CN116148511A - Atomizer resistance testing device - Google Patents

Abstract

The invention relates to the technical field of atomizer production and detection, in particular to an atomizer resistance testing device, which comprises an operation table, wherein a fixing structure is arranged on the operation table, a correction structure is connected between the fixing structure and the operation table, a detection structure is arranged on the operation table, an adjustment structure is connected on the detection structure, a moving structure is connected between the detection structure and the fixing structure, and a positioning structure is arranged on one side of the fixing structure; can treat the atomizer that detects through fixed knot constructs and carry out quick fixed, can rotate the adjustment to accomplishing fixed atomizer through correcting structure, guarantee to detect the accurate connection between electrode and the resistance, can realize the detection work to the atomizer fast through detecting the structure, can make the accommodation of distance between the feeler lever more nimble through adjusting the structure.

Description

Atomizer resistance testing device

Technical Field

The invention relates to the technical field of atomizer production detection, in particular to an atomizer resistance testing device.

Background

The electronic cigarette mainly comprises tobacco tar (containing nicotine, essence, propylene glycol solvent and the like), a heating system, a power supply and a filter tip, and aerosol with specific smell is generated by heating and atomizing for smokers to use. The core component of the electronic cigarette is an atomizer, heat is generated by adding proper voltage to two ends of a resistor in the electronic cigarette, so that the electronic cigarette heats tobacco tar to generate smoke, and the quality of the atomizer is determined by the resistance value of the atomizer in the process.

However, the existing atomizer resistance value detection is mostly detected by means of a manual detection meter, and because the size of the atomizer is usually smaller, the detection efficiency is lower, especially when large-batch product detection is carried out, the detection speed is not ideal, in the detection process, the atomizer is inconvenient to fix, so that workers are difficult to simultaneously carry out accurate operation of the detection meter, and the detection effect is possibly influenced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a resistance testing device for an atomizer.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides an atomizer resistance test device, includes the operation panel, be equipped with fixed knot on the operation panel, be connected with correction structure between fixed knot construct and the operation panel, be equipped with detection structure on the operation panel, be connected with adjustment structure on the detection structure, be connected with the moving structure between detection structure and the fixed knot construct, fixed knot constructs one side and is equipped with location structure.

Specifically, fixed knot constructs including the base, the topside of base rotates to be connected with and settles the box, the middle part sliding connection who settles the box has the collet, the collet is disc structure, fixedly connected with first spring between collet and the settling box, be equipped with the lug on the base, lug and settling box inboard sliding connection.

Specifically, the inboard sliding connection of settling box has first slider, fixedly connected with second spring between first slider and the settling box, the side of first slider is inconsistent with the lug, the inboard sliding connection of first slider has the second slider, fixedly connected with third spring between second slider and the first slider, the tip of second slider is inclined plane structure.

Specifically, the correction structure comprises a fixed frame, the side of base rotates and is connected with the fixed frame, first spout has been seted up on the operation panel, the fixed frame passes through first spout and operation panel sliding connection, one side of fixed frame runs through and has the drive slide bar, rotate between drive slide bar and the operation panel and be connected, sliding connection has the worm cover on the drive slide bar, the inboard of fixed frame is located to the worm cover, the side fixedly connected with worm wheel of base, mesh between worm cover and the worm wheel.

Specifically, the detection structure comprises mounting arms, two mounting arms are vertically and fixedly connected to the operation table, the two mounting arms are respectively arranged on two sides of the first sliding groove, a second sliding groove is formed in the side face of each mounting arm, and a detection seat is slidably connected between the two mounting arms through the second sliding groove.

Specifically, the middle part rotation of detecting the seat is connected with first screw rod, the installation arm that homonymy set up is run through respectively at the both ends of first screw rod, the both sides screw thread opposite direction of first screw rod, threaded connection has a screw thread piece respectively at the both ends of first screw rod, screw thread piece sliding fit is in the inboard of detecting the seat, the side rotation of screw thread piece is connected with the measuring staff.

Specifically, the tip sliding connection of measuring staff has the feeler lever, the tip of feeler lever is hemisphere type structure, fixedly connected with fourth spring between feeler lever and the measuring staff, the tip electric connection of feeler lever has the wire.

