CN220006793U

CN220006793U - Clamping sizing mechanism applied to aluminum alloy profile punching and sawing equipment

Info

Publication number: CN220006793U
Application number: CN202321137812.1U
Authority: CN
Inventors: 洪争四
Original assignee: Shaanxi Simi Door And Window Co ltd
Current assignee: Shaanxi Simi Door And Window Co ltd
Priority date: 2023-05-11
Filing date: 2023-05-11
Publication date: 2023-11-14
Anticipated expiration: 2033-05-11

Abstract

The utility model discloses a clamping and sizing mechanism applied to aluminum alloy section bar punching and sawing equipment, which comprises the following components: an axial positioning module; the punching clamping assembly is arranged on the axial positioning module and used for clamping or loosening the punching station aluminum alloy locking strip profile; the cutting clamping assembly is arranged on the axial positioning module and positioned at the left side or the right side of the punching clamping assembly and used for clamping or loosening the aluminum alloy wire pressing section of the cutting station; and the material blocking assembly is arranged on the axial positioning module and positioned at the front side or the rear side of the punching clamping assembly and the cutting clamping assembly and used for blocking and positioning or yielding the required cutting profile. Corresponding work materials are automatically clamped and loosened through the punching clamping assembly and the cutting clamping assembly, and the movable axial positioning module is combined, so that automatic feeding can be realized, and compared with manual feeding, the machining precision and the machining efficiency are improved.

Description

Clamping sizing mechanism applied to aluminum alloy profile punching and sawing equipment

Technical Field

The utility model relates to the technical field of door and window processing equipment, in particular to a clamping and sizing mechanism applied to aluminum alloy section bar punching and sawing equipment.

Background

With the development of society, the labor cost of enterprises is higher, and a plurality of enterprises are continuously searching for production equipment with higher automation degree, more complete functions and lower labor cost for reducing the production cost, so that the mechanical automation gradually replaces the manual labor.

In the door and window aluminum alloy profile processing industry, the degree of automation is also higher and higher, for example, a sawing and punching device disclosed in CN116021289A combines sawing and punching which are separately finished in the traditional process to a whole machine, and sequentially performs the working procedures of punching, end face punching, cutting and the like of the door and window profile on the device, so that the processing mode of manual cutting, end face punching and end face milling is replaced, the cost and labor intensity are reduced, and the production efficiency is improved. However, the automation degree or the function of the equipment is further improved, for example, the axial positioning module is used for sizing, the profile is cut or punched through manual feeding, the profile cannot be automatically clamped (clamped) and fed, the working efficiency is relatively low, and certain deviation exists in the dimensional accuracy. There is a need for an automated mechanism that replaces manual feeding and manual control of material size, thereby greatly improving machining accuracy and efficiency.

Disclosure of Invention

Accordingly, the present utility model provides a clamping sizing mechanism for use in an aluminum alloy profile sawing apparatus to address one or more of the problems described above.

In order to achieve the above object, the present utility model provides the following technical solutions:

be applied to centre gripping sizing mechanism of aluminum alloy ex-trusions towards saw cutting equipment, include:

an axial positioning module; the axial positioning module comprises a mounting plate, a longitudinal linear slide rail, a rack, a bottom plate, a motor, a speed reducer and a gear, wherein the longitudinal linear slide rail and the rack are fixed on the mounting plate in parallel, the bottom plate is arranged on the longitudinal linear slide rail in a sliding manner, the motor is connected with the speed reducer and is fixed on the mounting plate, the gear is fixed on an output shaft of the speed reducer, and the gear is meshed with the rack; the axial positioning module further comprises a right-angle seat and a fixing plate, wherein the right-angle seat is fixed on the bottom plate, one end of the fixing plate is fixed on a vertical plate of the right-angle seat, the vertical plate of the right-angle seat is vertical to the bottom plate and parallel to the longitudinal linear sliding rail, the fixing plate is vertical to the bottom plate and the vertical plate of the right-angle seat respectively, and a space is arranged between the fixing plate and the bottom plate;

