CN215393578U - Atomizing seat feed mechanism - Google Patents

Abstract

The utility model relates to an atomizing base feeding mechanism which comprises a base plate, a vibrating disc feeding assembly, an atomizing base positioning assembly and an atomizing base carrying assembly, wherein the vibrating disc feeding assembly, the atomizing base positioning assembly and the atomizing base carrying assembly are fixed on the base plate; this atomizing seat feed mechanism realizes atomizing seat's stable material loading through vibration dish material loading subassembly and atomizing seat locating component's cooperation to the clamping jaw cylinder of sideslip cylinder and lift cylinder control through atomizing seat transport subassembly carries atomizing seat to the tool and carries out follow-up processing, has improved whole mechanism's material loading precision and work efficiency.

Description

Atomizing seat feed mechanism

Technical Field

The utility model relates to the field of atomizer assembly, in particular to a feeding mechanism of an atomizing base.

Background

The electronic atomization device or the electronic atomization device is particularly applied to electronic smoking sets used in health, liquid medicine atomization devices used in medical treatment and the like, and the basic task of the electronic atomization device or the electronic atomization device is to provide a heating process and convert solutions such as tobacco liquid, liquid medicine and the like stored in the electronic atomization device or the electronic atomization device into vapor fog, aerosol, steam and the like for a user to suck or use.

Current electronic atomization equipment or electronic atomization device generally include battery pack and atomizer, installs the battery for atomizer power supply in the battery pack, and the atomizer is including installing the atomizing core on atomizing seat, and the atomizing core can treat atomizing solution promptly and treat atomizing liquid heating atomizing steam fog or aerosol when the circular telegram, and the atomizing core generally is equipped with the heater including leading liquid and heater on leading the liquid, and the heater both ends are equipped with the lead wire, and the lead wire is naked body line usually. The liquid guide can be made of glass fiber ropes, cotton ropes, ceramics and the like.

The existing atomizer generally comprises an atomizing base, an atomizing core, an atomizing pipe, a liquid isolating base, a liquid storage cup, a sealing ring, a suction nozzle and the like, more accessories and a complex structure are arranged, and therefore in the existing atomizer production process, the assembly of the atomizer generally adopts a manual assembly mode, the installation of the existing atomizer and the atomization base loading of the atomizer assembly equipment generally adopt a manual assembly or semi-automatic assembly mode, and if the atomization base loading is toppled over or moved due to collision, the loading precision is not high, the efficiency is low, the loading of the atomizing base is influenced, and the subsequent assembly steps are influenced.

SUMMERY OF THE UTILITY MODEL

The purpose of the utility model is: the utility model provides a solve atomizing seat feed mechanism of not high problem of material loading precision.

The technical solution of the utility model is as follows: an atomizing base feeding mechanism is characterized by comprising a base plate, a vibrating disc feeding assembly, an atomizing base positioning assembly and an atomizing base carrying assembly, wherein the vibrating disc feeding assembly, the atomizing base positioning assembly and the atomizing base carrying assembly are fixed on the base plate;

the atomizing base carrying assembly comprises a side plate fixed on a support, a guide rail fixed on the side plate, a clamping assembly movably mounted on the guide rail, and a transverse moving cylinder for controlling the clamping assembly to transversely move on the guide rail, wherein the clamping assembly comprises a cylinder support movably mounted on the guide rail through a transverse moving sliding block, a lifting cylinder fixedly arranged on the cylinder support through a fixing element, and a clamping jaw cylinder mounted at the end part of a piston rod of the lifting cylinder, and first limiting blocks are fixedly arranged on two sides of the guide rail respectively.

Preferably, the method comprises the following steps: the vibration dish material loading subassembly is including fixing the vibration dish on the base plate, fixing the output guide rail on the base plate through the guide rail support, the feed end of output guide rail and the discharge gate intercommunication of vibration dish, the discharge end and atomizing seat locating component's material loading station intercommunication in advance.

Preferably, the method comprises the following steps: the atomization seat positioning assembly comprises a fixed support, a bottom plate fixed on the fixed support, an offset cylinder fixed on one side of the bottom plate, an offset guide rail fixed on the upper surface of the bottom plate, and an offset assembly slidably mounted on the offset guide rail, wherein the offset cylinder controls the offset assembly to move along the offset guide rail;

the atomizing seat positioning assembly further comprises a pre-feeding positioning assembly, and the pre-feeding positioning assembly is positioned between the vibrating disk feeding assembly and the offset assembly.

