CN211385835U

CN211385835U - Button thickness sieving mechanism

Info

Publication number: CN211385835U
Application number: CN201922253230.XU
Authority: CN
Inventors: 胡文明
Original assignee: Yiwu Yiduoqi Button Factory
Current assignee: Yiwu Yiduoqi Button Factory
Priority date: 2019-12-16
Filing date: 2019-12-16
Publication date: 2020-09-01
Anticipated expiration: 2029-12-16

Abstract

The utility model relates to the technical field of button preparation, in particular to a button thickness screening device, which is used for screening and classifying buttons with different thicknesses, and specifically comprises at least two screening rollers, wherein the screening rollers are arranged in parallel at intervals, two ends of each screening roller are fixed through bearing seats, the screening rollers rotate under the cooperation of the bearing seats, and a screening channel is formed between two adjacent screening rollers; each screening roller is obliquely arranged from one end to the other end, the interval from the higher end to the lower end of each screening roller is gradually increased, and the formed screening channel is gradually widened; the screening passageway top of the higher one end of screening roller end is provided with the feeding storehouse, and the terminal below of screening passageway is provided with receipts feed bin, and this sieving mechanism still is provided with and is used for driving two screening roller pivoted actuating mechanism. The device can conveniently carry out corresponding kind screening according to the actual thickness of button and the specific thickness that requires to classify to differentiate the subdivision with the button, make the product quality better.

Description

Button thickness sieving mechanism

Technical Field

The utility model relates to a button preparation technical field, in particular to button thickness sieving mechanism.

Background

The button is a fastener used for connecting two lappets on the clothes. The buttons are various in types and are in various flowers. If the button is divided according to materials, the button can be divided into a natural button, a chemical button and other buttons; the method comprises the following specific steps:

natural products: shell button, coconut button, wood button, bone button (commonly known as ox horn button), bamboo button, fruit button, shell button, and the like.

Chemical engineering: organic buttons, resin buttons, ceramic (zirconia) buttons, plastic buttons, combination buttons, urea buttons, spray paint buttons, electroplated buttons, snap buttons, cloth strip buttons, chang buttons, and the like.

Other classes: chinese knot, snap button, metal button, oxhorn button, leather-like button, I-shaped button, jean button, magnet button, laser letter button, vibrating letter button, etc.

The chemical button can be produced in batch due to low manufacturing cost, so that the chemical button can meet the large-batch use requirements and is a main source of the button.

The button is manufactured by punching and forming on the resin sheet, the problem of uneven thickness of a button blank manufactured in the punching process can be caused due to the problem of the thickness uniformity of the resin sheet, differential screening needs to be carried out on the button in order to improve the quality and ensure the quality stability of a product, and screening related to the thickness is an important screening mode.

In order to rapidly screen the prepared chemical button from the thickness, a screening device aiming at the thickness of the button is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that the different button of present button preparation in-process thickness or button blank need further differentiation classification exist and filter classification, provide a button thickness sieving mechanism.

The utility model provides a technical scheme that its technical problem adopted is:

a button thickness screening device comprises at least two screening rollers, wherein the screening rollers are arranged in parallel at intervals, two ends of each screening roller are fixed through bearing seats, the screening rollers rotate under the cooperation of the bearing seats, and a screening channel is formed between every two adjacent screening rollers; each screening roller is obliquely arranged from one end to the other end, the interval from the higher end to the lower end of each screening roller is gradually increased, and the formed screening channel is gradually widened; the screening passageway top of the higher one end of screening roller end is provided with the feeding storehouse, and the terminal below of screening passageway is provided with receipts feed bin, and this sieving mechanism still is provided with and is used for driving two screening roller pivoted actuating mechanism.

The utility model provides an above-mentioned sieving mechanism through two rotatory screening rollers, will put into the button or the button blank of the different thickness between two screening rollers and screen the differentiation, through the screening, screens the button that different thickness required for different dimensions to reach the purpose of accurate screening. The screening device has the characteristics of simple structure and high screening speed. Can be produced in a matching way in the preparation process of the button, and meets the requirements of product refinement and refinement.

Preferably, the number of the screen rollers is two.

Preferably, bearing seats are respectively arranged at two ends of each screening roller, and the bearing seats are arranged in a matched mode through a spacing adjusting mechanism.

Preferably, the distance adjusting mechanism comprises an adjusting frame, the bearing seats are arranged in the adjusting frame, and adjusting screws used for adjusting the two adjacent bearing seats are arranged on the adjusting frame.

