CN202953584U - Automatic turning face-reversing mechanism and rock wool cutting conveying equipment applying same - Google Patents

Abstract

The utility model provides an automatic turning face-reversing mechanism and rock wool cutting conveying equipment applying the same. The automatic turning face-reversing mechanism is characterized in that a first conveying portion is connected with a second conveying portion, rock wool which has been cut into strips and blocks can fall from the first conveying portion into a second conveying portion by matching a mode of toppling and overturning to realize turning and face-reversing, or the rock wool rotates along with the second conveying portion after being moved into the second conveying portion. In addition, the automatic turning face-reversing mechanism can be connected with a cutting mechanism and a feeding mechanism, and especially, the automatic turning mechanism and the cutting mechanism form a connection mode with an angle, consequently, automatic rock wool cutting, changing of advancing direction of the rock wool which has been cut and enabling the rock wool which has been cut to realize automatic turning face-reversing can be realized to enable the rock wool which has been cut to be capable of being arranged in a mode of high structural strength so as to facilitate combining and manufacturing of composite boards.

Description

Auto-steering turn-over mechanism and apply the rock wool cutting load transfer device of this mechanism

Technical field

The utility model relates to a kind of rock wool automatic cutting equipment, particularly can automatically the rock wool of large volume be automatically cut into to strip and block, and the mechanism and the equipment that automatically make the rock wool auto-steering turn-over of strip and block.

Background technology

The intermediate course of general composite panel can be used rock wool, makes by this composite panel have fire prevention, sound insulation and heat insulation effect.

Refer to Fig. 1, general block rock wool 10 volumes are difficult for greatly directly using, and therefore can form strip rock wool 12 through cutting.Then again by each strip rock wool 12 upset 90 degree.The strip rock wool 12 of according to predetermined width, taking respective amount in conjunction with metal sheet 14 after, then via cutting the composite panel 16 that can obtain preset width and length.

Above-mentioned manufacturing process is to change machine direction by the purpose of strip rock wool 12 upset 90 degree.This action is extremely important, because known in the structure in conjunction with metal sheet 14 by strip rock wool 12, the surface of the machine direction vertical metal plate 14 of strip rock wool 12, so can make composite panel 16 have stronger structural strength, and reason surface is stressed and be crushed.

Yet the at present upset of strip rock wool 12 must be by manually upset one by one, its except operate upper time-consuming, strip rock wool 12 can cause operator's health to produce scratchy human discomfort with operator's Body contact.

The utility model content

The purpose of this utility model is to provide a kind of auto-steering turn-over mechanism, and it has the effect of the rock wool auto-steering turn-over that can make to have cut into strip and block.

Another purpose of the present utility model is to provide a kind of rock wool cutting load transfer device, it has can the surface trimming rock wool, and the direct of travel of the rock wool of having cut by automatic change and collocation auto-steering turn-over mechanism, make rock wool be arranged in the form than high structural strength, and be conducive to rock wool and clamping plate combination.

For achieving the above object, the utility model is taked following technical scheme:

A kind of auto-steering turn-over mechanism, carrying moving process to produce upset for making the rock wool after cutting, and it comprises:

One first delivery section, have one in order to carrying and carry this rock wool the first carrying surface;

One second delivery section, to should the first delivery section, it has one in order to accept the second carrying surface from this rock wool of this first delivery section;

Wherein this rock wool drops out and turn-over enters the second carrying surface of this second delivery section from the first carrying surface of this first delivery section.

Described the first carrying surface forms a spacing higher than described the second carrying surface, and described rock wool falls on described the second carrying surface from described the first carrying surface overturning 90 degree.

A kind of auto-steering turn-over mechanism, carrying moving process to produce upset for making the rock wool after cutting, and it comprises:

One first delivery section, its surface, top is one in order to carry and to carry the first carrying surface of this rock wool;

One second delivery section, can cycle rotation and to should the first delivery section, its surface has plural spacer region, and the surface, top of this second delivery section is one second carrying surface in addition;

Wherein this rock wool is moved into by this first carrying surface in the spacer region of end of this second delivery section, and this rock wool is mobile and produce turn-over along with the rotation of this second delivery section, makes the rock wool that turns to turn-over be positioned on this second carrying surface.

