CN220446322U - Shutter connection assembling machine tool - Google Patents

Abstract

The utility model aims to solve the technical problem of providing a shutter connection assembling machine tool, which is used for realizing synchronous opening and closing of a left longitudinal beam and a right longitudinal beam by changing the distance between the left longitudinal beam and the right longitudinal beam, adapting to shutter frame assembly with different widths and improving the applicability of equipment, and comprises a frame, wherein the left longitudinal beam and the right longitudinal beam which can move left and right are arranged on the left side and the right side of the frame, and the left longitudinal beam and the right longitudinal beam are respectively provided with a machine head; and frame positioning mechanisms are arranged on the left longitudinal beam and the right longitudinal beam.

Description

Shutter connection assembling machine tool

Technical Field

The utility model relates to the field of installation of blade frames of shutters, in particular to a shutter connecting and assembling machine tool.

Background

The shutter is formed by an outer frame and a plurality of blades, when the shutter is assembled, the blades are required to be placed in the outer frame, holes are drilled at the edge of the outer frame, and then the blades are connected to the outer frame through the holes by bolts, so that the shutter is assembled.

In order to achieve the rapidness and accuracy of assembly, a person skilled in the art starts to develop corresponding assembly equipment, fixes a frame, then places a blade on a distance adjusting module, and respectively drills and screws through an electric drilling machine and an electric screwdriver. The utility model patent with the patent application number of 2023108737655 discloses a numerical control shutter assembling machine, which is provided with equidistant adjusting modules, can automatically and equidistantly adjust the distance between each blade, supports and positions the end parts of the blades, is convenient and accurate to process, and improves the installation accuracy of the blades. However, the defect that this technique exists is that the aircraft nose is installed on controlling the longeron, and the width of controlling the longeron has influenced the frame width, because the frame width of shutter is different, leads to prior art's equipment to be unable to adapt to the regulation of shutter frame width, needs the replacement frame positioning die, the process that increases certainly.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide a shutter connection assembling machine tool, which realizes the synchronous opening and closing of a left longitudinal beam and a right longitudinal beam by changing the distance between the left longitudinal beam and the right longitudinal beam, is suitable for assembling shutter frames with different widths, and improves the applicability of equipment.

The utility model is realized by the following technical scheme:

the machine tool comprises a frame, wherein left and right side beams capable of moving left and right are arranged on the left side and the right side of the frame, and machine heads are arranged on the left side beam and the right side beam;

and frame positioning mechanisms are arranged on the left longitudinal beam and the right longitudinal beam.

Further, the frame comprises a front beam, a middle beam and a rear beam, and the front beam, the middle beam and the rear beam are connected into a whole through longitudinal beams;

the top surfaces of the front cross beam, the middle cross beam and the rear cross beam are respectively provided with a transverse sliding rail, and the bottoms of the left longitudinal beam and the right longitudinal beam are connected to the sliding rails of the top surfaces of the front cross beam, the middle cross beam and the rear cross beam in a left-right sliding manner through a sliding block base.

Further, the left end and the right end of the front cross beam and the rear cross beam are rotatably provided with rotating shafts through bearing seat assemblies, the left section and the right section of the rotating shafts are symmetrically provided with opposite threaded sections, the front end and the rear end of the left longitudinal beam are respectively provided with nuts and correspondingly connected with the threaded sections on the left side of the rotating shafts in a threaded manner, and the front end and the rear end of the right longitudinal beam are respectively provided with nuts and correspondingly connected with the threaded sections on the right side of the rotating shafts in a threaded manner.

Further, driven pulleys are fixed at the middle positions of the two rotating shafts, a synchronous belt is assembled between the two driven pulleys, a driving motor is arranged at the bottom of the frame, a driving pulley matched with the synchronous belt is installed at the output end of the driving motor, the height of the driving pulley is lower than that of the driven pulleys, two transition wheels are further arranged at the bottom of the frame, the two transition wheels are located on the front side and the rear side of the upper portion of the driving pulley and are distributed in an inverted 'article' shape, and the two transition wheels are matched with the back surface of the synchronous belt.

