CN214199979U - High-precision material taking, heating and aligning device - Google Patents

Abstract

A high-precision material taking and heating alignment device comprises a fixed motor assembly I, a pressure buffer assembly II and a suction block assembly III; the fixed motor assembly I is used for fixing a speed reducing motor and is integrally arranged on the upper part of the material taking and heating alignment device; the pressure buffer assembly II is used for buffering pressure, is integrally arranged at the lower part of the material taking and heating alignment device and is positioned at the upper part of the suction block assembly III; the suction block assembly III is used for adsorbing materials and is integrally installed on the lower portion of the material taking and heating alignment device and located on the lower portion of the pressure buffering assembly II. The utility model has the advantages of high positioning precision, controllable laminating pressure and heating temperature, thereby improving the product quality and reducing the reject ratio; the mechanism is simple in structure, small in size, simple to operate, multiple in types of recommended products and high in practicability. And the CCD camera is matched for shooting to carry out accurate positioning. The functions of reliable material taking, heating and high-precision alignment are realized.

Description

High-precision material taking, heating and aligning device

Technical Field

The utility model relates to a get material heating counterpoint mechanism especially relates to the high accuracy of counterpoint precision height, heating temperature is controllable, pressure is controllable gets material heating aligning device.

Background

The material location of getting of generally using the work piece in the existing market can appear getting the material position of taking different and positioning error is great, and common locate mode uses the stopper to block the location, but this kind of mode can't satisfy the requirement of fixing a position a plurality of positions. Under the condition of discharging, heating and aligning, a general discharging and aligning mode lacks a pressure monitoring function. The workpiece is crushed due to larger stress, and the press mounting is not firm enough due to smaller pressure, so that the product percent of pass is lower.

Disclosure of Invention

The utility model aims at providing a material heating aligning device is got to high accuracy solves above-mentioned technical problem.

The utility model provides a technical scheme that its technical problem adopted is:

a high-precision material taking and heating alignment device comprises a fixed motor assembly I, a pressure buffer assembly II and a suction block assembly III; the fixed motor assembly I is used for fixing a speed reducing motor and is integrally arranged on the upper part of the material taking and heating alignment device; the pressure buffer assembly II is used for buffering pressure, is integrally arranged at the lower part of the material taking and heating alignment device and is positioned at the upper part of the suction block assembly III; the suction block assembly III is used for adsorbing materials and is integrally installed on the lower portion of the material taking and heating alignment device and located on the lower portion of the pressure buffering assembly II.

The utility model discloses still have following additional technical characterstic:

as the utility model discloses technical scheme further specifically optimizes: the fixed motor component I comprises a motor fixing support 1-1, a speed reducing motor 1-2, a groove type photoelectric switch 1-3 and a photoelectric switch support 1-4; the motor fixing support 1-1 is triangular, and an output shaft of the speed reducing motor 1-2 penetrates through the motor fixing support 1-1 and then extends out; one side of the motor fixing support 1-1 is provided with a bent photoelectric switch support 1-4, and a groove type photoelectric switch 1-3 is arranged on the photoelectric switch support 1-4.

