CN113070391B

CN113070391B - Computer sensor processingequipment

Info

Publication number: CN113070391B
Application number: CN202110382347.7A
Authority: CN
Inventors: 郭红微; 赵中楠; 杨泽雪
Original assignee: Heilongjiang Institute of Technology
Current assignee: Heilongjiang Institute of Technology
Priority date: 2021-04-09
Filing date: 2021-04-09
Publication date: 2021-09-28
Anticipated expiration: 2041-04-09
Also published as: CN113070391A

Abstract

The invention relates to sensor processing, in particular to a computer sensor processing device. The utility model provides a computer sensor processingequipment, includes belt conveyor and sets up limiting plate I and limiting plate II in the belt conveyor top, and the passageway is constituteed in the symmetry setting around limiting plate I and the limiting plate II, the extending direction of passageway is the same with belt conveyor's direction of transportation. It is convenient to continuously punch the pins of the computer sensors arranged in rows.

Description

Computer sensor processingequipment

Technical Field

The invention relates to sensor processing, in particular to a computer sensor processing device.

Background

For example, the utility model is CN204171231U sensor inner core side needle looper device, including the base station, be used for settling the location head of sensor inner core, bend the cylinder, bend piece, slip table, cylinder, the location head is connected on the base station, and the slip table is connected with the tailpiece of the piston rod of cylinder, and the cylinder end of cylinder is connected with the base station, is equipped with the chamber that holds the cylinder of bending on the slip table, and the first direction of slip table upper end both sides side direction location extends the side arm respectively, and the both ends of bending the piece are connected with the side arm of both sides respectively, the cylinder body end of bending the cylinder is articulated with lateral wall or the diapire that holds the chamber, and its tailpiece of the piston rod is articulated with radial one side of side arm, and this looper device can process alone the sensor, but is convenient for carry out continuous processing to batch sensor.

Disclosure of Invention

The invention provides a computer sensor processing device, aiming at continuously processing sensor pins arranged in rows.

The above purpose is realized by the following technical scheme:

the utility model provides a computer sensor processingequipment, includes belt conveyor and sets up limiting plate I and limiting plate II in the belt conveyor top, and the passageway is constituteed in the symmetry setting around limiting plate I and the limiting plate II, the extending direction of passageway is the same with belt conveyor's direction of transportation.

The adjustable-type solar cell module is characterized by further comprising a substrate, a limiting column and a regulating plate, wherein the substrate is fixedly connected to the left end of the limiting plate I, the limiting column is fixedly connected to the rear end of the substrate, the regulating plate is fixedly connected to the left end of the limiting plate II, and the regulating plate is slidably connected to the limiting column.

Still include base I and screw rod I, I rigid coupling of base is at the lower extreme of limiting plate I, and I rigid coupling of limiting plate is on the casing of belt conveyor front end, and the front side rotation of screw rod I is connected on the base plate, transfers board threaded connection on screw rod I, and the anterior threaded connection of screw rod I has the nut.

Still include supporting seat I, come and go portion, punch head and guide slot, the upper end of supporting seat I slides the laminating and comes and goes the portion, and the rear end rigid coupling punch head that comes and goes the portion punches, and the head setting that punches is in the top of limiting plate I and limiting plate II, the guide slot sets up in the upper end of supporting seat I, and the lower extreme that comes and goes the portion is equipped with the sand grip, sand grip sliding connection is in the guide slot.

The punching head is of a tubular structure, and the rear end of the punching head is provided with cutting edges which are distributed circumferentially.

The computer sensor processing device has the beneficial effects that:

it is convenient to continuously punch the pins of the computer sensors arranged in rows.