Preferably, the method comprises the following steps: the skew subassembly includes through skew slider slidable mounting L type piece on the skew guide rail, sets firmly location cylinder and location slide rail, the slidable mounting in the L type piece outside atomization seat carrier assembly on the slide rail of location, atomization seat carrier assembly includes L type support plate and sets firmly the atomization seat carrier seat at L type support plate upper surface, the atomization seat carrier seat upper surface equidistance is equipped with two at least atomization seat holding tanks side by side concavely, atomization seat holding tank both sides still are equipped with the centre gripping groove of the clamping jaw cylinder centre gripping of being convenient for, the feed chute has been link up to atomization seat holding tank side.

Preferably, the method comprises the following steps: the pre-feeding positioning assembly is fixedly arranged on one side of the feeding assembly of the vibration disc and comprises a pre-clamping cylinder fixedly arranged on the side wall of a fixed support through a cylinder support, a clamping piece is fixedly arranged at the end part of a piston rod of the pre-clamping cylinder, a clamping bottom plate is fixedly arranged on the side face of the bottom plate, a groove hole is concavely formed in the upper surface of the clamping bottom plate, and the groove hole and the clamping piece are matched to form a station to be processed.

Preferably, the method comprises the following steps: the bottom plate is located the offside of skew cylinder and has set firmly the second stopper, be equipped with the spacing post of first spacing post and the second that limits atomizing seat carrier assembly extreme position that is used for restricting skew subassembly extreme position on the second stopper respectively.

Preferably, the method comprises the following steps: the bottom surfaces of the L-shaped block and the L-shaped carrier plate are provided with limiting convex blocks protruding downwards, a limiting plate is fixedly arranged on the same side of the bottom plate, which is located on the limiting convex blocks, and a third limiting column penetrates through the limiting plate.

Preferably, the method comprises the following steps: the piston rod tip equidistance of lift cylinder has set firmly a plurality of clamping jaw cylinders side by side, clamping jaw cylinder quantity is unanimous with atomizing seat holding tank quantity, and the interval between two liang of clamping jaw cylinders is the same with the interval between two liang of atomizing seat holding tank.

Compared with the prior art, the utility model has the beneficial effects that:

utilize vibration dish and guide rail complex feed mechanism, guarantee that the condition of empting or removing can not appear among the atomizing seat feeding process, the output guide rail is direct exports atomizing seat to treating the material loading station, has carried out the location in treating the material loading station, ensures that atomizing seat transport assembly can accurate centre gripping atomizing seat when the transport move to the tool on, has improved whole mechanism's material loading precision and work efficiency.

Drawings

FIG. 1 is an exploded schematic view of the atomizer structure;

FIG. 2 is a schematic structural diagram of a feeding mechanism of the atomizing base;

fig. 3 is a schematic structural view of the atomizing base positioning assembly.

Description of the main component symbols:

1 vibration dish material loading subassembly	11 vibration plate	12 output guide rail	13 guide rail bracket
				2 atomizing seat locating component	21 fixed support	221 bottom plate	222 offset cylinder
223 offset guide rail	224 second stopper	2241 first limit column	2242 second limit column
				225 limiting plate	2251 third limiting column	231L type block	232 positioning cylinder
233 positioning slide rail	241L type carrier plate	242 atomizing seat carrier	2421 an atomization seat holding tank
				2422 clamping groove	2423 feed chute	243 optical fiber sensor	251 pre-clamping cylinder
252 clamping base plate	2521 Pre-Loading station	253 clamping piece	26 limit lug
				31 side plate	311 first stopper	32-horizontal moving cylinder	33 sideslip guide rail
34 cylinder support	35 lifting cylinder	36 clamping jaw cylinder	400 atomizing seat
				401 atomizing core	402 atomizing pipe	403 liquid-proof seat	404 liquid storage cup
405 sealing ring	406 suction nozzle

Detailed Description

The utility model will be described in more detail below with reference to the accompanying drawings:

the following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the utility model more readily understood by those skilled in the art, and thus will more clearly and distinctly define the scope of the utility model. The directional terms used in the present invention, such as "up", "down", "front", "back", "left", "right", "top", "bottom", etc., refer to the directions of the attached drawings. Accordingly, the directional terms used are used for explanation and understanding of the present invention, and are not used for limiting the present invention.

Referring to fig. 1, a conventional atomizer generally includes an atomizing base 400, an atomizing core 401, an atomizing pipe 402, a liquid isolating base 403, a liquid storage cup 404, a sealing ring 405, and a suction nozzle 406, where the first step of starting the assembly of the atomizer is to load the atomizing base onto an atomizing base mounting position of a fixture, and if the atomizing base cannot be accurately placed on the atomizing base mounting position, the quality of subsequent processing may be affected.

