected to the processing platform in a sliding manner, the clamping plate is driven by a compression power machine connected to the rack to slide transversely, and the clamping plate can be matched with the vertical plate to clamp the profile after sliding transversely.

The punching mechanism comprises a punching platform connected to a processing platform, an upper punching die which is vertically arranged and driven by a punching power machine to move up and down is arranged on the punching platform, a lower punching die which is positioned below the upper punching die is connected to the processing platform, and an adjusting device used for adjusting the position of the punching platform is also connected to the processing platform.

The adjusting device comprises a punching sliding seat which is transversely connected to the machining platform in a sliding mode, the punching platform is connected to the punching sliding seat, and a punching sliding power machine which drives the punching sliding seat to slide is arranged on the machining platform.

To sum up, the utility model has the advantages of labor efficiency is high, machining precision is high.

Drawings

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

FIG. 1 is a schematic view of a profile being machined;

fig. 2 is a schematic structural diagram of an embodiment of the present invention;

FIG. 3 is a schematic top view of FIG. 2;

FIG. 4 is a schematic view of the left side view of FIG. 2;

fig. 5 is a schematic perspective view of the embodiment of fig. 2.

Detailed Description

Referring to fig. 1, when a profile 100 is used as a door and window material to be sawed, dotted lines in fig. 1 are cutting lines, that is, a section of a fixed length of the profile needs to be cut into several sections of door and window materials, in the cutting process, the door and window materials with end faces having an included angle of 45 degrees need to be cut, the included angles of the two end faces of the door and window materials are arranged in opposite directions, most of the existing methods are to saw a section, then turn over the profile, then saw cut, additionally, drill holes at circles of dotted lines in the figure, and punch holes at the dotted lines, and the punched holes are used as drain holes, so that multiple clamping processing is needed.

Referring to fig. 2 to 5, the present invention provides an embodiment of a multi-station section processing apparatus, for convenience of description, the front and rear positions of the embodiment are defined by the left and right positions in fig. 2, the section moves from the right side to the left side in the figure, i.e., moves forward, and the following connection and installation can be understood as direct connection and also as indirect connection, which means connection or installation between two components can be performed through an intermediate component. The embodiment provides a multi-station section processing device, which comprises a frame 1, wherein the frame 1 can adopt a structure in a figure or other shapes, and has a supporting function, and is not limited to the specific structure in the figure, a processing platform 10 for the longitudinal operation of the section is arranged on the frame 1, a sliding frame 2 driven by a first power machine to vertically slide is connected on the frame 1, two sawing seats 3 arranged at an upper and lower interval are arranged on the sliding frame 2, cutting blades 4 driven by a sawing motor and arranged at a set included angle with the operation direction of the section are correspondingly connected on the two sawing seats 3, the projection of the two cutting blades 4 in a overlooking state is arranged in a vertical state, cutting grooves for the cutting blades to pass through are arranged on the processing platform 10, when the first power machine is driven, the sliding frame 2 slides up and down, and the state in the figure is that the lower cutting blade works, of course, after the sliding frame slides downwards, the cutting blade 4 above can slide downwards, and the cutting blade above can saw the section bar. In this embodiment, the sliding frame 2 is slidably connected to a frame through a matching structure of a sliding block and a sliding rail, the frame is rotatably connected with a power screw 13 driven by a first power machine to rotate, and the sliding frame 2 is provided with a nut screwed with the power screw. The frame 1 is equipped with the support frame that upwards stretches out, the slip frame sets up in one side of support frame, and the opposite side sliding connection of support frame has balancing weight 14, is connected with fixed pulley 15 on the support frame, be connected with the connection rope that walks around the fixed pulley between balancing weight 14 and the slip frame. The structure setting of above-mentioned fixed pulley and balancing weight can make the slip of sliding frame more smooth and easy, reduces power take off and makes the location more accurate.

Referring to fig. 2 to 5, in order to more accurately position the profile, a positioning and pressing mechanism is mounted on the frame 1, the positioning and pressing mechanism includes two pressing seats 5 connected to the frame and spaced front and back, the pressing seats 5 are slidably connected to the frame and driven by a pressing power machine to slide up and down, and a pressing plate 6 capable of pressing the profile in cooperation with the upper surface of the processing platform is disposed at the top of the pressing seats. The processing platform 10 is provided with a vertical plate 101 for the profile to lean against and slide, the frame 1 is further connected with an extrusion plate 12 corresponding to the pressing seat, the extrusion plate 12 is driven by an extrusion power machine connected to the frame to slide transversely, and the extrusion plate can be matched with the vertical plate to form a sliding groove for the profile to slide after sliding transversely. Through the structure, the pressing in the vertical direction of the section bar can be realized, the extrusion positioning in the horizontal direction of the section bar can also be realized, and the precision in sawing and drilling is ensured.