Described the first carrying surface is lower than described the second carrying surface, and moves to described the second carrying surface when described rock wool, and the form that described rock wool is positioned at the form of described the first carrying surface and is positioned at described the second carrying surface differs 90 degree.

Described auto-steering turn-over mechanism also comprises one first moving-out device, and this first moving-out device is arranged on an end of described the first delivery section, and in order to unturned rock wool is pushed to described the second delivery section.

Described auto-steering turn-over mechanism also comprises a detection element and one second moving-out device, corresponding described the second delivery section of this detection element and this second moving-out device, and, when this detection element detects the rock wool of having overturn, described the second delivery section suspends rotation and this second moving-out device leaves the second carrying surface of described the second delivery section in order to shift out the rock wool of having overturn; This second moving-out device is that plural rotating shaft is configured on an axle bed, and a jacking system connects this axle bed.

A kind of rock wool cutting load transfer device, provide cutting and carry rock wool, and making in the rock wool moving process to produce upset, and it comprises:

One in order to carry the feed mechanism of uncut rock wool;

One cutting mechanism, connect this feed mechanism, and it has plural cutter in order to cut this rock wool, makes rock wool form plural number strip and block parallel to each other;

One auto-steering turn-over mechanism, connect this cutting mechanism angularly, and it is in order to accept and to transmit the strip and block rock wool of having cut, and wherein this auto-steering turn-over mechanism comprises:

One first delivery section, can cycle rotation, and its surface, top is one in order to carry and to carry the first carrying surface of this rock wool;

One second delivery section, to should the first delivery section and can cycle rotation, its surface has plural spacer region, and the surface, top of the second delivery section is one second carrying surface in addition;

Wherein this rock wool of having cut is shifted to the second carrying surface of this second delivery section from the first carrying surface of this first delivery section, and this rock wool of having cut upset means of arranging in pairs or groups, the form that makes this rock wool be positioned at this first carrying surface differs 90 degree with the form that is positioned at this second carrying surface.

Described the first carrying surface is higher than described the second carrying surface, and described upset means make the strip and block rock wool of having cut incline in the spacer region that falls into described the second carrying surface from described first year bearing surface.

Described the first carrying surface is lower than described the second carrying surface, described upset means make the strip and block rock wool of having cut move into a spacer region of described the second delivery section end from described the first carrying surface, and this rock wool of having cut moves to described the second carrying surface with the rotation of described the second delivery section.

Described rock wool cutting load transfer device also comprises one first moving-out device, one second moving-out device and a detection element, wherein this first moving-out device is arranged on an end of described the first delivery section, in order to cutting and unturned rock wool is pushed described the second delivery section to; Corresponding described the second delivery section of this detection element and this push unit, and, when this detection element detects the rock wool of having overturn, described the second delivery section suspends rotation and this second moving-out device leaves the second carrying surface of described the second delivery section in order to shift out the rock wool of having overturn.

The beneficial effects of the utility model are: auto-steering turn-over mechanism of the present utility model, and it comprises one first delivery section and connects one second delivery section, can the arrange in pairs or groups mode of toppling over upset of the rock wool that has cut into strip and block falls into the second delivery section by the first delivery section and turns to turn-over to reach, or after rock wool moves into the second delivery section, rotate to reach with the second delivery section and turn to turn-over, it connects a cutting mechanism and a feed mechanism, particularly self-steering gear and cutting mechanism form angled type of attachment, can reach the surface trimming rock wool by this, change the direct of travel of the rock wool of having cut, and allow the rock wool auto-steering turn-over cut, make the rock wool of having cut can be arranged in the form than high structural strength, and then can improve tradition with inconvenience and the uncomfortable property that rock wool was produced of manually overturning one by one.

Below, according to the purpose of this utility model and effect, enumerate preferred embodiment and coordinate graphic detailed description.

