CN220431437U - High-code-spraying efficiency cantilever feeding device - Google Patents

Abstract

The utility model provides a cantilever feeding device with high code spraying efficiency, which comprises a main body frame, a code spraying machine, a swinging cylinder, a feeding inclined table, a feeding sliding rail, a first sliding rolling frame and a second sliding rolling frame, wherein the main body frame is provided with a first sliding rolling frame; the main body frame is cuboid, the swing cylinder is positioned at one end of the main body frame, and the feeding slide rail is rotationally connected with the main body frame; the feeding slide rail is rotationally connected with the swing cylinder and used for controlling the feeding slide rail to rotate; the first sliding rolling frame and the second sliding rolling frame are in sliding connection with the feeding slide rail; the feeding inclined tables are parallel and positioned on the same side of the feeding sliding rail and are used for sliding the wrist arms of the feeding inclined tables onto the first sliding rolling frame and the second sliding rolling frame; the ink jet numbering machine is fixed on the main body frame and is used for spraying codes on the wrist arm. The utility model has the beneficial effects that: the cost of the cantilever code spraying is reduced, and the work flow of the cantilever feeding code spraying is simplified.

Description

High-code-spraying efficiency cantilever feeding device

Technical Field

The utility model belongs to the technical field of wrist arm production, and particularly relates to a wrist arm feeding device.

Background

In railway electrification construction, the cantilever pre-allocation of the contact net is a difficult task, and the cantilever pre-allocation is usually performed in a centralized pre-allocation workshop at present. The wrist arm pre-preparation can be decomposed into the steps of line drawing cutting, pre-preparation assembling, code spraying and the like, wherein the code spraying is to print a corresponding bar code on the wrist arm, and the useful information marks such as wrist arm production data and the like. The existing code spraying mode usually utilizes a manual handheld code spraying machine to spray codes on the wrist arm or adopts a machine to spray codes on the wrist arm, the efficiency of manual code spraying is lower, and the code spraying accuracy is not guaranteed; the machine code spraying is relatively high in efficiency, but the working cost is relatively high, the process is complex, and the probability of faults when the code spraying operation is carried out on the wrist arms with different sizes is relatively high.

Disclosure of Invention

In view of this, the present utility model aims to provide a cantilever feeding device with high coding efficiency, so as to reduce the cost of cantilever coding and simplify the workflow of cantilever feeding coding.

In order to achieve the above purpose, the technical scheme of the utility model is realized as follows:

high wrist arm loading attachment of sign indicating number efficiency spouts.

Further, the automatic feeding device comprises a main body frame, a code spraying machine, a swinging cylinder, a feeding inclined table, a feeding sliding rail, a first sliding rolling frame and a second sliding rolling frame; the main body frame is cuboid, the swing cylinder is positioned at one end of the main body frame, and the feeding slide rail is rotationally connected with the main body frame; the feeding slide rail is rotationally connected with the swing cylinder and used for controlling the feeding slide rail to rotate; the first sliding rolling frame and the second sliding rolling frame are in sliding connection with the feeding slide rail; the feeding inclined tables are parallel and positioned on the same side of the feeding sliding rail and are used for sliding the wrist arms of the feeding inclined tables onto the first sliding rolling frame and the second sliding rolling frame; the ink jet numbering machine is fixed on the main body frame and is used for spraying codes on the wrist arm.

Further, the first sliding rolling frame is provided with a limiting plate, and the limiting plate is connected with the feeding sliding rail through screws; the U-shaped rolling frames are fixedly arranged on the first sliding rolling frame and the second sliding rolling frame, the U-shaped rolling frames are identical in size, the bottom surfaces of the U-shaped rolling frames are bearing surfaces, and the left side surface and the right side surface are limiting surfaces; the bearing surface of the first sliding rolling frame is parallel to the bearing surface of the second sliding rolling frame.

Further, nylon strips are arranged on the left side face of the U-shaped rolling frame, and a buffer unit is arranged on the right side face of the U-shaped rolling frame.

Further, the bottom of the swing cylinder is rotationally connected with the main body frame; the top of the swing cylinder is provided with a turnover square block, the turnover square block is rotationally connected with the swing cylinder, and the turnover square block is in contact fit with two sides of the feeding sliding rail and is used for controlling the feeding sliding rail to rotate along the rolling shaft.

Further, the ink jet printer comprises a jet head, an ink pipeline, a drag chain and a slipway cylinder; the code spraying direction of the spraying wharf is perpendicular to the feeding inclined table, the ink pipeline is connected with the spraying wharf, and the drag chain wraps the ink pipeline; the bottom surface of slip table cylinder with main part frame fixed connection, the top surface of slip table cylinder with spout pier fixed connection for lateral shifting spouts the pier.

