CN219621393U

CN219621393U - Static-removing bead-arranging mechanism

Info

Publication number: CN219621393U
Application number: CN202320510793.6U
Authority: CN
Inventors: 张维; 鲁友强; 谭熊; 万本国
Original assignee: Huzhou Xinxiu Electromechanical Technology Co ltd
Current assignee: Huzhou Xinxiu Electromechanical Technology Co ltd
Priority date: 2023-03-09
Filing date: 2023-03-09
Publication date: 2023-09-01
Anticipated expiration: 2033-03-09

Abstract

The utility model discloses a static eliminating and bead discharging mechanism which comprises a material cup which is rotationally arranged, wherein a cup cover independent of the material cup is fixed above the material cup, and the cup cover is matched with an opening of the material cup. According to the utility model, the static eliminator (by utilizing the static elimination principle technology) ionizes air in the material cup to generate positive and negative ions so as to neutralize static charged on embroidery beads, thereby achieving the purpose of removing static, avoiding the embroidery beads from being adsorbed on the cup wall of the material cup, and improving the bead penetrating efficiency.

Description

Static-removing bead-arranging mechanism

Technical Field

The utility model relates to the technical field of embroidery machines, in particular to a static electricity removing and bead arranging mechanism.

Background

The bead arranging mechanism is used for accommodating and storing embroidery beads in the embroidery machine and threading the embroidery beads on the bead arranging wire, and the embroidery beads are stored in the material cup. For example: authorized bulletin number: CN206970864U, authorized bulletin day: the Chinese patent 2 in 2018 and 6 in month discloses a bead arranging and delivering device, which comprises a frame, a power device arranged on the frame, a bead arranging device and a bead delivering device, wherein the bead arranging device comprises a material cup and a bead arranging wire, the material cup is arranged on the frame, one end of the bead arranging wire is sunk and horizontally arranged in the material cup, the other end of the bead arranging wire extends to the bottom of the material cup beyond the upper edge of the material cup, and the bead arranging wire and the material cup move relatively so as to obtain a certain probability bead.

The embroidery beads in the material cup of the bead arrangement and delivery device move relatively with the material cup to penetrate through the bead arrangement wire, and the embroidery beads are generally made of plastics.

Disclosure of Invention

The utility model aims to solve the problems that when a material cup and embroidery beads in the existing bead arranging mechanism move relatively to each other to carry out bead threading, static electricity is generated between the embroidery beads and the material cup due to continuous friction, so that a large amount of embroidery beads are adsorbed on the wall of the material cup, the bead threading efficiency is low, and the working efficiency of the whole embroidery machine is affected.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a remove static row pearl mechanism, includes the material cup that rotates the setting, the material cup top is fixed with the bowl cover of independent material cup, bowl cover and the open phase adaptation of material cup, its characterized in that is equipped with the static eliminator on the bowl cover, in the discharge electrode of static eliminator stretched into the material cup after passing the bowl cover, and the tip of the discharge electrode of static eliminator hangs in the bottom of cup top of material cup. As described in the background art of the utility model, when the material cup and the embroidery bead in the existing bead discharging mechanism move relatively to each other to pass the beads, static electricity is generated between the embroidery beads and the material cup due to continuous friction, so that a large amount of embroidery beads are adsorbed on the wall of the material cup with static electricity, the bead passing efficiency is low, the working efficiency of the whole embroidery machine is affected, the problem is not recognized in the industry at present, and the technical scheme capable of effectively solving the technical problem is not realized. The principle of the static eliminator is the prior art, the static eliminator can be directly customized and purchased in the market, and can be manufactured according to the principle, so that the manufacturing of the static eliminator has no technical obstacle in manufacturing for the person skilled in the art, and the shape of the static eliminator is not limited; the static eliminator is arranged on the cup cover, the bead stringing process of the bead arranging mechanism is not influenced by the design, and meanwhile, the structure is compact and reasonable, and the disassembly and the maintenance are very convenient; the rotation of the material cup is set as a conventional technical means in the field, and the material cup can be driven to rotate by a motor, a rotating shaft and a gear.

Preferably, the cup cover is provided with an avoiding opening for the bead wire to pass through. The avoiding port is used for allowing the bead wire to extend into the material cup after passing through the upper edge of the material cup, and simultaneously allowing embroidery beads penetrating through the bead wire to be discharged from the material cup along the bead wire and fall; the avoidance opening can be a notch or a through hole, and the specific shape and the setting position can be selected according to the requirements.