The accompanying drawing explanation

The cutting that Fig. 1 is rock wool, overturn and make the diagram of circuit of composite panel.

The configuration schematic diagram that Fig. 2 is auto-steering turn-over mechanism of the present utility model.

The structural representation that Fig. 3 is the utility model the first delivery section.

Fig. 4 is the utility model the second delivery section structure and rock wool overturning action schematic diagram.

The schematic top plan view that Fig. 5 is the utility model the second defeated section.

Fig. 6 is another example structure of the utility model and rock wool handling maneuver schematic diagram.

Fig. 7 is the utility model the first moving-out device configuration schematic diagram.

Fig. 8 a is the utility model the second moving-out device and detection element configuration schematic diagram.

The structural representation that Fig. 8 b is the utility model the second moving-out device.

The use view that Fig. 8 c is the utility model the second moving-out device.

Fig. 9 is another second moving-out device of the utility model and detection element configuration schematic diagram.

Figure 10 is rock wool cutting load transfer device configuration of the present utility model and uses view.

Figure 11 is the composite plate structure schematic diagram with the utility model moulding.

Drawing reference numeral: 10: block rock beam; 12: the strip rock wool; 14: metal sheet; 16: composite panel; 20: the auto-steering turn-over mechanism; 22: the first delivery section; 22a: the first carrying surface; 22b: mouth; 22c: backstop roller; 22d: position transduser; 24: the second delivery section; 24a: the second carrying surface; 24b: compacting roller; 24c: chain group; 24d: distance piece; 24e: spacer region; 24f: gear cluster; 24g: transmission shaft; 24h: motor; 26: spacing; 28: spacing; 30: rock wool; 40: the first moving-out devices; 42: air cylinder; 44: push pedal; 50: the second moving-out devices; 52: detection element; 54: rotating shaft; 55: promote cylinder; 56: axle bed; 58: jacking system; 60: feed mechanism; 62: put the material platform; 70: cutting mechanism; 72: cutter; 80: composite panel; 82: metal sheet.

The specific embodiment

Refer to Fig. 2, disclose auto-steering turn-over mechanism 20 in figure and comprise one first delivery section 22 and one second delivery section 24.This second delivery section 24 is positioned at a side of this first delivery section 22.

Refer to Fig. 3, the first delivery section 22 has one first carrying surface 22a.This first carrying surface 22a is positioned at the surface, top of the first delivery section 22, and this first carrying surface 22a has cut into the rock wool 30 of strip and block in order to carrying and conveying.It should be noted that the rock wool 30 of having cut is that to be arranged in this first carrying surface 22a upper, and be subject to an impetus and produce movement.

The mouth 22b of the first delivery section 22 disposes a backstop roller 22c again, and a position transduser 22d is positioned near mouth 22b.This backstop roller 22c can contact the some of rock wool 30 foremost, causes the rock wool 30 be positioned at foremost after being subject to further promotion, can break away from backstop roller 22c and be dropped out by mouth 22b.

Refer to Fig. 4, corresponding the first delivery section 22 of the second delivery section 24, and the second delivery section 24 is adjoined the mouth 22b of the first delivery section 22.Position transduser 22d can be between the first delivery section 22 and the second delivery section 24; Further, the configurable end in the first delivery section 22 of position transduser 22d.

The surface, top of the second delivery section 24 is the second carrying surface 24a.One compacting roller 24b is configured in the second delivery section 24 and relies on the second carrying surface 24a.

Refer to Fig. 4, Fig. 5, furthermore, the second delivery section 24 is consisted of a plurality of chain group 24c, and all disposes relative distance piece 24d on each chain group 24c, form by this spacer region 24e between two adjacent distance piece 24d, this second delivery section 24 has plural spacer region 24e.

The gear cluster 24f that the two ends of each chain group 24c are all arranged in pairs or groups suitable.The gear 24f of the same end of adjacent chain group 24c takes with a transmission shaft 24g and is connected in series combination.One motor 24h forms and is connected with the end of a transmission shaft 24g wherein.The torsion that so motor 24h exports can synchronously drive each gear cluster 24f and each chain group 24c, the state of kinematic motion that makes the second delivery section 24 have cycle rotation.

