CN201540096U - Size detection mechanism for flaky high molecule formed substance - Google Patents

Abstract

The present utility model discloses a size detection mechanism for flaky high molecule formed substances. The size detection mechanism comprises a detecting set and a feeding member. The detecting set has a base part, a locating space is located on the base part, a charging end is positioned on one side of the locating space, a discharging end is positioned at the other side of the positioning space, and an induction part corresponds to the position of the discharging end and is capable of performing linear displacements to and fro from an origin point in a predetermined direction. The feeding member has a locating pushing part for pushing the flaky high molecule formed substances to be detected from the charging end to the locating space, and a moving-out part for moving out the flaky high molecule formed substances from the locating space. According to the utility model, operations of detecting the size of a flaky high molecule formed substance can be performed quickly, when the size of the flaky high molecule formed substance is detected to be beyond an admissible size error value, the size is determined to be undersize or oversize, and the after-detecting moving path of the flaky high molecule formed substances of different size detection results can be divided respectively.

Description

The size detection mechanism of sheet molded polymer

Technical field

The utility model is relevant with polymer shaping processing, is meant a kind of size detection mechanism of sheet molded polymer especially.

Background technology

With regard to general polymer shaping process technology, use the technological means of molded required form of mould and size article, admittedly belong to the basic technology of known ripe usefulness, precisely because concrete technology contents then corresponding different process conditions and many kenels are arranged, for example, when the moulding tablet, the two-part of the employing person of making is arranged, that is to say and earlier polymer is shaped to the sheet material, be of a size of standard with required final molding again, cutting equal sheet material is germule, and through hot press molding required face shaping and decorative pattern, these processing procedures can obtain accurate in size final molding product admittedly again, precisely because the Mining manufacturing method thereof of two-part, except the cycling time of procrastinateing processing procedure, on first section cutting step, then can produce too much waste material, for resources effective utilization and imperfect.

In the enforcement of industry, promptly there is exposure to finish method as these tablets with single processing procedure, its major technology content is that quantitative raw material directly directly is molded as final sheet article shaped with mould, is configured as the step that is cut into sizing behind the plates more earlier and omit; Wherein, the form of raw material when being received in mould then is made up of the raw material that only is disperse state for simple mixing, also is molded as independently quantitative individually germule module by earlier raw material being formed after mixing in advance; These single processing procedures, it is attached and what give birth to is the dimensional accuracy problem of final products, this problem produces reason, be present in raw material the flaw of the molded program of mould inside except that having, also may be present in article shaped and leave behind the mould in the back steady type program under controlled temperature environment, with and be to adopt due to the outer foaming of mould.

In disclosed technology contents, then still be short of the automatic technology content of being carried out sheet article shaped size detection fast.

The utility model content

Fundamental purpose of the present utility model is that a kind of size detection mechanism of sheet molded polymer is being provided, and it can carry out the size detection operation of sheet molded polymer fast.

Another purpose of the present utility model is that a kind of size detection mechanism of sheet molded polymer is being provided, when the size of sheet molded polymer exceeds the scale error value of allowing after after testing, visual its undergage or excessive, and the mobile route after different respectively its detection.

In order to achieve the above object, the utility model is by the following technical solutions:

A kind of size detection mechanism of sheet molded polymer, it includes:

One test set has a base portion, and certain bit space is positioned on this base portion, and a feeding end is positioned at a side in this space, location, and a discharge end then is positioned at the opposite side in this space, location, and an induction part is corresponding to this discharge end position and can reciprocally carry out linear displacement;

One feed member has one sheet molded polymer to be detected is pushed pushed section, location in this space, location from this feeding end, and a material portion that moves that will this sheet molded polymer to be detected shifts out in this space, location.

Described base portion is to have a plate-shaped support, and the two apart tabular lateral body branches that come are located on the both sides of this carrier, according to this at this carrier and respectively form this space, location between this lateral body.

Described carrier is rectangular; And respectively this lateral body is microscler and is located on the epipleural face at these carrier minor axis two ends with the mode branch that major axis is parallel to this carrier major axis.

