CN216791104U - Roll up core size detection device - Google Patents

Abstract

The utility model relates to the technical field of roll core production, in particular to a roll core size detection device. Roll up core size detection device and be equipped with lift drive assembly through in base or backup pad, and be equipped with transparent clamp plate at lift assembly facial make-up, and the visual identification piece of orientation transparent clamp plate is equipped with in the backup pad facial make-up, only need utilize lift drive assembly to drive transparent clamp plate and descend and compress tightly the book core during the use, restart visual identification piece afterwards to compress tightly the back roll core length or the equidimension measure can, it is very convenient, compare in the embodiment of holding the ruler measurement to roll up core size and measure the rate of accuracy higher, and can also avoid hand and ruler contact to roll up the core and the size deviation that causes, ensure that the measuring result is accurate. In addition, the roll core size detection device of this embodiment degree of automation is higher, and the measuring speed of vision identification spare compares and holds the promotion by a wide margin in the measurement of ruler, can be when reducing staff intensity of labour, improve production efficiency.

Description

Roll up core size detection device

Technical Field

The utility model relates to the field of roll core production, in particular to a roll core size detection device.

Background

Because roll up the core and be fluffy, whether up to standard in order to judge the size of rolling up the core better, the early left hand compaction of having adopted rolls up the core, and the right hand is held the mode that the ruler measured roll core size, because the dynamics of manual pressing roll core is not good to handle the accuse, consequently the dimensional error who measures is big.

In order to solve the technical problem, a core pressing device appears on the market, and a cylinder is used for replacing a manual core pressing device, so that the force for pressing the winding core at each time is consistent, but in the link of measuring the size of the winding core, the straight ruler is still required to be used for measurement, and therefore an operator can easily cause errors in measurement results due to visual fatigue.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the embodiment of the utility model is to provide a roll core size detection device to solve the problem that in the prior art, when a ruler is used for measuring the size of a roll core, an operator is easy to cause errors of a measurement result due to visual fatigue.

The roll core size detection device provided by the embodiment of the utility model comprises: the supporting mechanism comprises a base and a supporting plate, and the supporting plate is arranged on the base;

the core pressing mechanism comprises a lifting driving component and a transparent pressing plate, the lifting driving component is arranged on the base or the supporting plate, and the transparent pressing plate is connected with the lifting driving component and driven by the lifting driving component to lift so as to press a winding core or move away from the surface of the winding core; and the visual identification piece is arranged on the supporting plate and faces the transparent pressing plate so as to identify the size of the winding core through the transparent pressing plate.

Further, still include height adjustment mechanism, it is connected with visual identification spare and backup pad for adjust the height of visual identification spare.

Further, the height adjustment mechanism includes: a coarse adjustment assembly mounted on the support plate; and the fine adjustment component is arranged on the coarse adjustment component and is connected with the visual identification piece.

Further, the visual recognition part is a CCD camera.

Further, the lift driving assembly includes: a rotating motor installed on the base or the support plate; the screw rod is connected with the rotating motor and driven by the rotating motor to rotate; the screw rod connecting seat is connected with the transparent pressing plate, and a screw hole for the screw rod to be placed into is formed in the screw rod connecting seat, so that the screw rod can be driven to lift when rotating.

Further, the lift drive assembly further comprises: the sliding rail is arranged on the supporting plate along the driving direction of the lifting driving assembly; and the sliding block is arranged on the sliding rail and is connected with the screw rod connecting seat.

Further, the core pressing mechanism further comprises: the surface of the upper fixing plate is provided with a first light-transmitting opening; the surface of the lower fixing plate is provided with a second light-transmitting opening opposite to the first light-transmitting opening; the transparent pressing plate is clamped between an upper transparent pressing plate fixing plate and a lower transparent pressing plate fixing plate, the first light transmission opening and the second light transmission opening are exposed, and the lifting driving assembly is connected with the upper fixing plate or the lower fixing plate.

Furthermore, still include the light filling lamp, it with base or backup pad are connected for towards it is luminous to roll up the core.

Further, still include the core and bear mechanism, it includes: the two supporting legs are arranged on the base at intervals; the light-transmitting bearing seat is arranged at the tops of the two supporting legs, so that an installation space for installing the light supplementing lamp is formed at the bottom of the light-transmitting bearing seat, and the light-transmitting bearing seat is arranged at the bottom of the transparent pressing plate and used for bearing the winding core.