the punching clamping assembly is arranged on the axial positioning module and used for clamping or loosening the punching station aluminum alloy locking strip profile; the punching clamping assembly comprises a punching material clamping cylinder, a rigid plate, a punching material clamping head and a punching material inductor, wherein the punching material clamping cylinder is arranged on the front side of the fixed plate, the telescopic end of the punching material clamping cylinder is arranged downwards, the rigid plate is fixed at the bottom of the telescopic end of the punching material clamping cylinder, the punching material clamping head is fixed at the bottom of the rigid plate, and the punching material inductor is arranged on the bottom plate and is indirectly connected with the punching material clamping cylinder in a control manner;

the cutting clamping assembly is arranged on the axial positioning module and positioned at the left side or the right side of the punching clamping assembly and used for clamping or loosening the aluminum alloy wire pressing section of the cutting station; the cutting clamping assembly comprises a transverse clamping cylinder, a transverse clamping head, a vertical clamping cylinder, a vertical clamping head and a cutting material sensor, wherein the transverse clamping cylinder is fixed on the bottom plate, the telescopic end of the transverse clamping cylinder faces towards the vertical plate, the transverse clamping head is fixed on the telescopic end of the transverse clamping cylinder, the vertical clamping cylinder is fixed on the fixed plate, the vertical plate or a bent plate seat fixedly connected between the fixed plate and the vertical plate, the telescopic end of the vertical clamping cylinder faces towards the bottom plate, the vertical clamping head is fixed on the telescopic end of the vertical clamping cylinder, and the cutting material sensor is arranged on the bottom plate and is indirectly connected with the transverse clamping cylinder and the vertical clamping cylinder in a control manner;

and the material blocking assembly is arranged on the axial positioning module and positioned at the front side or the rear side of the punching clamping assembly and the cutting clamping assembly and used for blocking and positioning or yielding the required cutting profile.

Further, keep off material subassembly includes vertical linear slide rail, striker plate, connecting block and keeps off the material jar, vertical linear slide rail slidable set up in the rear side of fixed plate, the striker plate is fixed in the rear side of vertical linear slide rail, the connecting block is fixed in the front side lower extreme of striker plate, keep off the material jar is fixed in the rear side of fixed plate, the flexible end orientation that keeps off the material jar the bottom plate, the flexible end that keeps off the material jar with the connecting block rigid coupling.

The utility model has the following advantages:

the punching clamping assembly is added on the existing axial positioning module, so that the punching station aluminum alloy locking strip profile can be clamped or loosened, the cutting clamping assembly is added, the cutting station aluminum alloy line pressing profile can be clamped or loosened, the material blocking assembly is improved, and the required cutting profile can be blocked, positioned or abducted; corresponding work materials are automatically clamped and loosened through the punching clamping assembly and the cutting clamping assembly, and the movable axial positioning module is combined, so that automatic feeding can be realized, and compared with manual feeding, the machining precision and the machining efficiency are improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments may be derived from the drawings provided without undue effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the utility model, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present utility model, should fall within the scope of the utility model.

Fig. 1 is a schematic structural diagram of a clamping and sizing mechanism applied to an aluminum alloy profile sawing device according to an embodiment of the present utility model.

In the figure: the device comprises a 1-bottom plate, a 2-transverse clamping cylinder, a 3-transverse clamping head, a 4-punching inductor, a 5-fixed plate, a 6-punching clamping cylinder, a 7-rigid plate, an 8-punching clamping head, a 9-material blocking cylinder, a 10-bent plate seat, a 11-reinforcing plate, a 12-vertical clamping cylinder, a 13-vertical linear sliding rail, a 14-vertical clamping head, a 15-right angle seat, a 16-motor, a 17-speed reducer, a 18-adjusting plate, a 19-connecting seat plate, a 20-adjusting screw, a 21-gear, a 22-rack, a 23-cutting inductor, a 24-carriage, a 25-limiting column, a 26-connecting block, a 27-longitudinal linear sliding rail, a 28-mounting plate and a 29-material blocking plate.

