CN218558014U - Automatic atomizing module manufacturing mechanism and automatic atomizing module manufacturing equipment - Google Patents

Abstract

The application provides an automatic atomizing module preparation mechanism and automatic atomizing module preparation equipment. The automatic atomization module manufacturing mechanism comprises a workbench, a positioning device, a support frame conveying device, an upper top punching and breaking pre-bending device, a heating net conveying device, a side pressure pre-bending device and a pressing and bending device, wherein the positioning device comprises a positioning block and a pressing displacement piece, a clamping frame is arranged on the positioning block, and a side pressure channel and a pressing channel are formed in the positioning block. The top punching pre-folding device comprises a placing block and a top punching pre-folding rod. The side pressure pre-folding device is provided with a side pressure pre-folding rod. The downward pressing and bending device is provided with a downward pressing and bending rod, the downward pressing and bending rod is arranged in the downward pressing channel in a sliding mode, and the end portion of the downward pressing and bending rod is used for bending the pin side of the heating network on the supporting frame in a pressing mode. Above-mentioned automatic atomizing module preparation mechanism can realize the laminating process of buckling of three core on placing this station of piece, can greatly improve preparation machining efficiency and atomizing module product stability uniformity.

Description

Automatic atomizing module manufacturing mechanism and automatic atomizing module manufacturing equipment

Technical Field

The utility model relates to an electronic atomizer is with atomizing module preparation technical field, especially relates to an automatic atomizing module preparation mechanism and automatic atomizing module preparation equipment.

Background

The electronic atomizer generally comprises a power module, an atomization module and an atomization medium supply module, wherein the atomization medium supply module is used for supplying atomization media to the atomization module, and the power module is used for supplying power to the atomization module so that the atomization media flowing into the atomization module are heated and atomized to form aerosol.

At present, the atomizing module is classified into a ceramic + heating member type, a cotton + heating member type, a plastic + heating member type, and the like, and the heating member is a heating wire, a heating sheet, a heating net, a heating tube, or the like.

To the atomizing module of plastic support frame + heating net type, generally need to bend the pin of heating net and inlay and fix on the plastic support frame, traditional preparation mode generally adopts pure manual or manual mode with supplementary tool to go on, so, can lead to the preparation machining efficiency of whole atomizing module to be slower, and atomizing module product stability uniformity can not obtain the guarantee.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing a higher and atomizing module product of preparation machining efficiency stabilizes the higher automatic atomizing module preparation mechanism and automatic atomizing module preparation equipment of uniformity.

The purpose of the utility model is realized through the following technical scheme:

an automatic atomizing module manufacturing mechanism for manufacturing atomizing modules, comprising:

a work table;

the positioning device comprises a positioning block and a pressing displacement piece, the pressing displacement piece is connected with the workbench and connected with the positioning block, a clamping frame is arranged on the positioning block, a side pressure channel is formed in the positioning block, the end part of the side pressure channel faces the clamping frame, a pressing channel is further formed in the positioning block, and the end part of the pressing channel faces the clamping frame;

the supporting frame conveying device is arranged on the workbench and used for conveying the supporting frame to the clamping frame;

the upper ejection punching pre-folding device comprises a placing block and an upper ejection punching pre-folding rod, the placing block is arranged on the workbench, an upper ejection punching pre-folding channel is formed in the placing block, the upper ejection punching pre-folding rod is slidably arranged in the upper ejection punching pre-folding channel, and the placing block is arranged towards the clamping frame;

the heating net conveying device is installed on the workbench and used for conveying a heating net onto the placing block, the lower pressing displacement piece is used for driving the supporting frame on the clamping frame to be placed on the heating net, and the end part of the upper top punching pre-folding rod is used for punching pins of the heating net and pre-folding and attaching the pins of the heating net onto the supporting frame;

the side pressure pre-folding device is provided with a side pressure pre-folding rod, the side pressure pre-folding rod is arranged in the side pressure channel in a sliding mode, and the end portion of the side pressure pre-folding rod is used for pre-folding pins of the heating net on the supporting frame in a side pressure mode; and

the pressing and bending device is provided with a pressing and bending rod, the pressing and bending rod is arranged in the pressing channel in a sliding mode, and the end portion of the pressing and bending rod is used for pressing and bending the pins of the heating network on the supporting frame.