Please consult Fig. 4, the first carrying surface 22a is higher than the second carrying surface 24a and form accordingly a spacing 26 again.The rock wool 30 that is positioned at the first carrying surface 22a is stressed and topple over while dropping out from mouth 22b, and the formed diff-H of the spacing of can arranging in pairs or groups 26, cause rock wool 30 to fall into the spacer region 24e on this second carrying surface 24a from this first carrying surface 22a overturning.

It should be noted that, rock wool 30 is dropped into the second carrying surface 24a from the first carrying surface 22a, just turning 90 degree, make the material layer arrangement of rock wool 30 become the form of horizontal arrangement in parallel by upper and lower overlapped formal transformation, thereby can improve the force intensity that is subject to of vertical direction.

Then, position transduser 22d detect turn over to rock wool 30, can impel this second delivery section 24 to produce running to drive rock wool 30, make another empty spacer region 24e with rotation corresponding below the first carrying surface 22a preparation accept rock wool 30.

Refer to Fig. 6, another embodiment of auto-steering turn-over mechanism 20, the first carrying surface 22a of the first delivery section 22, lower than the second carrying surface 24a of the second delivery section 24, makes between the first carrying surface 22a and the second carrying surface 24a and forms a spacing 28.The second delivery section 24 has a plurality of spacer region 24e in addition, and each spacer region 24e can make cycle rotation.The end of corresponding the second delivery section 24 of this first carrying surface 22a again.

When being subject to thrust, the rock wool 30 that is positioned at the first carrying surface 22a moves to the second supporting part 24, and this position transduser 22d detects rock wool 30 and leaves mouth 22b, this second delivery section 24 is rotated and is carried a rock wool 30 with a distance piece 24d holder, rock wool 30 is entered spacer region 24e in.

Along with the rotation of the second delivery section 24, quilt is brought into the top that the interior rock wool 30 of spacer region 24e is movable to second defeated section 24.Comparison rock wool 30 is positioned at the first carrying surface 22a and is positioned at the state of the second carrying surface 24a, can find that rock wool 30 has completed to turn to turn-over; In other words, the material layer of rock wool 30 is arranged by upper and lower overlapped formal transformation and is become the form of horizontal arrangement in parallel, thereby can improve the force intensity that is subject to of vertical direction.

Refer to Fig. 7, one first moving-out device 40 is positioned at the end of the first carrying surface 22a, and this first moving-out device 40 can promote the strip and block rock wool 30 of marshalling step by step, make rock wool 30 to move on the first carrying surface 22a, and then fall into the second delivery section (not shown), or the second carrying surface (not shown).The first above-mentioned moving-out device 40 can be consisted of in conjunction with a push pedal 44 air cylinder 42.

Refer to Fig. 8 a, the rock wool of turn-over 30 on the second carrying surface 24a need be moved out of to carry out next manufacturing course.Shift out rock wool 30, one second moving-out devices 50 of turn-over and the appropriate location of configurable the second carrying surface 24a adjoining the second delivery section 24 of a detection element 52 for reaching.

Further, the second moving-out device 50 can comprise plural rotating shaft 54 of propping up and be configured in rotationally on an axle bed 56, and this axle bed 56 is connected with a jacking system 58.When detection element 52 detects the rock wool 30 of having overturn, this second delivery section 24 is suspended rotation, and these the second moving-out device 50 entrys into service.

Refer to Fig. 8 b and Fig. 8 c, this axle bed 56 can be subject to the driving of jacking system 58 and rise with the combination of rotating shaft 54, and so rotating shaft 54 can be by rock wool 30 jack-up; Then rotating shaft 54 is rotated and by friction force, rock wool 30 is shifted out to the second carrying surface 24a.

In addition, shown in Fig. 8 a, the position that changes detection element 52 can change the quantity that rock wool 30 shifts out the second carrying surface 24a at every turn.

