CN218144214U - Hole machining process conveyer - Google Patents

Abstract

The utility model provides a hole machining process conveyer, which comprises a first conveyor belt, a first motor for driving the first conveyor belt, a mounting frame, a second conveyor belt, a main conveyor belt and an auxiliary conveyor belt, wherein the first conveyor belt and the first motor are arranged on the mounting frame; the driving assembly is arranged on the second conveying belt and can drive the second conveying belt to move, so that the main conveying belt or the auxiliary conveying belt corresponds to the first conveying belt. The beneficial effects of the utility model are that, moving after piling up full work piece on main conveyer belt, making vice conveyer belt correspond first conveyer belt and carry out work, make things convenient for two staff simultaneous processing to be located the work piece of piling up above that and the work piece that is conveying, avoid the work piece to pile up the machining efficiency who influences the staff.

Description

Hole machining process conveyer

Technical Field

The utility model relates to a conveyer belt technical field, specific hole manufacturing procedure conveyer that says so.

Background

The work piece need be to its operation such as reaming or tapping after drilling, reaming in production, because these operations are worked on the assembly line usually, the time spent of each item operation is different, and is shorter when one step of operation is used before, and later step operation is longer then can lead to later step operation to handle and not in time cause the work piece to pile up when later step operation is used, and the staff can't in time handle, and work piece machining efficiency is lower.

Therefore, in view of the above drawbacks, a hole machining process transfer device is devised.

Disclosure of Invention

The to-be-solved technical problem of the utility model is: the time difference of each step of workpiece processing is large, and the workpiece accumulation is easily caused when the processing speed of the previous step is high.

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

the hole machining process conveying device comprises a first conveying belt, a first motor and a mounting frame, wherein the first motor and the mounting frame are used for driving the first conveying belt;

the conveying device further comprises a driving assembly, wherein the driving assembly is arranged on the second conveying belt and can drive the second conveying belt to move, so that the main conveying belt or the auxiliary conveying belt corresponds to the first conveying belt.

Preferably, the driving assembly comprises a driving motor and a screw rod, and the screw rod is in threaded fit with the main conveying belt and the auxiliary conveying belt.

Preferably, the driving assembly includes a driving motor and a transmission belt connected with the main conveyor belt and the sub conveyor belt.

Preferably, baffles are disposed on both sides of the main conveyor belt and the auxiliary conveyor belt.

Preferably, the mounting frame includes a first frame body and a second frame body, the first conveyor belt is mounted on the first frame body, and the second conveyor belt is mounted on the second frame body.

Preferably, the upper surface of the second frame body is provided with a sliding groove along the moving direction of the second conveyor belt, and pulleys are arranged on the main conveyor belt and the auxiliary conveyor belt corresponding to the sliding grooves.

The beneficial effects of the utility model are that, the utility model discloses a be provided with the operation that first conveyer belt and second conveyer belt combination conveyed the work piece, wherein the second conveyer belt includes main belt and auxiliary conveyor, main belt and auxiliary conveyor all can remove through the driving motor drive, it corresponds with first conveyer belt and carries out work to begin main belt, it removes to pile up on it after full work piece, make auxiliary conveyor correspond first conveyer belt and carry out work, make things convenient for two staff simultaneous processing to be located the work piece of piling up on it and the work piece that is conveying, avoid the work piece to pile up the machining efficiency who influences the staff.

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 diagram of an overall structure provided by an embodiment of the present invention;

FIG. 2 is a schematic top view of the structure of FIG. 1;

fig. 3 is a schematic diagram of an overall motion state structure provided by the embodiment of the present invention;

fig. 4 is a schematic structural diagram of the overall working state provided by the embodiment of the present invention;

FIG. 5 is a schematic top view of the structure of FIG. 4;

in the figure: 1-a first conveyor belt, 1.1-a first motor, 2-a second conveyor belt, 2.1-a main conveyor belt, 2.11-a second motor, 2.2-an auxiliary conveyor belt, 2.21-a third motor, 2.3-a pulley, 3-a driving component, 3.1-a driving motor, 3.2-a screw rod, 4-a mounting rack, 4.1-a first rack body, 4.2-a second rack body and 4.21-a chute.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for the purpose of illustration and are not intended to limit the scope of the invention. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