Preferably, a shaking limiting cover is arranged above the avoidance opening, and the bottom of the shaking limiting cover is fixedly connected with the cup cover.

Preferably, the shaking limiting cover and the cup cover are of a homogeneous integrated structure.

Preferably, the static electricity removing and bead discharging mechanism further comprises a material supplementing mechanism, the material supplementing mechanism comprises a material supplementing hopper, a pressing mechanism, a pressing rod, an opening and closing end cover, a material guiding pipe and a rotating arm, the material discharging pipe is arranged at the bottom of the material supplementing hopper, the material guiding pipe penetrates through and is fixedly connected to the cup cover, the lower end of the material guiding pipe is positioned in a material cup, the material supplementing hopper is fixedly arranged on the cup cover through the insertion connection of the material discharging pipe and the material guiding pipe, one end of the rotating arm is fixedly connected with the opening and closing end cover, the other end of the rotating arm is hinged to the material guiding pipe, the pressing rod penetrates through the cup cover and is in sliding fit with the cup cover, and the pressing rod is lifted up and down under the action of the pressing mechanism to drive the rotating arm to rotate, and the rotating arm drives the opening and closing end cover to synchronously rotate so as to control the opening of the material guiding pipe to be closed or opened. The material supplementing mechanism is used for automatically supplementing embroidery beads into the material cup so as to improve the production efficiency; the pressing rod can be lifted under the action of the pressing machine mechanism, when the pressing rod is lifted, the rotating arm rotates under the action of dead weight and the gravity of the opening and closing end cover, the opening and closing end cover is separated from the outlet of the material guide pipe, and the outlet of the material guide pipe is opened for material supplementing; when the pressure rod descends, the rotating arm rotates under the action of the pressure rod against the dead weight and the gravity of the opening and closing end cover, and the opening and closing end cover gradually approaches to the outlet of the material guide pipe until the outlet of the material guide pipe is closed; the compressing mechanism is the prior art, and is not described herein.

Preferably, the outer side of the material cup is fixedly provided with an installation side plate, and the cup cover is hinged to the upper end of the installation side plate. The lower end of the mounting side plate is fixedly connected with a frame (the frame is in the prior art),

preferably, the discharge electrodes are parallel to each other and the tips of the discharge electrodes face the same direction.

Therefore, the utility model has the following beneficial effects:

(1) The static eliminator (utilizing the static eliminating principle technology) ionizes air in the material cup to generate positive and negative ions so as to neutralize static electricity on embroidery beads, thereby achieving the purpose of removing static electricity, avoiding the embroidery beads from being adsorbed on the cup wall of the material cup and improving the bead penetrating efficiency;

(2) The static eliminator is arranged on the cup cover, the bead stringing process of the bead arranging mechanism is not affected by the design, and meanwhile, the structure is compact and reasonable, and the disassembly, assembly and maintenance are very convenient.

Drawings

Fig. 1 is a perspective view of the present utility model.

Fig. 2 is an exploded view of fig. 1.

Fig. 3 is a schematic illustration of the cooperation of the cap and the feed mechanism.

Fig. 4 is an exploded view of fig. 3.

In the figure: the device comprises a material cup 1, a cup cover 2, a static eliminator 3, a discharge electrode 4, an avoidance port 5, a shaking limiting cover 6, a supplementing hopper 7, a pressing mechanism 8, a pressing rod 9, an opening and closing end cover 10, a material guide pipe 11, a rotating arm 12, a material discharge pipe 13 and an installation side plate 14.

Detailed Description

The utility model is further described below with reference to the drawings and detailed description.