Further, the frame positioning mechanism comprises two frame positioning components, each frame positioning component comprises a base plate, a supporting plate, a vertical plate, a first lifting cylinder and a second lifting cylinder, the base plates are connected with the outer side faces of the beams of the left longitudinal beam and the right longitudinal beam in a sliding mode through a linear guide rail pair, the supporting plates are transversely fixed on the top faces of the base plates, the supporting plates are located above the beam bodies, the vertical plates are installed on the supporting plates, the first lifting cylinders are installed on the upper portions of the front side faces of the vertical plates, the movable ends of the first lifting cylinders face downwards and are fixedly provided with first compression blocks, and the compression blocks are matched with the supporting plates to jointly compress the frames;

the back side surface of the vertical plate is provided with a second lifting cylinder, and the movable end of the second lifting cylinder penetrates through the vertical plate to the front side surface of the vertical plate and is fixed with a second compression block.

Further, two frame locating components in each frame locating mechanism are respectively located at the front and rear of the machine head, base plates of the two frame locating components are connected into a whole through connecting rods, a driving motor is installed on one base plate, a driving gear is installed at the output end of the driving motor, and racks capable of being meshed with the driving gear are installed on the outer side face of the beam body.

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

1. the left longitudinal beam and the right longitudinal beam which can move left and right are arranged on the left side and the right side of the frame, synchronous opening and closing of the left longitudinal beam and the right longitudinal beam are realized by changing the distance between the left longitudinal beam and the right longitudinal beam, the shutter frame assembly with different widths is adapted, the frame positioning die is not required to be replaced, the operation difficulty is reduced, and the applicability of the whole equipment is improved;

2. the bottoms of the left longitudinal beam and the right longitudinal beam are connected on the sliding rails of the top surfaces of the front cross beam, the middle cross beam and the rear cross beam in a left-right sliding manner through the sliding block bases, so that the left longitudinal beam and the right longitudinal beam can be stably connected on the frame in a sliding manner;

3. the front rotating shaft and the rear rotating shaft are rotated through the synchronous belt, so that the left longitudinal beam and the right longitudinal beam are driven to move, the distance between the left longitudinal beam and the right longitudinal beam is adjusted, and the driving mode is more stable;

4. the frame positioning mechanism comprises two frame positioning components, each frame positioning component comprises a base plate, a supporting plate, a vertical plate, a first lifting cylinder and a second lifting cylinder, the second lifting cylinder can finely adjust the position of the frame through a pressing block, then the frame is pressed through the first lifting cylinder, the frame is guaranteed to be accurate in position, and deflection in the processing process is avoided.

Drawings

FIG. 1 is a schematic diagram of a numerical control shutter connection assembling machine according to the present utility model;

FIG. 2 is a cross-sectional view of the numerical control blind connection assembly machine of the present utility model;

FIG. 3 is an enlarged view of the structure A of FIG. 2;

FIG. 4 is an enlarged view of the structure B of FIG. 2;

in the figure: 1. a left longitudinal beam, 2, a right longitudinal beam, 3, a frame positioning mechanism, 4, a front cross beam, 5, a middle cross beam, 6, a rear cross beam, 7, a rotating shaft, 8, a synchronous belt, 9, a driving belt pulley, 10, a transition wheel, 11, driven pulleys, 12, base plates, 13, support plates, 14, vertical plates, 15, first lifting cylinders, 16, first compression blocks, 17, second lifting cylinders, 18 and second compression blocks.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings of the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the present application without making any inventive effort, are intended to be within the scope of the present application.

In the description of the utility model, it should be understood that the terms "front," "rear," "upper," "lower," "left," "right," and the like indicate an orientation or a positional relationship based on that shown in the drawings, and are merely for convenience in describing the utility model and simplifying the description, and do not indicate or imply that the device or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. The utility model will be further described with reference to the drawings and examples.