Further, the inclined bottom of the feeding inclined table is higher than the feeding sliding rail, and the feeding inclined table slides the wrist to be processed onto the bearing surfaces of the U-shaped rolling frames of the first sliding rolling frame and the second sliding rolling frame by gravity.

Further, the second sliding rolling frame slides on the feeding sliding rail and is matched with the first sliding rolling frame to bear wrist arms with different sizes.

Further, the automatic feeding and code spraying device also comprises a controller, wherein the controller is connected with the swing cylinder, the sliding table cylinder and the code spraying port and is used for controlling the automatic feeding and code spraying operation of the cantilever.

Compared with the prior art, the wrist arm feeding device with high code spraying efficiency has the following beneficial effects:

(1) According to the cantilever feeding device with high coding efficiency, the feeding sliding rail is controlled to overturn through the swinging cylinder, the cantilever is overturned to carry out coding, the automation degree of cantilever feeding coding is improved, and meanwhile, the production efficiency of the cantilever is increased.

(2) According to the cantilever feeding device with high code spraying efficiency, the overturning square drives the feeding sliding rail to roll and rotate, so that the receiving and feeding actions of the cantilever are completed, and the feeding flow of the cantilever is simplified;

(3) According to the cantilever feeding device with high code spraying efficiency, the drag chain can hold the ink pipeline against the tensile force;

(4) According to the cantilever feeding device with high code spraying efficiency, the second sliding rolling frame can slide on the feeding sliding rail, and the first sliding rolling frame is fixed on the feeding sliding rail by the limiting plate, so that the first sliding rolling frame is matched with the cantilever feeding device to bear the cantilever with different sizes.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

FIG. 1 is an isometric view of a loading device according to an embodiment of the present utility model;

fig. 2 is a schematic front view of a feeding device according to an embodiment of the present utility model;

FIG. 3 is a schematic side view of a feeding device according to an embodiment of the present utility model;

fig. 4 is a schematic side view of a feeding device (fed) according to an embodiment of the present utility model;

fig. 5 is a schematic diagram of an isometric view of a feeding device according to an embodiment of the present utility model;

fig. 5-a is a schematic diagram of a partial isometric view of a loading device (loaded) according to an embodiment of the present utility model.

Reference numerals illustrate:

1-a main body frame; 2-swinging air cylinders; 3-feeding inclined tables; 4-a feeding slide rail; 5-a first sliding rolling frame; 6-a second sliding rolling frame; 701-nylon strips; 702 a buffer unit; 8-turning over the square; 9-a code spraying machine; 901-spraying wharf; 902-an ink line; 903-drag chain; 904-a slipway cylinder; 10-cantilever; 11-controller.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model will be described in detail below with reference to the drawings in connection with embodiments.

The production process of the wrist arm 10 is commonly cooperated by machining and manual auxiliary control, and the wrist arm 10 is generally circular in shape and can be manually moved to a machine for machining, so that the feeding work is completed. According to the technical scheme, the feeding sliding rail 4 is controlled to overturn through the swinging cylinder 2 so as to catch and transmit the cantilever 10 falling on the feeding inclined table 3 to the position where the code is sprayed, the sliding table cylinder 904 of the code spraying machine 9 is used for pushing the code spraying port 901 to be close to the cantilever 10 to finish code spraying, the whole process is controlled by the controller 11 with a built-in corresponding program, the periodical code spraying work of the code spraying process is realized, a worker can laterally control the code spraying process and take away the cantilever 10 with the code sprayed, the automation degree of the code spraying of the cantilever 10 is improved, and meanwhile, the production efficiency of the cantilever 10 is increased.

As shown in fig. 1-2, the main body of the cantilever 10 feeding device is composed of a main body frame 1, a swinging cylinder 2, a feeding inclined table 3, a feeding sliding rail 4, a first sliding rolling frame 5 and a second sliding rolling frame 6. The main body frame 1 is cuboid, the swing cylinder 2 is positioned at one end of the main body frame 1, and the feeding slide rail 4 is rotationally connected with the main body frame 1; the feeding slide rail 4 is rotationally connected with the swing cylinder 2 and is used for controlling the feeding slide rail 4 to rotate; the first sliding rolling frame 5 and the second sliding rolling frame 6 are in sliding connection with the feeding slide rail 4; the feeding inclined tables 3 are parallel and positioned on the same side of the feeding sliding rail 4, and are used for sliding the wrist arms 10 of the feeding inclined tables 3 onto the first sliding rolling frame 5 and the second sliding rolling frame 6; advantageously, a code spraying machine 9 can be mounted on the feeding device to spray codes on the wrist arm 10, and the code spraying machine 9 is fixed on the main body frame 1 and is used for spraying codes on the wrist arm 10.