Described induction part has a conductor, a gliding mass and an inductor, and this gliding mass is slidedly arranged on this conductor, and on this conductor linear displacement reciprocally, this inductor is installed on this gliding mass.

Described inductor is an optical fiber.

Described feeding end and described discharge end are positioned on the opposing position at the 180 degree angles that are separated by each other.

Described feed member more includes one and drives the feeding power source of this pushed section, location along a linear direction shift reciprocately start, and this pushed section, location is a tabular body.

The described material portion that moves has a tabular ennation, be fixed in an end of this pushed section, location with an end, other end end end then is formed with tab, and the end end that this ennation and this pushed section, location join each other has potential difference with the formation stage on the short transverse corresponding to this pushed section, location.

The described material portion that moves has most vacuum slots, and it is corresponding to shift reciprocately between the side direction in this top, space, location and this space, location.

By this, when being subjected to this pushed section, location, this sheet molded polymer to be detected pushes this space, location simultaneously, making this sheet molded polymer correspondence to be detected is that correspondence is positioned on the reference point that detects in the basic side of a side of this feeding end, again with the in addition side tested side position of this sheet molded polymer to be detected of this induction part sensing corresponding to this discharge end, detect the distance of this sheet molded polymer to be detected between between this tested side and this base side according to this, to obtain its corresponding size numerical value

The beneficial effects of the utility model are: the utility model can carry out the detection to sheet molded polymer size fast, has saved detection time greatly, has improved work efficiency, the accuracy in detection height; When the size of sheet molded polymer exceeds the scale error value of allowing after after testing, visual its undergage or excessive, and move according to the mobile route of correspondence respectively.

Description of drawings

Fig. 1 is the three-dimensional exploded view of the utility model one preferred embodiment.

Fig. 2 is the three-dimensional combination figure of the utility model one preferred embodiment.

Fig. 3 is the vertical view of the utility model one preferred embodiment.

Fig. 4 is the test set three-dimensional combination figure of the utility model one preferred embodiment.

Fig. 5 A～Fig. 5 E is the course of work synoptic diagram that the utility model one preferred embodiment detects running.

Fig. 6 is that the utility model one preferred embodiment cooperates a stereo appearance figure that gathers materials mechanism.

Fig. 7 is that the utility model one preferred embodiment cooperates a sectional perspective outside drawing at another visual angle that gathers materials mechanism.

Fig. 8 is that the utility model one preferred embodiment cooperates the cut-open view of mechanism along the 7th figure a-a direction that gather materials.

Main label declaration: 10: the size detection mechanism of sheet molded polymer, 20: test set, 21: base portion, 211: carrier, 212: pillar, 213: lateral body, 22: space, location, 23: feeding end, 24: discharge end, 25: induction part, 251: conductor, 252: gliding mass, 253: inductor, 254: sensing power source, 30: feed member, 31: guide rail, 32: slide block, 33: the pushed section, location, 331: skirtboard, 332: end end, 34: the feeding power source, move material portion, 351 at 35: the first: ennation, 352: tab, move material portion, 361 at 36: the second: cantilever, 362: overhead traveling crane, 363: vacuum slot, 37: fluid pressure cylinder, 371: force-output shaft, 40: seat portion, 50,50 ': sheet molded polymer, 51: basic side, 52: be subjected to side, 60: the mechanism that gathers materials, 61: material collecting box, 611: box body, 612: base plate, 62: rotating disk, 621: disk body, 622: perforation, 63: arm-tie group 64: the push jack group.