As the utility model discloses technical scheme further specifically optimizes: the pressure buffering component II comprises a suction head connecting plate 1, an L-shaped limiting plate 2, a limiting fixing block 3, a motor locking block 4, a pressure measuring lower fixing frame 5, a pressure measuring upper fixing frame 6, a connecting shaft 7, a connecting block 8, a photoelectric sensing block 9, a shaft fixing block 10, a spring 11, a steel ball 12, a rectangular spring 13, an inner hexagonal cylinder head 14, a cup head hexagonal screw 15, an M3 nut 16, an M4 nut 17, a pressure sensor 18, a thermocouple 19, a sliding table connecting frame 20, a pressure measuring connecting frame 21 and a crossed hobbing sliding table 22; the upper part of the suction head connecting plate 1 is provided with a pressure measuring connecting frame 21, the suction head connecting plate 1 and the pressure measuring connecting frame 21 are connected through an M4 nut 17, and the M4 nut 17 is further sleeved with a rectangular spring 13; the four corners of the bottom of the suction head connecting plate 1 are provided with inner hexagonal cylindrical heads 14 for supporting; steel balls 12 are arranged in the upper and lower gaps of the suction head connecting plate 1 and the pressure measuring connecting frame 21; the rear parts of the suction head connecting plate 1 and the pressure measuring connecting frame 21 are provided with a pressure measuring lower fixing frame 5, and an L-shaped limiting plate 2 is arranged on the pressure measuring lower fixing frame 5; a thermocouple 19 is arranged on the right sides of the suction head connecting plate 1 and the pressure measuring connecting frame 21; the upper parts of the suction head connecting plate 1 and the pressure measuring connecting frame 21 are provided with a pressure measuring upper fixing frame 6, the middle part of the pressure measuring upper fixing frame 6 is provided with a connecting block 8, the upper part of the connecting block 8 is provided with a spring 11, and the connecting block 8 and the spring 11 are integrally positioned on the upper part of the crossed hobbing sliding table 22; the bottom of the crossed hobbing sliding table 22 is provided with a connecting shaft 7, and the connecting shaft 7 penetrates through the crossed hobbing sliding table 22 and then is sleeved at the bottom of the connecting block 8; the left side of the crossed hobbing sliding table 22 is provided with a limiting fixed block 3 through a cup head hexagon screw 15 and an M3 nut 16, and the limiting fixed block 3 is arranged on the sliding table connecting frame 20; the right side of the cross hobbing sliding table 22 is provided with a pressure sensor 18; the top of the pressure measuring upper fixing frame 6 is provided with a motor locking block 4, a photoelectric sensing block 9 and a shaft fixing block 10.

As the utility model discloses technical scheme further specifically optimizes: the suction block component III comprises a suction block 3-1, a suction block connecting frame 3-2, a heating rod 3-3, a temperature sensing rod 3-4, a micro joint 3-5, a heat insulation marble 3-6 and a heat dissipation block 3-7; wherein the bottom of the suction block connecting frame 3-2 is provided with a suction block 3-1, the top of the suction block connecting frame 3-2 is provided with a heat insulation marble 3-6, and the top of the heat insulation marble 3-6 is provided with a heat dissipation block 3-7; the side surface of the suction block connecting frame 3-2 is provided with a heating rod 3-3 and a temperature sensing rod 3-4.

Compared with the prior art, the utility model, its advantage lies in:

advantage (1): the rotating center of the fixed motor component I and the center of a suction product of the suction block are at the same position, so that the alignment and lamination precision is ensured.

Advantage (2): pressure buffer subassembly II, pressure buffer subassembly II has increased pressure sensor, has pressure detection, regulatory function. The steel ball and the spring mechanism are used for realizing rapid horizontal adjustment. The pressure buffering component II is guided by the crossed rollers, so that the precision is ensured, and the space occupied by the mechanism is reduced.

Advantage (3): inhale block subassembly III and increased the temperature sensing stick, have temperature detect, regulatory function. The arrangement of the heating, heat insulation and heat dissipation areas effectively prevents heat from radiating to the pressure buffering area. The suction block 3-1 is light in manufacturing style and can avoid the interference of a material taking area.

Advantage (4): the utility model has the advantages of high positioning precision, controllable laminating pressure and heating temperature, thereby improving the product quality and reducing the reject ratio; the mechanism is simple in structure, small in size, simple to operate, multiple in types of recommended products and high in practicability. And the CCD camera is matched for shooting to carry out accurate positioning. The functions of reliable material taking, heating and high-precision alignment are realized.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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 is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of a high-precision material-fetching-prevention heating alignment device;

FIG. 2 is a schematic view of a high-precision material-fetching-prevention heating alignment device;

FIG. 3 is a schematic view of the stationary motor assembly shown in FIG. 1;

FIG. 4 is a schematic view of the stationary motor assembly shown in FIG. 1;

FIG. 5 is a schematic view of the pressure buffer assembly shown in FIG. 1;

FIG. 6 is a schematic view of the pressure buffer assembly shown in FIG. 1;

FIG. 7 is a schematic view of the suction block assembly shown in FIG. 1;

fig. 8 is a schematic structural view of the suction block assembly shown in fig. 1.