Detailed Description

Other advantages and advantages of the present utility model will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The terms such as "upper", "lower", "left", "right", "middle" and the like are also used in the present specification for convenience of description, but are not intended to limit the scope of the present utility model, and the changes or modifications of the relative relationship thereof are considered to be within the scope of the present utility model without substantial modification of the technical content.

As shown in fig. 1, the present embodiment provides a clamping sizing mechanism applied to an aluminum alloy section bar sawing device, and replaces an axial positioning module in the sawing and punching device (CN 116021289 a), which can be said to be an improvement of the axial positioning module in the sawing and punching device, including an axial positioning module, a punching clamping assembly, a cutting clamping assembly and a material blocking assembly.

The axial positioning module is provided with a fixing part and a moving part, wherein the fixing part is fixed on an equipment frame of sawing and punching equipment, and the moving part can move on the fixing part along the front-back direction. In this embodiment, "front and rear" is defined by the moving direction of the moving portion, wherein "front" is defined by the side closer to the reader in the structure shown in fig. 1.

The punching clamping assembly is arranged on the axial positioning module, is electrically connected with the electric control module of the sawing and punching equipment, and is used for clamping or loosening the punching station aluminum alloy locking strip profile.

The cutting clamping assembly is arranged on the axial positioning module and is positioned on the left side or the right side of the punching clamping assembly, and is electrically connected with the electric control module of the sawing and punching equipment, so as to clamp or loosen the aluminum alloy wire pressing section of the cutting station.

The stop assembly replaces the limiting plate of the axial positioning module of the sawing and punching device, is arranged on the axial positioning module and is positioned at the rear side (front and rear direction can be also positioned at the front side if the front and rear directions are opposite according to the front and rear directions defined in the embodiment) of the punching clamping assembly and the cutting clamping assembly, and is electrically and electrically connected with the electric control module of the sawing and punching device for blocking and positioning or abdicating the needed cut sectional materials.

The punching clamping assembly is added on the existing axial positioning module, so that the punching station aluminum alloy lock bar profile can be clamped or loosened, the cutting clamping assembly is added, the cutting station aluminum alloy line pressing profile can be clamped or loosened, the material blocking assembly (a limiting plate in the prior art and the limiting plate is fixed) is improved, and the required cutting profile can be blocked and positioned (the function of the existing limiting plate) or is not blocked after the material blocking plate 29 is lifted, so that the cutting clamping assembly has the function of yielding or avoiding work materials and is called yielding); corresponding work materials are automatically clamped and loosened through the punching clamping assembly and the cutting clamping assembly, and the movable axial positioning module is combined, so that automatic feeding can be realized, and compared with manual feeding, the machining precision and the machining efficiency are improved; the automatic feeding and sizing device is applied to sawing and punching equipment (CN 116021289A), is controlled by an electric control module, and has two sizing modes of automatic feeding sizing and baffle sizing, wherein the baffle sizing function is realized by matching an axial positioning module with a blocking component and the automatic feeding (sizing automatic feeding) is realized by matching an axial positioning module with a punching clamping component or a cutting clamping component.