Specifically, the adjustment structure includes the second screw rod, the top side of detecting the seat rotates and is connected with the second screw rod, threaded connection has the sliding shaft on the second screw rod, sliding connection between sliding shaft and the detection seat, the bottom side of sliding shaft rotates and is connected with two dwang, two the other end of dwang respectively with the homonymy between the detection pole that sets up rotate and be connected.

Specifically, the movable structure comprises a connecting rod, the side face of the detection seat is rotationally connected with the connecting rod, the other end of the connecting rod is rotationally connected with an extension rod, and the end part of the extension rod is fixedly connected with the fixed frame.

Specifically, sliding connection has the locating lever on the operation panel, the locating lever is located under the detection seat, fixedly connected with fifth spring between locating lever and the operation panel, the constant head tank has been seted up to the bottom side of base.

Specifically, location structure includes the installation side piece, one side fixedly connected with installation side piece of fixed frame, it detains to rotate to be connected with on the installation side piece, fixedly connected with hooked rod on the operation panel, rotate the middle part and the hooked rod looks block of detaining, the inboard sliding connection of operation panel has conflict piece, fixedly connected with sixth spring between conflict piece and the operation panel, the side of conflict piece is in contact with the installation side piece.

The beneficial effects of the invention are as follows:

(1) According to the atomizer resistance testing device, the fixing structure is arranged on the operating table, the correction structure is connected between the fixing structure and the operating table, the atomizer to be detected can be rapidly fixed through the fixing structure, detection is convenient, the fixed atomizer can be rotated and adjusted through the correction structure, accurate connection between the detection electrode and the resistor is ensured, and detection accuracy is improved, namely: firstly, when carrying out the resistance test of atomizer, need fix the atomizer, it is inboard to put into the settling box with the atomizer, make the collet of the downside contact bottom of atomizer, then last press, until the top of atomizer removes to the second slider downside, this moment under the promotion of third spring, the second slider cooperates first spring to fix the atomizer in settling box, and to the atomizer of accomplishing the detection, the user can directly rotate settling box, make first slider rotate to the lug side, after receiving the promotion of lug, first slider drives the second slider and slides to both sides, remove the fixed effect to the atomizer this moment, first spring can release the atomizer on the collet by settling box simultaneously, conveniently to the taking out of atomizer, after accomplishing the fixed back to the atomizer, the atomizer can slide in first spout along with the base, because the atomizer is inside the manual settling box of putting into, the position of atomizer is not ideal for the testing process this moment, the user can rotate the slide bar of operation panel side as required, drive the worm wheel rotation slide bar when driving simultaneously and drive the cover and can not cause the rotation to the fixed worm at the inside of the frame, can not cause the internal adjustment to the frame to rotate simultaneously, can not cause the internal adjustment to the frame to the internal side of the frame is fixed to the frame.

(2) According to the atomizer resistance testing device, the detection structure is arranged on the operating platform, the adjustment structure is connected to the detection structure, so that the detection work of the atomizers can be realized rapidly through the detection structure, meanwhile, the atomizer resistance testing device is suitable for the detection work of different types of atomizers, and the adjustment range of the distance between the feeler levers can be more flexible through the adjustment structure, namely: the utility model provides a measuring device, including two mounting arms, be equipped with two measuring bars in the measuring seat that sets up between two mounting arms, the measuring seat can slide from top to bottom between the mounting arms, and the tip of measuring bar is provided with the feeler lever that can shrink, when the base that will be fixed with the atomizer slides to the downside of measuring seat along first spout, rotate first screw rod, adjust the distance between two measuring bars and make electrode position on the atomizer that align to them, then descend and make direct contact between feeler lever and the atomizer electrode of measuring bar tip, the wire access ammeter that will feeler lever connect can be quick and accurate obtains the resistance situation of current atomizer, for different specification atomizers, the electrode position that sets up on it also can not adapt to all atomizer types, the user can also rotate the second screw rod that is located measuring seat top this moment, can drive the sliding shaft and carry out fore-and-aft removal when second screw rod rotates, and change the contained angle between two dwang simultaneously, thereby change the angle between two measuring bars and the measuring bar tip's the distance between the feeler lever has increased greatly.