In a specific embodiment, a hole machining process conveyor is provided, comprising a first conveyor belt 1, a first motor 1.1 driving the first conveyor belt 1, and a mounting frame 4, wherein the first conveyor belt 1 and the first motor 1.1 are mounted on the mounting frame 4. An output shaft of the first motor 1.1 is connected with a roller on one side of the first conveyor belt 1, the first motor 1.1 works to drive the first conveyor belt 1 to rotate, and a workpiece placed above the first conveyor belt 1 is conveyed to the rear. The conveyor belt device further comprises a second conveyor belt 2, the second conveyor belt 2 is installed on the installation frame 4, the second conveyor belt 2 comprises a main conveyor belt 2.1 and an auxiliary conveyor belt 2.2, and the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2 are respectively provided with a second motor 2.11 and a third motor 2.21 which can drive the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2; the second motor 2.11 and the third motor 2.21 drive the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2 respectively, and the second motor 2.11 and the third motor 2.21 can work independently, so that the technical effect that the auxiliary conveyor belt 2.2 stops when the main conveyor belt 2.1 works or the main conveyor belt 2.1 stops when the auxiliary conveyor belt 2.2 works is achieved.

The conveying device further comprises a driving assembly 3 which is arranged on the second conveying belt 2 and can drive the second conveying belt 2 to move, so that the main conveying belt 2.1 or the auxiliary conveying belt 2.2 corresponds to the first conveying belt 1. When the work is started, the main conveyor belt 2.1 corresponds to the first conveyor belt 1, the first conveyor belt 1 conveys the workpieces to the main conveyor belt 2.1, the auxiliary conveyor belt 2.2 stops working at the moment, when the workpieces are stacked on the main conveyor belt 2.1, the driving assembly 3 works to convey the main conveyor belt 2.1 to one side, the auxiliary conveyor belt 2.2 is aligned to the first conveyor belt 1, the auxiliary conveyor belt 2.2 starts working, the main conveyor belt 2.1 stops working, and the workpieces are stacked on the main conveyor belt 2.1. At this time, an additional worker can be added to process the workpieces stacked on the main conveyor belt 2.1, after the workpieces stacked on the main conveyor belt 2.1 are processed, the auxiliary conveyor belt 2.2 is driven by the driving assembly 3 to be conveyed to one side, the main conveyor belt 2.1 is aligned to the first conveyor belt 1, one worker processes the workpieces conveyed on the main conveyor belt 2.1, and the other worker processes the workpieces stacked on the auxiliary conveyor belt 2.2. And by providing two conveyors, a main conveyor 2.1 and a secondary conveyor 2.2, a larger working space can be provided for two or more workers than by using only one conveyor to convey the work pieces.

There are two specific embodiments of the drive assembly 3 available for selection:

in the first specific embodiment, the driving assembly 3 comprises a driving motor 3.1 and a screw rod 3.2, and the screw rod 3.2 is in threaded fit with the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2. A tubular structure is arranged below the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2, an internal thread is arranged on the tubular structure, and the screw rod 3.2 passes through the two tubular structures and is in threaded fit with the two tubular structures. The driving motor 3.1 drives the screw rod 3.2 to rotate towards one side, the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2 move towards one direction, and on the contrary, the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2 move towards the other direction.

In the second embodiment, the driving assembly 3 comprises a driving motor 3.1 and a transmission belt, and the transmission belt is connected with the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2. Driving motor 3.1 sets up on mounting bracket 4, its output shaft direction is perpendicular with main conveyer belt 2.1 and vice conveyer belt 2.2 direction of motion, driving belt sets up in main conveyer belt 2.1 and vice conveyer belt 2.2 below, a side sleeve is established on driving motor 3.1's output shaft, another pot head is established at the 4 other ends of mounting bracket, main conveyer belt 2.1 and vice conveyer belt 2.2 below are provided with the clamping part and can fix on the driving belt, driving motor 3.1 rotates and drives the motion of biography merit belt, and then drive main conveyer belt 2.1 and vice conveyer belt 2.2 and move together.