Preferably, a plurality of material distribution bins are arranged below the screening channel from the starting end to the tail end, and the material distribution bins are arranged in a vertically staggered mode.

Preferably, the screening rollers on both sides of the screening channel rotate in opposite directions, and the direction of rotation above the screening channel is outward rotation.

Preferably, actuating mechanism includes driving motor, and driving motor drive is provided with main drive wheel and assists the drive wheel, and main drive wheel is direct by driving motor drive, and the cooperation of auxiliary drive wheel through gear and main drive wheel, main drive wheel and auxiliary drive wheel are respectively through drive belt and two screening rollers with one side end drive connection.

Preferably, a protective cover is arranged above the screening channel, and the protective cover covers at least the area of the screening channel from the higher end of the screening roller to the half.

Preferably, two rows of material distributing rods matched in height are arranged below the screening channel, a material distributing rod on the rear row and a material distributing rod on the front row are in a group, and the rear part of the material distributing bin is hinged with the material distributing rod on the rear row and is erected on the material distributing rod on the front row.

The utility model has the advantages that: the button sorting machine can conveniently carry out corresponding type screening according to the actual thickness of the button and the specific thickness required to be classified, and through screening, the buttons with different thicknesses or the button blanks are screened out, so that the buttons are differentiated and subdivided, and the product is more accurate.

Drawings

Fig. 1 shows the overall structure of the present invention.

Fig. 2 is a schematic view of the matching structure of the screening roller of the present invention.

Fig. 3 is a schematic view of the connection structure of the two ends of the screening roller according to the present invention.

Fig. 4 is a schematic structural diagram of the driving mechanism of the present invention.

Fig. 5 is a schematic view showing the matching structure of the distributing rod and the distributing bin of the present invention.

In the figure: 101 screening rollers, 102 bearing seats, 103 screening channels, 104 feeding bins, 105 receiving bins, 106 driving mechanisms, 601 driving motors, 602 main driving wheels, 603 auxiliary driving wheels, 107 spacing adjusting mechanisms, 701 adjusting frames, 702 adjusting screws, 108 distributing bins, 109 protective covers and 110 distributing rods.

Detailed Description

Further refinements will now be made on the basis of the representative embodiment shown in the figures. It should be understood that the following description is not intended to limit the embodiments to one preferred embodiment. On the contrary, it is intended to cover alternatives, modifications, and equivalents as may be included within the spirit and scope of the embodiments as defined by the appended claims.

In the following detailed description, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration specific embodiments in accordance with the embodiments. Although these embodiments are described in sufficient detail to enable those skilled in the art to practice the embodiments, it is to be understood that these examples are not limiting, such that other examples may be used and that corresponding modifications may be made without departing from the spirit and scope of the embodiments.

Specifically, referring to fig. 1-5, fig. 1-2 show a button thickness screening device that may include at least two screening rollers, each of which is spaced apart from one another, where two screening rollers are provided.

As shown in fig. 1, two ends of each screening roller are fixed through bearing seats, the screening rollers rotate under the cooperation of the bearing seats, and a screening channel is formed between every two adjacent screening rollers; each screening roller is obliquely arranged from one end to the other end, the interval from the higher end to the lower end of each screening roller is gradually increased, and the formed screening channel is gradually widened; the screening passageway top of the higher one end of screening roller end is provided with the feeding storehouse, and the terminal below of screening passageway is provided with receipts feed bin, and this sieving mechanism still is provided with and is used for driving two screening roller pivoted actuating mechanism.

Regarding the arrangement of the screening rollers, bearing seats are respectively arranged at two ends of the two screening rollers, and the screening rollers rotate on the bearing seats; the rotation directions of the screening rollers on the two sides of the screening channel are opposite, and the rotation direction above the screening channel rotates towards the outer side.

The bearing seats are arranged in a matching way through a spacing adjusting mechanism. Regarding the interval adjustment mechanism, interval adjustment mechanism includes the adjusting frame, and the bearing frame sets up in the adjusting frame, is provided with the adjusting screw who is used for adjusting two adjacent bearing frames on the adjusting frame. The distance between the bearing seats is adjusted through the adjusting screw, so that the distance between the two screening rollers is adjusted, the size effect of adjusting the screening channel is achieved, and the specific screening size can be determined according to actual requirements.