Shown in the figure: i, fixing a motor assembly; II, a pressure buffer component; II, a suction block assembly; 1-1, fixing a motor bracket; 1-2 speed reducing motor; 1-3 groove type photoelectric switches; 1-4 photoelectric switch supports; 1, a suction head connecting plate and a 2L-shaped limiting plate; 3, limiting a fixed block; 4, a motor locking block; 5, measuring pressure and fixing the frame; 6, measuring the pressure and fixing the frame; 7 connecting the shaft; 8, connecting blocks; 9 photoelectric sensing block; 10, fixing blocks for shafts; 11 a spring; 12 steel balls; 13 a rectangular spring; 14, a hexagon socket head; 15 cup head hexagon screws; 16M3 nut; 17M4 nut 18 pressure sensor; 19 a thermocouple; 20 slipway connecting frames; 21, a pressure measuring connecting frame; 22 cross-hobbing slipways; 3-1, sucking blocks; 3-2, a suction block connecting frame; 3-3 heating rod; 3-4 temperature sensing rods; 3-5 micro connectors; 3-6 heat insulation marble; 3-7 radiating block.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings, in order that the present disclosure may be more completely understood, and the scope of the present disclosure may be fully conveyed to those skilled in the art. While the exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure is not limited to the embodiments set forth herein.

A high-precision material taking and heating alignment device comprises a fixed motor assembly I, a pressure buffer assembly II and a suction block assembly III; the fixed motor assembly I is used for fixing a speed reducing motor and is integrally arranged on the upper part of the material taking and heating alignment device; the pressure buffer assembly II is used for buffering pressure, is integrally arranged at the lower part of the material taking and heating alignment device and is positioned at the upper part of the suction block assembly III; the suction block assembly III is used for adsorbing materials and is integrally installed on the lower portion of the material taking and heating alignment device and located on the lower portion of the pressure buffering assembly II.

The utility model has the advantages of high positioning precision, controllable laminating pressure and heating temperature, thereby improving the product quality and reducing the reject ratio; the mechanism is simple in structure, small in size, simple to operate, multiple in types of recommended products and high in practicability. And the CCD camera is matched for shooting to carry out accurate positioning. The functions of reliable material taking, heating and high-precision alignment are realized.

The fixed motor component I comprises a motor fixing support 1-1, a speed reducing motor 1-2, a groove type photoelectric switch 1-3 and a photoelectric switch support 1-4; the motor fixing support 1-1 is triangular, and an output shaft of the speed reducing motor 1-2 penetrates through the motor fixing support 1-1 and then extends out; one side of the motor fixing support 1-1 is provided with a bent photoelectric switch support 1-4, and a groove type photoelectric switch 1-3 is arranged on the photoelectric switch support 1-4.

The rotating center of the fixed motor component I and the center of a suction product of the suction block are at the same position, so that the alignment and lamination precision is ensured.

The pressure buffering component II comprises a suction head connecting plate 1, an L-shaped limiting plate 2, a limiting fixing block 3, a motor locking block 4, a pressure measuring lower fixing frame 5, a pressure measuring upper fixing frame 6, a connecting shaft 7, a connecting block 8, a photoelectric sensing block 9, a shaft fixing block 10, a spring 11, a steel ball 12, a rectangular spring 13, an inner hexagonal cylinder head 14, a cup head hexagonal screw 15, an M3 nut 16, an M4 nut 17, a pressure sensor 18, a thermocouple 19, a sliding table connecting frame 20, a pressure measuring connecting frame 21 and a crossed hobbing sliding table 22;