Furthermore, the core pressing mechanism further comprises two starting buttons, the two starting buttons are arranged on two sides of the base and are electrically connected with the lifting driving assembly, and when the two starting buttons are triggered simultaneously, the lifting driving assembly is started to drive the transparent pressing plate to be lowered.

Compared with the prior art, the roll core size detection device provided by the embodiment of the utility model has the beneficial effects that: through be equipped with lift drive assembly in base or backup pad, and be equipped with transparent clamp plate at lift assembly facial make-up, and the visual identification piece that is equipped with towards transparent clamp plate in the backup pad facial make-up, only need utilize lift drive assembly to drive transparent clamp plate and descend and compress tightly the book core during the use, restart visual identification piece afterwards to compress tightly after roll core length or width equidimension measure can, very convenient, it is higher to compare in the embodiment of holding the ruler measurement to roll up a core size, and can also avoid hand and ruler contact to roll up the core and the dimensional deviation that causes, ensure that the measuring result is accurate. In addition, the roll core size detection device of this embodiment degree of automation is higher, and the measuring speed of vision identification spare compares and holds the promotion by a wide margin in the measurement of ruler, can be when reducing staff intensity of labour, improve production efficiency.

Drawings

The following detailed description of embodiments of the utility model will be made with reference to the accompanying drawings and examples, in which:

fig. 1 is a schematic perspective view of a roll core size detection device provided in an embodiment of the present invention;

FIG. 2 is a schematic view of a portion of FIG. 1 at position A;

FIG. 3 is a schematic plane structure diagram of a core size detection apparatus provided in an embodiment of the present invention;

FIG. 4 is a schematic view of a portion of FIG. 1 at position B;

the figures are numbered:

1. a roll core size detection device; 11. a support mechanism; 111. a base; 112. a support plate; 1121. a kidney-shaped hole; 113. reinforcing ribs of the supporting plate; 12. a core pressing mechanism; 121. a lift drive assembly; 1211. a rotating electric machine; 1212. a screw rod; 1213. a screw rod connecting seat; 1214. a slide rail; 1215. a slider; 122. a transparent platen; 123. an upper fixing plate; 124. a lower fixing plate; 125. reinforcing ribs of an upper fixing plate; 13. a visual recognition element; 14. a height adjustment mechanism; 141. a coarse tuning component; 1411. an adjusting plate; 142. a fine tuning component; 15. a light supplement lamp; 16. a carrying mechanism; 161. supporting legs; 162. a light-transmitting bearing seat; 1621. a bearing seat; 1622. a light-transmitting plate; 17. a start button; 200. and (6) winding cores.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

The embodiment of the utility model provides a roll core size detection device 1, and as shown in fig. 1, the roll core size detection device 1 comprises a supporting mechanism 11, a core pressing mechanism 12 and a visual identification piece 13. The supporting mechanism 11 includes a base 111 and a supporting plate 112, and the supporting plate 112 is disposed on the base 111. The core pressing mechanism 12 includes a lifting driving component 121 and a transparent pressing plate 122, the lifting driving component 121 is installed on the base 111 or the supporting plate 112, and the transparent pressing plate 122 is connected to the lifting driving component 121 and is driven by the lifting driving component 121 to lift so as to press-contact the core 200 or move away from the surface of the core 200. The visual recognition element 13 is mounted on the support plate 112 and faces the transparent pressing plate 122 to recognize the size of the core 200 through the transparent pressing plate 122.

Through implementing this embodiment, only need utilize lift drive assembly 121 to drive transparent clamp plate 122 and descend and compress tightly core 200, then restart vision identification spare 13 to compress tightly the core 200 after the length or the size such as width measure can, very convenient. Compared with the embodiment that the visual identification part 13 is used for measuring the size of the winding core 200, the measurement accuracy is higher, the size deviation caused by the fact that a hand and a ruler contact the winding core 200 can be avoided, and the accuracy of the measurement result is ensured.

In addition, the automation degree of the roll core size detection device 1 of the embodiment is higher, the measurement speed of the visual recognition piece 13 is greatly improved compared with that of a handheld ruler, and the production efficiency can be improved while the labor intensity of workers is reduced.

