CN203197668U - Milling platform cleaning system - Google Patents

Abstract

The utility model discloses a milling platform cleaning system which comprises a shell body, an auger shaft, a driving motor A, a fixing body, a cover plate A, a cover plate B, a driving gear, a driven gear and a driving motor B. The shell body is arranged on the two sides of a milling platform, the radial cross section of the shell body is in a U shape, the two ends of the shell body are opened, the fixing body is arranged at one end of the shell body, the auger shaft is arranged in the shell body, one end of the auger shaft is fixed on the fixing body in a rotation mode, the other end of the auger shaft extends out of the end portion, not provided with the fixing body, of the shell body and is connected with output shafts of the driving motors, the cover plate A and the cover plate B are arranged on the top of the shell body, the output shaft of the driving motor B penetrates through the fixing body and is connected with the driving gear, the driving gear is meshed with the driven gear, the cover plate A is connected with the driving gear, and the cover plate B is connected with the driven gear. The milling platform cleaning system has the advantages of being capable of conveniently completing cleaning of the cutting scraps and meanwhile low in energy consumption.

Description

Milling platform cleaning system

Technical field

The utility model relates to the milling field, is specifically related to a kind of milling platform and clears up system.

Background technology

Milling machine is the motion by milling cutter, the equipment that the surface of the work that is fixed on the milling platform is processed.According to the processing characteristics of milling machine, in milling process, especially in the milling process to large-scale workpiece, can produce a large amount of cutting swarfs.If cutting swarf is not cleared up, a large amount of cutting swarfs can be deposited in the both sides of milling platform, and normal process is constituted obstacle.

Current, way commonly used is in the milling machine both sides cutting swarf feeder to be set, and the cutting swarf that produces in the milling process can fall into the cutting swarf feeder, and then clears up by artificial mode.The shortcoming of this way is, still depends on manpower and clears up, inefficiency.

The utility model content

The purpose of this utility model namely is to overcome the deficiency that prior art can't be cleared up cutting swarf easily, provides a kind of milling platform to clear up system.

The purpose of this utility model is achieved through the following technical solutions:

Milling platform cleaning system, comprise housing, screw-conveyer-shaft, drive motors A, fixed body, cover plate A, cover plate B, driving gear, driven gear and drive motors B, housing is arranged at milling machine platform both sides, the radial section of housing is U-shaped, the both ends open of housing, fixed body is arranged at an end of housing, screw-conveyer-shaft is arranged in the housing, one end rotational fixation of screw-conveyer-shaft is on fixed body, the other end of screw-conveyer-shaft stretches out end that fixed body is not set on the housing and is connected with the output shaft of drive motors, there is the gap between drive motors A and the housing, cover plate A and cover plate B are arranged at the top of housing, cover plate A and cover plate B constitute the plane at closure casing top jointly, the output shaft of drive motors B runs through fixed body and is connected with driving gear, and on fixed body, driving gear and driven gear mesh driven gear by the rotating shaft rotational fixation, cover plate A is connected with driving gear, and cover plate B is connected with driven gear.

Generally, cover plate A and cover plate B are horizontally disposed with, and the cutting swarf that produces in the milling process is fallen on cover plate A and the cover plate B.After the cutting swarf on cover plate A and the cover plate B is accumulated to a certain degree, start drive motors B, drive motors B drives the driving gear rotation, and driving gear drives the driven gear rotation, thereby cover plate A and cover plate B are tilted, and the cutting swarf on cover plate A and the cover plate B falls into housing.Restart drive motors A, take cutting swarf out of housing by screw-conveyer-shaft.By the utility model, can finish the cleaning of cutting swarf easily.

When cover plate A and cover plate B tilted, cover plate A was relative with the upper surface of cover plate B, can prevent that cutting swarf from falling into the utility model outside.

In addition, because the existence of cover plate A and cover plate B, the screw-conveyer-shaft drive motors needn't be in running order all the time, and energy consumption is low.

By the setting of driving gear and driven gear, adopt a drive motors B can drive cover plate A and cover plate B tilts simultaneously, reduced cost.

As first kind of prioritization scheme of the present utility model, described cover plate A is provided with the flange that stretches into described cover plate B below.Cutting swarf is more on cover plate B when causing cover plate B to produce trace tilting, and cover plate A is by the effect of flange, and B provides support for cover plate, has improved the bearing capacity of cover plate B.

As second kind of prioritization scheme of the present utility model, two sides of described housing are outward-dipping, make housing be structure wide at the top and narrow at the bottom, more are conducive to cutting swarf and enter in the housing, prevent that cutting swarf from piling up in shell rim.

As the third prioritization scheme of the present utility model, the bottom of described housing is provided with axial arranged oil groove.In milling process, except producing a large amount of cutting swarfs, also can use a large amount of cooling fluids and cold oil, oil groove namely is used for collecting cooling fluid and cold oil, prevents that tiny cutting swarf from mixing the situation that causes luming and taking place with cooling fluid or cold oil.

Further, the bottom surface of described housing is obliquely installed, and makes cooling fluid or cold oil in the oil groove flow out housing naturally.

