CN215045935U - Scrap-removing intermediate transfer slideway for cross shaft machining - Google Patents

Abstract

The cross axle processing sweeps middle transfer slide, the top and the bottom of transferring the slide are connected with upper material way and lower floor material way respectively, there is the sweeps passageway transferring between slide and the upper material way, transfers the slide and includes the passageway that many transportation cross axles that are parallel used, is equipped with on the bottom plate of transferring the slide and removes the bits hole, transfers the downside of slide to be equipped with and connects the bits case. This transfer slide can realize the transfer of cross between upper material way and the lower floor material way, when transporting, gets rid of the iron fillings of cross. The cross shaft passes through the chip removing channel between the upper material channel and the transfer slide channel to complete the first chip removal, and then passes through the chip removing holes in the bottom plate of the transfer slide channel to perform the second chip removal, so that the chip removal effect and the chip removal efficiency of the cross shaft are improved. The bottom that corresponds at the transportation slide sets up detachable and connects the bits case, can carry out good processing and receipt to iron fillings, regularly clear up can.

Description

Scrap-removing intermediate transfer slideway for cross shaft machining

Technical Field

The utility model relates to a cross axle processing technology field, in particular to cross axle processing antidandruff middle transfer slide.

Background

A plurality of working procedures are needed in the processing process of the cross shaft, and through a plurality of material channels, the unreasonable arrangement of the material channels causes the problems of low efficiency, unsmooth transportation and the like of the cross shaft transportation.

The in-process of cross transportation relates to and transports the cross that has carried out the preliminary working, still relates to the problem of removing iron fillings, the utility model provides an in the cross course of working, improve the problem that iron fillings got rid of efficiency in the transportation.

SUMMERY OF THE UTILITY MODEL

For overcoming the problem that exists among the prior art, the utility model provides a cross processing antidandruff middle transfer slide.

The utility model provides a technical scheme that its technical problem adopted is: this cross axle processing antidandruff middle transfer slide, the top and the bottom of transferring the slide are connected with upper material way and lower floor material way respectively, transfer and have the antidandruff passageway between slide and the upper material way, transfer the slide and include the passageway that many parallels transportation cross axles were used, are equipped with on the bottom plate of transferring the slide and remove the bits hole, transfer the downside of slide and be equipped with and connect the bits case.

Furthermore, the transfer slide way comprises a bottom plate and a side plate, the bottom plate is a smooth metal plate, and chip removing holes are uniformly formed in the bottom plate; a plurality of parallel side plates are arranged on the bottom plate in parallel, and an independent cross shaft conveying passage is formed between each two adjacent side plates and the bottom plate.

Furthermore, the top surface of the metal plate is provided with a smooth coating, and two sides of the side plate are also provided with smooth coatings.

Further, the height of the side plate is not less than the thickness of the cross shaft.

Furthermore, the end part of one end, contacting with the material transferring channel, of the upper layer material channel is a smooth curve channel, a chip removing gap is arranged between the smooth curve channels at the top of the transferring slide channel, and the chip removing gap is used as a chip removing channel.

Furthermore, a protection sleeve is arranged on a bottom plate at the top of the transfer slide way and is buckled at the top of the bottom plate, and the top of the protection sleeve is not higher than the upper material channel.

Further, the one end that the transportation slide is close lower floor's material way is equipped with high limiting plate.

Further, connect the bits case to include the tetragonal bottom of the case board and three case curb plate that correspond with the transportation slide, the bottom of three case curb plate respectively with the adjacent trilateral welded fastening of bottom of the case board, the top of case curb plate can be dismantled with the curb plate of upper material way, transportation slide both sides respectively and be connected, the bottom of the bottom plate of passageway is corresponded with one side that the case curb plate is not connected.

To sum up, the utility model discloses an above-mentioned technical scheme's beneficial effect as follows:

this transfer slide can realize the transfer of cross between upper material way and the lower floor material way, when transporting, gets rid of the iron fillings of cross. The cross shaft passes through the chip removing channel between the upper material channel and the transfer slide channel to complete the first chip removal, and then passes through the chip removing holes in the bottom plate of the transfer slide channel to perform the second chip removal, so that the chip removal effect and the chip removal efficiency of the cross shaft are improved. The bottom that corresponds at the transportation slide sets up detachable and connects the bits case, can carry out good processing and receipt to iron fillings, regularly clear up can.