In this embodiment, the axial positioning module includes a mounting plate 28, a longitudinal linear rail 27, a rack 22, a base plate 1, a motor 16, a decelerator 17, a gear 21, a right angle seat 15, a fixing plate 5, a bent plate seat 10, and a reinforcing plate 11. The mounting plate 28 is generally fixed on an equipment bracket of sawing and punching equipment, or a surface working plate or a working table of the equipment bracket can be directly adopted, the longitudinal linear sliding rail 27 and the rack 22 are fixed on the mounting plate 28 in parallel, the bottom plate 1 is arranged on the longitudinal linear sliding rail 27 in a sliding way, the motor 16 is connected with the speed reducer 17 and fixed on the mounting plate 28, the motor 16 is electrically connected with an electric control module of the sawing and punching equipment, the gear 21 is controlled by the electric control module and fixed on an output shaft of the speed reducer 17, the gear 21 is meshed with the rack 22, the right-angle seat 15 is fixed on the bottom plate 1, one end of the fixing plate 5 is fixed on a vertical plate of the right-angle seat 15, the vertical plate of the right-angle seat 15 is vertical to the bottom plate 1 and parallel to the longitudinal linear sliding rail 27, the fixing plate 5 is vertical to the vertical plates of the bottom plate 1 and the right-angle seat 15 respectively, a space is arranged between the fixing plate 5 and the bottom plate 1, the bending plate seat 10 is fixedly connected between the fixing plate 5 and the vertical plate, an up-down transparent mounting space (a vertical clamping cylinder 12 is formed between the fixing plate and the fixing plate 5).

Optionally or preferably, the speed reducer 17 is fixed on the bottom plate 1 through a connecting seat plate 19, the speed reducer and the bottom plate are connected through bolts and waist-shaped holes, an adjusting plate 18 is also fixed on the bottom plate 1, the adjusting plate 18 is in spiral connection with an adjusting screw rod 20, the end part of the adjusting screw rod 20 abuts against the connecting seat plate 19, and the position of the connecting base can be finely adjusted by rotating the adjusting screw rod 20, so that the gap between the gear 21 and the rack 22 is adjusted; in addition, gap adjusting structures in sawing and punching equipment disclosed in CN116021289a may also be employed; since the adjustment structure of the engagement gap is relatively common in the prior art, it will not be described in detail here.

In this embodiment, the punch clamping assembly includes a punch clamping cylinder 6, a rigid plate 7, a punch clamping head 8, and a punch inductor 4. The punching material clamping cylinder 6 is arranged on the front side of the fixed plate 5, the telescopic end of the punching material clamping cylinder 6 is arranged downwards, the rigid plate 7 is fixed at the bottom of the telescopic end of the punching material clamping cylinder 6, the punching material clamping head 8 is fixed at the bottom of the rigid plate 7, the punching material inductor 4 is arranged on the bottom plate 1 and is electrically connected with an electric control module of sawing and punching equipment, and the electric control module is electrically connected with the punching material clamping cylinder 6, so that the punching material inductor 4 is indirectly controlled and connected with the punching material clamping cylinder 6.

Optionally or preferably, a carriage 24 is further arranged on the bottom plate 1, the carriage 24 is located below the punching material clamping head 8, a plurality of limiting columns 25 are arranged on the carriage 24, and the position relationship of the limiting columns 25 corresponds to the punched holes (or limiting holes) on the work material.

In this embodiment, the cutting clamping assembly includes a horizontal clamping cylinder 2, a horizontal clamping head 3, a vertical clamping cylinder 12, a vertical clamping head 14 and a cutting material sensor 23, the horizontal clamping cylinder 2 is fixed on the bottom plate 1, and the telescopic end of the horizontal clamping cylinder 2 faces the vertical plate, the horizontal clamping head 3 is fixed on the telescopic end of the horizontal clamping cylinder 2, the vertical clamping cylinder 12 is fixed on the fixed plate 5, the vertical plate or the bent plate seat 10 fixedly connected between the fixed plate 5 and the vertical plate, the telescopic end of the vertical clamping cylinder 12 faces the bottom plate 1, the vertical clamping head 14 is fixed on the telescopic end of the vertical clamping cylinder 12, the cutting material sensor 23 is arranged on the bottom plate 1 and electrically connected with an electric control module of sawing and punching equipment, and the electric control module is electrically connected with the horizontal clamping cylinder 2 and the vertical clamping cylinder 12, so the cutting material sensor 23 is indirectly controlled and connected with the horizontal clamping cylinder 2 and the vertical clamping cylinder 12.