The second moving-out device 50, except the combination of above-mentioned rotating shaft 54, axle bed 56 and jacking system 58, can be also other equivalent mechanism.

Refer to Fig. 9, the second moving-out device 50 can be the combination that plural number promotes cylinder 55.Further, according to the quantity that shifts out of rock wool 30, the promotion cylinder 55 of the configurable respective amount of the present embodiment is in order to shift out rock wool 30 the second carrying surface 24a.

Above embodiment discloses the utility model and can utilize the version of the first carrying surface 22a higher than the second carrying surface 24a, makes rock wool 30 when the first carrying surface 22a falls into the second carrying surface 24a, automatically produces the effect that turns to turn-over; And in the spacer region 24e that can first allow rock wool 30 move into lower than the second carrying surface 24a, and then make rock wool 30 move to the second carrying surface 24a with spacer region 24e, and then make rock wool automatically produce and turn to turn-over.Therefore utilize embodiment of the present utility model can improve tradition with inconvenience and the uncomfortable property that rock wool was produced of manually overturning one by one.

Refer to Figure 10, disclose a kind of rock wool cutting load transfer device in figure, it comprises a feed mechanism 60 and connects a cutting mechanism 70.This feed mechanism 60 has puts material platform 62 in order to carry uncut rock wool 30, and this puts the material platform 62 suitable jacking system of can arranging in pairs or groups, for example pneumatic shuttle or oil pressure installation, make this put the material platform 62 can the lifting displacement put rock wool 30 with the handled easily person, and make to put the material platform 62 can aim at cutting mechanism 70.The configurable air cylinder of feed mechanism 60 and push pedal in addition, can push uncut rock wool 30 to cutting mechanism 70 by this.

This cutting mechanism 70 has plural cutter 72 can be in order to automatically to cut into strip and block by the rock wool 30 of cardinal principle cumuliformis.

Material layer that it should be noted that the strip and block rock wool 30 after cutting mechanism 70 cuttings is still upper and lower overlapped form.

One auto-steering turn-over mechanism 20 connects this cutting mechanism 70.Particularly, this auto-steering turn-over mechanism 20 forms angled type of attachment with cutting mechanism 70.In addition, this turns to turn-over mechanism 20 to have the first delivery section 22 and the second delivery section 24, and its concrete structure and effect and are respectively schemed corresponding explanation as shown in above-mentioned Fig. 3 to Fig. 8.It should be noted that.The form that rock wool 30 is positioned at this first carrying surface 22a differs 90 degree with the form that is positioned at this second carrying surface 24a.

The material layer that can automatically change the rock wool 30 that cuts into strip and block due to auto-steering turn-over mechanism 20 is arranged, and each strip and block rock wool 30 that therefore breaks away from the second delivery section 24 can be imported into the processing procedure of composite panel.

Refer to Figure 11, the composite panel 80 shown in figure is to configure a plurality of to have turned to the strip and block rock wool 30 of turn-over between two metal sheets 82.Because the material layer of each rock wool 30 has been turned into vertical, and the material layer arrangement in parallel of adjacent rock wool 30, so composite panel 80 can provide larger structural strength, and can bear larger External Force Acting and indeformable.

It is more than preferred embodiment of the present utility model and design graphic, but preferred embodiment and to design graphic be only casehistory, not for limiting the interest field of the utility model technology, allly take impartial technological means or implement as following " claims " interest field that content was contained, all do not break away from category of the present utility model and be applicant's interest field.

Claims (10)

1. an auto-steering turn-over mechanism, for making rock wool after cutting carrying moving process to produce upset, is characterized in that, it comprises:

One first delivery section, have one in order to carrying and carry this rock wool the first carrying surface;

One second delivery section, to should the first delivery section, it has one in order to accept the second carrying surface from this rock wool of this first delivery section;

Wherein this rock wool drops out and turn-over enters the second carrying surface of this second delivery section from the first carrying surface of this first delivery section.

2. auto-steering turn-over mechanism as claimed in claim 1, it is characterized in that: described the first carrying surface forms a spacing higher than described the second carrying surface, and described rock wool is from described the first carrying surface overturning 90 degree and fall on described the second carrying surface.