Drawings

Fig. 1 shows schematically the construction of a channel in a perspective view;

FIG. 2 is a perspective view schematically showing the connection relationship of the limiting plate I, the base plate and the limiting column;

FIG. 3 schematically shows a limiting plate II, an adjusting plate and a screw I in a perspective view;

fig. 4 schematically shows the construction of the belt conveyor mechanism in a perspective view;

FIG. 5 schematically illustrates in perspective view the manner in which the punch head is driven;

FIG. 6 is a perspective view schematically showing the movement of the knock-out pin;

FIG. 7 is a perspective view schematically showing the positional relationship of the punch head and the press bend;

FIG. 8 shows schematically in a perspective view the distribution of the electric push rods II and III;

fig. 9 shows schematically in a perspective view the manner of oscillation of the dial;

fig. 10 schematically shows the positional relationship of the parts of the present invention in a perspective view.

In the figure: the device comprises a limiting plate I11, a base plate 12, a limiting column 13, a base I14, a limiting plate II 15, a regulating plate 16, a screw I17, a belt type conveying mechanism 21, a supporting seat I31, a reciprocating part 32, a punching head 33, a guide groove 34, a tail seat 35, an electric push rod I36, a supporting seat II 41, a butting rod 42, a screw II 51, a guide rod 52, a punching bending part 53, a rack 61, an electric push rod II 63, an electric push rod III 64, a base II 71, a speed reducing motor 72 and a shifting plate 73.

Detailed Description

This section can be seen from figures 1, 2, 3, 4 and 10 to further detail an exemplary operation:

the belt conveyor mechanism 21 may be commercially available as a product that includes a roller structure for moving the conveyor belt. Be used for the single file to put computer sensor on the conveyer belt, make computer sensor's pin up, computer sensor is located between limiting plate I11 and the limiting plate II 15, and both ends realize single file rectilinear motion with the operation of the inner sliding fit cooperation conveyer belt of limiting plate I11 and limiting plate II 15 respectively around through computer sensor. When the computer sensor moves linearly in a single row, the pins of the computer sensor can pass through a fixed-point processing station so as to facilitate fixed-point processing. Limiting plate I11 and limiting plate II 15 can be installed on a support frame, and the support frame plays the supporting role.

This section can be seen from figures 1, 2, 3 to further detail an exemplary operation:

when cancelling limiting plate II 15 and installing on a support frame, limiting plate II 15 sliding connection is on spacing post 13 to adjust the interval between limiting plate II 15 and limiting plate I11, change the width of passageway in order to adapt to the range of the computer sensor of different width. The spacing post 13 may now be a cube structure rather than the cylindrical structure shown in figures 1 and 2. The screw I17 can be rotated to drive the adjusting plate 16 to move back and forth, and further the distance between the adjusting plate 16 and the base plate 12 is changed.

This section can be seen from figures 5, 7, 10 to further detail an exemplary operation:

the punching head 33 is arranged on the front left side above the limiting plate I11, the punching head 33 is located at the left side end of the belt type conveying mechanism 21, so that the machined computer sensor can be directly conveyed away through the belt type conveying mechanism 21 after the pins are machined by the punching head 33, and the computer sensor is conveyed from right to left by the belt type conveying mechanism 21. The pin of the computer sensor can be passed through when the punching head 33 is moved from the front to the rear, thereby punching the pin. The punching head 33 is of a tubular structure, and cutting resistance is small when a cutting edge is arranged at the rear end of the punching head, so that punching of pins of a sheet structure is facilitated.

This section can be explained in detail with reference to fig. 5:

the computer sensor processing device further comprises a tailstock 35 and an electric push rod I36, the bottom of the tailstock 35 is fixedly connected to the upper end of the front end of the supporting seat I31, the movable end of the electric push rod I36 is arranged backwards, the shell of the front end of the electric push rod I36 is fixedly connected to the tailstock 35, and the movable end of the electric push rod I36 is fixedly connected with the reciprocating portion 32.

An exemplary operation is described in further detail:

the reciprocating part 32 can be driven to move back and forth by starting the electric push rod I36, and the reciprocating part 32 drives the punching head 33 to move back and forth, so that the pin is punched and then is withdrawn.

