CN221067252U - Disposable slipper feeding device - Google Patents

Abstract

The utility model discloses a disposable slipper feeding device which comprises a sole blank feeding mechanism, an upper processing mechanism, a slipper shaping mechanism for shaping insoles and uppers into slippers, a finished product rolling and cutting mechanism and a packaging mechanism, wherein the upper processing mechanism is arranged above the sole blank feeding mechanism; the sole blank feeding mechanism comprises a storage bin, wherein a limiting opening is formed in the discharge end of the storage bin, a conveying platform is arranged below the storage bin, a first conveying belt is arranged on the conveying platform, a material sucking part which is lifted relative to the limiting opening of the storage bin is arranged on the conveying platform, the first conveying belt is arranged on two sides of the material sucking part, and the material sucking part is not higher than the horizontal plane of the conveying platform. The material sucking part can discharge materials in the bin through the limiting port only by moving up and down, has simple action and high discharging speed, ensures stable discharging of the materials with uneven thickness, and is not easy to generate wrinkles.

Description

Disposable slipper feeding device

Technical Field

The utility model relates to the field of slipper manufacturing, in particular to a disposable slipper feeding device.

Background

When the disposable slippers are produced, the feeding linear speed of the packaging film is the same as the feeding linear speed of the materials, so that the discharging mode needs less actions, the feeding is fast, and the distance between the packaging films is difficult to control. Meanwhile, when uneven materials are aimed at, materials with uneven thickness are easily wrinkled by taking materials from a storage bin in a pushing mode in the prior art.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides the disposable slipper feeding device which has few actions and quick feeding and ensures the quality of materials.

The technical problems are solved, and the utility model is solved by the following technical scheme: the utility model provides a disposable slippers feed arrangement, includes sole base feed mechanism, upper of a shoe processing mechanism, the slippers design mechanism, finished product roll-cutting mechanism and the packagine machine who will shoe-pad and upper of a shoe design into slippers constructs, upper of a shoe processing mechanism sets up in sole base feed mechanism top, and the discharge end of upper of a shoe processing mechanism, sole base feed mechanism's discharge end link up with the feed end of slippers design mechanism, slipper design mechanism's discharge end rear has linked gradually finished product roll-cutting mechanism and packagine machine constructs.

The sole blank feeding mechanism comprises a bin, a limiting opening is formed in the discharge end of the bin, a conveying platform is arranged below the bin, a conveying belt is arranged on the conveying platform, a material sucking part which is lifted relative to the limiting opening of the bin is arranged on the conveying platform, the conveying belt is arranged on two sides of the material sucking part, and the material sucking part is not higher than the horizontal plane of the conveying platform.

The material sucking part can discharge materials in the bin through the limiting port only by moving up and down, has simple action and high discharging speed, ensures stable discharging of the materials with uneven thickness, and is not easy to generate wrinkles.

Preferably, the shape of the limiting opening is matched with that of the sole, and the feeding end of the limiting opening is wider than the discharging end. The feeding end of spacing mouth is wider than the discharge end, and the sole can stably get into spacing mouth, and the discharge end is less can prevent that the sole base from dropping.

Preferably, the first conveyor belt is provided with a plurality of adsorption holes. The absorption holes on the first conveyor belt absorb thinner shoe sole blanks, so that conveying is ensured.

Preferably, the sole blank feeding mechanism further comprises a second conveying belt, a plurality of pushing blocks are arranged on the second conveying belt, and the second conveying belt is connected with the discharging end of the conveying platform. The shoe sole blank is fed into the second conveying belt after being fed, and the shoe sole blank is pushed to stably move through the pushing block.

Based on have under the prerequisite of second conveyer belt, conveying platform is higher than the second conveyer belt, conveying platform's discharge end links up to have the slope to press from both sides material conveying assembly, the slope presss from both sides material conveying assembly and presss from both sides the material conveyer belt including last slope and press from both sides the material conveyer belt down, the slope down presss from both sides the material conveyer belt and includes horizontal part and tilting part, upward slope presss from both sides the material conveyer belt and the tilting part of lower slope and press from both sides the material conveyer belt and set up relatively, the slope presss from both sides the material conveyer assembly and sets up in the second conveyer belt top. The inclined clamping conveying assembly clamps the sole blank to convey through the cooperation of the upper inclined clamping conveying belt and the lower inclined clamping conveying belt, and stably inputs the sole blank between pushing blocks of the second conveying belt, so that the sole blank is stably conveyed.

