CN103935770B - For the conveying arrangement of Electronic Components Manufacturing line - Google Patents

Abstract

The present invention relates to a kind of conveying arrangement for Electronic Components Manufacturing line, comprise some travelling bogies, guide rail and some the first permanent magnets, the first permanent magnet is evenly fixed on guide rail, two magnetic pole strengths of the first permanent magnet are vertical with guide rail, the S utmost point of each the first permanent magnet or the pole orientation of the N utmost point are consistent, between two adjacent the first permanent magnets, form transport channel, on each transport channel, be respectively arranged with a travelling bogie, travelling bogie is slidably connected along guide rail, travelling bogie comprises casing and two the second permanent magnets, two second permanent magnets are separately fixed at tank ends, and the S utmost point of two second permanent magnets or the pole orientation of the N utmost point are consistent, the magnetic pole strength of the second permanent magnet is parallel with the magnetic pole strength of the first permanent magnet, the S utmost point of the second permanent magnet or the N utmost point are contrary with the S utmost point of the first permanent magnet or the pole orientation of the N utmost point. this conveying arrangement that is used for Electronic Components Manufacturing line operates simply, and maintenance is convenient, the low and relative energy-saving of whole device cost of manufacture.

Description

For the conveying arrangement of Electronic Components Manufacturing line

Technical field

The present invention relates to field of transport machinery, particularly a kind of conveying arrangement for Electronic Components Manufacturing line.

Background technology

In workshop, pipelining is seen everywhere, and most of workshops are all, with manpower, the product of a upper procedure is carried to next process, relatively expend muscle power and lavish labor on, and operating efficiency also can not get effective raising; Transmit with transmitting to bring in some more advanced workshops, relies on the transmission of motor to realize the transfer of goods, although relatively save trouble, long-term power consumption in the past has also increased the production cost of product to a certain extent, and maintenance cost is also higher.

Summary of the invention

The technical problem to be solved in the present invention is: in order to overcome the deficiencies in the prior art, the invention provides a kind of energy of saving, and operate, safeguard more easy production line conveying arrangement.

The technical solution adopted for the present invention to solve the technical problems is: a kind of conveying arrangement for Electronic Components Manufacturing line, comprise some travelling bogies, guide rail and some the first permanent magnets, described the first permanent magnet is evenly fixed on guide rail, two magnetic pole strengths of the first permanent magnet are vertical with guide rail, the S utmost point of each the first permanent magnet or the pole orientation of the N utmost point are consistent, between two adjacent the first permanent magnets, form transport channel, on described each transport channel, be respectively arranged with a travelling bogie, described travelling bogie is slidably connected along guide rail, travelling bogie comprises casing and two the second permanent magnets, two second permanent magnets are separately fixed at tank ends, and the S utmost point of two second permanent magnets or the pole orientation of the N utmost point are consistent, the magnetic pole strength of described the second permanent magnet is parallel with the magnetic pole strength of the first permanent magnet, the S utmost point of the second permanent magnet or the N utmost point are contrary with the S utmost point of the first permanent magnet or the pole orientation of the N utmost point.

In order to facilitate travelling bogie to slide, bottom half is provided with support, and the upper end of support is fixed on casing, the lower end of support is provided with roller, spacing for travelling bogie is carried out, and makes it in traveling process, not depart from guide rail, guide rail is provided with two grooves, and roller slides in groove.

For for convenience detach and distance adjustment transport channel, the first permanent magnet is screwed on guide rail.

For the convenient replacing to the second permanent magnet, casing both sides are provided with groove, and the second permanent magnet is arranged in groove, can realize plug at any time.

For prevent casing by the permanent magnet magnetization at two ends, alleviate the weight of casing, casing selects plastics as making material, so also can save cost of manufacture.

The invention has the beneficial effects as follows: this conveying arrangement that is used for Electronic Components Manufacturing line operates fairly simple, maintain also more convenient, the low and relative energy-saving of whole device cost of manufacture.