In one embodiment, the atomization module comprises a heating net and a support frame; the heating net comprises a net body and pins, the pins comprise a first pre-folding piece, a side pressing pre-folding piece and a downward pressing bending piece which are sequentially connected, and the first pre-folding piece is connected with the net body; the support frame include the body and with this body coupling's laminating portion, laminating portion is provided with first laminating district, second laminating district and the third laminating district that connects in order, the laminating is in after first preflex piece is buckled on the first laminating district, the laminating is in after the side pressure preflex piece is buckled on the second laminating district, the laminating is in after the piece of buckling is buckled down on the third laminating district.

In one embodiment, the number of the heating nets is multiple, the multiple heating nets are connected to a sheet material belt in turn, and the sheet material belt is provided with positioning holes; the positioning block is provided with a positioning column, and the positioning column is used for being inserted into the positioning hole.

In one embodiment, the positioning column is a conical column, and the diameter of the root of the conical column is the same as that of the positioning hole.

In one embodiment, the end of the side pressure pre-folding rod is provided with a stamping inclined surface, and the stamping inclined surface is arranged towards the clamping frame.

In one embodiment, the supporting frame conveying device comprises a vibration disc and an ejector block which are respectively arranged on the workbench, the ejector block is used for performing reciprocating displacement towards the direction close to the vibration disc and the clamping frame, a containing groove is formed in the ejector block, a channel of the vibration disc is used for conveying the supporting frame into the containing groove, and the ejector block is used for conveying the supporting frame onto the clamping frame.

In one embodiment, the end of the ejector block is provided with a protective block, and the protective block is provided with a chamfer part.

In one embodiment, the end of the push-down bending rod has a conical surface structure.

An automatic atomizing module manufacturing device is characterized by comprising the automatic atomizing module manufacturing mechanism in any embodiment.

In one embodiment, the automatic atomization module manufacturing equipment further comprises a heating mesh belt material punching machine, wherein the heating mesh belt material punching machine is used for conveying heating mesh belt materials to the automatic atomization module manufacturing mechanism, and the heating mesh belt materials comprise a sheet material belt and a plurality of heating meshes respectively arranged on the sheet material belt.

Compared with the prior art, the utility model has the following advantage at least:

above-mentioned automatic atomizing module preparation mechanism can realize the laminating process of buckling of three core on placing this station of piece through setting up top impact preflex device, side pressure preflex device and push down bending apparatus and supporting structure in advance, can greatly improve preparation machining efficiency and atomizing module product and stabilize the uniformity.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to these drawings without inventive efforts.

Fig. 1 is a schematic structural view of an atomizing module according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the atomizing module shown in FIG. 1 from another perspective;

fig. 3 is a schematic structural diagram of an automated atomizing module manufacturing mechanism according to an embodiment of the present invention;

FIG. 4 is a schematic view of the automated atomizing module-making mechanism shown in FIG. 3 from another perspective;

FIG. 5 isbase:Sub>A cross-sectional view of the automated atomizing module-making mechanism of FIG. 4 taken along line A-A;

FIG. 6 is a schematic view of a portion of the automated atomizing module fabrication mechanism shown in FIG. 5;

FIG. 7 is an enlarged view of the automated atomizing module creation mechanism shown in FIG. 6 at B;

FIG. 8 is a schematic view of a portion of the automated atomizing module fabrication mechanism shown in FIG. 3;

fig. 9 is a schematic view of a partial structure of an automated atomizing module manufacturing mechanism according to an embodiment of the present invention;

fig. 10 is a schematic partial structural view of a heating net conveying device according to an embodiment of the present invention.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

To better describe the concept of the present technical solution, it is necessary to describe the atomization module finished product manufactured by the automatic atomization module manufacturing mechanism, please refer to fig. 1 and fig. 2 together, and the atomization module 20 includes: heating net 21 and support frame 22, heating net 21 sets up on support frame 22, and support frame 22 is used for in the atomizing intracavity of electronic atomizer is used for supporting heating net 21. The heating net 21 comprises a net body 21a and a pin 21b, the pin 21b comprises a first pre-folding piece 23a, a side pressing pre-folding piece 23b and a pressing and bending piece 23c which are connected in sequence, and the first pre-folding piece 23a is connected with the net body 21 a.

Referring to fig. 1 and 2, the supporting frame 22 includes a main body 22a and a bonding portion 22b, the bonding portion 22b is connected to the main body 22a, the bonding portion is provided with a first bonding area, a second bonding area and a third bonding area which are connected in sequence, the first pre-folded piece is bonded to the first bonding area after being bent, the side-pressed pre-folded piece is bonded to the second bonding area after being bent, and the lower-pressed bending piece is bonded to the third bonding area after being bent, so that the structural strength of the connection of the heating net and the supporting frame is higher.