Further, described screw-conveyer-shaft is parallel with the bottom surface of described housing, takes away cutting swarf to guarantee screw-conveyer-shaft, avoids the cutting swarf position that distance is bigger between housing bottom surface and screw-conveyer-shaft to pile up.

As the 4th prioritization scheme of the present utility model, described housing is made of the NM340 steel.The NM340 steel possesses anti-wear performance preferably, can prevent cutting swarf scratch housing, the service life of having improved housing.

As the 5th prioritization scheme of the present utility model, described screw-conveyer-shaft is made of the Mn13Cr2MoRe alloy.The anti-wear performance of Mn13Cr2MoRe alloy is good, can increase substantially the service life of screw-conveyer-shaft.

In sum, advantage of the present utility model and beneficial effect are:

1. the utility model can be finished the cleaning of cutting swarf easily, and energy consumption is low simultaneously;

2. cover plate A and cover plate B are set, and when cover plate A and cover plate B tilted, the easier housing that falls into of cutting swarf cutting swarf can not occur and be stuck in situation between cover plate and the housing side;

3. cover plate A is provided with the flange that stretches into cover plate B below, has improved the bearing capacity of cover plate B;

4. two of housing sides are outward-dipping, make housing be structure wide at the top and narrow at the bottom, more are conducive to cutting swarf and enter in the housing, prevent that cutting swarf from piling up in shell rim;

5. oil groove is set, is used for collecting cooling fluid and cold oil, prevent that tiny cutting swarf from mixing the situation that causes luming and taking place with cooling fluid or cold oil;

6. the bottom surface of housing is obliquely installed, and makes cooling fluid or cold oil in the oil groove flow out housing naturally;

7. screw-conveyer-shaft is parallel with the bottom surface of housing, takes away cutting swarf to guarantee screw-conveyer-shaft, avoids the cutting swarf position that distance is bigger between housing bottom surface and screw-conveyer-shaft to pile up;

8. housing is made of the NM340 steel, and the NM340 steel possesses anti-wear performance preferably, can prevent cutting swarf scratch housing, the service life of having improved housing;

9. screw-conveyer-shaft is made of the Mn13Cr2MoRe alloy, and the anti-wear performance of Mn13Cr2MoRe alloy is good, can increase substantially the service life of screw-conveyer-shaft.

Description of drawings

In order to be illustrated more clearly in embodiment of the present utility model, will make simple explanation to the required accompanying drawing of using among description the utility model embodiment below.Apparent, the accompanying drawing in describing below only is some embodiment that put down in writing in the utility model, to those skilled in the art, under the situation of not paying creative work, can also obtain other accompanying drawing according to following accompanying drawing.

Fig. 1 is plan structure schematic diagram of the present utility model;

Fig. 2 is internal structure schematic diagram of the present utility model;

Fig. 3 is side structure schematic diagram of the present utility model;

Fig. 4 is work structuring schematic diagram of the present utility model;

Wherein, the parts title of Reference numeral correspondence is as follows:

The 1-housing, 2-screw-conveyer-shaft, 3-drive motors A, 4-fixed body, 5-cover plate A, 6-cover plate B, 7-driving gear, 8-driven gear, 9-drive motors B, 10-flange, 11-oil groove.

The specific embodiment

In order to make those skilled in the art understand the utility model better, below in conjunction with the accompanying drawing among the utility model embodiment the technical scheme among the utility model embodiment is carried out clear, complete description.Apparent, embodiment described below only is the part among the utility model embodiment, rather than all.Based on the embodiment of the utility model record, other all embodiment that those skilled in the art obtain under the situation of not paying creative work are all in the scope of the utility model protection.

Embodiment 1:

As Fig. 1 ~ shown in Figure 4, milling platform cleaning system, comprise housing 1, screw-conveyer-shaft 2, drive motors A3, fixed body 4, cover plate A5, cover plate B6, driving gear 7, driven gear 8 and drive motors B9, housing 1 is arranged at milling machine platform both sides, the radial section of housing 1 is U-shaped, the both ends open of housing 1, fixed body 4 is arranged at an end of housing 1, screw-conveyer-shaft 2 is arranged in the housing 1, one end rotational fixation of screw-conveyer-shaft 2 is on fixed body 4, the other end of screw-conveyer-shaft 2 stretches out end that fixed body 4 is not set on the housing 1 and is connected with the output shaft of drive motors 3, there is the gap between drive motors A3 and the housing 1, cover plate A5 and cover plate B6 are arranged at the top of housing 1, and cover plate A5 and cover plate B6 constitute the plane at closure casing 1 top jointly, and the output shaft of drive motors B9 runs through fixed body 4 and is connected with driving gear 7, driven gear 8 by the rotating shaft rotational fixation on fixed body 4, driving gear 7 and driven gear 8 engagements, cover plate A5 is connected with driving gear 7, and cover plate B6 is connected with driven gear 8.