Preferably, baffles are arranged on both sides of the main conveyor belt 2.1 and the secondary conveyor belt 2.2. Due to the fact that the work pieces may be round pipe sleeve type parts, the work pieces may roll when the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2 move. Therefore, the baffle can effectively prevent the workpieces from rolling and falling on the ground when the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2 move, and the processing efficiency is influenced.

As a specific embodiment of the mounting rack 4, the mounting rack 4 includes a first rack 4.1 and a second rack 4.2, the first conveyor belt 1 is installed on the first rack 4.1, and the second conveyor belt 2 is installed on the second rack 4.2. Because the second conveyer belt 2 need move, consequently second support body 4.2 area is great, leaves sufficient space and is convenient for second conveyer belt 2 to remove.

As a preferable scheme of the second frame body 4.2, a sliding groove 4.21 is formed in the upper surface of the second frame body 4.2 along the moving direction of the second conveyor belt 2, pulleys 2.3 are respectively arranged on the main conveyor belt 2.1 and the auxiliary conveyor belt 2.2 corresponding to the sliding groove 4.21, and the pulleys 2.3 can slide along the sliding groove 4.21. Through having seted up spout 4.21 at second support body 4.2 upper surface, the pulley 2.3 that sets up on cooperation main belt 2.1 and the vice conveyer belt 2.2 makes main belt 2.1 and the motion of vice conveyer belt 2.2 more smooth.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the description, and must be determined according to the scope of the claims.

Claims (6)

1. A hole machining process conveying device comprises a first conveying belt (1), a first motor (1.1) and a mounting frame (4), wherein the first motor (1.1) drives the first conveying belt (1), the first conveying belt (1) and the first motor (1.1) are mounted on the mounting frame (4), the hole machining process conveying device is characterized by further comprising a second conveying belt (2), the second conveying belt (2) is mounted on the mounting frame (4), the second conveying belt (2) comprises a main conveying belt (2.1) and an auxiliary conveying belt (2.2), and the main conveying belt (2.1) and the auxiliary conveying belt (2.2) are respectively provided with a second motor (2.11) and a third motor (2.21) which can drive the main conveying belt and the auxiliary conveying belt;

the conveying device is characterized by further comprising a driving assembly (3) which is arranged on the second conveying belt (2) and can drive the second conveying belt (2) to move, so that the main conveying belt (2.1) or the auxiliary conveying belt (2.2) corresponds to the first conveying belt (1).

2. A hole-machining-process transferring device as claimed in claim 1, characterized in that said driving assembly (3) comprises a driving motor (3.1) and a screw (3.2), said screw (3.2) being screw-engaged with said main conveyor (2.1) and with said auxiliary conveyor (2.2).

3. A hole-processing-process transferring device as claimed in claim 1, characterized in that said driving assembly (3) comprises a driving motor (3.1) and a transmission belt connected to said main conveyor belt (2.1) and to said secondary conveyor belt (2.2).

4. A hole-processing-process transferring device as claimed in claim 1, characterized in that baffles are provided on both sides of said main conveyor (2.11) and of said secondary conveyor (2.2).

5. A hole-machining process transferring device according to claim 1, characterized in that said mounting frame (4) comprises a first frame (4.1) and a second frame (4.2), said first conveyor belt (1) being mounted on said first frame (4.1) and said second conveyor belt (2) being mounted on said second frame (4.2).

6. A hole-processing-process conveying device according to claim 5, characterized in that a chute (4.21) is arranged on the upper surface of the second frame body (4.2) along the moving direction of the second conveyor belt (2), and pulleys (2.3) are arranged on the main conveyor belt (2.1) and the auxiliary conveyor belt (2.2) corresponding to the chute (4.21).

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