CN214264575U - Ceramic atomization core cutting and wire loading mechanism - Google Patents

Abstract

The utility model provides a pottery atomizing core cutting dress silk mechanism, including relative first cutting portion and the second cutting portion that sets up, first cutting portion with be provided with the pore structure that corresponds each other in the second cutting portion, first cutting portion is relative second cutting portion displacement lets the pore structure of first cutting portion with the pore structure dislocation of second cutting portion makes and is located simultaneously first cutting portion and the inside material of pore structure that second cutting portion corresponds is cut, and the silk pipe that will predetermine length is loaded onto the ceramic body, and structural design is reasonable, links up the cooperation compactness, can adopt full mechanized operation mode and full automated control mode to a plurality of ceramic bodies dress silk operation simultaneously, has improved dress silk efficiency and quality, has reduced defective index and manufacturing cost.

Description

Ceramic atomization core cutting and wire loading mechanism

Technical Field

The utility model relates to a pottery atomizing technical field, in particular to pottery atomizing core cutting dress silk mechanism.

Background

Present electron smog spinning disk atomiser includes ceramic atomizing core, and it mainly comprises ceramic body and silk pipe, pours the tobacco tar into through the silk pipe in to the ceramic body, and the outside heating device of ceramic body makes its inside intensification atomizing tobacco tar. The production process of the ceramic atomizing core comprises a process of assembling a wire tube on a ceramic body, and the ceramic body is generally loaded with wires one by means of manpower or simple equipment assistance in the prior art. Based on the small size of the wire tube, the workload of the wire loading operation is large, and the defective rate is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide a mechanism that can the full automatization accomplish ceramic atomization core cutting dress silk to promote ceramic atomization core production efficiency, reduce defective products rate and manufacturing cost.

In order to achieve the above object, the utility model provides a ceramic atomizing core cutting dress silk mechanism, including relative first cutting portion and the second cutting portion that sets up, first cutting portion with be provided with the pore structure of mutual correspondence in the second cutting portion, first cutting portion is relative second cutting portion displacement lets the pore structure of first cutting portion with the pore structure dislocation of second cutting portion makes and is located simultaneously first cutting portion and the inside material of pore structure that second cutting portion corresponds is cut.

The first cutting part is a fixing plate, the second cutting part is a cutting plate, the fixing plate is fixedly arranged on a support frame, the cutting plate is movably arranged on the upper surface of the fixing plate, the hole-shaped structures are charging holes formed in the cutting plate and the fixing plate, and the charging holes of the cutting plate are communicated with a feeding pipeline of a wire tube.

Further, be provided with the cutting drive division on the support frame, the cutting drive division drives actuating cylinder for the cutting, the cutting drive actuating cylinder the piston rod tip with cutting board fixed connection.

Further, the both sides protrusion of fixed plate upper surface is provided with the guide rail, the lower surface correspondence of cutting board is provided with the recess, the guide rail with recess sliding fit.

Furthermore, a first limiting block and a second limiting block are respectively arranged at the front end and the rear end of the fixing plate, and limit the sliding range of the cutting plate relative to the fixing plate.

Furthermore, still be provided with the elasticity on the support frame and compress tightly the portion, the elasticity compresses tightly the portion including the roll setting and is in the compression roller of cutting board upper surface, the both ends of compression roller with support frame elastic connection, but just free rotation.

Furthermore, two sides of the support frame are respectively provided with a sliding block, the sliding blocks are arranged in sliding grooves on two sides of the support frame in a sliding mode, bearings are arranged in the sliding blocks, two ends of the compression roller are rotatably connected with the sliding blocks on two sides through the bearings, a spring is arranged at the top end of each sliding block, a first end of the spring is in elastic contact with the corresponding sliding block, and a second end of the spring is in elastic contact with the support frame.

Further, the support frame includes mount and adjustable shelf, it drives actuating cylinder to be provided with a lift on the mount, the adjustable shelf with the piston rod end fixed connection who drives actuating cylinder goes up and down, the fixed plate the cutting drives actuating cylinder and all sets up on the adjustable shelf, the spout shaping in on the adjustable shelf, the second end of spring with adjustable shelf elastic contact.

Furthermore, the bottom of the support frame is also provided with a feeding guide rail, the feeding guide rail passes through the position under the fixed plate, a movable material tray is arranged on the feeding guide rail, a plurality of ceramic bodies are placed on the material tray, and mounting holes of the ceramic bodies correspond to the material charging holes one to one.

The above technical scheme of the utility model has following beneficial effect:

the utility model provides a pottery atomizing core cutting dress silk mechanism is provided with fixed plate and cutting board, when the cutting board removed for the fixed plate surface, through the dislocation of charging hole, the silk pipe that makes to feed receives the shearing force and is cut, the silk pipe that will predetermine length feeds to the ceramic body on, structural design is reasonable, link up the cooperation compactness, can be simultaneously to a plurality of ceramic body dress silk operations, adopt full mechanized operation mode and full automatization control mode, the silk efficiency and the quality of adorning have been improved, the defective index and manufacturing cost have been reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is the structure diagram of the fixing plate and the cutting plate of the present invention.