the upper part of the suction head connecting plate 1 is provided with a pressure measuring connecting frame 21, the suction head connecting plate 1 and the pressure measuring connecting frame 21 are connected through an M4 nut 17, and the M4 nut 17 is further sleeved with a rectangular spring 13; the four corners of the bottom of the suction head connecting plate 1 are provided with inner hexagonal cylindrical heads 14 for supporting;

steel balls 12 are arranged in the upper and lower gaps of the suction head connecting plate 1 and the pressure measuring connecting frame 21; the rear parts of the suction head connecting plate 1 and the pressure measuring connecting frame 21 are provided with a pressure measuring lower fixing frame 5, and an L-shaped limiting plate 2 is arranged on the pressure measuring lower fixing frame 5; a thermocouple 19 is arranged on the right sides of the suction head connecting plate 1 and the pressure measuring connecting frame 21;

the upper parts of the suction head connecting plate 1 and the pressure measuring connecting frame 21 are provided with a pressure measuring upper fixing frame 6, the middle part of the pressure measuring upper fixing frame 6 is provided with a connecting block 8, the upper part of the connecting block 8 is provided with a spring 11, and the connecting block 8 and the spring 11 are integrally positioned on the upper part of the crossed hobbing sliding table 22; the bottom of the crossed hobbing sliding table 22 is provided with a connecting shaft 7, and the connecting shaft 7 penetrates through the crossed hobbing sliding table 22 and then is sleeved at the bottom of the connecting block 8; the left side of the crossed hobbing sliding table 22 is provided with a limiting fixed block 3 through a cup head hexagon screw 15 and an M3 nut 16, and the limiting fixed block 3 is arranged on the sliding table connecting frame 20; the right side of the cross hobbing sliding table 22 is provided with a pressure sensor 18;

the top of the pressure measuring upper fixing frame 6 is provided with a motor locking block 4, a photoelectric sensing block 9 and a shaft fixing block 10.

Pressure buffer subassembly II, pressure buffer subassembly II has increased pressure sensor, has pressure detection, regulatory function. The steel ball and the spring mechanism are used for realizing rapid horizontal adjustment. The pressure buffering component II is guided by the crossed rollers, so that the precision is ensured, and the space occupied by the mechanism is reduced.

The suction block component III comprises a suction block 3-1, a suction block connecting frame 3-2, a heating rod 3-3, a temperature sensing rod 3-4, a micro joint 3-5, a heat insulation marble 3-6 and a heat dissipation block 3-7; wherein the bottom of the suction block connecting frame 3-2 is provided with a suction block 3-1, the top of the suction block connecting frame 3-2 is provided with a heat insulation marble 3-6, and the top of the heat insulation marble 3-6 is provided with a heat dissipation block 3-7; the side surface of the suction block connecting frame 3-2 is provided with a heating rod 3-3 and a temperature sensing rod 3-4.

Inhale block subassembly III and increased the temperature sensing stick, have temperature detect, regulatory function. The arrangement of the heating, heat insulation and heat dissipation areas effectively prevents heat from radiating to the pressure buffering area. The suction block 3-1 is light in manufacturing style and can avoid the interference of a material taking area.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the above description, in combination with the drawings in the embodiments of the present invention, clearly and completely describes the technical solutions in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the above detailed description of the embodiments of the invention provided in the accompanying drawings is not intended to limit the scope of the invention as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims (4)

1. A high-precision material taking and heating alignment device is characterized by comprising a fixed motor assembly I, a pressure buffer assembly II and a suction block assembly III; the fixed motor assembly I is used for fixing a speed reducing motor and is integrally arranged on the upper part of the material taking and heating alignment device; the pressure buffer assembly II is used for buffering pressure, is integrally arranged at the lower part of the material taking and heating alignment device and is positioned at the upper part of the suction block assembly III; the suction block assembly III is used for adsorbing materials and is integrally installed on the lower portion of the material taking and heating alignment device and located on the lower portion of the pressure buffering assembly II.