Generally, cover plate A5 and cover plate B6 are horizontally disposed with, and the cutting swarf that produces in the milling process is fallen on cover plate A5 and the cover plate B6.After the cutting swarf on cover plate A5 and the cover plate B6 is accumulated to a certain degree, start drive motors B9, drive motors B9 drives driving gear 7 rotations, and driving gear 7 drives driven gear 8 rotations, thereby cover plate A5 and cover plate B6 are tilted, and the cutting swarf on cover plate A5 and the cover plate B6 falls into housing 1.Restart drive motors A3, take cutting swarf out of housing 1 by screw-conveyer-shaft 2.By the utility model, can finish the cleaning of cutting swarf easily.

Embodiment 2:

As shown in Figure 4, present embodiment is on the basis of above-described embodiment, and described cover plate A5 is provided with the flange 11 that stretches into described cover plate B6 below.Cutting swarf is more on cover plate B6 when causing cover plate B6 to produce trace tilting, and cover plate A5 is by the effect of flange 11, and B6 provides support for cover plate, has improved the bearing capacity of cover plate B6.

Embodiment 3:

As shown in Figure 4, present embodiment is on the basis of above-described embodiment, and two sides of described housing 1 are outward-dipping, make housing 1 be structure wide at the top and narrow at the bottom, more are conducive to cutting swarf and enter in the housing 1, prevents that cutting swarf from piling up at housing 1 edge.

Embodiment 4:

As shown in Figure 4, present embodiment is on the basis of above-described embodiment, and the bottom of described housing 1 is provided with axial arranged oil groove 11.In milling process, except producing a large amount of cutting swarfs, also can use a large amount of cooling fluids and cold oil, oil groove 11 namely is used for collecting cooling fluid and cold oil, prevents that tiny cutting swarf from mixing the situation that causes luming and taking place with cooling fluid or cold oil.

Embodiment 5:

As shown in Figure 3, present embodiment is on the basis of embodiment 4, and the bottom surface of described housing 1 is obliquely installed, and makes cooling fluid or cold oil in the oil groove 11 flow out housing 1 naturally.

Embodiment 6:

As shown in Figure 3, present embodiment is on the basis of embodiment 5, and described screw-conveyer-shaft 2 is parallel with the bottom surface of described housing 1.

Embodiment 7:

Present embodiment is on the basis of above-described embodiment, and described housing 1 is made of the NM340 steel.The NM340 steel possesses anti-wear performance preferably, can prevent cutting swarf scratch housing 1, has improved the service life of housing 1.

Embodiment 8:

Present embodiment is on the basis of above-described embodiment, and described screw-conveyer-shaft 2 is made of the Mn13Cr2MoRe alloy.The anti-wear performance of Mn13Cr2MoRe alloy is good, can increase substantially the service life of screw-conveyer-shaft 2.

As mentioned above, just can realize the utility model preferably.

Claims (8)

1. the milling platform is cleared up system, it is characterized in that: comprise housing (1), screw-conveyer-shaft (2), drive motors A(3), fixed body (4), cover plate A(5), cover plate B(6), driving gear (7), driven gear (8) and drive motors B(9), housing (1) is arranged at milling machine platform both sides, the radial section of housing (1) is U-shaped, the both ends open of housing (1), fixed body (4) is arranged at an end of housing (1), screw-conveyer-shaft (2) is arranged in the housing (1), one end rotational fixation of screw-conveyer-shaft (2) is on fixed body (4), the other end of screw-conveyer-shaft (2) stretches out end that fixed body (4) is not set on the housing (1) and is connected with the output shaft of drive motors (3), drive motors A(3) and between the housing (1) there is the gap, cover plate A(5) and cover plate B(6) be arranged at the top of housing (1), cover plate A(5) and cover plate B(6) constitute the plane at closure casing (1) top jointly, drive motors B(9) output shaft runs through fixed body (4) and is connected with driving gear (7), driven gear (8) by the rotating shaft rotational fixation on fixed body (4), driving gear (7) and driven gear (8) engagement, cover plate A(5) be connected cover plate B(6 with driving gear (7)) be connected with driven gear (8).

2. milling platform according to claim 1 cleaning system is characterized in that: described cover plate A(5) be provided with and stretch into described cover plate B(6) flange (10) of below.

3. milling platform according to claim 1 is cleared up system, and it is characterized in that: two sides of described housing (1) are outward-dipping.

4. milling platform according to claim 1 is cleared up system, and it is characterized in that: the bottom of described housing (1) is provided with axial arranged oil groove (11).

5. milling platform according to claim 1 is cleared up system, and it is characterized in that: the bottom surface of described housing (1) is obliquely installed.

6. milling platform according to claim 5 is cleared up system, and it is characterized in that: described screw-conveyer-shaft (2) is parallel with the bottom surface of described housing (1).

7. clear up system according to any described milling platform in the claim 1 ~ 6, it is characterized in that: described housing (1) is made of the NM340 steel.

8. clear up system according to any described milling platform in the claim 1 ~ 6, it is characterized in that: described screw-conveyer-shaft (2) is made of the Mn13Cr2MoRe alloy.

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