Embodiment

At first, see also shown in Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 A～Fig. 5 E, the size detection mechanism 10 of the sheet molded polymer that provides in the utility model one preferred embodiment, it mainly is made up of a test set 20 and a feed member 30, wherein:

Test set 20 has the base portion 21 that without exception is dull and stereotyped kenel, its level mounts on the last seat surface that is installed in a portion 40, the space, location 22 that one top is open shape is to be positioned on the epipleural face of base portion 21, one feeding end 23 and 24 of discharge ends lay respectively at the opposing both sides in space 22, location, the corresponding states that is 180 degree angles each other, in order to be provided at the passage in space 22, turnover location on the horizontal direction, one induction part 25 is located on the last seat surface of a portion 40, corresponding to discharge end 24 positions, and to be able to set position be initial point, and carry out the shift reciprocately of linearity in a proper range;

Further, base portion 21 has rectangular without exception plate-shaped support 211, be to be set up on the last seat surface of a portion 40 with some pillars 212, two microscler lateral bodys 213 parallel to each other are to be divided on the epipleural face at carrier 211 rectangular shape minor axis two ends, be used to respectively form between this lateral body 213 and this carrier 211 epipleural faces this space, location 22, and feeding end 23 and discharge end 24 promptly are on the corresponding major axis end positions that is positioned at carrier 211 rectangular shapes;

25 of induction parts have a long vertical bar shape conductor 251, it is the mode that is parallel to carrier 211 rectangle major axis with major axis, set firmly in the present portion 40 on the seat surface, 252 of the gliding masses that one bottom side is concaved with chute are set and are slidedly arranged on the conductor 251, and can be along the reciprocally displacement of major axis of conductor 251, one is that the inductor 253 of formation is installed on the gliding mass 252 with induction optical fiber, and can be with gliding mass 252 shift reciprocatelies, one sensing sets firmly on the last seat surface of present portion 40 with power source 254, makes it displacement action and drive gliding mass 252 with force-output shaft.

30 of feed members have a strip guide rail 31, set firmly in the present portion 40 on the seat surface, and be positioned at a side of feeding end 23, major axis is also parallel corresponding with the major axis of conductor 251, one ㄇ shape slide block 32 is slidedly arranged on the guide rail 31, and can be along the reciprocal start of the major axis of guide rail 31, the pushed section 33, long strip-board shape location of one tool suitable thickness, be to amplexiform on slide block 32 with end lateral plates, can be subjected to the guiding of guide rail 31 by slide block 32, one is that the feeding power source 34 of composition is installed on the last seat surface of this one 40 with fluid pressure cylinder spare, and join with the distolateral vertical skirtboard 331 in exert oneself axle head and pushed section 31 1, location, in order to drive pushed section 33, location in a pan feeding position and certain material level put a reciprocal linear displacement, one first moves material portion 35, be to release from discharge end 24 in order to the sheet molded polymer that will be arranged in space 22, location to locate outside the space 22, one second moves 36 in material portion shifts out outside the space 22, location in order to the top side that will be arranged in the self-align space 22 of sheet molded polymer of locating space 22;

Further, first moves the ennation 351 that material portion 35 has a long strip-board shape, be fixed in major axis one end of pushed section 33, location with major axis one end, and the end end that ennation 351 and pushed section 33, location are joined each other, form the stage in direction with potential difference corresponding to pushed section, location 33 height, length and be with pushed section 33, location between pan feeding and decide the shift length of material level between putting and walk back and forth mutually, 352 of two tabs be based in respectively ennation 351 major axis in addition end hold on the end;

And second move material portion 36 and have a horizontal boom 361 that is set up in the suitable height and position in test set 20 tops, day car 362 is to be slidingly installed on the cantilever 361, and can be between a side direction of top in space 22, location and seat portion 40 shift reciprocately, the vacuum slot 363 of some mouth mouth downs is that branch is located on the overhead traveling crane 362, when overhead traveling crane 362 is positioned at 22 tops, space, location, each vacuum slot 363 is upwards to reset behind the sheet molded polymer of location in the space 22 to the bottom offset adsorption potential, and is subjected to the traversing of overhead traveling crane 362 and the sheet molded polymer is shifted out space 22, location and away from test set 20.