Referring to fig. 2 and 3, an atomizing base feeding mechanism includes a substrate, a vibrating tray feeding assembly 1 fixed on the substrate, an atomizing base positioning assembly 2, and an atomizing base carrying assembly 3, wherein a discharging end of an output guide rail 12 of the vibrating tray feeding assembly 1 is communicated with a pre-feeding station of the atomizing base positioning assembly 2, and the atomizing base carrying assembly 3 is fixed on a side surface of the atomizing base positioning assembly 2 through a bracket;

the vibrating disk feeding assembly 1 comprises a vibrating disk 11 fixed on a base plate and an output guide rail 12 fixed on the base plate through a guide rail bracket 13, wherein a feeding hole of the output guide rail 12 is in butt joint with a discharging hole of the vibrating disk 11, and a discharging hole of the output guide rail 12 is in butt joint with a pre-feeding station 2521 of the atomizing pipe positioning assembly 2;

the atomizing base positioning assembly 2 comprises a fixed support 21, a bottom plate 221 fixed on the fixed support, an offset cylinder 222 fixed on one side of the bottom plate, an offset guide rail 223 fixed on the upper surface of the bottom plate, and an offset assembly slidably mounted on the offset guide rail 223, wherein the offset cylinder 222 drives the offset assembly to move along the offset guide rail 223;

the offset assembly comprises an L-shaped block 231 which is slidably mounted on an offset guide rail 223 through an offset slide block, a positioning cylinder 232 and a positioning slide rail 233 which are fixedly arranged on the outer side of the L-shaped block 231, and an atomizing base bearing assembly which is slidably mounted on the positioning slide rail 233, wherein the atomizing base bearing assembly comprises an L-shaped carrier plate 241 and an atomizing base bearing seat 242 which is fixedly arranged on the upper surface of the L-shaped carrier plate 241, at least two atomizing base accommodating grooves 2421 are equidistantly and parallelly concavely arranged on the upper surface of the atomizing base bearing seat 242, clamping grooves 2422 which are convenient for clamping by a clamping jaw cylinder are further arranged on two sides of the atomizing base accommodating grooves 2421, and the side surfaces of the atomizing base accommodating grooves 2421 penetrate through a feeding groove 2423;

the L-shaped carrier plate 241 is further fixedly provided with an optical fiber sensor 243 through a bracket, and a probe of the optical fiber sensor 243 extends into the atomizing seat accommodating groove 2421 to detect whether an atomizing seat is arranged in the atomizing seat accommodating groove 2421;

the atomizing seat positioning assembly further comprises a pre-feeding positioning assembly, the pre-feeding positioning assembly is positioned between the vibrating disk feeding assembly 1 and the offset assembly, the pre-feeding positioning assembly comprises a pre-clamping cylinder 251 and a clamping bottom plate 252, the pre-clamping cylinder 251 and the clamping bottom plate 252 are fixedly arranged on the side wall of the fixed support 21 through a cylinder support, a clamping piece 253 is fixedly arranged at the end part of a piston rod of the pre-clamping cylinder 251, a groove hole is formed in the upper surface of the clamping bottom plate 252 in a concave mode, and the groove hole and the clamping piece 253 are matched to form a pre-feeding station 2521.

The output rail 12 interfaces with a pre-loading station 2521, and the pre-loading station 2521 interfaces with a feed chute 2423.

The atomizing base carrying assembly 3 comprises a side plate 31 fixed on a support, a transverse moving guide rail 33 fixed on the side plate 31, a clamping assembly movably mounted on the guide rail 33, and a transverse moving cylinder 32 for controlling the transverse moving of the clamping assembly on the transverse moving guide rail, wherein the clamping assembly comprises a cylinder support 34 movably mounted on the guide rail 33 through a transverse moving slide block, a lifting cylinder 35 fixedly arranged on the cylinder support 34 through a fixing bolt, and a clamping jaw cylinder 36 arranged at the end part of a piston rod of the lifting cylinder, and first limiting blocks 311 are fixedly arranged on two sides of the guide rail 33 on the side plate 31 respectively;

the number of the clamping jaw cylinders 36 is the same as the number of the atomizing seat accommodating grooves 2421, and the spacing between adjacent clamping jaw cylinders 36 is the same as the spacing between adjacent atomizing seat accommodating grooves 2421.

The bottom plate 221 is fixedly provided with a second limiting block 224 at the opposite side of the offset cylinder 222, and the second limiting block 224 is respectively provided with a first limiting column 2241 for limiting the sliding limit position of the offset assembly and a second limiting column 2242 for limiting the sliding limit position of the atomizing base bearing assembly.

The bottom surfaces of the L-shaped block 231 and the L-shaped carrier 241 are provided with a limiting bump 26 protruding downward, a limiting plate 225 is further fixedly arranged on the bottom plate 221 on the same side of the limiting bump 26, and a third limiting column 2251 is arranged on the limiting plate 225 in a penetrating manner.