(3) According to the atomizer resistance testing device, the movable structure is connected between the detection structure and the fixed structure, the positioning structure is arranged on one side of the fixed structure, the contact rod can automatically contact with the atomizer electrode which is fixed through the movable structure, the detection efficiency is further improved, the initial position of the atomizer can be fixed through the positioning structure, and the atomizer resistance testing device is convenient to install and adjust, namely: in order to further promote the detection efficiency to atomizer resistance, the side of detecting the seat is equipped with the connecting rod, fixed connection between extension rod and the fixed frame that the connecting rod tip set up, when the base removes to detecting the seat under, connecting rod and extension rod can pull simultaneously and detect the seat and descend to the minimum position, thereby directly make the feeler lever that accomplishes the adjustment and atomizer detect the electrode and directly contact, the locating lever that lies in simultaneously can carry out the block location between constant head tank and the base, thereby keep the current position of base, guarantee to detect going on smoothly of work, because detect the weight of seat self, the base can receive the traction and take place the displacement when being in initial position, so in order to fix the base this moment, be located one side of base and be equipped with the installation side piece, thereby the end position that sets up on the installation side piece can be hung at the hook lever prevents that the base from taking place to slide, and when need removing the base to detecting the seat bottom side, the user then can directly take down the rotation knot, the rotation knot that takes off simultaneously can also conveniently promote the base, and conveniently take down the rotation knot, the side of installation side piece is contradicted to the initial position of base keeps holding.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the overall structure of a preferred embodiment of an atomizer resistance test apparatus according to the present invention;

FIG. 2 is a schematic view of the connection structure of the console and the placement box shown in FIG. 1;

FIG. 3 is a schematic view of the connection structure of the placement box and the base shown in FIG. 2;

FIG. 4 is a schematic view of the connection structure of the driving slide bar and the worm sleeve shown in FIG. 2;

FIG. 5 is a schematic view of the connection structure of the console and mounting arm shown in FIG. 1;

FIG. 6 is an enlarged schematic view of the portion A shown in FIG. 5;

FIG. 7 is an enlarged view of the portion B shown in FIG. 5;

FIG. 8 is a schematic view of the connection structure of the mounting arm and the test seat shown in FIG. 1;

fig. 9 is an enlarged schematic view of the C part shown in fig. 8;

fig. 10 is an enlarged schematic view of the portion D shown in fig. 8.

In the figure: 1. an operation table; 2. a fixed structure; 201. a placement box; 202. a base; 203. a bottom support; 204. a first spring; 205. a first slider; 206. a second spring; 207. a second slider; 208. a third spring; 209. a bump; 3. a correction structure; 301. a first chute; 302. driving a slide bar; 303. a fixed frame; 304. a worm sleeve; 305. a worm wheel; 4. a detection structure; 401. a mounting arm; 402. a detection seat; 403. a first screw; 404. a detection rod; 405. a wire; 406. a screw block; 407. a second chute; 408. a feeler lever; 409. a fourth spring; 5. a moving structure; 501. a connecting rod; 502. an extension rod; 503. a positioning rod; 504. a fifth spring; 505. a positioning groove; 6. a positioning structure; 601. a hook rod; 602. installing a side block; 603. a rotary buckle; 604. a collision block; 605. a sixth spring; 7. adjusting the structure; 701. a second screw; 702. a sliding shaft; 703. and rotating the rod.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-10, the atomizer resistance testing device of the invention comprises an operation table 1, wherein a fixing structure 2 is arranged on the operation table 1, a correction structure 3 is connected between the fixing structure 2 and the operation table 1, a detection structure 4 is arranged on the operation table 1, an adjusting structure 7 is connected on the detection structure 4, a moving structure 5 is connected between the detection structure 4 and the fixing structure 2, and a positioning structure 6 is arranged on one side of the fixing structure 2.