The visual recognition unit 13 in this embodiment is a CCD camera, which has the advantages of stable performance, long service life, high sensitivity, low noise, large dynamic range, fast response speed, small image distortion, no residual image, and the like.

Certainly, the visual recognition unit 13 may also be a CMOS camera, which has the advantages of low cost, low power consumption, fast data transmission, high integration level, and the like.

In a specific embodiment, as shown in fig. 1, the core size detecting apparatus 1 further includes a height adjusting mechanism 14 connected to the visual identifier 13 and the support plate 112 for adjusting the height of the visual identifier 13.

Specifically, the height adjusting mechanism 14 can adjust the height of the visual recognition member 13 when the imaging effect is not good, so that the imaging effect of the visual recognition member 13 is better. Also can adjust the height of visual identification piece 13 when changing the core 200 of different models, make its adaptation core 200 of different models, increase core size detection device 1's commonality.

In a particular embodiment, as shown in FIGS. 1-2, the height adjustment mechanism 14 includes a coarse adjustment assembly 141 and a fine adjustment assembly 142. The coarse tuning assembly 141 is mounted on the support plate 112. The fine tuning element 142 is mounted on the coarse tuning element 141 and is connected to the visual recognition element 13.

Specifically, the distance that the visual recognition part 13 needs to be adjusted during the assembly stage is relatively large, and the coarse adjustment component 141 can be used to drive the visual recognition part 13 to rapidly lift so as to primarily adjust the height of the visual recognition part 13. Then, the height of the visual recognition component 13 is finely adjusted by using the fine adjustment component 142, so that the visual recognition component 13 achieves a better imaging effect.

In an embodiment, as shown in fig. 1-2, a waist-shaped hole 1121 is formed on the supporting plate 112 along the gravity direction, and the coarse adjustment assembly 141 includes an adjustment plate 1411 and a screw (not shown) for fixing the adjustment plate 1411 and the waist-shaped hole 1121. When the height of the visual recognition unit 13 needs to be adjusted roughly, the screw is loosened, the adjusting plate 1411 is moved along the waist-shaped hole 1121, and then the screw is screwed, which is very convenient and fast.

In a specific embodiment, as shown in fig. 1-2, the fine adjustment assembly 142 is a micrometer manual fine adjustment displacement stage. When the height of the visual identification piece 13 needs to be finely adjusted, only a knob (not shown in the figure) on the micrometer manual fine adjustment displacement table needs to be rotated, and the operation is very convenient and fast.

In one embodiment, as shown in fig. 1-3, the lifting driving assembly 121 includes a rotating motor 1211, a lead screw 1212, and a lead screw connecting seat 1213. The rotating motor 1211 is installed on the base 111 or the support plate 112. The lead screw 1212 is connected to a rotation motor 1211 and is rotated by the rotation motor 1211. The lead screw connecting seat 1213 is connected with the transparent pressing plate 122, and a screw hole for the lead screw 1212 to be inserted is formed in the lead screw connecting seat 1213, so that the lead screw 1212 can drive the lead screw connecting seat 1213 to ascend and descend when rotating.

Specifically, in the present embodiment, the rotating motor 1211 is used to drive the screw rod 1212 to rotate in the screw hole of the screw rod connecting seat 1213, so as to drive the screw rod connecting seat 1213 and the transparent pressing plate 122 to lift. Since the precision of the rotary motor 1211 is high, the stroke of the transparent pressing plate 122 to be lifted can be finely adjusted, so that the pressure applied by the transparent pressing plate 122 to the winding core 200 is appropriate and cannot be large or small.

In an embodiment, as shown in fig. 1-4, the lifting driving assembly 121 further includes a slide rail 1214 and a slider 1215, and the slide rail 1214 is disposed on the supporting plate 112 along the driving direction of the lifting driving assembly 121. The slide block 1215 is mounted on the slide rail 1214 and connected to the lead screw connecting seat 1213.

Specifically, the slide rail 1214 is matched with the slider 1215, so as to provide a guiding function for the screw rod connecting seat 1213 and the transparent pressing plate 122 when the screw rod connecting seat 1213 and the transparent pressing plate 122 are lifted, thereby increasing the stability of the screw rod connecting seat 1213 and the transparent pressing plate 122 when the screw rod connecting seat and the transparent pressing plate 122 are lifted, and avoiding the screw rod connecting seat from shaking in the lifting process.