3. an auto-steering turn-over mechanism, for making rock wool after cutting carrying moving process to produce upset, is characterized in that, it comprises:

One first delivery section, its surface, top is one in order to carry and to carry the first carrying surface of this rock wool;

One second delivery section, can cycle rotation and to should the first delivery section, its surface has plural spacer region, and the surface, top of this second delivery section is one second carrying surface in addition;

Wherein this rock wool is moved into by this first carrying surface in the spacer region of end of this second delivery section, and this rock wool is mobile and produce turn-over along with the rotation of this second delivery section, makes the rock wool that turns to turn-over be positioned on this second carrying surface.

4. auto-steering turn-over mechanism as claimed in claim 3, it is characterized in that: described the first carrying surface is lower than described the second carrying surface, and move to described the second carrying surface when described rock wool, the form that described rock wool is positioned at the form of described the first carrying surface and is positioned at described the second carrying surface differs 90 degree.

5. auto-steering turn-over mechanism as described as claim 1 or 3, it is characterized in that: also comprise one first moving-out device, this first moving-out device is arranged on an end of described the first delivery section, and in order to unturned rock wool is pushed to described the second delivery section.

6. auto-steering turn-over mechanism as described as claim 1 or 3, it is characterized in that: also comprise a detection element and one second moving-out device, corresponding described the second delivery section of this detection element and this second moving-out device, and, when this detection element detects the rock wool of having overturn, described the second delivery section suspends rotation and this second moving-out device leaves the second carrying surface of described the second delivery section in order to shift out the rock wool of having overturn; This second moving-out device is that plural rotating shaft is configured on an axle bed, and a jacking system connects this axle bed.

7. a rock wool cutting load transfer device, provide cutting and carry rock wool, and making in the rock wool moving process to produce upset, it is characterized in that, it comprises:

One in order to carry the feed mechanism of uncut rock wool;

One cutting mechanism, connect this feed mechanism, and it has plural cutter in order to cut this rock wool, makes rock wool form plural number strip and block parallel to each other;

One auto-steering turn-over mechanism, connect this cutting mechanism angularly, and it is in order to accept and to transmit the strip and block rock wool of having cut, and wherein this auto-steering turn-over mechanism comprises:

One first delivery section, can cycle rotation, and its surface, top is one in order to carry and to carry the first carrying surface of this rock wool;

One second delivery section, to should the first delivery section and can cycle rotation, its surface has plural spacer region, and the surface, top of the second delivery section is one second carrying surface in addition;

Wherein this rock wool of having cut is shifted to the second carrying surface of this second delivery section from the first carrying surface of this first delivery section, and this rock wool of having cut upset means of arranging in pairs or groups, the form that makes this rock wool be positioned at this first carrying surface differs 90 degree with the form that is positioned at this second carrying surface.

8. rock wool as claimed in claim 7 is cut load transfer device, it is characterized in that: described the first carrying surface is higher than described the second carrying surface, and described upset means make the strip and block rock wool of having cut incline in the spacer region that falls into described the second carrying surface from described first year bearing surface.

9. rock wool as claimed in claim 7 is cut load transfer device, it is characterized in that: described the first carrying surface is lower than described the second carrying surface, described upset means make the strip and block rock wool of having cut move into a spacer region of described the second delivery section end from described the first carrying surface, and this rock wool of having cut moves to described the second carrying surface with the rotation of described the second delivery section.

10. rock wool as claimed in claim 7 is cut load transfer device, it is characterized in that: also comprise one first moving-out device, one second moving-out device and a detection element, wherein this first moving-out device is arranged on an end of described the first delivery section, in order to cutting and unturned rock wool is pushed described the second delivery section to; Corresponding described the second delivery section of this detection element and this push unit, and, when this detection element detects the rock wool of having overturn, described the second delivery section suspends rotation and this second moving-out device leaves the second carrying surface of described the second delivery section in order to shift out the rock wool of having overturn.

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