On the premise of having an inclined clamping conveying assembly, a pressing strip is arranged above the horizontal part of the lower inclined clamping conveying belt, and the feeding end of the pressing strip is provided with an inclined part inclined upwards and a pressing part arranged along the conveying direction. The horizontal part is provided with a pressing strip which presses the thinner sole blank on the declined inclined clamping conveyer belt to prevent the sole blank from floating and stably conveying.

The finished product rolls the discharge end of cutting the mechanism and links up with packagine machine and constructs the feed end, the finished product rolls the discharge end of cutting the mechanism and is equipped with feeding subassembly, feeding subassembly includes pushing away flitch and pushing away the material cylinder, pushing away the material cylinder and driving and pushing away the flitch and pushing away slippers into packagine machine and construct in the packing. The pushing cylinder drives the pushing plate to stably push the slippers into the packaging film for packaging.

The feed bin is adjusted and provided with a limiting strip, the limiting strip is L-shaped, the limiting strip is provided with a mounting part, and the mounting part is provided with an adjusting groove. The spacing groove can prevent that the sole base from dropping in the feed bin, and spacing has a plurality of, encloses to establish around the feed bin, adjustment groove on the installation department of spacing passes through the fix with screw on the feed bin, and adjustment groove can adjust the position of spacing, makes the feed bin adapt to the sole base of more different specifications.

The feed end of the feed bin is connected with an inclined feed guide groove. The inclined feeding guide groove can accommodate more shoe soles, so that the number of feeding times is reduced, and time and labor are saved.

Based on the premise of the feeding guide groove, the discharging end of the feeding guide groove is provided with a leveling bar for leveling the obliquely stacked materials, and the leveling bar is in transmission connection with a leveling driving piece. The flattening driving piece drives the flattening strip to enable the sole blanks to be stacked neatly, and the sole blanks stably enter the limiting opening of the storage bin to be fed stably.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a perspective view of a green shoe feed mechanism.

Fig. 3 is a schematic view of a conveying platform of the green shoe feeding mechanism.

Fig. 4 is a schematic view of the structure of the silo of the utility model.

The names of the parts indicated by the numerical reference numerals in the above drawings are as follows:

1, a sole blank feeding mechanism; 11. a storage bin; 12. a limit opening; 13. a material absorbing member; 2. an upper processing mechanism; 3. a slipper shaping mechanism; 4. a finished product rolling and cutting mechanism; 5. a packaging mechanism; 6. a conveying platform; 61. a first conveyor belt; 62. adsorption holes; 7. a second conveyor belt; 71. a pushing block; 8. an inclined clamping conveying assembly; 81. a tilting clamping conveyer belt is arranged; 82. a lower inclined clamping conveyer belt; 83. pressing strips; 9. a limit bar; 91. an adjustment tank; 10. a feed channel; 101. patting a flat bar; 102. the driving member is flattened.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings and examples. In the figure, the X axis is horizontal and also horizontal, the Y axis is vertical and also longitudinal, and the Z axis is vertical and also vertical.

Disposable slippers feed arrangement, its characterized in that: the slipper forming mechanism comprises a sole blank feeding mechanism 1, an upper processing mechanism 2, a slipper forming mechanism 3 for forming insoles and uppers into slippers, a finished product rolling and cutting mechanism 4 and a packaging mechanism 5, wherein the upper processing mechanism 2 is arranged above the sole blank feeding mechanism 1, the discharging end of the upper processing mechanism 2 and the discharging end of the sole blank feeding mechanism 1 are connected with the feeding end of the slipper forming mechanism 3, and the rear of the discharging end of the slipper forming mechanism is sequentially connected with the finished product rolling and cutting mechanism 4 and the packaging mechanism 5. The upper processing mechanism 2 mainly comprises the following processing steps: cutting the upper, folding the upper, ultrasonically welding the slipper cover film and the upper, and finally shaping and outputting at high temperature. The slipper shaping mechanism 3 comprises the process steps of ultrasonic welding the sole blank and the shaped upper, rolling and cutting the welded slipper by a roller cutter in a finished product rolling and cutting mechanism 4, cutting off the waste around the slipper, and finally delivering the slipper finished product.