Alternatively, the lifting driving assembly 121 may also use a lifting cylinder, and a telescopic shaft (not shown) of the lifting cylinder is connected to the transparent pressing plate 122, so as to drive the transparent pressing plate 122 to lift.

In one embodiment, as shown in fig. 1-3, the core pressing mechanism 12 includes an upper fixing plate 123 and a lower fixing plate 124. The upper fixing plate 123 has a first light-transmitting opening (not shown) formed on a surface thereof, and the lower fixing plate 124 has a second light-transmitting opening (not shown) formed on a surface thereof opposite to the first light-transmitting opening. The transparent pressing plate 122 is clamped between the upper transparent pressing plate 122 fixing plate and the lower transparent pressing plate 122 fixing plate, and is exposed by the first light transmission opening and the second light transmission opening, and the lifting driving assembly 121 is connected with the upper fixing plate 123 or the lower fixing plate 124.

Specifically, the transparent pressing plate 122 is clamped by the upper fixing plate 123 and the lower fixing plate 124, so that the stability of the transparent pressing plate 122 is improved, and the transparent pressing plate 122 is durable.

In a specific embodiment, as shown in fig. 1, the size detection apparatus further includes a light supplement lamp 15, and the light supplement lamp 15 is connected to the base 111 or the support plate 112 and configured to emit light toward the winding core 200.

Specifically, light filling lamp 15 is towards rolling up luminance when core 200 light filling can increase visual identification piece 13 and shoot, improves visual identification piece 13's shooting effect, not only changes in measuring the size of rolling up core 200, can also improve the degree of accuracy of measuring numerical value.

In a specific embodiment, as shown in fig. 1, the core size detection apparatus 1 further includes a core 200 carrying mechanism 16, and the core 200 carrying mechanism 16 includes a light-transmitting carrier seat 162 and two support legs 161. The two supporting legs 161 are disposed on the base 111 at an interval, the light-transmitting bearing seat 162 is disposed on the top of the two supporting legs 161, so as to form an installation space for installing the light supplement lamp 15 at the bottom of the light-transmitting bearing seat 162, and the light-transmitting bearing seat 162 is disposed at the bottom of the transparent pressing plate 122 for bearing the winding core 200.

Through implementing this embodiment, set up light filling lamp 15 in the bottom of rolling up core 200, when visual identification piece 13 was shot like this, will be in the backlight state, and the edge of rolling up core 200 seems especially obvious in the formation of image this moment, not only changes in measuring the size of rolling up core 200, can also improve the degree of accuracy of measuring numerical value.

Specifically, the light-transmitting bearing seat 162 may be composed of a bearing seat 1621 and a light-transmitting plate 1622, wherein the bearing seat 1621 is provided with a third light-transmitting opening (not shown), and the light-transmitting plate 1622 is installed at the third light-transmitting opening.

Of course, it can be understood that the light-transmitting carrier 162 can also be made of a transparent material, and the utility model is not limited thereto, and those skilled in the art can adapt the light-transmitting carrier.

In an embodiment, as shown in fig. 1, the core pressing mechanism 12 further includes two start buttons 17 installed on two sides of the base 111 and electrically connected to the lifting driving component 121, and when the two start buttons 17 are triggered simultaneously, the lifting driving component 121 is started to drive the transparent pressing plate 122 to lower.

Specifically, the present embodiment requires the operator to place both hands on the two actuation buttons 17 to drive the transparent platen 122 down. Therefore, when the transparent pressing plate 122 descends, the hand of the operator cannot be located below the transparent pressing plate 122, the hand of the operator cannot be injured by the transparent pressing plate 122, and the safety is improved.

In one embodiment, as shown in fig. 1, support plate ribs 113 connected to the base 111 are disposed on both sides of the support plate 112 to improve the structural strength of the support plate 112 and prevent the support plate 112 from shaking.

In one embodiment, as shown in fig. 1 and 3, the upper fixing plate 123 has upper fixing plate reinforcing ribs 125 connected to the lead screw connecting seats 1213 at two sides thereof, so as to improve the structural strength of the upper fixing plate 123 and prevent the upper fixing plate 123 from shaking.