As shown in fig. 1, the embodiment discloses a machine tool for connecting and assembling a shutter, which comprises a frame, a left longitudinal beam 1, a right longitudinal beam 2 and two frame positioning mechanisms 3. The frame is composed of a front cross beam 4, a middle cross beam 5 and a rear cross beam 6, and the front cross beam 4, the middle cross beam 5 and the rear cross beam 6 are assembled into a whole through longitudinal beams. The top surfaces of the front cross beam 4, the middle cross beam 5 and the rear cross beam 6 are respectively provided with a transverse sliding rail, the bottoms of the left longitudinal beam 1 and the right longitudinal beam 2 are provided with a sliding block base, and the sliding blocks are connected on the sliding rails of the top surfaces of the front cross beam 4, the middle cross beam 5 and the rear cross beam 6 in a left-right sliding manner.

A pair of bearing seat assemblies are respectively arranged at the left end and the right end of the front cross beam 4 and the rear cross beam 6, a rotating shaft 7 is rotatably arranged through the bearing seat assemblies, opposite threaded sections are symmetrically arranged at the left section and the right section of the rotating shaft 7, nuts are respectively arranged at the front end and the rear end of the left longitudinal beam 1 and correspondingly connected with the threaded sections at the left side of the rotating shaft 7 in a threaded manner, and nuts are respectively arranged at the front end and the rear end of the right longitudinal beam 2 and correspondingly connected with the threaded sections at the right side of the rotating shaft 7 in a threaded manner. When the front and rear rotation shafts 7 are rotated, the left side member 1 and the right side member 2 can be controlled to move relatively, thereby changing the pitch thereof.

As shown in fig. 2-3, in order to drive the rotation shaft 7 to rotate, the embodiment further discloses a driving device thereof, the driving device comprises a synchronous belt 8 and a driving motor, driven pulleys 11 are fixed at the middle positions of the two rotation shafts 7, the synchronous belt 8 is assembled between the two driven pulleys 11, the driving motor is installed at the bottom of the frame, a driving pulley 9 matched with the synchronous belt 8 is installed at the output end of the driving motor, the height of the driving pulley 9 is lower than that of the driven pulleys 11, two transition wheels 10 are also installed at the bottom of the frame, the two transition wheels 10 are located above the driving pulley 9 and distributed in an inverted 'article' shape on the front side and the rear side, the two transition wheels 10 are matched with the back side of the synchronous belt 8, and when the driving motor drives the driving pulley 9 to rotate, the stable rotation of the rotation shaft 7 can be controlled through the synchronous belt 8.

As shown in fig. 4, the left longitudinal beam 1 and the right longitudinal beam 2 are provided with a machine head and a frame positioning mechanism 3, each frame positioning mechanism 3 comprises two frame positioning components, each frame positioning component comprises a base plate 12, a supporting plate 13, a vertical plate 14, a first lifting cylinder 15 and a second lifting cylinder 17, the base plates 12 are connected with the outer side surfaces of the beams of the left longitudinal beam 1 and the right longitudinal beam 2 in a sliding manner through a linear guide rail pair, the supporting plates 13 are transversely fixed on the top surfaces of the base plates 12, the supporting plates 13 are positioned above the beam bodies, the vertical plates 14 are arranged on the supporting plates 13, the first lifting cylinders 15 are arranged on the upper parts of the front side surfaces of the vertical plates 14, the movable ends of the first lifting cylinders 15 face downwards and are fixed with first compression blocks 16, and the compression blocks cooperate with the supporting plates 13 to jointly compress frames; the second lifting cylinder 17 is installed on the back side surface of the vertical plate 14, the movable end of the second lifting cylinder 17 penetrates through the vertical plate 14 to the front side surface of the vertical plate and is fixedly provided with the second compression block 18, the frame is limited through the second compression block 18, and then the frame is compressed through the first compression block 16, so that the frame is prevented from being deviated. Two frame locating components in each frame locating mechanism 3 are respectively located in the front and rear of the machine head, base plates 12 of the two frame locating components are connected into a whole through connecting rods, a driving motor is installed on one base plate 12, a driving gear is installed at the output end of the driving motor, and racks capable of being meshed with the driving gear are installed on the outer side face of the beam body.