In this embodiment, the material blocking assembly includes a vertical linear slide rail 13, a material blocking plate 29, a connecting block 26 and a material blocking cylinder 9, where the vertical linear slide rail 13 is slidably disposed on the rear side of the fixed plate 5, the material blocking plate 29 is fixed on the rear side of the vertical linear slide rail 13, the connecting block 26 is fixed on the lower end of the front side of the material blocking plate 29, the material blocking cylinder 9 is fixed on the rear side of the fixed plate 5, the telescopic end of the material blocking cylinder 9 faces the bottom plate 1, and the telescopic end of the material blocking cylinder 9 is fixedly connected with the connecting block 26.

The clamping sizing mechanism provided by the embodiment has the advantages that the punching clamping assembly is added on the existing axial positioning module, the punching station aluminum alloy lock bar profile can be clamped or loosened, the cutting clamping assembly is added, the cutting station aluminum alloy line pressing profile can be clamped or loosened, the blocking assembly (a limiting plate in the prior art and the limiting plate are fixed) is improved, blocking positioning (the action of the existing limiting plate) or abdicating (the blocking plate 29 does not block after lifting) can be performed on the required cutting profile, the abdicating or abdicating function is realized, the corresponding work material is automatically clamped and loosened, and the automatic feeding can be realized by combining with the movable axial positioning module, so that the processing precision and the processing efficiency are improved compared with manual feeding.

After the aluminum alloy wire pressing section to be cut enters the clamping sizing mechanism, a cutting material sensor 23 senses that materials enter, a vertical clamping cylinder 12 and a horizontal clamping cylinder 2 are synchronously started, a vertical clamping head 14 and a horizontal clamping head 3 are respectively driven to clamp the materials, then a motor 16 is started, a driving gear 21 rotates to drive a bottom plate 1 to slide along a longitudinal linear sliding rail 27, after the materials are sent to a cutting station of the device, the motor 16 stops running, the cutting station firstly cuts the materials, then the motor 16 is started again to send the materials for a specified length and then stops, the cutting station completes cutting the materials, all the clamping mechanisms are in a clamping state in the process until all the effective cutting parts of the whole materials are cut, the clamping mechanism is loosened, the motor 16 drives the bottom plate 1 to stop at a certain position, at the moment, a material blocking cylinder 9 drives a material blocking plate 29 to descend, then the motor 16 is started, the bottom plate 1 is driven to advance until the material blocking plate 29 is tightly combined with the end face of the materials, the materials continue to stop after the specified length is sent, the cutting station starts to cut the materials, the materials are tailed, after the tailed is completed, the motor 16 is started, and the driving position is repeatedly set to wait for the next driving position to move back after the tailed materials are completed.

When the aluminum alloy locking bar profile to be cut enters the clamping sizing mechanism, a punching material sensor 4 senses that a material enters, a punching material clamping cylinder 6 is started to drive a punching material clamping head 8 to clamp the material, then a motor 16 is started, a driving gear 21 rotates, so that a bottom plate 1 is driven to slide along a longitudinal linear sliding rail 27, the motor 16 stops running after the material is sent to a punching station of the equipment, the material is firstly subjected to head cutting treatment by the cutting station, then the motor 16 is started again, and the material is sent out for a specified length and then stopped; the punching station is used for finishing punching the material, the motor 16 is started after punching is finished, feeding is stopped after the material reaches a set length, the punching station is used for finishing punching … … on the material, the punching material clamping cylinder 6 is always in a clamping state in the process until the whole effective cutting part of the material is finished, the punching material clamping cylinder 6 is loosened, the motor 16 drives the bottom plate 1 to retreat to a certain position to stop, at the moment, the material blocking cylinder 9 drives the material blocking plate 29 to descend, then the motor 16 is started, the bottom plate 1 is driven to advance until the material blocking plate 29 is tightly cut with the end face of the material and continuously advances until the material is conveyed to the set length and stops, the cutting station is started for cutting and removing the tail of the material, then the punching station is started for finishing punching the material, after punching is finished, the motor 16 is started, the bottom plate 1 is driven to retreat to the set position and the above actions are repeated after the next material enters.