Referring to fig. 2 to 5, a drilling mechanism which is located on one side of a processing platform 10 and can drill a clamped section bar is further installed on the machine frame 1, the drilling mechanism includes a lower sliding seat 8 which is connected to the machine frame 1 and is driven by a first drilling power machine to slide transversely, an upper sliding seat 9 which is driven by a second drilling power machine to slide longitudinally is connected to the lower sliding seat 8, a drilling seat 11 which is driven by a third drilling power machine to slide vertically is connected to the upper sliding seat 9, a drilling motor is installed on the drilling seat, the sliding fit structure can adopt a sliding fit structure of a sliding block and a sliding rail, the drilling power machine can adopt an air cylinder, a drill bit is installed on the drilling motor, and the position of the drill bit can be ensured and accurate drilling can be realized through the transverse, longitudinal and vertical movements of the mechanism.

Referring to fig. 2 to 5, the processing platform is further connected with a clamping mechanism and a flow guide pressing mechanism which are arranged at intervals in the front-back direction, and a punching mechanism located between the clamping mechanism and the flow guide pressing mechanism is mounted on the processing platform. The guide pressing mechanism comprises a translation roller 60 and a calm roller 61 which are connected with the front part of the processing platform and are transversely arranged oppositely, a section channel penetrates through the translation roller 60 and the calm roller 61, the processing platform 10 is connected with a translation cylinder 62 which can push the translation roller to the calm roller, the front part of the processing platform is also provided with an upper moving roller 63 and a lower calm roller 64 which are vertically arranged oppositely, the section channel penetrates through the translation cylinder 62 and the lower calm roller 64, the processing platform 10 is connected with a vertical cylinder 65 which can push the upper moving roller 63 to the lower calm roller 64, the structure can guide and straighten the section, the upper moving roller 63 and the lower calm roller 64 can clamp and press the rear section, and the vibration is avoided in the section bar processing process, and the processing precision is ensured. The processing platform 10 is provided with a vertical plate 101 for the profile to lean against and slide, the clamping mechanism comprises a clamping plate 26 connected to the processing platform 10 in a sliding manner, and the clamping plate 26 is driven by a pressing power machine connected to the rack to slide transversely and can be matched with the vertical plate to clamp the profile after sliding transversely. The punching mechanism comprises a punching table 21 connected to a machining platform, an upper punching die 22 which is vertically arranged and driven by a punching power machine to move up and down is arranged on the punching table 21, the punching power machine can be an oil cylinder or an air cylinder, a lower punching die 23 positioned below the upper punching die is connected to the machining platform, and an adjusting device used for adjusting the position of the punching table is further connected to the machining platform. The adjusting device comprises a punching sliding seat 24 which is transversely connected to the processing platform 10 in a sliding manner, the punching platform is connected to the punching sliding seat 24, a punching sliding power machine which drives the punching sliding seat to slide is arranged on the processing platform, the punching platform can be positioned right above the section through the power drive of the punching sliding power machine, the punching blanking effect is ensured, and in addition, when the punching function is not used, the punching platform can be far away from the section.

In the embodiment, as described with reference to fig. 2 to 5, the cutting saw blade is located approximately transversely opposite to the drilling mechanism, two positioning and pressing mechanisms are located in front of and behind the cutting saw blade, and the clamping mechanism, the flow guiding and pressing mechanism and the punching mechanism located therebetween are located behind the cutting saw blade.

The utility model discloses do not receive the restriction of above-mentioned embodiment, at this technical field personnel, based on the utility model discloses the equivalent change and the part replacement of last concrete structure are all in the protection scope of the utility model. Additionally, the utility model discloses not only can be used for saw cutting and drilling of door and window section bar, also can be used to other section bars.