The sole blank feeding mechanism 1 comprises a bin 11, wherein a limiting opening 12 is formed in the discharge end of the bin 11, a conveying platform 6 is arranged below the bin 11, a conveying belt is arranged on the conveying platform 6, a material sucking part 13 which is lifted relative to the limiting opening 12 of the bin 11 is arranged on the conveying platform 6, the conveying belt is arranged on two sides of the material sucking part 13, and the material sucking part 13 is not higher than the horizontal plane of the conveying platform 6. The sucking piece 13 is a sucking disc group, the sucking disc group is connected with a negative pressure source, and the sucking piece 13 is connected with a motor or a cylinder to drive the sucking piece 13 to move up and down.

The working principle is that when the upper is processed, the material absorbing piece 13 moves upwards to move the sole blank onto the conveying platform 6 through the limiting opening 12, the sole blank is conveyed to the front of the slipper shaping mechanism 3 through the conveying belt, the sole blank and the shaped upper enter the slipper shaping mechanism 3 together, are shaped at high temperature through ultrasonic welding, and finally are rolled to form a final finished product to be sent out.

The following optimizations or further description can be made on the basis of the above embodiments, respectively.

Further, the shape of the limit opening 12 is matched with the shape of the sole blank, and the feeding end of the limit opening 12 is wider than the discharging end. The limiting opening 12 is narrow in the upper part, the feeding end of the limiting opening 12 is wider, a sole blank can conveniently enter the limiting opening 12, and the smaller discharging end can prevent materials from falling.

Further, a plurality of adsorption holes 62 are formed in the conveyor belt. The conveyer belt below is equipped with the negative pressure source, and the conveyer belt makes absorption hole 62 produce adsorption affinity through the negative pressure source, and the thinner material of packing is adsorbed on the conveyer belt, stable the transport.

Further, the sole blank feeding mechanism 1 further comprises a second conveying belt 7, a plurality of pushing blocks 71 are arranged on the second conveying belt 7, and the second conveying belt 7 is connected with the discharging end of the conveying platform 6. The second conveyor belt 7 is arranged to be beneficial to controlling the feeding speed, so that the feeding linear speed of the materials is ensured to be matched with the feeding linear speed of the packaging film. Meanwhile, the pushing blocks 71 are arranged on the second conveying belt 7, a pushing cavity is formed between the pushing blocks 71, and the sole blanks enter the pushing cavity and are stably conveyed.

On the basis that sole base feed mechanism 1 still includes second conveyer belt 7, conveying platform 6 is higher than second conveyer belt 7, the discharge end of conveying platform 6 links up to have the slope to press from both sides material conveying component 8, slope press from both sides material conveying component 8 and press from both sides material conveyer belt 81 and lower slope down and press from both sides material conveyer belt 82, lower slope press from both sides material conveyer belt 82 includes horizontal part and tilting part, upward slope press from both sides material conveyer belt 81 and the tilting part of lower slope press from both sides material conveyer belt 82 set up relatively, slope press from both sides material conveying component 8 set up in second conveyer belt 7 top.