Furthermore, the number of the heating nets is multiple, the heating nets are connected to a sheet material belt in turn, the sheet material belt is provided with a positioning hole, and the heating net belt comprises a sheet material belt and a plurality of heating nets arranged on the sheet material belt respectively.

In order to better understand the technical concept of the automated atomizing modular fabrication mechanism, the automated atomizing modular fabrication mechanism is further explained below:

referring to fig. 3 to 6, the automatic atomizing module manufacturing mechanism 10 is used for manufacturing an atomizing module, and the automatic atomizing module manufacturing mechanism 10 includes: the workbench 100, the positioning device 200, the support frame conveying device 300, the upper top punching pre-folding device 400, the heating net conveying device 500, the side pressing pre-folding device 600 and the pressing and bending device 700 are respectively arranged on the workbench 100, and the positioning device 200, the support frame conveying device 300, the upper top punching pre-folding device 400, the heating net conveying device 500, the side pressing pre-folding device 600 and the pressing and bending device 700 are respectively arranged on the workbench 100.

Referring to fig. 8, the positioning device 200 includes a positioning block 210 and a pressing displacement member 220, the pressing displacement member 220 is connected to the worktable 100, the pressing displacement member 220 is connected to the positioning block 210, specifically, the pressing displacement member 220 is a pushing motor or an air cylinder, and is connected to the positioning block 210 through an output end of the pressing displacement member 220, so as to control the positioning block 210 to perform a pressing operation.

Referring to fig. 7 and 8, a clamping frame 211 is disposed on the positioning block 210, a lateral pressure channel 212 is disposed on the positioning block 210, an end of the lateral pressure channel 212 faces the clamping frame 211, a pressing channel 213 is further disposed on the positioning block 210, an end of the pressing channel 213 faces the clamping frame 211, and specifically, a clamping groove is disposed on the clamping frame 211, and an inner wall of the clamping groove is configured to match an outer contour of the support frame of the atomizing module, so that the support frame of the atomizing module can be pressed into the clamping groove of the clamping frame 211, and the clamping frame 211 can clamp the support frame of the atomizing module.

Referring to fig. 8, a supporting frame conveying device 300 is installed on the worktable 100, and the supporting frame conveying device 300 is used for conveying the supporting frame 22 of the atomizing module to the clamping frame 211, so that the supporting frame 22 can be better clamped by the clamping frame 211, and the assembling process of the supporting frame and the heating net is further performed.

Further, referring to fig. 8, the supporting frame conveying device 300 includes a vibration plate 310 and an ejector block 320 respectively disposed on the worktable 100, and the ejector block 320 is configured to make reciprocating displacement in a direction approaching to the vibration plate 310 and the holding frame 211, and each time a stroke is taken, one supporting frame on the vibration plate can be correspondingly ejected and conveyed to the holding frame 211. Furthermore, be provided with the storage tank on the liftout piece, the passageway of vibration dish be used for to carry the support frame in the storage tank, the liftout piece is used for carrying the support frame on the holding frame, through the storage tank can be well the holding with spacing the support frame of atomizing module to stability when improving ejection transportation. Further, the tip of ejector pad is provided with the protection piece, be provided with chamfer portion on the protection piece, the direction of motion of ejector pad with the passageway mutually perpendicular of vibration dish is provided with the protection piece through the tip at the ejector pad, be provided with chamfer portion on the protection piece, can be when precision error or vibration dish pay-off have the error, through the support frame of protection piece pre-contact atomizing module to mention the guard action, for example, the protection piece is rubber or silica gel material.

Referring to fig. 7, the top impact pre-folding device 400 includes a placing block 410 and a top impact pre-folding rod 420, the placing block 410 is disposed on the workbench 100, a top impact pre-folding channel 411 is disposed on the placing block 410, the top impact pre-folding rod 420 is slidably disposed in the top impact pre-folding channel 411, and the placing block 410 is disposed toward the holding frame 211, it can be understood that when the holding frame 211 holds the atomizing module support frame 22, a pressing operation is performed to drive the support frame 22 to be placed on the placing block 410, and subsequent operations of bending the heating net three times and attaching and clamping the heating net on the support frame 22 are performed on the placing block 410. Further, the middle position of placing block 410 is provided with ejector pin, ejector pin overcoat is equipped with the spring, and when the support frame of atomizing module was placed on the heating net, the tip of ejector pin was based on the elasticity that the spring gave, can compress tightly the heating net better on the bottom of support frame.