Specifically, as shown in fig. 3, the first rolling frame 5 is provided with a limiting plate (not shown in the drawing), and the limiting plate is fixedly connected with the feeding slide rail 4 through a screw. The U-shaped rolling frame is fixedly arranged on the first sliding rolling frame 5 and the second sliding rolling frame 6, and the sizes of the first sliding rolling frame and the second sliding rolling frame are the same. The bottom surface of the U-shaped rolling frame is a bearing surface, the left side surface and the right side surface are limiting surfaces, and the first sliding rolling frame 5 and the second sliding rolling frame 6 are fixed on the feeding sliding rail 4 in the same mode, so that the bearing surface of the U-shaped rolling frame of the first sliding rolling frame 5 and the bearing surface of the U-shaped rolling frame of the second sliding rolling frame 6 are in parallel relation.

As shown in fig. 3-4, the bottom of the oscillating cylinder 2 is rotatably connected to the main body frame 1, alternatively, the oscillating cylinder 2 and the main body frame 1 are connected by a simple bearing. Specifically, the top of swing cylinder 2 is equipped with upset square 8, and upset square 8 rotates with swing cylinder 2 to be connected, and upset square 8 and material loading slide rail 4 two-sided contact cooperation. The swing cylinder 2 outputs swing torque after starting, and the head and the tail of the swing cylinder 2 are in rotary connection, so the overturning square 8 can follow and control the feeding slide rail 4 to rotate around the rolling shaft of the overturning square, and meanwhile, the first sliding rolling frame 5 and the second sliding rolling frame 6 on the feeding slide rail 4 are driven to correspondingly roll and rotate, so that the receiving and feeding actions of the wrist arm 10 are completed, and the feeding flow of the wrist arm 10 is simplified.

Specifically, as shown in fig. 5-a, the ink jet printer 9 includes a jet head 901, an ink line 902, a drag chain 903, and a slide cylinder 904. The code spraying direction of the code spraying port 901 is perpendicular to the feeding inclined table 3, so that the code spraying of the cantilever 10 is facilitated. An ink line 902 connects the jetty 901 to supply ink thereto, while a drag chain 903 wraps around the ink line 902. The bottom surface of slip table cylinder 904 and main part frame 1 fixed connection, the top surface of slip table cylinder 904 and spout pier 901 fixed connection for lateral shifting spouts pier 901. When the cantilever 10 is in place, the sliding table cylinder 904 pushes the spraying terminal 901 to spray codes close to the cantilever 10, and the drag chain 903 can hold the ink pipeline 902 against the tensile force.

As an advantage, the second rolling frame 6 can slide on the feeding slide rail 4, and the first rolling frame 5 is fixed on the feeding slide rail 4 by using a limiting plate, so as to cooperate with the first rolling frame 5 to bear the wrist arms 10 with different sizes.

The feeding device further comprises a controller 11, wherein the controller 11 is composed of an existing singlechip, and a built-in program of the singlechip is set before the feeding device is put into use. The controller 11 is connected with the swinging cylinder 2, the sliding table cylinder 904 and the spraying port 901 and is used for controlling the automatic feeding and code spraying operation of the cantilever 10, so that the automation degree in the feeding and code spraying production process of the cantilever 10 is improved.

Optionally, the sloping bottom of the feeding sloping platform 3 is higher than the feeding sliding rail 4, and the feeding sloping platform 3 can slide the cantilever 10 to be processed onto the bearing surfaces of the first sliding rolling frame 5 and the second sliding rolling frame 6 by means of gravity, so that the feeding cost is reduced.

Optionally, nylon strips 701 are mounted on the left sides of the two U-shaped rolling frames, and buffer units 702 are mounted on the right sides of the U-shaped rolling frames, so that a bearing buffer function is provided for the falling wrist arms 10 to protect the wrist arms 10.

As shown in fig. 5, in a specific embodiment, the code spraying process flow of the feeding device is specifically as follows:

the swing cylinder 2 and the slide cylinder 904 are in an initial state and position, at which time the two U-shaped rolling frames are in a position to receive the cantilever 10 of the loading ramp 3. After the cantilever 10 falls onto the U-shaped rolling frame, the operator operates the controller 11 to enable the swing cylinder 2 to swing, the feeding inclined table 3 rolls to the other side around the rolling shaft, and the cantilever 10 also follows the first sliding rolling frame 5 and the second sliding rolling frame 6 to fall to the position to be sprayed. At this time, the controller 11 controls the sliding table cylinder 904 to start, the sliding table cylinder 904 drives the spraying wharf 901 to move transversely, the last spraying wharf 901 is close to the cantilever 10 to spray codes, and after the codes are sprayed, the sliding table cylinder 904 resets and moves, so that the code spraying workflow is one-time. After the wrist arm 10 with the code spraying is taken away by a worker or a corresponding next process flow machine, the worker operates the controller 11 again to control the swing cylinder 2 to reset, and finally the first sliding rolling frame 5 and the second sliding rolling frame 6 reset to the initial positions to wait for the next wrist arm 10 to fall down, so that the feeding and code spraying of the wrist arm 10 are repeatedly performed.