Wherein, the horizontal portion top of lower slope clamp material conveyer belt 82 is equipped with layering 83, the feed end of layering 83 is equipped with the tilting portion of upwards inclining and follows the swager portion that the direction of delivery set up. A cover plate is arranged above the inclined clamping conveying assembly 8 to prevent dust from entering, and pressing strips 83 are fixedly arranged on the racks on two sides of the feeding end of the upper inclined clamping conveying belt 81. The tilting part of upward slope guarantees that the sole base stably gets into tilting clamp material conveying assembly 8, and the discharge end of tilting clamp material conveying assembly 8 is corresponding with the pushing cavity on the second conveyer belt 7, and the sole base adsorbs to first conveyer belt 61 through the adsorption piece, and first conveyer belt 61 is carried the sole base to tilting clamp material conveying assembly 8 in, and tilting part makes things convenient for the sole base to get into tilting clamp material conveying assembly 8, and then upper tilting clamp material conveyer belt 81 and lower tilting clamp material conveyer belt 82 clamp the sole base and carry, send the sole base into the pushing cavity of second conveyer belt 7 at last.

Further, the discharge end of the finished product rolling and cutting mechanism 4 is connected with the feed end of the packaging mechanism 5, a feeding component is arranged at the discharge end of the finished product rolling and cutting mechanism 4 and comprises a pushing plate and a pushing cylinder, and the pushing cylinder drives the pushing plate to push the slippers into the packaging mechanism 5 for packaging. And a conveyer belt with a pushing block 71 is not required to be arranged between the slippers and the packaging film, and the pushing cylinder drives the pushing plate to directly push the slippers into the packaging film, so that the cost is reduced.

Further, the bin 11 is provided with a limiting strip 9 in an adjusting mode, the limiting strip 9 is L-shaped, the limiting strip 9 is provided with an installation portion, and the installation portion is provided with an adjusting groove 91. The limit strips 9 are provided with a plurality of strips and are arranged around the bin 11 to prevent the stacked sole blanks from scattering. The limit strips 9 are fixed on the stock bin 11 through screws arranged in the adjusting grooves 91 of the mounting part so as to adapt to sole blanks with different specifications.

Further, the feed end of the bin 11 is connected with an inclined feed guide groove 10 (see fig. 2 and 4). The bin 11 extends through the feeding guide groove 10, so that the capacity of the bin 11 is increased, the feeding times of the bin 11 are reduced, and the inclined feeding guide groove 10 enables the space layout to be more reasonable.

On the premise that the slurry is provided with the feeding guide groove 10, the discharging end of the feeding guide groove 10 is provided with a leveling strip 101 for leveling the obliquely stacked materials, the leveling strip 101 is in transmission connection with a leveling driving piece 102, and the leveling driving piece is an air cylinder or a motor, and the like, and because the feeding guide groove 10 is oblique, the stacked shoe sole blanks are easy to incline, and the shoe sole blanks are stacked orderly into the limiting opening 12 by flapping the side surfaces of the shoe sole blanks to be stably discharged.

The working principle of the utility model is described below with reference to the accompanying drawings: the position of the limit bar 9 is adjusted according to the specification of the sole blank. After adjustment, the leveling driving piece drives the leveling strip 101 to flap one side of the stacked shoe sole blanks, the shoe sole blanks enter the limiting opening 12, the material absorbing piece 13 moves upwards to absorb the shoe sole blanks in the limiting opening 12 and moves the shoe sole blanks downwards onto the first conveying belt 61, the first conveying belt 61 conveys the shoe sole blanks into the inclined material clamping conveying assembly 8, the shoe sole blanks are clamped and conveyed through the upper inclined material clamping conveying belt 81 and the lower inclined material clamping conveying belt 82, then the shoe sole blanks are conveyed into the material pushing cavity of the second conveying belt 7, the second conveying belt 7 conveys the shoe sole blanks to the slipper shaping mechanism 3, the shoe sole blanks and the shaped shoe uppers enter the slipper shaping mechanism 3 at the same time, the slipper shaping mechanism 3 outputs preliminarily shaped slippers, and finally the finished slipper products enter the finished product rolling mechanism 4 to be output, and the slipper finished products are directly pushed into the packaging mechanism 5 with the packaging film through the material pushing plate to be packaged.

In the description of the present invention, it should be understood that the terms "center," "length," "width," "thickness," "upper," "lower," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In summary, the foregoing description is only of the preferred embodiments of the present utility model, and all equivalent changes and modifications made in accordance with the claims should be construed to fall within the scope of the utility model.