Referring to fig. 3 and 9, a heating net conveying device 500 is installed on the worktable 100, the heating net conveying device 500 is used for conveying the heating net onto the placing block 410, the heating net 21 is conveyed onto the placing block 410 through the heating net conveying device 500, and then the support frame of the atomizing module is placed on the heating net 21 by the clamping frame, so that the heating net is bent three times and is attached and clamped on the support frame 22.

Further, referring to fig. 9 and 10, the heating net conveying device 500 includes: the ejection shifter 510, the push block 520, the ejection shift lever 530 and the ejection elastic element 540, the ejection shifter 510 is disposed on the workbench, the push block 520 is connected to an output end of the ejection shifter 510, the ejection shift lever 530 is rotatably connected to the push block 520, the ejection elastic element 540 is respectively connected to the push block 520 and the ejection shift lever 530, initially, a top of the ejection shift lever 530 is inserted into a positioning hole of the heating mesh material, when the ejection shifter 510 drives the push block 520 to move forward, the ejection shift lever 530 is also clamped in the positioning hole based on an acting force of the ejection elastic element 540, and pushes the heating mesh material to move away by a corresponding stroke, and then, when the ejection shifter 510 drives the push block 520 to move backward, the ejection shift lever 530 has a certain mobility due to the connection with the ejection elastic element 540, an end of the ejection shift lever 530 can be withdrawn from the current positioning hole and moved into a next positioning hole, and the heating mesh conveying operation is performed in a circulating manner.

Furthermore, the number of the heating nets is multiple, the heating nets are connected to a sheet material belt in a row, and the sheet material belt is provided with positioning holes; the positioning block is provided with a positioning column which is used for being inserted into the positioning hole. Furthermore, the positioning column is a conical column, the diameter of the root of the conical column is the same as that of the positioning hole, so that when the heating net belt material has certain precision deviation, the positioning column of the conical column is inserted into the positioning hole, and the conical surface of the positioning column can play a better guiding role, so that the feeding precision deviation is reduced. Furthermore, the heating net belt material comprises a sheet material belt and a plurality of heating nets respectively arranged on the sheet material belt, so that the conveying and positioning operation of the heating net belt material is facilitated.

Referring to fig. 7 and 8, the downward-pressing displacement member 220 is used to drive the supporting frame on the holding frame 211 to be placed on the heating net, and the end of the upward-pushing pre-bending rod 420 is used to break the pins of the heating net and pre-bend the pins of the heating net to be attached to the supporting frame of the atomizing module.

Referring to fig. 7, the side pressure pre-folding device 600 is provided with a side pressure pre-folding rod 610, the side pressure pre-folding rod is slidably arranged in the side pressure channel, and the end part of the side pressure pre-folding rod is used for pre-folding the pin side of the heating network on the support frame. The downward-pressing and bending device 700 is provided with downward-pressing and bending rods 710, the downward-pressing and bending rods are arranged in the downward-pressing channels in a sliding mode, and the end portions of the downward-pressing and bending rods are used for pressing and bending the pin sides of the heating network on the supporting frame. Furthermore, the downward pressing and bending device and the lateral pressing and pre-bending device are also provided with displacement pieces, such as air cylinders or ejection motors, so as to drive the lateral pressing and pre-bending rods and the downward pressing and bending rods to do linear motion.

Above-mentioned automatic atomizing module preparation mechanism can realize the laminating process of buckling of three core on placing this station of piece 410 through setting up top impact preflex device 400, side pressure preflex device 600 and push down bending device 700 and supporting structure in advance, can greatly improve preparation machining efficiency and atomizing module product stability uniformity.

In one embodiment, the end part of the side pressure pre-folding rod is provided with a stamping inclined plane, and the stamping inclined plane is arranged towards the clamping frame, so that by arranging the stamping inclined plane, when the side pressure pre-folding rod props against the side pressure pre-folding piece, the stamping inclined plane can better guide the side pressure pre-folding piece to be bent, the excessive stress suddenly received at a bending line is reduced, and the three-damage problem is reduced; in one embodiment, the end of the pressing and bending rod has a conical curved surface structure, so that the problem of three-wound can be reduced.

The utility model also provides an embodiment's automatic atomizing module preparation equipment, it includes any embodiment of the aforesaid automatic atomizing module preparation mechanism. Further, automatic atomizing module preparation equipment is still including generating heat the guipure material punching machine, generate heat guipure material punching machine be used for to automatic atomizing module preparation mechanism carries the mesh material that generates heat, the mesh material that generates heat includes the piece material area and sets up respectively a plurality of heating nets that generate heat on the piece material area.