This section can be explained in detail with reference to fig. 5, 6, 10:

the computer sensor processing device further comprises a supporting seat II 41 and a supporting rod 42, wherein an external thread is arranged on the surface of the supporting rod 42, an internal thread matched with the external thread is arranged on the supporting seat II 41, the supporting rod 42 is connected to the internal thread on the supporting seat II 41 through the external thread, and the diameter of the supporting rod 42 is larger than that of the punching head 33. The supporting rod 42 is tubular, and the punching head 33 can be positioned in the supporting rod 42.

An exemplary operation is described in further detail:

the abutting rod 42 and the punching head 33 are arranged in a front-back corresponding mode, the abutting rod 42 is located on the rear side of the pins, the abutting rod 42 is rotated to be close to the pins, and the rear end faces of the pins passing through the front of the abutting rod 42 can be attached to the front end faces of the abutting rod 42. And then when the punching head 33 moves backwards to punch the pins, the pins with thin structures can be attached to the abutting rod 42 without bending, so that the pins with different thicknesses can be punched quickly. The punching head 33 penetrates into the retaining rod 42 in a manner that facilitates punching of pins with a relatively large thickness.

This section can be explained in detail with reference to fig. 5, 7, 10:

the computer sensor processing device further comprises a screw II 51, a guide rod 52 and a punching and bending part 53, wherein the reciprocating part 32 is provided with a mounting hole, the lower part of the screw II 51 is rotatably connected in the mounting hole on the reciprocating part 32, the guide rod 52 is fixedly connected at the upper end of the reciprocating part 32, the punching and bending part 53 is slidably connected on the guide rod 52, and the punching and bending part 53 is in threaded connection with the screw II 51.

An exemplary operation is described in further detail:

the height of the punching and bending part 53 can be adjusted by rotating the screw II 51, and the punching and bending part 53 is used for pushing the pin from front to back to bend the pin. The height adjustment is used to change the bending point. When the rear end of the punching and bending part 53 is located on the front side of the punching head 33, the punching head 33 firstly contacts the pins to punch the pins, then the punching head 33 enters the abutting rod 42, the abutting rod 42 and the punching head 33 jointly position the pins, and then the punching and bending part 53 pushes the pins to bend the pins.

When the rear end of the punching-bending part 53 is located at the rear side of the punching head 33, the punching-bending part 53 contacts the pins in advance relative to the punching head 33, the supporting rod 42 is utilized to support the rear part of the pins, the punching-bending part 53 pushes the pins from front to back to bend the pins, the punching head 33 can also reach the pins after the bending is finished, and then the pins are automatically punched, so that the supporting rod 42 can assist in punching and bending, the problem that the pins are bent due to too low bending position to cause processing failure is avoided, the pins are bent during punching, and the quality of the pins is influenced due to the deformation of the positions near the pin holes.

This section can be explained in detail with reference to fig. 8 and 10:

this computer sensor processingequipment still includes frame 61, electric putter II 63 and electric putter III 64, and the expansion end of electric putter II 63 and electric putter III 64 sets up, and the back preceding both ends of frame 61 upper end rigid coupling electric putter II 63 and electric putter III 64 respectively, the expansion end rigid coupling supporting seat II 41 of electric putter II 63, the expansion end rigid coupling supporting seat I31 of electric putter III 64.

An exemplary operation is described in further detail:

the starting electric push rod II 63 is used for adjusting the height of the abutting rod 42, and the electric push rod III 64 is used for synchronously adjusting the heights of the punching head 33 and the punching and bending part 53, so that punching is conducted on different height positions of pins, and the bending part and the punching part are guaranteed to be adjusted to be the same in distance, and the whole machining position is quickly adjusted.

This section can be explained in detail with reference to fig. 9 and 10:

the base II 71 is fixedly connected to the upper end of the base plate 12, the speed reducing motor 72 is fixedly connected to the front end of the base II 71, an output shaft of the speed reducing motor 72 penetrates through the base II 71 from front to back, and the shifting plate 73 is fixedly connected with the output shaft of the speed reducing motor 72.

