CN209919541U - Parallel chamfering equipment - Google Patents

Abstract

The utility model relates to a parallel chamfer equipment, including supplied materials assembly line, rotatory reposition of redundant personnel workstation one, buffering crossover line one, rotatory reposition of redundant personnel workstation two, the unloading workstation two, two bevelers, beveler unloading line one, beveler unloading line two, rotatory reposition of redundant personnel workstation three, buffering crossover line two, rotatory reposition of redundant personnel workstation four and unloading assembly line on the synchronous translation. The utility model discloses a plurality of rotatory reposition of redundant personnel workstation and buffering cross the ferry line and realize that the chamfer assembly line is parallelly connected, two beveler uninterrupted duty simultaneously, production efficiency is high, only one supplied materials district and unloading district moreover, supplementary manual work is few, and the human cost is few.

Description

Parallel chamfering equipment

Technical Field

The utility model relates to a chamfer equipment field, concretely relates to parallel chamfer equipment.

Background

Among the prior art, the chamfer assembly line of product is the mode of a single production line, including single feed assembly line, unloading assembly line, cooperates a beveler, realizes the chamfer process of product, and the process model production efficiency of single line is low, to the demand of big batch product, generally arranges a plurality of such production lines and realizes that area is big, and a plurality of supplies and unloading district need more personnel to dispose, and the human cost is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a parallel chamfer equipment for solve the problem that single line technology production efficiency is low among the prior art.

The utility model provides a parallel chamfering equipment, including supplied materials assembly line, rotatory reposition of redundant personnel workstation one, buffering crossover line one, rotatory reposition of redundant personnel workstation two, synchronous translation unloading workstation one, synchronous translation unloading workstation two, two bevelers, beveler unloading line one, beveler unloading line two, rotatory reposition of redundant personnel workstation three, buffering crossover line two, rotatory reposition of redundant personnel workstation four and unloading assembly line, rotatory reposition of redundant personnel workstation one sets up in the discharge end of supplied materials assembly line, buffering crossover line one sets up in one side of rotatory reposition of redundant personnel workstation one, rotatory reposition of redundant personnel workstation two sets up in the discharge end of buffering crossover line one, the one end of rotatory reposition of redundant personnel workstation one and rotatory reposition of redundant personnel workstation two sets up synchronous translation unloading workstation one and synchronous translation unloading workstation two respectively on the unloading workstation one, synchronous translation workstation one and synchronous translation workstation two's discharge end connect chamfering machine unloading line one and synchronous translation workstation two respectively The discharging ends of the chamfering machine blanking line I and the chamfering machine blanking line II are provided with a rotary shunting workbench IV and a rotary shunting workbench III, a buffering transition line II is arranged between the rotary shunting workbench III and the rotary shunting workbench IV, the discharging end of the rotary shunting workbench IV is provided with a blanking assembly line, and the chamfering machine is arranged above the feeding side of the synchronous translation feeding and blanking workbench I and the synchronous translation feeding and blanking workbench II.

Further, the chamfering machine is installed on a chamfering machine frame, and the chamfering machine frame is arranged in parallel to the chamfering machine blanking line I and the chamfering machine blanking line II.

Further, rotatory reposition of redundant personnel workstation one, rotatory reposition of redundant personnel workstation two, rotatory reposition of redundant personnel workstation three, rotatory reposition of redundant personnel workstation four all include reposition of redundant personnel workstation and driving motor, driving motor drives the reposition of redundant personnel workstation rotation according to the demand of feeding and the ejection of compact.

Adopt above-mentioned the utility model discloses technical scheme's beneficial effect is:

the utility model discloses a plurality of rotatory reposition of redundant personnel workstation and buffering cross the ferry line and realize that the chamfer assembly line is parallelly connected, two beveler uninterrupted duty simultaneously, production efficiency is high, only one supplied materials district and unloading district moreover, supplementary manual work is few, and the human cost is few.

Drawings

FIG. 1 is a schematic structural view of a parallel chamfering apparatus of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1-incoming material assembly line, 2-first rotary distribution workbench, 3-first buffer transition line, 4-second rotary distribution workbench, 5-first synchronous translation feeding and discharging workbench, 6-second synchronous translation feeding and discharging workbench, 7-chamfering machine, 8-first chamfering machine discharging line, 9-second chamfering machine discharging line, 10-third rotary distribution workbench, 11-second buffer transition line, 12-fourth rotary distribution workbench, 13-discharging assembly line and 14-chamfering machine frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention.