The above embodiments only represent several embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, many variations and modifications can be made without departing from the spirit of the invention, and these are within the scope of the invention. Therefore, the protection scope of the utility model patent should be subject to the appended claims.

Claims (10)

1. The utility model provides an automatic atomizing module manufacturing mechanism for make atomizing module, its characterized in that includes:

a work table;

the positioning device comprises a positioning block and a pressing displacement piece, the pressing displacement piece is connected with the workbench and connected with the positioning block, a clamping frame is arranged on the positioning block, a side pressure channel is formed in the positioning block, the end part of the side pressure channel faces the clamping frame, a pressing channel is further formed in the positioning block, and the end part of the pressing channel faces the clamping frame;

the supporting frame conveying device is arranged on the workbench and used for conveying the supporting frame to the clamping frame;

the upper ejection punching pre-folding device comprises a placing block and an upper ejection punching pre-folding rod, the placing block is arranged on the workbench, an upper ejection punching pre-folding channel is formed in the placing block, the upper ejection punching pre-folding rod is slidably arranged in the upper ejection punching pre-folding channel, and the placing block is arranged towards the clamping frame;

the heating net conveying device is installed on the workbench and used for conveying a heating net onto the placing block, the lower pressing displacement piece is used for driving the supporting frame on the clamping frame to be placed on the heating net, and the end part of the upper top punching pre-folding rod is used for punching pins of the heating net and pre-folding and attaching the pins of the heating net onto the supporting frame;

the side pressure pre-folding device is provided with a side pressure pre-folding rod, the side pressure pre-folding rod is arranged in the side pressure channel in a sliding mode, and the end portion of the side pressure pre-folding rod is used for pre-folding pins of the heating network on the supporting frame in a side pressure mode; and

the pressing and bending device is provided with a pressing and bending rod, the pressing and bending rod is arranged in the pressing channel in a sliding mode, and the end portion of the pressing and bending rod is used for pressing and bending the pins of the heating network on the supporting frame.

2. The automated atomizing module fabrication mechanism of claim 1, wherein said atomizing module comprises a heating net and a support frame;

the heating net comprises a net body and pins, the pins comprise a first pre-folding piece, a side pressing pre-folding piece and a downward pressing bending piece which are sequentially connected, and the first pre-folding piece is connected with the net body;

the support frame include the body and with this body coupling's laminating portion, laminating portion is provided with first laminating district, second laminating district and the third laminating district that the order is connected, the laminating is in after first preflex piece is buckled on the first laminating district, the laminating is in after side pressure preflex piece is buckled on the second laminating district, the laminating is in after the piece of buckling is buckled down on the third laminating district.

3. The automated atomizing module manufacturing mechanism according to claim 2, wherein the number of the heating nets is plural, and the plural heating nets are connected to a sheet material belt in turn, and the sheet material belt is provided with a positioning hole;

the positioning block is provided with a positioning column which is used for being inserted into the positioning hole.

4. The automated atomizing module manufacturing mechanism of claim 3, wherein said positioning column is a conical column, and the diameter of the root of said conical column is the same as the diameter of said positioning hole.

5. The automated atomizing die set manufacturing mechanism of claim 1, wherein an end of said side pressure prefolding bar is provided with a stamping bevel, said stamping bevel being disposed toward said clamping frame.

6. The automated atomizing module manufacturing mechanism according to claim 1, wherein said supporting frame conveying device comprises a vibrating disk and an ejector block respectively disposed on said worktable, and said ejector block is used for reciprocating displacement in a direction close to said vibrating disk and said holding frame, said ejector block is provided with a containing slot, a channel of said vibrating disk is used for conveying the supporting frame into said containing slot, and said ejector block is used for conveying the supporting frame onto said holding frame.

7. The automated atomizing die set making mechanism of claim 6, wherein said ejector block is provided with a protective block at an end thereof, said protective block being provided with a chamfer thereon.

8. The automated atomizing module-making mechanism of claim 1, wherein the end of said push-down bending rod has a conical curved surface structure.

9. An automated modular misting apparatus comprising the automated modular misting mechanism of any one of claims 1 to 8.

10. The automated atomizing module production apparatus according to claim 9, characterized in that the automated atomizing module production apparatus further comprises a heat-generating mesh belt material punch for conveying a heat-generating mesh belt material to the automated atomizing module production mechanism, the heat-generating mesh belt material including a sheet material belt and a plurality of heat-generating meshes respectively provided on the sheet material belt.

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