Specifically, the fixing structure 2 includes a base 202, a placement box 201 is rotatably connected to a top side of the base 202, a bottom support 203 is slidably connected to a middle portion of the placement box 201, the bottom support 203 is in a disc-shaped structure, a first spring 204 is fixedly connected between the bottom support 203 and the placement box 201, a bump 209 is arranged on the base 202, the bump 209 is slidably connected with an inner side of the placement box 201, a first slider 205 is slidably connected to an inner side of the placement box 201, a second spring 206 is fixedly connected between the first slider 205 and the placement box 201, a side surface of the first slider 205 is abutted against the bump 209, a second slider 207 is slidably connected to an inner side of the first slider 205, a third spring 208 is fixedly connected between the second slider 207 and the first slider 205, and an end portion of the second slider 207 is in an inclined structure; can treat the atomizer that detects through fixed knot constructs 2 and carry out quick fixed, conveniently detect, namely: firstly, when the resistance test of the atomizer is performed, the atomizer needs to be fixed, the atomizer is placed into the inner side of the placement box 201, the bottom side of the atomizer contacts with the bottom support 203 at the bottom, then the atomizer is continuously pressed until the top end of the atomizer moves to the bottom side of the second slider 207, at this time, under the pushing of the third spring 208, the second slider 207 is matched with the first spring 204 to fix the atomizer in the placement box 201, for the atomizer which completes the detection, a user can directly rotate the placement box 201, so that the first slider 205 rotates to the side surface of the projection 209, after being pushed by the projection 209, the first slider 205 drives the second slider 207 to slide to two sides, at this time, the fixing effect on the atomizer is released, and at the same time, the first spring 204 can push the atomizer on the bottom support 203 out of the placement box 201, so that the atomizer can be taken out conveniently.

Specifically, the correction structure 3 includes a fixed frame 303, a fixed frame 303 is rotatably connected to a side surface of the base 202, a first chute 301 is formed on the console 1, the fixed frame 303 is slidably connected to the console 1 through the first chute 301, a driving sliding rod 302 penetrates through one side of the fixed frame 303, the driving sliding rod 302 is rotatably connected to the console 1, a worm sleeve 304 is slidably connected to the driving sliding rod 302, the worm sleeve 304 is disposed on an inner side of the fixed frame 303, a worm wheel 305 is fixedly connected to a side surface of the base 202, and the worm sleeve 304 is meshed with the worm wheel 305; can rotate the adjustment to accomplishing fixed atomizer through correcting structure 3, guarantee to detect the accurate connection between electrode and the resistance, improve the accuracy that detects, namely: after the fixation of the atomizer is completed, the atomizer can slide in the first chute 301 along with the base 202, and the atomizer is manually placed in the placement box 201, so that the placement position of the atomizer is not ideal for the detection process, at this time, a user can rotate the driving slide bar 302 on the side surface of the operation table 1 according to needs, when the driving slide bar 302 rotates, the driving slide bar 302 simultaneously drives the worm sleeve 304 to rotate, and under the limitation of the fixed frame 303, the worm sleeve 304 drives the base 202 on the inner side of the fixed frame 303 to rotate through the worm wheel 305 until the upper electrode of the atomizer is adjusted to a position convenient to detect, and meanwhile, the sliding of the base 202 in the first chute 301 is not influenced.

Specifically, the detection structure 4 includes an installation arm 401, two installation arms 401 are fixedly connected to the operation table 1 vertically, the two installation arms 401 are respectively disposed at two sides of the first chute 301, a second chute 407 is provided on a side surface of the installation arm 401, a detection seat 402 is slidably connected between the two installation arms 401 through the second chute 407, a first screw 403 is rotatably connected to a middle portion of the detection seat 402, two ends of the first screw 403 respectively penetrate through the installation arms 401 disposed at the same side, two sides of the first screw 403 are opposite in thread direction, two ends of the first screw 403 are respectively connected with a thread block 406 in a threaded manner, the thread blocks 406 are slidably matched with an inner side of the detection seat 402, a detection rod 404 is rotatably connected to a side surface of the thread block 406, a feeler lever 408 is slidably connected to an end portion of the feeler lever 408, a hemispherical structure is fixedly connected between the feeler lever 408 and the detection rod 404, and a fourth spring 409 is electrically connected to an end portion of the feeler lever 408; can realize the detection work to the atomizer fast through detecting structure 4, adapt to the detection work of different grade type atomizer simultaneously, namely: two detection rods 404 are arranged in a detection seat 402 arranged between two mounting arms 401, the detection seat 402 can slide up and down between the mounting arms 401, a retractable feeler lever 408 is arranged at the end part of the detection rod 404, when the base 202 fixed with the atomizer slides to the bottom side of the detection seat 402 along the first sliding chute 301, the first screw 403 is rotated, the distance between the two detection rods 404 is adjusted to align the two detection rods with the electrode positions on the atomizer, then the detection seat 402 is descended to enable the feeler lever 408 at the end part of the detection rod 404 to be in direct contact with the electrode of the atomizer, and a lead 405 connected with the feeler lever 408 is connected with an ammeter, so that the resistance condition of the current atomizer can be obtained quickly and accurately.