Composition by above-mentioned member, the size detection mechanism 10 of sheet molded polymer in the use, be sheet molded polymer 50 levels to be detected to be transferred with feed member 30, and enter in the space 22, location from feeding end 23, make sheet molded polymer 50 both sides be subjected to the backstop of each lateral body 213 and located, and it is corresponding to a side of feeding end 23, also can pass through the fixed journey system manner of execution of feed member 30, and obtain corresponding location;

In more detail, be that sheet molded polymer 50 is amplexiformed on ennation 351 epipleural faces so that the bottom side is unilateral, the driving that is subjected to feeding power source 34 when pushed section 33, location is put when mobile toward deciding material level from the pan feeding position, under the situation of gravity greater than friction force, ennation 351 is to slide with respect to sheet molded polymer 50, and the side in sheet molded polymer 50 is amplexiformed at an end end end 332 that makes pushed section, location 33 major axis, reach according to this and promote the effect that sheet molded polymer 50 moves, therefore, when pushed section 33, location is moved to when deciding material level and put, sheet molded polymer 50 is corresponding to a side of feeding end 23, that is promptly reaching the location synchronously with end end 332 sides of amplexiforming, both sides then are subjected to the backstop of each lateral body 213 and are located;

In view of the above, when sheet molded polymer 50 obtains the location in space, location 22, inductor 253 is promptly from the past feeding end 23 direction displacements of this initial point, with the distolateral position of this sheet molded polymer 50 of sensing corresponding to this discharge end 24, thereby, can detect and learn that sheet molded polymer 50 is corresponding to the basic side 51 of feeding end 23 1 sides and corresponding to the distance that is subjected to 52 of sides of discharge end 24 1 sides, to obtain its corresponding size numerical value;

Continue it, making pushed section 33, location make material level by oneself again puts and returns back on the pan feeding position, to carry next sheet molded polymer 50 ' to be detected, and when avoiding locating pushed section 33 for this homing action, this examined sheet molded polymer 50 is retracted undeservedly, therefore, can carry out block corresponding to a side of feeding end 23 to the sheet molded polymer 50 that is arranged in space 22, location, to avoid it to be retracted by improper, and this block technology, but for example be able to the axle reciprocating action fluid pressure cylinder 37 for it, also be about to the below that fluid pressure cylinder 37 is fixedly arranged on this carrier 211, and make its force-output shaft 371 freely penetrate this carrier 211 plate bodies, carry out effect only to reach when return stroke is carried out in pushed section 33, location beginning to sheet molded polymer 50 backstops.

The size numerical value that detects gained when sheet molded polymer 50 is during less than allowed error amount, make this pushed section, location 33 put the direction displacement toward deciding material level from this pan feeding position, hereat, ennation 351 is synchronous shift, and respectively this tab 352 promptly is connected on basic side 51 end faces of this sheet molded polymer 50, according to this this sheet molded polymer 50 being released this from this discharge end 24 locatees outside space 22, it is increased the post processor of size.

And the size numerical value that detects gained when sheet molded polymer 50 is during greater than allowed error amount, then be second to move material portion 36 and will be arranged in sheet molded polymer 50 absorption in this space, location 22 and shift out, it is carried out subsequent treatment program reduced in size with this.

In view of the above, the mode that the size detection mechanism 10 of this sheet molded polymer promptly is able to robotization is carried out the size detection of sheet molded polymer apace, and the green bristlegrass product size defective mode of visual detection gained, and first move material portion 35 or second and move material portion 36 and give from this space, location 22 paths of outwards transferring with this respectively, in the application implementation of industry can and post processor between the robotization that form to link up handle, to develop efficiency.

In addition, for having higher efficient on industry is implemented, the size detection mechanism 10 that makes this sheet molded polymer manifests, in the utility model, further disclose the mechanism 60 that gathers materials again, it is can reach in the sheet molded polymer robotization ground feed-in feed member 30, and need not with manual type, close this, then see also Fig. 6 to shown in Figure 8, the mechanism 60 that gathers materials is that most material collecting box 61 of will take in the sheet molded polymer are divided on the rotating disk 62 substantially, and by the rotation of rotating disk 62, make the corresponding in order top that is positioned at locational this pushed section, location 33 of pan feeding of each material collecting box 61, locate in the pushed section 33 and make the sheet molded polymer of being taken in the material collecting box 61 be able in order feed-in downwards one by one.