2. The high-precision material taking and heating alignment device according to claim 1, wherein: the fixed motor component I comprises a motor fixing support (1-1), a speed reducing motor (1-2), a groove type photoelectric switch (1-3) and a photoelectric switch support (1-4); the motor fixing support (1-1) is triangular, and an output shaft of the speed reducing motor (1-2) penetrates through the motor fixing support (1-1) and then extends out; one side of the motor fixing support (1-1) is provided with a bent photoelectric switch support (1-4), and a groove type photoelectric switch (1-3) is arranged on the photoelectric switch support (1-4).

3. The high-precision material taking and heating alignment device according to claim 1, wherein: the pressure buffering component II comprises a suction head connecting plate (1), an L-shaped limiting plate (2), a limiting fixing block (3), a motor locking block (4), a pressure measuring lower fixing frame (5), a pressure measuring upper fixing frame (6), a connecting shaft (7), a connecting block (8), a photoelectric sensing block (9), a shaft fixing block (10), a spring (11), a steel ball (12), a rectangular spring (13), an inner hexagonal cylinder head (14), a cup head hexagonal screw (15), an M3 nut (16), an M4 nut (17), a pressure sensor (18), a thermocouple (19), a sliding table connecting frame (20), a pressure measuring connecting frame (21) and a crossed hobbing sliding table (22);

the upper part of the suction head connecting plate (1) is provided with a pressure measuring connecting frame (21), the suction head connecting plate (1) is connected with the pressure measuring connecting frame (21) through an M4 nut (17), and the M4 nut (17) is also sleeved with a rectangular spring (13); the four corners of the bottom of the suction head connecting plate (1) are provided with inner hexagonal cylindrical heads (14) with supporting function;

steel balls (12) are arranged in the upper and lower gaps of the suction head connecting plate (1) and the pressure measuring connecting frame (21); a pressure measuring lower fixing frame (5) is arranged at the rear parts of the suction head connecting plate (1) and the pressure measuring connecting frame (21), and an L-shaped limiting plate (2) is arranged on the pressure measuring lower fixing frame (5); a thermocouple (19) is arranged on the right sides of the suction head connecting plate (1) and the pressure measuring connecting frame (21);

the upper parts of the suction head connecting plate (1) and the pressure measuring connecting frame (21) are provided with a pressure measuring upper fixing frame (6), the middle part of the pressure measuring upper fixing frame (6) is provided with a connecting block (8), the upper part of the connecting block (8) is provided with a spring (11), and the connecting block (8) and the spring (11) are integrally positioned on the upper part of the crossed hobbing sliding table (22); a connecting shaft (7) is arranged at the bottom of the crossed hobbing sliding table (22), and the connecting shaft (7) penetrates through the crossed hobbing sliding table (22) and then is sleeved at the bottom of the connecting block (8); the left side of the crossed hobbing sliding table (22) is provided with a limiting fixed block (3) through a cup head hexagon screw (15) and an M3 nut (16), and the limiting fixed block (3) is arranged on the sliding table connecting frame (20); a pressure sensor (18) is arranged on the right side of the crossed hobbing sliding table (22);

the top of the pressure measuring upper fixing frame (6) is provided with a motor locking block (4), a photoelectric sensing block (9) and a shaft fixing block (10).

4. The high-precision material taking and heating alignment device according to claim 1, wherein: the suction block component III comprises a suction block (3-1), a suction block connecting frame (3-2), a heating rod (3-3), a temperature sensing rod (3-4), a micro joint (3-5), a heat insulation marble (3-6) and a heat dissipation block (3-7); wherein the bottom of the suction block connecting frame (3-2) is provided with a suction block (3-1), the top of the suction block connecting frame (3-2) is provided with a heat insulation marble (3-6), and the top of the heat insulation marble (3-6) is provided with a heat dissipation block (3-7); the side surface of the suction block connecting frame (3-2) is provided with a heating rod (3-3) and a temperature sensing rod (3-4).

Images