The shutter connection assembling machine tool specifically works as follows:

firstly, through controlling the axis of rotation rotatory, adjust left longeron and right longeron's interval, satisfy the width of shutter frame and predetermine the requirement, then send the frame to frame positioning mechanism through the pay-off platform on, make the frame place in the backup pad, remove the position of fine setting frame through second lift jar control second compact heap, guarantee the position of frame, then compress tightly the frame through first lift jar control first compact heap cooperation backup pad, then carry out subsequent process. According to the utility model, the left longitudinal beam and the right longitudinal beam are synchronously opened and closed by changing the distance between the left longitudinal beam and the right longitudinal beam, so that the shutter frame assembly device is suitable for shutter frame assembly with different widths, the frame positioning die is not required to be replaced, the operation difficulty is reduced, and the applicability of the whole equipment is improved.

Claims (6)

1. The machine tool for the shutter connecting and assembling machine comprises a frame and is characterized in that left and right longitudinal beams capable of moving left and right are arranged on the left side and the right side of the frame, and machine heads are arranged on the left longitudinal beam and the right longitudinal beam;

and frame positioning mechanisms are arranged on the left longitudinal beam and the right longitudinal beam.

2. The blind connection assembly machine tool according to claim 1, wherein the frame comprises a front cross beam, a middle cross beam and a rear cross beam, which are integrally connected through longitudinal beams;

the top surfaces of the front cross beam, the middle cross beam and the rear cross beam are respectively provided with a transverse sliding rail, and the bottoms of the left longitudinal beam and the right longitudinal beam are connected to the sliding rails of the top surfaces of the front cross beam, the middle cross beam and the rear cross beam in a left-right sliding manner through a sliding block base.

3. The blind connection assembling machine tool according to claim 2, wherein the left and right ends of the front and rear cross members are rotatably mounted with rotating shafts through bearing seat assemblies, the left and right sections of the rotating shafts are symmetrically provided with opposite threaded sections, the front and rear ends of the left longitudinal member are respectively provided with nuts and correspondingly threaded on the threaded sections on the left side of the rotating shafts, and the front and rear ends of the right longitudinal member are respectively provided with nuts and correspondingly threaded on the threaded sections on the right side of the rotating shafts.

4. The shutter connection assembly machine tool according to claim 3, wherein driven pulleys are fixed at the middle positions of the two rotating shafts, a synchronous belt is assembled between the two driven pulleys, a driving motor is arranged at the bottom of the frame, a driving pulley matched with the synchronous belt is installed at the output end of the driving motor, the height of the driving pulley is lower than that of the driven pulleys, two transition wheels are further arranged at the bottom of the frame, the two transition wheels are located above the driving pulley and are distributed in an inverted 'delta' shape, and the two transition wheels are matched with the back surface of the synchronous belt.

5. The blind connection assembler machine tool according to claim 1, wherein the frame positioning mechanism comprises two frame positioning components, each frame positioning component comprises a base plate, a supporting plate, a vertical plate, a first lifting cylinder and a second lifting cylinder, the base plates are slidably connected with the beam outer side surfaces of the left longitudinal beam and the right longitudinal beam through linear guide rail pairs, the supporting plates are transversely fixed on the top surfaces of the base plates, the supporting plates are positioned above the beam bodies, the vertical plates are arranged above the supporting plates, the first lifting cylinders are arranged on the upper parts of the front side surfaces of the vertical plates, the movable ends of the first lifting cylinders face downwards and are fixedly provided with first compression blocks, and the compression blocks are matched with the supporting plates to jointly compress the frames;

the back side surface of the vertical plate is provided with a second lifting cylinder, and the movable end of the second lifting cylinder penetrates through the vertical plate to the front side surface of the vertical plate and is fixed with a second compression block.

6. The machine tool for connecting and assembling the shutters according to claim 5, wherein two frame positioning components in each frame positioning mechanism are respectively positioned at the front and rear of the machine head, base plates of the two frame positioning components are connected into a whole through a connecting rod, one base plate is provided with a driving motor, the output end of the driving motor is provided with a driving gear, and the outer side surface of the beam body is provided with a rack which can be meshed with the driving gear.