Specifically, the adjusting structure 7 includes a second screw 701, the top side of the detecting seat 402 is rotatably connected with the second screw 701, a sliding shaft 702 is screwed on the second screw 701, the sliding shaft 702 is slidably connected with the detecting seat 402, the bottom side of the sliding shaft 702 is rotatably connected with two rotating rods 703, and the other ends of the two rotating rods 703 are respectively rotatably connected with the detecting rods 404 arranged on the same side; the adjustment range of the distance between the feeler levers 408 can be made more flexible by adjusting the structure 7, namely: for atomizers of different specifications, the positions of the electrodes arranged on the atomizers are also possibly different, all the types of atomizers cannot be adapted only by means of the adjusting effect of the first screw 403, at this time, a user can rotate the second screw 701 positioned at the top of the detecting seat 402, the second screw 701 can drive the sliding shaft 702 to longitudinally move when rotating, and meanwhile, the included angle between the two rotating rods 703 is changed, so that the angle between the two detecting rods 404 and the distance between the tips of the feeler levers 408 at the end parts of the detecting rods 404 are changed, and the detecting range of the feeler levers 408 is greatly increased.

Specifically, the moving structure 5 includes a connecting rod 501, a connecting rod 501 is rotatably connected to a side surface of the detection seat 402, an extension rod 502 is rotatably connected to the other end of the connecting rod 501, an end of the extension rod 502 is fixedly connected to the fixed frame 303, a positioning rod 503 is slidably connected to the console 1, the positioning rod 503 is disposed under the detection seat 402, a fifth spring 504 is fixedly connected between the positioning rod 503 and the console 1, and a positioning groove 505 is formed on a bottom side of the base 202; the contact rod 408 can be automatically contacted with the atomizer electrode which is fixed through the moving structure 5, so that the detection efficiency is further improved, namely: in order to further improve the detection efficiency to atomizer resistance, the side of detecting seat 402 is equipped with connecting rod 501, fixed connection between extension rod 502 and the fixed frame 303 that connecting rod 501 tip set up, when base 202 removes to detecting seat 402 under, connecting rod 501 and extension rod 502 can pull simultaneously and detect seat 402 and descend to the minimum position, thereby directly make the feeler lever 408 that accomplishes the adjustment directly contact with the atomizer detection electrode, the locating lever 503 that is located on the mount pad simultaneously can carry out the block location between constant head tank 505 and base 202, thereby keep the current position of base 202, guarantee going on smoothly of detection work.

Specifically, the positioning structure 6 includes a mounting side block 602, one side of the fixing frame 303 is fixedly connected with the mounting side block 602, a rotating buckle 603 is rotatably connected to the mounting side block 602, a hook rod 601 is fixedly connected to the operating platform 1, the middle of the rotating buckle 603 is engaged with the hook rod 601, an abutting block 604 is slidably connected to the inner side of the operating platform 1, a sixth spring 605 is fixedly connected between the abutting block 604 and the operating platform 1, and a side surface of the abutting block 604 abuts against the mounting side block 602; the initial position of atomizer can be fixed through location structure 6, easy to assemble and adjustment, promptly: because the weight of the detection seat 402 itself will be pulled and displaced when the base 202 is at the initial position, in order to fix the base 202 at this time, a mounting side block 602 is provided at one side of the base 202, a rotating buckle 603 provided on the mounting side block 602 may be hung at the end position of the hook rod 601 to prevent the base 202 from sliding, and when the base 202 needs to be moved to the bottom of the detection seat 402, a user may directly take down the rotating buckle 603, and meanwhile, the taken down rotating buckle 603 may also facilitate pushing the base 202, and in order to facilitate taking down the rotating buckle 603, the side surface of the mounting side block 602 abuts against the abutting block 604 to maintain the initial position of the base 202.