The working principle is as follows: the vibration dish passes through output guide rail output atomizing seat to material loading station in advance, first atomizing seat gets into first atomizing seat holding tank through the feed chute after, skew cylinder drive skew subassembly slides, the feed chute and the material loading station butt joint in advance of second atomizing seat holding tank, second atomizing seat gets into second atomizing seat holding tank, location cylinder drive atomizing seat carrier assembly displacement, until corresponding with clamping jaw cylinder position, lift cylinder control clamping jaw cylinder descends, centre gripping atomizing seat shifts to the tool through sideslip cylinder drive and places.

The above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (8)

1. An atomizing base feeding mechanism is characterized by comprising a base plate, a vibrating disc feeding assembly, an atomizing base positioning assembly and an atomizing base carrying assembly, wherein the vibrating disc feeding assembly, the atomizing base positioning assembly and the atomizing base carrying assembly are fixed on the base plate;

the atomizing base carrying assembly comprises a side plate fixed on a support, a guide rail fixed on the side plate, a clamping assembly movably mounted on the guide rail, and a transverse moving cylinder for controlling the clamping assembly to transversely move on the guide rail, wherein the clamping assembly comprises a cylinder support movably mounted on the guide rail through a transverse moving sliding block, a lifting cylinder fixedly arranged on the cylinder support through a fixing element, and a clamping jaw cylinder mounted at the end part of a piston rod of the lifting cylinder, and first limiting blocks are fixedly arranged on two sides of the guide rail respectively.

2. The atomizing base feeding mechanism according to claim 1, wherein the vibrating disk feeding assembly comprises a vibrating disk fixed on the base plate, and an output guide rail fixed on the base plate through a guide rail bracket, wherein a feeding end of the output guide rail is communicated with a discharging port of the vibrating disk, and a discharging end of the output guide rail is communicated with a pre-feeding station of the atomizing base positioning assembly.

3. The atomization seat feeding mechanism according to claim 1, wherein the atomization seat positioning assembly comprises a fixed support, a bottom plate fixed on the fixed support, an offset cylinder fixed on one side of the bottom plate, an offset guide rail fixed on the upper surface of the bottom plate, and an offset assembly slidably mounted on the offset guide rail, wherein the offset cylinder controls the offset assembly to move along the offset guide rail;

the atomizing seat positioning assembly further comprises a pre-feeding positioning assembly, and the pre-feeding positioning assembly is positioned between the vibrating disk feeding assembly and the offset assembly.

4. The atomizing base feeding mechanism according to claim 3, wherein the offset assembly comprises an L-shaped block slidably mounted on the offset guide rail through an offset slider, a positioning cylinder and a positioning slide rail fixedly arranged on the outer side of the L-shaped block, and an atomizing base bearing assembly slidably mounted on the positioning slide rail, the atomizing base bearing assembly comprises an L-shaped carrier plate and an atomizing base bearing base fixedly arranged on the upper surface of the L-shaped carrier plate, at least two atomizing base accommodating grooves are concavely formed in the upper surface of the atomizing base bearing base in an equidistant and parallel manner, clamping grooves convenient for clamping by the clamping jaw cylinders are further formed in two sides of each atomizing base accommodating groove, and a feeding groove is formed in the side surface of each atomizing base accommodating groove in a penetrating manner.

5. The atomizing base feeding mechanism according to claim 3, wherein the pre-feeding positioning component is fixedly arranged on one side of the vibrating plate feeding component and comprises a pre-clamping cylinder fixedly arranged on the side wall of the fixed support through a cylinder support, a clamping piece is fixedly arranged at the end part of a piston rod of the pre-clamping cylinder, a clamping bottom plate is fixedly arranged on the side surface of the bottom plate, a groove hole is concavely arranged on the upper surface of the clamping bottom plate, and the groove hole and the clamping piece are matched to form a station to be processed.

6. The atomizing base feeding mechanism according to claim 3, wherein a second limiting block is fixedly arranged on the bottom plate at the opposite side of the offset cylinder, and a first limiting column for limiting the limit position of the offset assembly and a second limiting column for limiting the limit position of the atomizing base bearing assembly are respectively arranged on the second limiting block.

7. The atomizing base feeding mechanism according to claim 1, wherein the bottom surfaces of the L-shaped block and the L-shaped carrier plate are provided with downward protruding limiting protrusions, a limiting plate is further fixedly arranged on the bottom plate at the same side of the limiting protrusions, and a third limiting column penetrates through the limiting plate.

8. The atomizing base feeding mechanism according to claim 1, wherein a plurality of clamping jaw cylinders are fixedly arranged on the end portion of the piston rod of the lifting cylinder in parallel at equal intervals, the number of the clamping jaw cylinders is consistent with that of the atomizing base accommodating grooves, and the distance between every two clamping jaw cylinders is the same as that between every two atomizing base accommodating grooves.

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