The top of the bottom plate of the transfer slide way is provided with the protective sleeve, so that the cross axle is prevented from being subjected to rigid collision with the top edge of the bottom plate after passing through the scrap removing channel, and the cross axle is prevented from being impacted and damaged.

The lower part of the material transferring channel is provided with a height limiting plate, so that the situation that two cross shafts are overlapped to slide downwards when the cross shafts slide downwards is prevented.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Figure 3 is a view of the fit of the base plate of the slide with the protective sleeve.

Fig. 4 is a front view of fig. 1.

In the figure:

1 upper material way, 2 transportation slides, 3 lower floor's material way, 4 scraps-removing channel, 5 bottom plates, 6 curb plates, 7 scraps-removing holes, 8 high limiting plates, 9 scraps-receiving boxes, 10 bolts, 11 lag, 12 bends.

Detailed Description

The features and principles of the present invention will be described in detail below with reference to the accompanying drawings, and the illustrated embodiments are only for explaining the present invention, and do not limit the scope of the present invention.

As shown in figures 1 and 4, the cross shaft machining anti-chip middle transfer slide way is characterized in that the top and the bottom of a transfer slide way 2 are respectively connected with an upper material channel 1 and a lower material channel 3, an anti-chip channel 4 is arranged between the transfer slide way 2 and the upper material channel 1, the transfer slide way 2 comprises a plurality of parallel channels for transporting cross shafts, chip removing holes 7 are formed in a bottom plate 5 of the transfer slide way 2, and a chip receiving box 8 is arranged on the lower side of the transfer slide way 2.

Specifically, the transfer slide 2 comprises a bottom plate 5 and a side plate 6, wherein the bottom plate 5 is a smooth metal plate, in order to protect the cross shaft, the smoothness of the downward sliding of the cross shaft is also ensured, the top surface of the metal plate is provided with a smooth coating, and the two sides of the side plate 6 are also provided with the smooth coatings. The bottom plate of the slideway is uniformly provided with chip removing holes 7, and after the cross shaft passes through the chip removing channel 4 for the first time, in the gliding process of the transfer slideway 2, the scrap iron can pass through the chip removing holes 7 for the second time to remove chips. The chip removing effect and the chip removing efficiency of the cross shaft are improved. A plurality of parallel side plates are arranged on the bottom plate in parallel, and an independent cross shaft conveying passage is formed between each two adjacent side plates and the bottom plate. The number of side plates can be set according to specific production needs.

In order to ensure that the cross shaft smoothly and stably slides down in the transfer slide way 2, the height of the side plate is not less than the thickness of the cross shaft, and the cross shaft is prevented from jumping out of the transfer slide way 2.

As shown in figure 2, the end part of the upper material channel 1, which is in contact with the material transporting channel, is a smooth curve 12, and the top of the transporting slideway 2 is provided with a chip removing gap between the smooth curves, and the chip removing gap is used as a chip removing channel 4. When the cross shaft enters the transfer slide way 2 from the upper material channel 1, the cross shaft passes through the scrap removing channel 4, and because of a gap between the upper channel and the transfer slide way 2, the cross shaft slightly shakes, and scrap iron on the cross shaft falls into the scrap removing channel 4 and enters the scrap receiving box 8.

As shown in figure 3, a protection sleeve 11 is arranged on a bottom plate at the top of the transfer slide way 2, the protection sleeve 11 is buckled at the top of the bottom plate, the protection sleeve 11 can be made of soft plastic materials, and the cross section of the protection sleeve is arc-shaped. The top of lag is not higher than upper material way 1, and the setting of lag prevents that the cross from taking place rigid collision after the antidandruff passageway 4 with the topside of bottom plate, causes the striking damage to the cross.

The one end that transports slide 2 and be close lower floor's material way 3 is equipped with high limiting plate 8, and high limiting plate 8 sets up in transporting slide 2 top, and the both ends of high limiting plate 8 are fixed respectively on the curb plate of transporting slide 2 both sides, prevent that the cross from taking place the condition that two cross stacks glides when the gliding.