When the invention is used, firstly, when the resistance test of the atomizer is carried out, the atomizer is required to be fixed, the atomizer is placed into the inner side of the placement box 201, the bottom side of the atomizer is enabled to contact with the bottom support 203 at the bottom, then the atomizer is continuously pressed until the top end of the atomizer moves to the bottom side of the second slider 207, at the moment, the atomizer is fixed in the placement box 201 by the second slider 207 matched with the first spring 204 under the pushing of the third spring 208, for the atomizer which is detected, a user can directly rotate the placement box 201, the first slider 205 rotates to the side surface of the projection 209, after being pushed by the projection 209, the first slider 205 drives the second slider 207 to slide to two sides, at the moment, the fixing effect on the atomizer is relieved, meanwhile, the atomizer on the bottom support 203 is pushed out by the placement box 201, the atomizer is conveniently taken out after the fixing on the atomizer is completed, the atomizer can slide in the first chute 301 along with the base 202, and because the atomizer is manually placed in the placement box 201, the placement position of the atomizer is not ideal for the detection process, at this time, a user can rotate the driving slide bar 302 on the side surface of the operation table 1 according to needs, when the driving slide bar 302 rotates, the driving slide bar 302 drives the worm sleeve 304 to rotate simultaneously, under the limitation of the fixed frame 303, the worm sleeve 304 drives the base 202 on the inner side of the fixed frame 303 to rotate through the worm wheel 305 until the upper electrode of the atomizer is adjusted to a position convenient to detect, meanwhile, the sliding of the base 202 in the first chute 301 is not influenced, two detection rods 404 are arranged in the detection seat 402 arranged between the two mounting arms 401, the detection seat 402 can slide up and down between the mounting arms 401, the end part of the detection rod 404 is provided with a retractable feeler lever 408, when the base 202 with the atomizer fixed thereon slides along the first sliding chute 301 to the bottom side of the detection seat 402, the first screw 403 is turned, the distance between the two detection rods 404 is adjusted to align the two detection rods with the electrode positions on the atomizer, then the detection seat 402 is lowered to enable the contact rod 408 at the end part of the detection rod 404 to be in direct contact with the atomizer electrode, the electric meter is connected with the lead 405 connected with the contact rod 408, the current resistance condition of the atomizer can be obtained quickly and accurately, for different specifications of atomizers, the electrode positions arranged on the atomizer can be different, all types of atomizers can not be met only by virtue of the adjusting effect of the first screw 403, at the moment, the user can also turn the second screw 701 positioned at the top of the detection seat 402, the sliding shaft 702 can be driven to longitudinally move when the second screw 701 turns, and meanwhile, the included angle between the two rotation rods 703 can be changed, thereby changing the angle between the two detection rods 404 and the distance between the tips of the feeler levers 408 at the ends of the detection rods 404, greatly increasing the detection range of the feeler levers 408, in order to further improve the detection efficiency of the resistance value of the atomizer, the side surface of the detection seat 402 is provided with a connecting rod 501, the end part of the connecting rod 501 is provided with an extension rod 502 fixedly connected with the fixed frame 303, when the base 202 moves to the position right below the detection seat 402, the connecting rod 501 and the extension rod 502 simultaneously pull the detection seat 402 to the lowest position, thereby directly enabling the feeler lever 408 which is adjusted to be directly contacted with the detection electrode of the atomizer, simultaneously, the positioning rod 503 on the mounting seat can carry out clamping positioning between the positioning groove 505 and the base 202, thereby maintaining the current position of the base 202, ensuring the smooth progress of the detection work, and because of the weight of the detection seat 402, the base 202 can be pulled to displace when being in the initial position, therefore, in order to fix the base 202 at this time, an installation side block 602 is disposed on one side of the base 202, a rotating buckle 603 disposed on the installation side block 602 may be hung at an end portion of the hook rod 601 to prevent the base 202 from sliding, and when the base 202 needs to be moved to the bottom of the detection seat 402, a user may directly take down the rotating buckle 603, and meanwhile, the taken down rotating buckle 603 may also facilitate pushing the base 202, and in order to facilitate taking down the rotating buckle 603, a side surface of the installation side block 602 abuts against the abutting block 604 to maintain an initial position of the base 202.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The utility model provides an atomizer resistance test device, its characterized in that, includes operation panel (1), be equipped with fixed knot structure (2) on operation panel (1), be connected with between fixed knot structure (2) and operation panel (1) and correct structure (3), be equipped with on operation panel (1) and detect structure (4), be connected with adjustment structure (7) on detecting structure (4), be connected with between detection structure (4) and fixed knot structure (2) and remove structure (5), fixed knot structure (2) one side is equipped with location structure (6);

the fixing structure (2) comprises a base (202), a placement box (201) is rotationally connected to the top side of the base (202), a bottom support (203) is slidably connected to the middle of the placement box (201), the bottom support (203) is of a disc-shaped structure, a first spring (204) is fixedly connected between the bottom support (203) and the placement box (201), a protruding block (209) is arranged on the base (202), and the protruding block (209) is slidably connected with the inner side of the placement box (201).