[ description of reference ]

1-fixing the plate; 2-cutting the board; 3-a charging hole; 4-a feeding pipeline; 5-a ceramic body; 6-wire tube; 7-cutting driving cylinder; 8-a first limiting block; 9-a second limiting block; 10-a press roll; 11-a slide block; 12-a chute; 13-a spring; 14-a fixing frame; 15-a movable frame; 16-a lifting driving cylinder; 17-a feeding guide rail; 18-tray.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved by the present invention clearer, the following detailed description will be given with reference to the accompanying drawings and specific embodiments. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, the technical features related to the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, the embodiment of the utility model provides a pottery atomizing core cutting dress silk mechanism, including a support frame, be provided with fixed plate 1 and cutting board 2 on the support frame, fixed plate 1 and support frame fixed connection, the activity of cutting board 2 sets up the upper surface at fixed plate 1, and all is provided with the charging hole 3 of a plurality of correspondences on cutting board 2 and the fixed plate 1, and the export of the pipeline feeding 4 of conveyer wire pipe and the charging hole 3 one-to-one of cutting board 2 and follow the upper surface intercommunication. Wherein, the cutting board 2 and the charging hole 3 on the fixed plate 1 are through holes, and the thickness of the fixed plate 1, namely the hole depth of the charging hole 3 is the length of the wire tube for charging the wire into the ceramic body 5. After the complete wire tube 6 of supplied materials passes through the charging hole 3 and is inserted into the mounting hole of the ceramic body 5, the cutting plate 2 slides and displaces relative to the fixed plate 1, so that the charging holes 3 corresponding to the two layers are obviously staggered, and the wire tube 6 is cut off by shearing action. And the small sections of the wire tubes 6 left in the charging holes 3 of the fixing plate 1 are parts for charging the ceramic bodies 5, and the ceramic bodies 5 are subsequently controlled to vertically displace relative to the fixing plate 1 so as to draw the wire tubes 6 out of the fixing plate 1, thereby completing the whole wire charging process.

The displacement of cutting board 2 relative fixed plate 1 passes through the cutting drive division drive that sets up on the support frame, specifically drives actuating cylinder 7 for a cutting, cuts actuating cylinder 7's piston rod tip and cutting board 2 fixed connection, through the flexible displacement of controlling cutting board 2 relative fixed plate 1 of piston rod.

Simultaneously, the both sides protrusion of fixed plate 1 upper surface is provided with the guide rail, and the lower surface of cutting board 2 corresponds is provided with the recess, and guide rail and recess sliding fit make cutting board 2 slide according to predetermined orbit for fixed plate 1, and the direction is applyed to the shearing force more accurately.

Referring to fig. 2, the front end and the rear end of the fixing plate 1 are respectively provided with a first stopper 8 and a second stopper 9, and the first stopper 8 and the second stopper 9 limit the sliding range of the cutting plate 2 relative to the fixing plate 1. Wherein, the first stopper 8 limits the initial position, and when the cutting driving cylinder 7 is contracted to the position that the cutting plate 2 is limited by the first stopper 8, the charging holes 3 of the upper layer and the lower layer are just aligned. The second limiting block 9 mainly limits the maximum distance of the cutting plate 2 moving forwards in the cutting process, and prevents overlarge impact force from leaving the fixing plate 1.

As a further improvement, the supporting frame in this embodiment is further provided with an elastic pressing portion, the elastic pressing portion includes a pressing roller 10 rolling on the upper surface of the cutting board 2, and both ends of the pressing roller are elastically connected with the supporting frame and can freely rotate. The pressing roller 10 continuously applies a downward elastic force to the cutting plate 2, so that the cutting plate 2 is always tightly attached to the fixing plate 1, and phenomena such as bending of a wire tube and tilting of the cutting plate 2 are more difficult to occur when the cutting plate moves relative to the fixing plate 1 for cutting, and application of a shearing force and a cutting effect are ensured.

Specifically, two sides of the support frame are respectively provided with a sliding block 11 which is slidably arranged in sliding grooves 12 at two sides of the support frame. The slide block 11 is internally provided with a bearing, and two ends of the press roll 10 are rotationally connected with the slide blocks 11 on two sides through the bearing. The top of slider 11 is provided with integrative spliced pole, and the spliced pole passes the through-hole activity setting of support frame and is equipped with a spring 13, and the first end and the slider 11 elastic contact of spring 13, second end and support frame elastic contact, spring 13 keep compression state, make compression roller 10 can last downward exert elastic pressure.