Brief description of the drawings

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is the structural representation of the present invention for the conveying arrangement of Electronic Components Manufacturing line;

Fig. 2 is the front view of the present invention for the conveying arrangement of Electronic Components Manufacturing line;

Fig. 3 is the structural representation of the present invention for the travelling bogie of the conveying arrangement of Electronic Components Manufacturing line;

Fig. 4 is the top view of the present invention for the travelling bogie of the conveying arrangement of Electronic Components Manufacturing line;

In figure: 1. casing, 2. the second permanent magnet, 3. the first permanent magnet, 4. support, 5. roller, 6. guide rail.

Detailed description of the invention

In conjunction with the accompanying drawings, the present invention is further detailed explanation. These accompanying drawings are the schematic diagram of simplification, and basic structure of the present invention is only described in a schematic way, and therefore it only shows the formation relevant with the present invention.

As Fig. 1, shown in 2, a kind of conveying arrangement for Electronic Components Manufacturing line, comprise some travelling bogies, guide rail 6 and some the first permanent magnets 3, described the first permanent magnet 3 is evenly fixed on guide rail 6, two magnetic pole strengths of the first permanent magnet 3 are vertical with guide rail 6, the S utmost point of each the first permanent magnet 3 or the pole orientation of the N utmost point are consistent, between two adjacent the first permanent magnets 3, form transport channel, on described each transport channel, be respectively arranged with a travelling bogie, described travelling bogie is slidably connected along guide rail 6, travelling bogie comprises casing 1 and two the second permanent magnets 2, two second permanent magnets 2 are separately fixed at casing 1 two ends, and the S utmost point of two second permanent magnets 2 or the pole orientation of the N utmost point are consistent, the magnetic pole strength of described the second permanent magnet 2 is parallel with the magnetic pole strength of the first permanent magnet 3, the S utmost point of the second permanent magnet 2 or the N utmost point are contrary with the S utmost point of the first permanent magnet 3 or the pole orientation of the N utmost point.

As shown in Figure 3, guide rail 6 is provided with groove, and roller 5 rolls in groove.

As shown in Figure 4, casing 1 two ends are provided with groove, and the second permanent magnet 2 is arranged in groove, can realize free plug.

This conveying arrangement for Electronic Components Manufacturing line is installed on to workshop, corresponding first permanent magnet 3 of each procedure, the first permanent magnet 3 can be dismantled positioning according to the distance between operation, the S of the first permanent magnet 3 extremely just to a upper procedure direction, N extremely just to next process direction, operating personnel pack electronic devices and components after travelling bogie into, and travelling bogie is placed on guide rail 6.

If travelling bogie is sent to next process, by extremely relative with the S of the first permanent magnet 3 the S utmost point of the second permanent magnet 2 of travelling bogie one end, and the distance of travelling bogie and the first permanent magnet 3 is furthered, repulsion between two permanent magnets is progressively increased, this dynamics is controlled by operating personnel oneself, in the time that operating personnel decontrol travelling bogie, travelling bogie is promoted by repulsion, slide to next process along guide rail 6, travelling bogie slows down gradually in the process of sliding, in the time that the travelling bogie other end approaches corresponding the first permanent magnet 3 of next procedure, between the N utmost point of the second permanent magnet 2 of the travelling bogie other end and the N utmost point of the first permanent magnet 3 of next procedure, produce repulsion, this repulsion cushions travelling bogie until travelling bogie stops sliding, complete whole transportation.

In the time that the operating personnel of next procedure have the electronic devices and components that last process need to be passed to him to return to last process, by extremely relative with the N of the first permanent magnet 3 the N utmost point of the second permanent magnet 2 of travelling bogie, and the distance of travelling bogie and the first permanent magnet 3 is furthered, repulsion between two permanent magnets is progressively increased, this dynamics is controlled by operating personnel oneself, in the time that operating personnel decontrol travelling bogie, travelling bogie is promoted by repulsion, along guide rail 6 upwards a procedure slide, travelling bogie slows down gradually in the process of sliding, in the time that the travelling bogie other end approaches corresponding the first permanent magnet 3 of last process, between the S utmost point of the second permanent magnet 2 of the travelling bogie other end and the S utmost point of the first permanent magnet 3 of last process, produce repulsion, this repulsion cushions travelling bogie until travelling bogie stops sliding, complete whole transportation.