The static electricity removing and bead discharging mechanism shown in fig. 1 and 2 comprises a material cup 1 and a material supplementing mechanism which are rotatably arranged, wherein a cup cover 2 independent of the material cup is fixed above the material cup, an installation side plate 14 is fixed on the outer side of the material cup, the cup cover is hinged to the upper end of the installation side plate, the lower end of the installation side plate is installed on a rack (not shown), the cup cover is matched with an opening of the material cup, a static electricity eliminator 3 is installed on the cup cover, a discharge electrode 4 of the static electricity eliminator penetrates through the cup cover and then stretches into the material cup, the end part of the discharge electrode of the static electricity eliminator is suspended above the cup bottom of the material cup, and the discharge electrodes are parallel to each other and the tips of the discharge electrodes face the same direction; the cup cover is provided with an avoidance opening 5 for the bead wire to pass through, a shaking limiting cover 6 is arranged above the avoidance opening, and the shaking limiting cover and the cup cover are of a homogeneous integrated structure (formed by plastic in an integrated manner); the feeding mechanism comprises a feeding hopper 7, a pressing mechanism 8, a pressing rod 9 (shown in fig. 4), an opening and closing end cover 10, a material guide pipe 11 (shown in fig. 3) and a rotating arm 12, wherein the material discharge pipe 13 is arranged at the bottom of the feeding hopper, the material guide pipe penetrates through and is fixedly connected to the cup cover, the lower end of the material guide pipe is positioned in a material cup, the feeding hopper is fixedly arranged on the cup cover through the insertion connection of the material discharge pipe and the material guide pipe, one end of the rotating arm is fixedly connected with the opening and closing end cover, the other end of the rotating arm is hinged with the material guide pipe, the pressing rod penetrates through the cup cover and is in sliding fit with the cup cover, and the pressing rod is lifted up and down under the action of the pressing mechanism to drive the rotating arm to rotate, and the rotating arm drives the opening and closing end cover to synchronously rotate so as to control the opening of the material guide pipe to be closed or opened.

The operation principle of the utility model is as follows: when the material cup rotates, the cup cover is fixed, static electricity is generated between embroidery beads and between the embroidery beads and the material cup due to continuous friction, and after high voltage is generated by the static electricity eliminator, air is ionized through the discharge electrode to generate positive and negative ions so as to neutralize static electricity charged by the embroidery beads in the material cup, thereby achieving the purpose of removing the static electricity; meanwhile, the pressing rod is lifted up and down under the action of the pressing mechanism so as to drive the rotating arm to rotate, the rotating arm drives the opening and closing end cover to synchronously rotate so as to control the opening or closing of the outlet of the material guide pipe, and embroidery beads in the material supplementing hopper can be intermittently supplemented into the material cup through the material discharging pipe and the material guide pipe.

The above-described embodiment is only a preferred embodiment of the present utility model, and is not limited in any way, and other variations and modifications may be made without departing from the technical aspects set forth in the claims.

Claims

1. The utility model provides a destatics row pearl mechanism, is including rotating material cup (1) that sets up, material cup top is fixed with bowl cover (2) independent of the material cup, bowl cover and the open phase adaptation of material cup, its characterized in that is equipped with electrostatic eliminator (3) on the bowl cover, in electrostatic eliminator's discharge electrode (4) stretched into the material cup after passing the bowl cover, and electrostatic eliminator's discharge electrode's tip hangs in the bottom of cup top of material cup.

2. The static electricity removing and bead discharging mechanism according to claim 1, wherein the cup cover is provided with an avoidance port (5) for a bead string to pass through.

3. The static electricity removing and bead discharging mechanism according to claim 2, wherein a shaking limiting cover (6) is arranged above the avoidance opening, and the bottom of the shaking limiting cover is fixedly connected with the cup cover.

4. The static electricity removing and bead discharging mechanism according to claim 3, wherein the shaking limiting cover and the cup cover are of a homogeneous integrated structure.

5. The static-removing bead-arranging mechanism according to claim 1, further comprising a feeding mechanism, wherein the feeding mechanism comprises a feeding hopper (7), a pressing mechanism (8), a pressing rod (9), an opening and closing end cover (10), a material guiding pipe (11) and a rotating arm (12), a material discharging pipe (13) is arranged at the bottom of the feeding hopper, the material guiding pipe penetrates through and is fixedly connected to a cup cover, the lower end of the material guiding pipe is positioned in the material cup, the feeding hopper is fixedly arranged on the cup cover through the insertion fit of the material discharging pipe and the material guiding pipe, one end of the rotating arm is fixedly connected with the opening and closing end cover, the other end of the rotating arm is hinged with the material guiding pipe, the pressing rod penetrates through the cup cover and is in sliding fit with the cup cover, and the pressing rod is lifted up and down under the action of the pressing mechanism to drive the rotating arm to rotate synchronously so as to control the opening and closing of the outlet of the material guiding pipe.

6. The static-removing bead-arranging mechanism according to claim 1, wherein a mounting side plate (14) is fixed on the outer side of the material cup, and the cup cover is hinged to the upper end of the mounting side plate.

7. The static elimination beading mechanism according to claim 1, wherein said discharge electrodes are parallel to each other and the tips of the discharge electrodes are oriented the same.