The embodiment of the utility model shows a roll core size detection device 1, as shown in fig. 1, a lifting driving component 121 is arranged on a base 111 or a supporting plate 112, a transparent pressing plate 122 is arranged on the lifting component, and a visual identification part 13 facing the transparent pressing plate 122 is arranged on the supporting plate 112, so that when the device is used, the lifting driving component 121 is only used for driving the transparent pressing plate 122 to descend and press a roll core 200, and then the visual identification part 13 is started to measure the length, the width and other sizes of the pressed roll core 200, the device is quite convenient and fast, the measurement accuracy is higher compared with the embodiment of measuring the size of the roll core 200 by a hand-held ruler, the size deviation caused by the fact that a hand and a ruler contact the roll core 200 can be avoided, and the measurement result is accurate. In addition, the automation degree of the roll core size detection device 1 of the embodiment is higher, the measurement speed of the visual recognition piece 13 is greatly improved compared with that of a handheld ruler, and the production efficiency can be improved while the labor intensity of workers is reduced.

It should be understood that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same, and those skilled in the art can modify the technical solutions described in the above embodiments, or make equivalent substitutions for some technical features; and all such modifications and alterations should fall within the scope of the appended claims.

Claims (10)

1. The utility model provides a roll up core size detection device which characterized in that includes:

the supporting mechanism comprises a base and a supporting plate, and the supporting plate is arranged on the base;

the core pressing mechanism comprises a lifting driving component and a transparent pressing plate, the lifting driving component is arranged on the base or the supporting plate, and the transparent pressing plate is connected with the lifting driving component and driven by the lifting driving component to lift so as to press a winding core or move away from the surface of the winding core;

and the visual identification piece is arranged on the supporting plate and faces the transparent pressing plate so as to identify the size of the winding core through the transparent pressing plate.

2. The core size detection device of claim 1, further comprising a height adjustment mechanism coupled to the visual identifier and the support plate for adjusting the height of the visual identifier.

3. Core size detection apparatus according to claim 2, wherein the height adjustment mechanism comprises:

a coarse adjustment assembly mounted on the support plate;

and the fine adjustment component is arranged on the coarse adjustment component and is connected with the visual identification piece.

4. The core size detection device of claim 3, wherein: the visual identification piece is a CCD camera.

5. Winding core size detection device according to any of claims 1-4, characterized in that the lifting drive assembly comprises:

a rotating motor installed on the base or the support plate;

the screw rod is connected with the rotating motor and driven by the rotating motor to rotate;

the screw rod connecting seat is connected with the transparent pressing plate, and a screw hole for the screw rod to be placed into is formed in the screw rod connecting seat, so that the screw rod can be driven to lift when rotating.

6. The core size detection apparatus of claim 5, wherein the lift drive assembly further comprises:

the sliding rail is arranged on the supporting plate along the driving direction of the lifting driving assembly;

and the sliding block is arranged on the sliding rail and is connected with the screw rod connecting seat.

7. The core size detection device of any of claims 1-4, wherein the core pressing mechanism further comprises:

the surface of the upper fixing plate is provided with a first light-transmitting opening;

the surface of the lower fixing plate is provided with a second light-transmitting opening opposite to the first light-transmitting opening;

the transparent pressing plate is clamped between an upper transparent pressing plate fixing plate and a lower transparent pressing plate fixing plate, the first light transmission opening and the second light transmission opening are exposed, and the lifting driving assembly is connected with the upper fixing plate or the lower fixing plate.

8. The core size detection device of claim 7, further comprising a light supplement lamp connected to the base or the support plate for emitting light toward the core.

9. The core size detection device of claim 8, further comprising a core carrier mechanism comprising:

the two supporting legs are arranged on the base at intervals;

the light-transmitting bearing seat is arranged at the tops of the two supporting legs, so that an installation space for installing the light supplementing lamp is formed at the bottom of the light-transmitting bearing seat, and the light-transmitting bearing seat is arranged at the bottom of the transparent pressing plate and used for bearing the winding core.

10. The core size detection device according to any one of claims 1 to 4, wherein the core pressing mechanism further comprises two start buttons, the two start buttons are mounted on two sides of the base and electrically connected to the lifting drive assembly, and when the two start buttons are triggered simultaneously, the lifting drive assembly is started to drive the transparent pressing plate to be lowered.

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