In this embodiment, the supporting frame includes a fixed frame 14 and a movable frame 15, wherein the fixed frame 14 is fixedly disposed and has a plurality of waist-shaped grooves formed thereon, so that each feeding pipe 4 can pass through the waist-shaped grooves. The top end of the fixed frame 14 is provided with a lifting driving cylinder 16, the movable frame 15 is fixedly connected with the end part of a piston rod of the lifting driving cylinder 16, and the piston rod of the lifting driving cylinder 16 extends and retracts to lift. The fixed plate 1, the cutting driving cylinder 7, and the like are fixedly provided on the movable frame 15, and when the cutting of the wire tube 6 is completed, the movable frame 15 is raised to move the fixed plate 1 away from the ceramic body 5, and the wire tube 6 inserted into the ceramic body 5 is drawn out from the charging hole 3 of the fixed plate 1. After the ceramic bodies 5 to be subjected to wire loading move to the position right below the fixing plate 1, the fixing plate 1 descends to enable the charging holes 3 to be connected with the mounting holes, and then the cutting driving cylinder 7 drives the cutting plate 2 to reset, so that the end portions of the wire tubes 6 in the cutting plate 2 penetrate through the fixing plate 1 and are inserted into the mounting holes of a new batch of ceramic bodies 5.

In addition, the sliding groove 12 is also formed on the movable frame 15, the second end of the spring 13 is elastically contacted with the movable frame 15, the movable frame 15 is also provided with a guide upright post, and the guide upright post is movably connected with the fixed frame 14 through a linear bearing.

The bottom of support frame still is provided with pay-off guide rail 17, and pay-off guide rail 17 is provided with movable charging tray 18 through the fixed plate 1 under, and a plurality of ceramic bodies 5 are placed to charging tray 18 upper surface, and the mounting hole of ceramic body 5 and charging hole 3 one-to-one correspond. When the tray 18 moves to the position right below the fixed plate 1, the fixed plate 1 descends, and the cutting plate 2 resets to insert the wire tube 6 into the mounting hole of the corresponding ceramic body 5. After cutting, the fixed plate 1 is lifted, the material tray 18 moves to a subsequent station along the feeding guide rail 17, the next material tray 18 moves to the position right below the fixed plate 1 again, and the wire loading process is repeated.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a ceramic atomizing core cutting dress silk mechanism, its characterized in that, including relative first cutting portion and the second cutting portion that sets up, first cutting portion with be provided with the pore structure that corresponds each other on the second cutting portion, first cutting portion is relative second cutting portion displacement lets the pore structure of first cutting portion with the pore structure dislocation of second cutting portion makes and is located simultaneously first cutting portion and the inside material of pore structure that second cutting portion corresponds is cut.

2. The ceramic atomizing core cutting and wire loading mechanism according to claim 1, wherein the first cutting portion is a fixing plate, the second cutting portion is a cutting plate, the fixing plate is fixedly arranged on a support frame, the cutting plate is movably arranged on the upper surface of the fixing plate, the hole-shaped structures are charging holes arranged on the cutting plate and the fixing plate, and the charging hole of the cutting plate is communicated with a feeding pipeline of a wire tube.

3. The cutting and wire-loading mechanism for the ceramic atomizing core according to claim 2, wherein the supporting frame is provided with a cutting driving part, the cutting driving part is a cutting driving cylinder, and the end part of a piston rod of the cutting driving cylinder is fixedly connected with the cutting plate.

4. The ceramic atomizing core cutting and wire loading mechanism according to claim 3, wherein guide rails are convexly arranged on two sides of the upper surface of the fixing plate, grooves are correspondingly arranged on the lower surface of the cutting plate, and the guide rails are in sliding fit with the grooves.

5. The ceramic atomizing core cutting and wire loading mechanism according to claim 4, wherein a first limiting block and a second limiting block are respectively arranged at the front end and the rear end of the fixing plate, and the first limiting block and the second limiting block limit the sliding range of the cutting plate relative to the fixing plate.

6. The ceramic atomizing core cutting and wire loading mechanism according to claim 5, wherein an elastic pressing part is further arranged on the supporting frame, the elastic pressing part comprises a pressing roller which is arranged on the upper surface of the cutting plate in a rolling manner, and two ends of the pressing roller are elastically connected with the supporting frame and can freely rotate.

7. The ceramic atomizing core cutting and wire loading mechanism according to claim 6, wherein two sides of the supporting frame are respectively provided with a sliding block, the sliding blocks are slidably arranged in sliding grooves at two sides of the supporting frame, bearings are arranged in the sliding blocks, two ends of the pressing roller are rotatably connected with the sliding blocks at two sides through the bearings, a spring is arranged at the top end of each sliding block, a first end of the spring is in elastic contact with the sliding block, and a second end of the spring is in elastic contact with the supporting frame.

8. The ceramic atomizing core cutting and wire loading mechanism according to claim 7, wherein the supporting frame comprises a fixed frame and a movable frame, a lifting driving cylinder is arranged on the fixed frame, the movable frame is fixedly connected with the end part of a piston rod of the lifting driving cylinder, the fixed plate and the cutting driving cylinder are both arranged on the movable frame, the sliding groove is formed on the movable frame, and the second end of the spring is in elastic contact with the movable frame.

9. The ceramic atomizing core cutting and wire loading mechanism according to claim 2, wherein a feeding guide rail is further arranged at the bottom end of the supporting frame, the feeding guide rail passes through the position right below the fixed plate, a movable material tray is arranged on the feeding guide rail, a plurality of ceramic bodies are placed on the material tray, and mounting holes of the ceramic bodies correspond to the material loading holes one to one.

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