An exemplary operation is described in further detail:

the speed reduction motor 72 is started to drive the shifting plate 73 to swing, the lower end of the shifting plate 73 swings rightwards to abut against a computer sensor located at the left end of the belt type conveying mechanism 21, when a conveying belt of the belt type conveying mechanism 21 conveys, subsequent computer sensors are blocked and mutually adhered together, further processing intervals are the same, continuous production line processing is facilitated, the computer sensor located at the leftmost side is located at a processing position, the left end of the computer sensor is abutted by the shifting plate 73, the right end of the computer sensor is abutted by other computer sensors, and stability during processing is improved.

Claims

1. The utility model provides a computer sensor processingequipment, includes belt conveyor (21) and sets up limiting plate I (11) and limiting plate II (15) in belt conveyor (21) top, its characterized in that: the limiting plate I (11) and the limiting plate II (15) are symmetrically arranged front and back to form a channel, and the extending direction of the channel is the same as the conveying direction of the belt conveying mechanism (21);

the adjustable type LED display panel is characterized by further comprising a base plate (12), a limiting column (13) and an adjusting plate (16), wherein the base plate (12) is fixedly connected to the left end of the limiting plate I (11), the limiting column (13) is fixedly connected to the rear end of the base plate (12), the adjusting plate (16) is fixedly connected to the left end of the limiting plate II (15), and the adjusting plate (16) is connected to the limiting column (13) in a sliding mode;

the belt type conveying mechanism is characterized by further comprising a base I (14) and a screw I (17), wherein the base I (14) is fixedly connected to the lower end of a limiting plate I (11), the limiting plate I (11) is fixedly connected to a shell at the front end of the belt type conveying mechanism (21), the front side of the screw I (17) is rotatably connected to the base plate (12), a regulating plate (16) is connected to the screw I (17) in a threaded mode, and the front portion of the screw I (17) is connected with a nut in a threaded mode;

the punching device is characterized by further comprising a supporting seat I (31), a reciprocating part (32), a punching head (33) and a guide groove (34), wherein the upper end of the supporting seat I (31) is in sliding fit with the reciprocating part (32), the rear end of the reciprocating part (32) is fixedly connected with the punching head (33), the punching head (33) is arranged above the limiting plate I (11) and the limiting plate II (15), the guide groove (34) is arranged at the upper end of the supporting seat I (31), a convex strip is arranged at the lower end of the reciprocating part (32), and the convex strip is connected in the guide groove (34) in a sliding mode;

the punching head (33) is of a tubular structure, and the rear end of the punching head (33) is provided with cutting edges which are distributed circumferentially; the tailstock-type electric push rod is characterized by further comprising a tailstock (35) and an electric push rod I (36), wherein the tailstock (35) is fixedly connected to the front end of the supporting seat I (31), the electric push rod I (36) is fixedly connected to the tailstock (35), and the movable end of the electric push rod I (36) is fixedly connected with the reciprocating part (32);

the punching device is characterized by further comprising a supporting seat II (41) and a resisting rod (42), wherein an external thread is arranged on the surface of the resisting rod (42), the resisting rod (42) is in threaded connection with the supporting seat II (41) through the external thread, and the diameter of the resisting rod (42) is larger than that of the punching head (33);

the supporting rod (42) is tubular, and the punching head (33) can be positioned in the supporting rod (42);

the computer sensor processing device further comprises a screw II (51), a guide rod (52) and a bending part (53), wherein the lower part of the screw II (51) is rotatably connected to the reciprocating part (32), the guide rod (52) is fixedly connected to the reciprocating part (32), the bending part (53) is slidably connected to the guide rod (52), and the bending part (53) is in threaded connection with the screw II (51).

2. The computerized sensor processing apparatus of claim 1, wherein: the rear end of the punching and bending part (53) is positioned at the rear side of the punching head (33).