The screening channel is provided with a plurality of material distributing bins from the beginning to the end, and the material distributing bins are arranged in a vertically staggered manner. The arrangement of the material distribution bin specifically comprises the following steps: two rows of material distributing rods matched in height are arranged below the screening channel, a material distributing rod higher in the back row and a material distributing rod lower in the front row form a group, and the rear part of the material distributing bin is hinged with the material distributing rod higher in the back row and is erected on the material distributing rod lower in the front row. Such structure can slide along the branch material pole through dividing the feed bin to connect the material in screening passageway below according to the screening demand of equidimension not.

About a actuating mechanism for driving the screening roller, actuating mechanism includes driving motor, and driving motor drive is provided with main drive wheel and assists the drive wheel, and main drive wheel is direct by driving motor drive, assists the drive wheel and passes through gear and main drive wheel cooperation, and main drive wheel and assistance drive wheel are connected with the same one side end drive of two screening rollers through the drive belt respectively. The driving motor drives the main driving wheel to rotate, thereby indirectly driving the two screening rollers to rotate in a back direction.

A protective cover is arranged above the screening channel and at least covers the area of the screening channel from the higher end of the screening roller to the half.

In actual production, to treat that the button or the button blank of screening put into the feeding storehouse, the continuous feeding in feeding storehouse, and two screening rollers are incessantly rotated, and the material slides to lower one end by higher one end along the screening roller in the screening passageway, and two incessantly pivoted screening rollers roll the material, and the efficiency and the rate of accuracy of screening are improved with higher speed to the screening. The less at first drops of thickness, along with the widen of screening passageway, and the great also drops gradually of thickness, and the material all drops to in dividing the feed bin. The final material falls from the end of the screening channel and enters a material receiving bin.

For purposes of explanation, specific nomenclature is used in the above description to provide a thorough understanding of the described embodiments. It will be apparent, however, to one skilled in the art that these specific details are not required in order to practice the embodiments described above. Thus, the foregoing descriptions of specific embodiments described herein are presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the embodiments to the precise form disclosed. It will be apparent to those skilled in the art that certain modifications, combinations, and variations can be made in light of the above teachings.

Claims

1. The utility model provides a button thickness sieving mechanism which characterized in that: the screening device comprises at least two screening rollers, wherein the screening rollers are arranged in parallel at intervals, two ends of each screening roller are fixed through bearing seats, the screening rollers rotate under the cooperation of the bearing seats, and a screening channel is formed between every two adjacent screening rollers; each screening roller is obliquely arranged from one end to the other end, the interval from the higher end to the lower end of each screening roller is gradually increased, and the formed screening channel is gradually widened; the screening passageway top of the higher one end of screening roller end is provided with the feeding storehouse, and the terminal below of screening passageway is provided with receipts feed bin, and this sieving mechanism still is provided with and is used for driving two screening roller pivoted actuating mechanism.

2. Button thickness screening apparatus according to claim 1, wherein: the number of the screening rollers is two.

3. Button thickness screening apparatus according to claim 1, wherein: bearing seats are respectively arranged at two ends of each screening roller, and the bearing seats are arranged in a matched mode through a spacing adjusting mechanism.

4. Button thickness screening apparatus according to claim 2, wherein: the distance adjusting mechanism comprises an adjusting frame, the bearing seats are arranged in the adjusting frame, and adjusting screws used for adjusting the two adjacent bearing seats are arranged on the adjusting frame.

5. Button thickness screening apparatus according to claim 1, wherein: the screening channel is provided with a plurality of material distributing bins from the beginning to the end, and the material distributing bins are arranged in a vertically staggered manner.

6. Button thickness screening apparatus according to claim 1, wherein: the rotation directions of the screening rollers on the two sides of the screening channel are opposite, and the rotation direction above the screening channel rotates towards the outer side.

7. Button thickness screening apparatus according to claim 1, wherein: the driving mechanism comprises a driving motor, the driving motor drives a main driving wheel and an auxiliary driving wheel, the main driving wheel is directly driven by the driving motor, the auxiliary driving wheel is matched with the main driving wheel through a gear, and the main driving wheel and the auxiliary driving wheel are respectively in driving connection with the same side end of the two screening rollers through a driving belt.

8. Button thickness screening apparatus according to claim 1, wherein: a protective cover is arranged above the screening channel and at least covers the area of the screening channel from the higher end of the screening roller to the half.

9. Button thickness screening apparatus according to claim 1, wherein: two rows of material distributing rods matched in height are arranged below the screening channel, a material distributing rod higher in the back row and a material distributing rod lower in the front row form a group, and the rear part of the material distributing bin is hinged with the material distributing rod higher in the back row and is erected on the material distributing rod lower in the front row.