While the utility model has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the utility model and are intended to be within the scope of the utility model as claimed.

Claims

1. Be applied to centre gripping sizing mechanism of aluminum alloy ex-trusions punching saw cutting equipment, characterized in that includes:

an axial positioning module;

the punching clamping assembly is arranged on the axial positioning module and used for clamping or loosening the punching station aluminum alloy locking strip profile;

the cutting clamping assembly is arranged on the axial positioning module and positioned at the left side or the right side of the punching clamping assembly and used for clamping or loosening the aluminum alloy wire pressing section of the cutting station;

the material blocking assembly is arranged on the axial positioning module and positioned at the front side or the rear side of the punching clamping assembly and the cutting clamping assembly and used for blocking and positioning or giving way to the required cut profile;

the axial positioning module comprises a mounting plate, a longitudinal linear slide rail, a rack, a bottom plate, a motor, a speed reducer and a gear, wherein the longitudinal linear slide rail and the rack are fixed on the mounting plate in parallel, the bottom plate is arranged on the longitudinal linear slide rail in a sliding manner, the motor is connected with the speed reducer and is fixed on the mounting plate, the gear is fixed on an output shaft of the speed reducer, and the gear is meshed with the rack;

the axial positioning module further comprises a right-angle seat and a fixing plate, wherein the right-angle seat is fixed on the bottom plate, one end of the fixing plate is fixed on a vertical plate of the right-angle seat, the vertical plate of the right-angle seat is vertical to the bottom plate and parallel to the longitudinal linear sliding rail, the fixing plate is vertical to the bottom plate and the vertical plate of the right-angle seat respectively, and a space is arranged between the fixing plate and the bottom plate;

the punching clamping assembly comprises a punching material clamping cylinder, a rigid plate, a punching material clamping head and a punching material inductor, wherein the punching material clamping cylinder is arranged on the front side of the fixed plate, the telescopic end of the punching material clamping cylinder is arranged downwards, the rigid plate is fixed at the bottom of the telescopic end of the punching material clamping cylinder, the punching material clamping head is fixed at the bottom of the rigid plate, and the punching material inductor is arranged on the bottom plate and is indirectly connected with the punching material clamping cylinder in a control manner;

the cutting clamping assembly comprises a transverse clamping cylinder, a transverse clamping head, a vertical clamping cylinder, a vertical clamping head and a cutting material inductor, wherein the transverse clamping cylinder is fixed on the bottom plate, the telescopic end of the transverse clamping cylinder faces the vertical plate, the transverse clamping head is fixed on the telescopic end of the transverse clamping cylinder, the vertical clamping cylinder is fixed on the fixed plate or the vertical plate, the telescopic end of the vertical clamping cylinder faces the bottom plate, the vertical clamping head is fixed on the telescopic end of the vertical clamping cylinder, and the cutting material inductor is arranged on the bottom plate and is indirectly connected with the transverse clamping cylinder and the vertical clamping cylinder in a control mode.

2. The clamping sizing mechanism of claim 1, wherein the material blocking assembly comprises a vertical linear slide rail, a material blocking plate, a connecting block and a material blocking cylinder, wherein the vertical linear slide rail is slidably arranged on the rear side of the fixed plate, the material blocking plate is fixed on the rear side of the vertical linear slide rail, the connecting block is fixed on the lower end of the front side of the material blocking plate, the material blocking cylinder is fixed on the rear side of the fixed plate, the telescopic end of the material blocking cylinder faces the bottom plate, and the telescopic end of the material blocking cylinder is fixedly connected with the connecting block.