2. An atomizer resistance test apparatus according to claim 1, wherein: the inside sliding connection of settling box (201) has first slider (205), fixedly connected with second spring (206) between first slider (205) and settling box (201), the side of first slider (205) is inconsistent with lug (209), the inboard sliding connection of first slider (205) has second slider (207), fixedly connected with third spring (208) between second slider (207) and first slider (205), the tip of second slider (207) is inclined plane structure.

3. An atomizer resistance test apparatus according to claim 1, wherein: the correction structure (3) comprises a fixed frame (303), the side of the base (202) is rotationally connected with the fixed frame (303), a first sliding groove (301) is formed in the operating platform (1), the fixed frame (303) is in sliding connection with the operating platform (1) through the first sliding groove (301), one side of the fixed frame (303) is penetrated with a driving sliding rod (302), the driving sliding rod (302) is rotationally connected with the operating platform (1), a worm sleeve (304) is slidingly connected with the driving sliding rod (302), the worm sleeve (304) is arranged on the inner side of the fixed frame (303), a worm wheel (305) is fixedly connected with the side of the base (202), and the worm sleeve (304) is meshed with the worm wheel (305).

4. A nebulizer resistance testing device as claimed in claim 3, wherein: the detection structure (4) comprises mounting arms (401), two mounting arms (401) are vertically and fixedly connected to the operation table (1), the two mounting arms (401) are respectively arranged on two sides of the first sliding groove (301), second sliding grooves (407) are formed in the side faces of the mounting arms (401), and detection seats (402) are slidably connected between the two mounting arms (401) through the second sliding grooves (407).

5. The nebulizer resistance testing device according to claim 4, wherein: the middle part rotation of detecting seat (402) is connected with first screw rod (403), installation arm (401) that homonymy set up are run through respectively at the both ends of first screw rod (403), the both sides screw thread opposite direction of first screw rod (403), the both ends of first screw rod (403) are threaded connection respectively has a screw thread piece (406), screw thread piece (406) sliding fit in the inboard of detecting seat (402), the side rotation of screw thread piece (406) is connected with measuring rod (404).

6. The nebulizer resistance testing device according to claim 5, wherein: the end sliding connection of detection pole (404) has feeler lever (408), the tip of feeler lever (408) is hemisphere type structure, fixedly connected with fourth spring (409) between feeler lever (408) and detection pole (404), the tip electric connection of feeler lever (408) has wire (405).

7. The nebulizer resistance testing device according to claim 4, wherein: the adjusting structure (7) comprises a second screw (701), the top side of the detecting seat (402) is rotationally connected with the second screw (701), a sliding shaft (702) is connected to the second screw (701) in a threaded mode, the sliding shaft (702) is connected with the detecting seat (402) in a sliding mode, two rotating rods (703) are rotationally connected to the bottom side of the sliding shaft (702), and two rotating rods (703) are respectively connected with detecting rods (404) arranged on the same side in a rotating mode at the other ends of the rotating rods (703).

8. The nebulizer resistance testing device according to claim 4, wherein: the moving structure (5) comprises a connecting rod (501), the side face of the detecting seat (402) is rotationally connected with the connecting rod (501), the other end of the connecting rod (501) is rotationally connected with an extension rod (502), and the end part of the extension rod (502) is fixedly connected with the fixed frame (303).

9. The nebulizer resistance testing device according to claim 8, wherein: the operation panel (1) is connected with a locating rod (503) in a sliding mode, the locating rod (503) is arranged under the detection seat (402), a fifth spring (504) is fixedly connected between the locating rod (503) and the operation panel (1), and a locating groove (505) is formed in the bottom side of the base (202).

10. A nebulizer resistance testing device as claimed in claim 3, wherein: the positioning structure (6) comprises an installation side block (602), one side of the fixed frame (303) is fixedly connected with the installation side block (602), the installation side block (602) is rotationally connected with a rotating buckle (603), a hook rod (601) is fixedly connected with the operation table (1), the middle part of the rotating buckle (603) is clamped with the hook rod (601), an abutting block (604) is slidingly connected with the inner side of the operation table (1), a sixth spring (605) is fixedly connected between the abutting block (604) and the operation table (1), and the side surface of the abutting block (604) abuts against the installation side block (602).

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