Compared with prior art, this conveying arrangement that is used for Electronic Components Manufacturing line operates fairly simple, maintain also more convenient, the low and relative energy-saving of whole device cost of manufacture.

Taking above-mentioned foundation desirable embodiment of the present invention as enlightenment, by above-mentioned description, relevant staff can, not departing from the scope of this invention technological thought, carry out various change and amendment completely. The technical scope of this invention is not limited to the content on description, must determine its technical scope according to claim scope.

Claims (4)

1. for a conveying arrangement for Electronic Components Manufacturing line, it is characterized in that: comprise that some transports are littleCar, guide rail and some the first permanent magnets, described the first permanent magnet is evenly fixed on guide rail, the first permanent magnetTwo magnetic pole strengths vertical with guide rail, the S utmost point of each the first permanent magnet or the pole orientation of the N utmost point are consistent, adjacentTwo the first permanent magnets between form transport channel, on each transport channel, be respectively arranged with a travelling bogie,Described travelling bogie is slidably connected along guide rail, and travelling bogie comprises casing and two the second permanent magnets, two secondPermanent magnet is separately fixed at tank ends, and the S utmost point of two second permanent magnets or the pole orientation of the N utmost point consistent,The magnetic pole strength of described the second permanent magnet is parallel with the magnetic pole strength of the first permanent magnet, the S utmost point or the N of the second permanent magnetThe utmost point is contrary with the S utmost point of the first permanent magnet or the pole orientation of the N utmost point; Described casing both sides are provided with groove, secondPermanent magnet is arranged in groove; When travelling bogie is sent to next process, by travelling bogie one endThe S utmost point of the second permanent magnet is extremely relative with the S of the first permanent magnet, and by the distance of travelling bogie and the first permanent magnetFrom furthering, in the time that operating personnel decontrol travelling bogie, travelling bogie is promoted by repulsion, along guide rail to nextProcedure slides, and in the time that the other end of travelling bogie approaches corresponding the first permanent magnet of next procedure, is positioned atBetween the N utmost point of the N utmost point of the second permanent magnet of the travelling bogie other end and the first permanent magnet of next procedure, produceRepulsion, this repulsion cushions travelling bogie until travelling bogie stops sliding; When the operation of next procedureWhen the electronic devices and components that personnel need to pass to last process him return to last process, by of travelling bogieThe N utmost point of two permanent magnets is extremely relative with the N of the first permanent magnet, and by the distance of travelling bogie and the first permanent magnetFurther, in the time that operating personnel decontrol travelling bogie, travelling bogie is promoted by repulsion, along guide rail upwards togetherOperation slides, and in the time that the travelling bogie other end approaches corresponding the first permanent magnet of last process, is positioned at transportBetween the S utmost point of the S utmost point of the second permanent magnet of the dolly other end and the first permanent magnet of last process, produce repulsion,This repulsion cushions travelling bogie until travelling bogie stops sliding, and completes whole transportation.

2. the conveying arrangement for Electronic Components Manufacturing line as claimed in claim 1, is characterized in that,Described bottom half is provided with support, and the upper end of described support is fixed on casing, and establish the lower end of described supportHave roller, described guide rail is provided with two grooves, and described roller slides along groove.

3. the conveying arrangement for Electronic Components Manufacturing line as claimed in claim 1, is characterized in that,Described the first permanent magnet is fixed by screws on guide rail.

4. the conveying arrangement for Electronic Components Manufacturing line as claimed in claim 1, is characterized in that,The material of described casing is plastics.