Specifically, the information transmission, the signal processing, the control mode and the control logic related in the technical scheme can be realized by adopting the prior art.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model, and are intended to be included within the scope of the appended claims and description.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. It is efficient to spout sign indicating number cantilever loading attachment, its characterized in that: the automatic feeding device comprises a main body frame (1), a code spraying machine (9), a swinging cylinder (2), a feeding inclined table (3), a feeding sliding rail (4), a first sliding rolling frame (5) and a second sliding rolling frame (6);

the main body frame (1) is in a cuboid shape, the swing cylinder (2) is positioned at one end of the main body frame (1), and the feeding slide rail (4) is rotationally connected with the main body frame (1);

the feeding slide rail (4) is rotationally connected with the swing cylinder (2) and is used for controlling the feeding slide rail (4) to rotate;

the first sliding rolling frame (5) and the second sliding rolling frame (6) are in sliding connection with the feeding slide rail (4);

the feeding inclined tables (3) are parallel and positioned on the same side of the feeding sliding rail (4) and are used for sliding the wrist arms (10) of the feeding inclined tables (3) onto the first sliding rolling frame (5) and the second sliding rolling frame (6);

the code spraying machine (9) is fixed on the main body frame (1) and is used for spraying codes on the wrist arm (10).

2. The cantilever loading attachment that spouts sign indicating number inefficiency of claim 1, characterized in that: the first sliding rolling frame (5) is provided with a limiting plate which is connected with the feeding sliding rail (4) through screws; the U-shaped rolling frames are fixedly arranged on the first sliding rolling frame (5) and the second sliding rolling frame (6), the U-shaped rolling frames are identical in size, the bottom surfaces of the U-shaped rolling frames are bearing surfaces, and the left side surface and the right side surface are limiting surfaces; the bearing surface of the first sliding rolling frame (5) is parallel to the bearing surface of the second sliding rolling frame (6).

3. The cantilever loading attachment that spouts sign indicating number inefficiency of claim 2, characterized in that: nylon strips (701) are arranged on the left side face of the U-shaped rolling frame, and a buffer unit (702) is arranged on the right side face of the U-shaped rolling frame.

4. The cantilever loading attachment that spouts sign indicating number inefficiency of claim 1, characterized in that:

the bottom of the swing cylinder (2) is rotationally connected with the main body frame (1);

the top of swing cylinder (2) is equipped with upset square (8), and upset square (8) are connected with swing cylinder (2) rotation, upset square (8) with material loading slide rail (4) two sides contact cooperation for control material loading slide rail (4) are rotatory along the roll axle.

5. The cantilever loading attachment that spouts sign indicating number inefficiency of claim 1, characterized in that: the ink jet printer (9) comprises an ink jet head (901), an ink pipeline (902), a drag chain (903) and a sliding table cylinder (904); the code spraying direction of the code spraying port (901) is perpendicular to the feeding inclined table (3), the ink pipeline (902) is connected with the code spraying port (901), and the drag chain (903) wraps the ink pipeline (902);

the bottom surface of slip table cylinder (904) with main part frame (1) fixed connection, the top surface of slip table cylinder (904) and spout pier (901) fixed connection for lateral shifting spouts pier (901).

6. The cantilever feeding device with high code spraying efficiency according to claim 1 or 2, wherein: the inclined bottom of the feeding inclined table (3) is higher than the feeding sliding rail (4), and the feeding inclined table (3) slides a cantilever (10) to be processed onto the bearing surfaces of the first sliding rolling frame (5) and the U-shaped rolling frame of the second sliding rolling frame (6) by gravity.

7. The cantilever loading attachment that spouts sign indicating number inefficiency of claim 1, characterized in that: the second sliding rolling frame (6) slides on the feeding sliding rail (4) and is matched with the first sliding rolling frame (5) to bear wrist arms (10) with different sizes.

8. The cantilever feeding device with high code spraying efficiency according to any one of claims 1-7, wherein: the automatic feeding and code spraying device further comprises a controller (11), wherein the controller (11) is connected with the swing cylinder (2), the sliding table cylinder (904) and the code spraying device (901) and is used for controlling the cantilever (10) to automatically feed and spray codes.