Particularly, each material collecting box 61 is to have a rectangular tubular box body 611 respectively, 612 of one base plates are slidedly arranged on the bottom mouth of pipe of box body 611, the sheet molded polymer must be accommodated in the box body 611 according to this, and when base plate 612 was detached, the bottom mouth of pipe that the sheet molded polymer promptly derives from this box body 611 dropped out outside this box body 611.

62 of this rotating disks are to have a disk body 621, and 622 of some perforation provide respectively on this disk body 621, and box body 611 tubular axis with corresponding are coaxial corresponding separately, so that the sheet molded polymer that drops out of this box body 611 gets and freely passes corresponding perforation 622 certainly.

When material collecting box 61 correspondences are positioned at the top of locational this pushed section, location 33 of this pan feeding, be this base plate 612 to be detached with an arm-tie group 63 with power, bottom with open this box body 611, itself and this 33 of pushed sections, location are not stopped, and be pressed against the sheet molded polymer that is accommodated in this box body 611 downwards with force-output shaft from the top of this box body 611 mouth of pipe with a push jack group 64 with power, drop out downwards to provide external force to promote the sheet molded polymer, to reach of the robotization of feed-in sheet molded polymer to this feed member 30; Hereat, other it should be noted that the sheet molded polymer quantity for avoiding feed-in surpasses a slice, therefore, in the design of size, make between 33 of this disk body 621 and this pushed sections, location to allow single sheet molded polymer to pass through, to guarantee the correctness of feed-in quantity apart from just winning.

Claims (9)

1. the size detection mechanism of a sheet molded polymer, it is characterized in that: it includes:

One test set has a base portion, and certain bit space is positioned on this base portion, and a feeding end is positioned at a side in this space, location, and a discharge end then is positioned at the opposite side in this space, location, and an induction part is corresponding to this discharge end position and can reciprocally carry out linear displacement;

One feed member has one sheet molded polymer to be detected is pushed pushed section, location in this space, location from this feeding end, and a material portion that moves that will this sheet molded polymer to be detected shifts out in this space, location.

2. the size detection mechanism of sheet molded polymer according to claim 1, it is characterized in that: described base portion is to have a plate-shaped support, the two apart tabular lateral body branches that come are located on the both sides of this carrier, according to this at this carrier and respectively form this space, location between this lateral body.

3. the size detection mechanism of sheet molded polymer according to claim 2 is characterized in that: described carrier is rectangular; And respectively this lateral body is microscler and is located on the epipleural face at these carrier minor axis two ends with the mode branch that major axis is parallel to this carrier major axis.

4. the size detection mechanism of sheet molded polymer according to claim 1, it is characterized in that: described induction part has a conductor, a gliding mass and an inductor, this gliding mass is slidedly arranged on this conductor, and on this conductor linear displacement reciprocally, this inductor is installed on this gliding mass.

5. the size detection mechanism of shape molded polymer according to claim 4 is characterized in that: described inductor is an optical fiber.

6. the size detection mechanism of sheet molded polymer according to claim 1 is characterized in that: described feeding end and described discharge end are positioned on the opposing position at the 180 degree angles that are separated by each other.

7. the size detection mechanism of sheet molded polymer according to claim 1 is characterized in that: described feed member more includes one and drives the feeding power source of this pushed section, location along a linear direction shift reciprocately start, and this pushed section, location is a tabular body.

8. the size detection mechanism of sheet molded polymer according to claim 7, it is characterized in that: the described material portion that moves has a tabular ennation, be fixed in an end of this pushed section, location with an end, other end end end then is formed with tab, the end end that this ennation and this pushed section, location join each other has potential difference with the formation stage on the short transverse corresponding to this pushed section, location.

9. the size detection mechanism of sheet molded polymer according to claim 7 is characterized in that: the described material portion that moves has most vacuum slots, and it is corresponding to shift reciprocately between the side direction in this top, space, location and this space, location.

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