CN203820015U - Pushing device for production line - Google Patents

Abstract

The utility model discloses a pushing device for a production line. The pushing device comprises a production line work bench (1), a table board of the production line work bench (1) is divided into a work piece containing area (1.1) and a work piece conveying area (1.2), and the work piece containing area (1.1) and the work piece conveying area (1.2) are arranged side by side in a front and back mode. The pushing device for the production line further comprises a pushing part (3) and a driving mechanism (9), wherein the pushing part can move on the work piece containing area (1.1) and the work piece conveying area (1.2), and the driving mechanism can drive the pushing part (3) to move. The pushing device has the advantages of replacing manual labor to push copper parts, saving labor and improving the work efficiency.

Description

Thrust unit on manufacturing line

Technical field

The utility model relates to the thrust unit on manufacturing line.

Background technology

In the manufacturing line production process of copper, first copper is the transmission along with manufacturing line, cooling, then be to adopt the artificial ripping bar that uses, copper is moved on to placement cooled region, the shortcoming of existence is labor intensive, inefficiency easily causes the infringement to copper in moving process, affects the quality of copper.

Utility model content

The technical problems to be solved in the utility model is to provide artificial realization of a kind of replacement to pass copper part, to realize saving labour power, the thrust unit on the manufacturing line of increasing work efficiency.

For solving the problems of the technologies described above, the technical scheme that the utility model provides is: comprise production line workbench; The table top of described production line workbench is divided into workpiece put area and workpiece transfer region; Before and after described workpiece put area and workpiece transfer region, be arranged side by side; Also comprise and can on workpiece put area and workpiece transfer region, realize mobile impeller and drive impeller to realize mobile driver train.

Compared with prior art, technique effect of the present utility model is: impeller and driver train thereof are directly set on production line workbench, replace manually with ripping bar, removing to promote the copper on manufacturing line, save labour power, improved work efficiency.

As preferably, described impeller comprises horizontal part and a plurality of vertical portion; Described horizontal part is located on workpiece transfer region, and described horizontal part is extended to the end of production line workbench by the front end of production line workbench; Described vertical portion is connected with horizontal part and at each interval away from workpiece put area; Described driver train also includes belt, motor and transmission shaft; Described motor is rotationally connected by belt and transmission shaft; Described transmission shaft and vertical portion are in transmission connection.The object that adopts such design is to explain in detail impeller structure, show that motor drives vertical portion, by vertical portion, remove to promote horizontal part, realization moves to work-piece cools region by copper from workpiece transfer region, vertical portion keep at a certain distance away with being connected of horizontal part, make the horizontal part can be whole stressed more even, reach effective when promoting copper, be unlikely in pushing course, copper to be caused damage, horizontal part is extended to the end of production line workbench by the front end of production line workbench, illustrating at every turn can be by the copper on workpiece transfer region, disposable whole passing is to work-piece cools region, work efficiency is high.

As preferably, also include binary pair and controller; Described binary pair is located at the workpiece transfer region end of production line workbench table top; Described binary pair is electrically connected to motor by controller.Adopting the object of design is like this to be transferred to after the end of workpiece transfer region when copper, copper removes to trigger binary pair, by controller starter motor, realize forward, realize promotion copper part and to copper, pass the object of workpiece put area, with the counting module in Time Controller, start, Deng counting down to after certain numerical value (this numerical value be just the time of copper from workpiece transfer shift of area to workpiece put area), controller is controlled motor and is realized reversion, start another counting module in controller simultaneously, Deng counting down to (this numerical value is the time that original initial position is got back in the vertical portion of impeller) after certain numerical value, motor stops.

As preferably, described transmission shaft is equipped with a plurality of transmission gears; The lower surface of described vertical portion presents zig-zag; The tooth interlock of the tooth of described transmission gear and vertical portion lower surface.Adopting the object of design is like this that transmission shaft is equipped with a plurality of transmission gears; The lower surface of described vertical portion presents zig-zag; The tooth interlock of the tooth of described transmission gear and the lower surface of vertical portion, be exactly that transmission shaft rotates, band nutating gear rotates, due to the tooth interlock of the tooth of transmission gear and the lower surface of vertical portion, transmission gear drives vertical portion to move, and realizes the object that promotes the copper on manufacturing line.

As preferably, also include support; Described support is positioned at production line workbench near a side in workpiece transfer region; Described transmission shaft is located on support; Described support is provided with a plurality of bearings; Described bearing is connected with transmission shaft; On described support, be also provided with a plurality of shockproof parts; Described shockproof part is connected with vertical portion.The object that adopts design is like this to adopt to be provided with shockproof part, prevents that transmission shaft from occurring that improper vibrations impact promoting copper.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Shown in figure: 1, production line workbench, 1.1, workpiece put area, 1.2, workpiece transfer region, 1.3, roller bearing, 1.4, dividing plate, 2, binary pair, 3, impeller, 3.1, horizontal part, 3.2, vertical portion, 4, transmission shaft, 5, support, 5.1, shockproof part, 5.2, bearing, 6, motor, 7, belt, 8, controller, 9, driver train.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Thrust unit on the utility model manufacturing line, comprises production line workbench 1; The table top of described production line workbench 1 is divided into workpiece put area 1.1 and workpiece transfer region 1.2; Described workpiece put area 1.1 and 1.2 front and back, workpiece transfer region are arranged side by side; Also comprise and can on workpiece put area 1.1 and workpiece transfer region 1.2, realize mobile impeller 3 and drive impeller 3 to realize mobile driver train 9.