Claims (10)

1. Disposable slippers feed arrangement, its characterized in that: the novel shoe sole shaping machine comprises a shoe sole blank feeding mechanism (1), an upper processing mechanism (2), a slipper shaping mechanism (3) for shaping shoe insoles and shoe uppers into slippers, a finished product rolling and cutting mechanism (4) and a packaging mechanism (5), wherein the upper processing mechanism (2) is arranged above the shoe sole blank feeding mechanism (1), the discharge end of the upper processing mechanism (2), the discharge end of the shoe sole blank feeding mechanism (1) are connected with the feed end of the slipper shaping mechanism (3), and the rear part of the discharge end of the slipper shaping mechanism is sequentially connected with the finished product rolling and cutting mechanism (4) and the packaging mechanism (5);

The utility model provides a sole base feed mechanism (1), including feed bin (11), the discharge end of feed bin (11) is equipped with spacing mouth (12), feed bin (11) below is equipped with conveying platform (6), be equipped with first conveyer belt (61) on conveying platform (6) and be equipped with on conveying platform (6) relative feed bin (11) spacing mouth (12) lift inhale material piece (13), first conveyer belt (61) set up in inhale material piece (13) both sides, inhale material piece (13) and be not higher than the horizontal plane of conveying platform (6).

2. The disposable slipper feeding apparatus according to claim 1, wherein: the shape of the limiting opening (12) is matched with the shape of the sole blank, and the feeding end of the limiting opening (12) is wider than the discharging end.

3. The disposable slipper feeding apparatus according to claim 1, wherein: the first conveyor belt (61) is provided with a plurality of adsorption holes (62).

4. The disposable slipper feeding apparatus according to claim 1, wherein: the sole blank feeding mechanism (1) further comprises a second conveying belt (7), a plurality of pushing blocks (71) are arranged on the second conveying belt (7), and the second conveying belt (7) is connected with the discharging end of the conveying platform (6).

5. The disposable slipper feeding apparatus according to claim 4, wherein: the conveying platform (6) is higher than the second conveying belt (7), the discharge end of the conveying platform (6) is connected with an inclined clamping conveying assembly (8), the inclined clamping conveying assembly (8) comprises an upper inclined clamping conveying belt (81) and a lower inclined clamping conveying belt (82), the lower inclined clamping conveying belt (82) comprises a horizontal part and an inclined part, the inclined parts of the upper inclined clamping conveying belt (81) and the lower inclined clamping conveying belt (82) are oppositely arranged, and the inclined clamping conveying assembly (8) is arranged above the second conveying belt (7).

6. The disposable slipper feeding apparatus according to claim 5, wherein: the upper part of the horizontal part of the lower inclined clamping conveyer belt (82) is provided with a pressing strip (83), and the feeding end of the pressing strip (83) is provided with an inclined part which is inclined upwards and a pressing part which is arranged along the conveying direction.

7. The disposable slipper feeding apparatus according to claim 1, wherein: the finished product is rolled and is cut the discharge end of mechanism (4) and is linked up with packagine machine mechanism (5) feed end, the finished product is rolled the discharge end of cutting mechanism (4) and is equipped with feeding subassembly, feeding subassembly includes pushing away flitch and pushing away the material cylinder, pushing away the material cylinder drive and pushing away the flitch and pushing away the slippers and packing in packagine machine mechanism (5).

8. The disposable slipper feeding apparatus according to claim 1, wherein: the automatic feeding device is characterized in that a limiting strip (9) is arranged on the bin (11) in an adjusting mode, the limiting strip (9) is L-shaped, an installation part is arranged on the limiting strip (9), and an adjusting groove (91) is formed in the installation part.

9. The disposable slipper feeding apparatus according to claim 1 or 8, characterized in that: the feeding end of the storage bin (11) is connected with an inclined feeding guide groove (10).

10. The disposable slipper feeding apparatus according to claim 9, wherein: the material flattening device is characterized in that a flattening strip (101) for flattening obliquely stacked materials is arranged at the discharge end of the feeding guide groove (10), and the flattening strip (101) is in transmission connection with a flattening driving piece (102).