As shown in figure 1, the utility model provides a parallel chamfering device, which comprises a supplied material flow line 1, a rotary shunting worktable I2, a buffering transition line I3, a rotary shunting worktable II 4, a synchronous translational loading and unloading worktable I5, a synchronous translational loading and unloading worktable II 6, two chamfering machines 7, a chamfering machine unloading line I8, a chamfering machine unloading line II 9, a rotary shunting worktable III 10, a buffering transition line II 11, a rotary shunting worktable IV 12 and an unloading flow line 13, wherein the rotary shunting worktable I2 is arranged at the discharge end of the supplied material flow line 1, the buffering transition line I4 is arranged at one side of the rotary shunting worktable I2, the rotary shunting worktable II 4 is arranged at the discharge end of the buffering transition line I4, one end of the rotary shunting worktable I2 and one end of the rotary shunting worktable II 4 are respectively provided with the synchronous translational worktable I5 and the synchronous translational worktable II 6, the discharging ends of the first synchronous translation feeding and discharging workbench 5 and the second synchronous translation feeding and discharging workbench 6 are respectively connected with a first chamfering machine discharging line 8 and a second chamfering machine discharging line 9, the discharging ends of the first chamfering machine discharging line 8 and the second chamfering machine discharging line 9 are provided with a fourth rotary shunting workbench 12 and a third rotary shunting workbench 10, a second buffering transition line 11 is arranged between the third rotary shunting workbench 10 and the fourth rotary shunting workbench 12, the discharging end of the fourth rotary shunting workbench 12 is provided with a discharging assembly line 13, and the chamfering machines 7 are arranged above the feeding sides of the first synchronous translation feeding and discharging workbench 5 and the second synchronous translation feeding and discharging workbench 6.

Specifically, the chamfering machine 7 is installed on a chamfering machine frame 14, and the chamfering machine frame 14 is arranged in parallel to a chamfering machine blanking line I8 and a chamfering machine blanking line II 9.

Specifically, rotatory reposition of redundant personnel workstation 2, rotatory reposition of redundant personnel workstation two 4, rotatory reposition of redundant personnel workstation three 10, rotatory reposition of redundant personnel workstation four 12 all include reposition of redundant personnel workstation and driving motor, driving motor drives the rotatory 90 degrees of reposition of redundant personnel workstation according to the demand of feeding and the ejection of compact, is two beveler 7 supplies and unloading respectively.

The utility model discloses a parallel chamfer equipment's work flow does: the feeding of an incoming material assembly line 1 is carried out to a first rotary distribution workbench 2, the first rotary distribution workbench 2 distributes products to a first synchronous translation feeding and discharging workbench 5 and a first buffer transition line 4, the first buffer transition line 4 conveys the products to a second rotary distribution workbench 4, the second rotary distribution workbench 4 feeds materials to a second synchronous translation feeding and discharging workbench 6 after rotating for 90 degrees, two chamfering machines 7 work simultaneously, the products are respectively conveyed through a first chamfering machine discharging line 8 and a second chamfering machine discharging line 9 after chamfering, the first chamfering machine discharging line 8 conveys the products to a fourth rotary distribution workbench 12, the second chamfering machine discharging line 9 conveys the products to a third rotary distribution workbench 10 and then to the fourth rotary distribution workbench 12 through a second buffer transition line 11, and the fourth rotary distribution workbench 12 conveys the products to a discharging assembly line 13 for discharging.

To sum up, the utility model discloses a plurality of rotatory reposition of redundant personnel workstations and buffering cross the ferry line and realize that the chamfer assembly line is parallelly connected, two beveler uninterrupted duty simultaneously, production efficiency is high, only one supplied materials district and a unloading district moreover, supplementary manual work is few, and the human cost is few.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (3)

1. The parallel chamfering equipment is characterized by comprising a supplied material assembly line, a first rotary distribution workbench, a first buffering transition line, a second rotary distribution workbench, a first synchronous translation feeding and discharging workbench, a second synchronous translation feeding and discharging workbench, two chamfering machines, a first chamfering machine discharging line, a second chamfering machine discharging line, a third rotary distribution workbench, a second buffering transition line, a fourth rotary distribution workbench and a discharging assembly line, wherein the first rotary distribution workbench is arranged at the discharging end of the supplied material assembly line, the first buffering transition line is arranged on one side of the first rotary distribution workbench, the second rotary distribution workbench is arranged at the discharging end of the first buffering transition line, one ends of the first rotary distribution workbench and the second rotary distribution workbench are respectively provided with the first synchronous translation feeding and discharging workbench and the second synchronous translation feeding and discharging workbench, and the discharging ends of the first synchronous translation workbench and the second synchronous translation workbench are respectively connected with the first chamfering machine discharging line and the second chamfering machine discharging line The discharging ends of the chamfering machine blanking line I and the chamfering machine blanking line II are provided with a rotary shunting workbench IV and a rotary shunting workbench III, a buffering transition line II is arranged between the rotary shunting workbench III and the rotary shunting workbench IV, the discharging end of the rotary shunting workbench IV is provided with a blanking assembly line, and the chamfering machine is arranged above the feeding side of the synchronous translation feeding and blanking workbench I and the synchronous translation feeding and blanking workbench II.

2. A parallel chamfering apparatus according to claim 1, wherein the chamfering machine is mounted on a chamfering machine frame, the chamfering machine frame being disposed parallel to the chamfering machine blanking line one and the chamfering machine blanking line two.

3. A parallel chamfering apparatus according to claim 1, wherein the first rotating shunting worktable, the second rotating shunting worktable, the third rotating shunting worktable and the fourth rotating shunting worktable each include a shunting worktable and a driving motor, and the driving motor drives the shunting worktable to rotate according to the feeding and discharging requirements.

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