Described impeller 3 comprises horizontal part 3.1 and a plurality of vertical portion 3.2; Described horizontal part 3.1 is located on workpiece transfer region 1.2, and described horizontal part 3.1 is extended to the end of production line workbench 1 by the front end of production line workbench 1; Described vertical portion 3.2 is connected with horizontal part 3.1 and at each interval away from workpiece put area 1.1; Described driver train 9 also includes belt 7, motor 6 and transmission shaft 4; Described motor 6 is rotationally connected by belt 7 and transmission shaft 4; Described transmission shaft 4 is in transmission connection with vertical portion 3.2.

Also include binary pair 2 and controller 8; Described binary pair 2 is located at workpiece transfer region 1.2 ends of production line workbench 1 table top; Described binary pair 2.3 is electrically connected to motor 6 by controller 8.

Described transmission shaft 4 is equipped with a plurality of transmission gears 4.1; The lower surface of described vertical portion 3.2 presents zig-zag; The tooth interlock of the tooth of described transmission gear 4.1 and vertical portion 3.2 lower surfaces.

Also include support 5; Described support 5 is positioned at production line workbench 1 near a side in workpiece transfer region 1.2; Described transmission shaft 4 is located on support 5; Described support 5 is provided with a plurality of bearings 5.2; Described bearing 5.2 is connected with transmission shaft 4; On described support 5, be also provided with a plurality of shockproof parts 5.1; Described shockproof part 5.1 is connected with vertical portion 3.2.

The utility model is waited in the specific implementation, the horizontal part 3.1 of impeller 3 and vertical portion 3.2 are all bars with certain thickness and height that steel are made, workpiece put area 1.1 and workpiece transfer region 1.2 are 7 meters, the horizontal part 3.1 of impeller 3 is configured to 7 meters, 3 vertical portions 3.2, both are welded to connect in employing, adjacent vertical portion 3.2 be spaced apart 1.5 meters, transmission shaft 4 is 5 meters, by bearing 5.2 on even keels, be arranged on support 5, motor 6 is in transmission connection by belt 7 and transmission shaft 4, during concrete enforcement, be that the runner of installing on the runner installed on transmission shaft 4 and motor 6 output shafts is in transmission connection by belt 7, during concrete enforcement, on workpiece transfer region 1.2, roller bearing 1.3 and dividing plate 1.4 are spaced apart, copper is transferred to the end in workpiece transfer region 1.2, remove to trigger binary pair 2, motor 6 forwards, drive impeller 3 that copper 1.2 is passed to workpiece put area 1.1 from workpiece transfer region, this process is set to 8 seconds, complete after above-mentioned steps, controller 8 is controlled motor 6 and is made its reversion, impeller 3 is got back to original initial position, this process setting is 6 seconds, finally complete whole process, replace artificial realization to pass copper part, save labour power, increase work efficiency.

Above the utility model and embodiment thereof are described, this description does not have restricted, and shown in accompanying drawing is also one of embodiment of the present utility model, and actual structure is not limited to this.If generally speaking those of ordinary skill in the art is enlightened by it, in the situation that not departing from the utility model creation aim, without the creationary frame mode similar to this technical scheme and the embodiment of designing, all should belong to protection domain of the present utility model.

Claims (5)

1. the thrust unit on manufacturing line, comprises production line workbench (1); It is characterized in that: the table top of described production line workbench (1) is divided into workpiece put area (1.1) and workpiece transfer region (1.2); Before and after described workpiece put area (1.1) and workpiece transfer region (1.2), be arranged side by side; Also comprising can be at workpiece put area (1.1) and workpiece transfer region (1.2) upper mobile impeller (3) and mobile driver train (9) of driving impeller (3) realization realized.

2. the thrust unit on manufacturing line according to claim 1, is characterized in that: described impeller (3) comprises horizontal part (3.1) and a plurality of vertical portion (3.2); It is upper that described horizontal part (3.1) is located at workpiece transfer region (1.2), and described horizontal part (3.1) is extended to the end of production line workbench (1) by the front end of production line workbench (1); Described vertical portion (3.2) is connected with horizontal part (3.1) and at each interval away from workpiece put area (1.1); Described driver train (9) also includes belt (7), motor (6) and transmission shaft (4); Described motor (6) is rotationally connected by belt (7) and transmission shaft (4); Described transmission shaft (4) is in transmission connection with vertical portion (3.2).

3. the thrust unit on manufacturing line according to claim 2, is characterized in that: also include binary pair (2) and controller (8); Described binary pair (2) is located at workpiece transfer region (1.2) end of production line workbench (1) table top; Described binary pair (2.3) is electrically connected to motor (6) by controller (8).

4. the thrust unit on manufacturing line according to claim 2, is characterized in that: described transmission shaft (4) is equipped with a plurality of transmission gears (4.1); The lower surface of described vertical portion (3.2) presents zig-zag; The tooth interlock of the tooth of described transmission gear (4.1) and vertical portion (3.2) lower surface.

5. the thrust unit on manufacturing line according to claim 4, is characterized in that: also include support (5); Described support (5) is positioned at production line workbench (1) near a side in workpiece transfer region (1.2); Described transmission shaft (4) is located on support (5); Described support (5) is provided with a plurality of bearings (5.2); Described bearing (5.2) is connected with transmission shaft (4); On described support (5), be also provided with a plurality of shockproof parts (5.1); Described shockproof part (5.1) is connected with vertical portion (3.2).