Claims

1. The utility model provides a multistation section bar processingequipment, includes frame (1), is equipped with processing platform (10) that supply the section bar to vertically move in frame (1), characterized by: the machine is characterized in that a sliding frame (2) which is driven by a first power machine to vertically slide is connected to the machine frame (1), two sawing seats (3) which are arranged at an upper interval and a lower interval are arranged on the sliding frame (2), cutting blades (4) which are driven by a sawing motor and arranged at a set included angle with the operation direction of a section bar are correspondingly connected to the two sawing seats (3), the projections of the two cutting blades (4) in a overlooking state are arranged in a vertical state, and a cutting groove for the cutting blades to pass through is arranged on the processing platform (10), the machine frame (1) is provided with a positioning and pressing mechanism, the machine frame (1) is also provided with a drilling mechanism which is positioned at one side of the processing platform (10) and can drill the clamped section bar, the processing platform is also connected with a clamping mechanism and a flow guide pressing mechanism which are arranged at intervals in the front and back, and a punching mechanism positioned between the clamping mechanism and the flow guide pressing mechanism is arranged on the processing platform.

2. A multi-station profile working apparatus according to claim 1, wherein: the sliding frame (2) is connected to the rack in a sliding mode through a matching structure of a sliding block and a sliding rail, a power screw rod (13) driven by a first power machine to rotate is connected to the rack in a rotating mode, and a nut in threaded connection with the power screw rod is installed on the sliding frame (2).

3. A multi-station profile working apparatus according to claim 2, wherein: the support frame that upwards stretches out is equipped with in frame (1), the slip frame sets up in one side of support frame, and the opposite side sliding connection of support frame has balancing weight (14), is connected with fixed pulley (15) on the support frame, be connected with the connection rope that walks around the fixed pulley between balancing weight (14) and the slip frame.

4. A multi-station profile working apparatus according to claim 1, wherein: the drilling mechanism comprises a lower sliding seat (8) which is connected to the rack (1) and driven by a first drilling power machine to slide transversely, an upper sliding seat (9) which is driven by a second drilling power machine to slide longitudinally is connected to the lower sliding seat (8), a drilling seat (11) which is driven by a third drilling power machine to slide vertically is connected to the upper sliding seat (9), and a drilling motor is arranged on the drilling seat.

5. A multi-station profile working apparatus according to any one of claims 1 to 4, wherein: the positioning and pressing mechanism comprises two pressing seats (5) which are connected to the rack and arranged at intervals in the front-back direction, the pressing seats (5) are connected to the rack in a sliding mode and are driven by the power of a pressing power machine to slide up and down, and a pressing plate (6) which can be matched with the upper surface of the machining platform to press the profile is arranged at the top of each pressing seat.

6. A multi-station profile processing apparatus according to claim 5, wherein: the processing platform (10) is provided with a vertical plate (101) for the profile to lean against and slide, the rack (1) is further connected with an extrusion plate (12) corresponding to the compression seat, the extrusion plate (12) is driven by an extrusion power machine connected to the rack to slide transversely, and the extrusion plate can be matched with the vertical plate to form a sliding groove for the profile to slide after sliding transversely.

7. A multi-station profile working apparatus according to any one of claims 1 to 4, wherein: the guide pressing mechanism comprises a translation roller (60) and a calm roller (61) which are connected to the front portion of the processing platform and transversely and oppositely arranged, a profile channel penetrates through the translation roller (60) and the calm roller (61), the processing platform (10) is connected with a translation cylinder (62) capable of pushing the translation roller to the calm roller, the upper front portion of the processing platform is further provided with an upper moving roller (63) and a lower calm roller (64) which are vertically and oppositely arranged, the profile channel penetrates through the upper moving roller (63) and the lower calm roller (64), and the processing platform (10) is connected with a vertical moving cylinder (65) capable of pushing the upper moving roller (63) to the lower calm roller (64).

8. A multi-station profile working apparatus according to claim 7, wherein: the processing platform (10) is provided with a vertical plate (101) for the profile to lean against and slide, the clamping mechanism comprises a clamping plate (26) connected to the processing platform (10) in a sliding manner, the clamping plate (26) is driven by a compression power machine connected to the rack to slide transversely, and the clamping plate can be matched with the vertical plate to clamp the profile after sliding transversely.

9. A multi-station profile working apparatus according to any one of claims 1 to 4, wherein: the punching mechanism comprises a punching table (21) connected to a machining platform, an upper punching die (22) which is vertically arranged and driven by a punching power machine to move up and down is arranged on the punching table (21), a lower punching die (23) positioned below the upper punching die is connected to the machining platform, and an adjusting device used for adjusting the position of the punching table is further connected to the machining platform.

10. A multi-station profile working apparatus according to claim 9, wherein: the adjusting device comprises a punching sliding seat (24) which is transversely connected to the machining platform (10) in a sliding mode, the punching platform is connected to the punching sliding seat (24), and a punching sliding power machine which drives the punching sliding seat to slide is arranged on the machining platform.