Connect the bits case to include the tetragonal bottom of the case board and three case curb plate that correspond with transportation slide 2, the bottom of three case curb plate respectively with the adjacent trilateral welded fastening of bottom of the case board, the top of case curb plate can be dismantled with the curb plate of upper material way 1, transportation slide 2 both sides respectively and be connected, for example can dismantle through bolt 10 with the curb plate of case curb plate and upper material way 1, transportation slide 2 both sides and be connected. The side of the box bottom plate which is not connected with the box side plate corresponds to the bottom of the bottom plate of the channel. The bottom that corresponds at transportation slide 2 sets up detachable and connects the bits case, can carry out good processing and receipt to iron fillings, regularly clear up can.

This transport slide 2 can realize the transport of cross between upper material way 1 and lower floor's material way 3, when transporting, gets rid of the iron fillings of cross. The cross axle finishes the first chip removal through the chip removal channel 4 between the upper material channel 1 and the transfer slide 2, and then carries out the second chip removal through the chip removal hole 7 on the bottom plate of the transfer slide 2, so that the chip removal effect and the chip removal efficiency of the cross axle are improved. The bottom that corresponds at transportation slide 2 sets up detachable and connects the bits case, can carry out good processing and receipt to iron fillings, regularly clear up can.

The top of the bottom plate of the transfer slideway 2 is provided with a protective sleeve, so that the cross shaft is prevented from generating rigid collision with the top edge of the bottom plate after passing through the scrap removing channel 4, and the cross shaft is prevented from being impacted and damaged.

The lower part of the material transferring channel is provided with a height limiting plate 8, so that the situation that two cross shafts are overlapped to slide downwards when the cross shafts slide downwards is prevented.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements of the present invention may be made by those skilled in the art without departing from the spirit of the present invention, which is defined by the appended claims.

Claims (8)

1. The cross shaft machining scrap removing middle transfer slide is characterized in that the top and the bottom of the transfer slide are respectively connected with an upper material channel and a lower material channel, a scrap removing channel is arranged between the transfer slide and the upper material channel, the transfer slide comprises a plurality of parallel channels for transporting the cross shaft, scrap removing holes are formed in a bottom plate of the transfer slide, and a scrap receiving box is arranged on the lower side of the transfer slide.

2. The cross shaft machining and chip removing middle transfer slide way as claimed in claim 1, wherein the transfer slide way comprises a bottom plate and side plates, the bottom plate is a smooth metal plate, and chip removing holes are uniformly formed in the bottom plate; a plurality of parallel side plates are arranged on the bottom plate in parallel, and an independent cross shaft conveying passage is formed between each two adjacent side plates and the bottom plate.

3. The cross-shaft machining chip-removing intermediate transfer chute as recited in claim 2, wherein the top surface of the metal plate is provided with a smooth coating, and both sides of the side plate are also provided with a smooth coating.

4. The cross-shaft machining chip-removing intermediate transfer chute as claimed in claim 2 or 3, wherein the height of the side plate is not less than the thickness of the cross-shaft.

5. The cross shaft machining chip-removing intermediate transfer chute according to claim 1, wherein the end of the upper material channel in contact with the transfer material channel is a smooth curve, a chip-removing gap is formed between the smooth curves at the top of the transfer chute, and the chip-removing gap serves as a chip-removing channel.

6. The cross shaft machining scrap-removing intermediate transfer chute according to claim 5, wherein a protective sleeve is arranged on a top bottom plate of the transfer chute, the protective sleeve is fastened to the top of the bottom plate, and the top of the protective sleeve is not higher than the upper material channel.

7. The cross shaft machining and chip removing intermediate transfer chute according to claim 1, wherein a height limiting plate is arranged at one end of the transfer chute close to the lower layer material channel.

8. The cross shaft machining scrap-removing intermediate transfer slide way according to claim 1, wherein the scrap receiving box comprises a quadrangular box bottom plate and three box side plates corresponding to the transfer slide way, the bottoms of the three box side plates are welded and fixed with the adjacent three sides of the box bottom plate respectively, the top of each box side plate is detachably connected with the side plates on two sides of the upper material channel and the transfer slide way respectively, and one side of the box bottom plate, which is not connected with the box side plates, corresponds to the bottom of the bottom plate of the channel.

Images