CN109090065B

CN109090065B - Mite removing instrument

Info

Publication number: CN109090065B
Application number: CN201811208585.0A
Authority: CN
Inventors: 蔡演强
Original assignee: Guangdong Delma Technology Co Ltd
Current assignee: Guangdong Delma Technology Co Ltd
Priority date: 2018-10-17
Filing date: 2018-10-17
Publication date: 2024-03-26
Anticipated expiration: 2038-10-17
Also published as: CN109090065A

Abstract

The invention discloses an acarid removing instrument, which comprises a shell of the acarid removing instrument, a rolling brush and a beating device, and also comprises a driving device for simultaneously driving the rolling brush and the beating device, wherein the driving device comprises a motor, a spline shaft, a first synchronous wheel, a second synchronous wheel, a synchronous belt and an eccentric shaft; the power output end of the motor is connected with a spline shaft to output power, a first spline and a second spline are arranged on the spline shaft, the first spline and the first synchronous wheel are connected and driven through a synchronous belt, and the second spline and the second synchronous wheel are connected and driven through the synchronous belt; the first synchronous wheel drives the rolling brush to rotate, the second synchronous wheel drives the eccentric shaft to rotate, the beating device penetrates through the shell and is connected with the eccentric shaft, and the eccentric shaft rotates to enable the beating device to do reciprocating motion relative to the shell. The mite removing instrument with the roller transmission structure is higher in working efficiency, the flapping device and the rollers are synchronously matched with each other in synchronous rotation, and the working efficiency of the mite removing instrument is improved.

Description

Mite removing instrument

Technical Field

The invention relates to the technical field of mite expelling devices, in particular to a mite removing instrument.

Background

Except that the mite appearance develops from the dust catcher, but be different from the function of dust catcher still need set up the function that the revolving door set up to the mite that absorbs away, for example ultraviolet lamp and patting device, ultraviolet lamp can be used for killing the mite in the environment, patting device is used for patting, make the mite in the environment shake object surface, make things convenient for the better mite of inhaling of inhalation device, simultaneously, general mite appearance also possesses roller structure, through gyro wheel and inhalation device cooperation, better will patt the absorptive mite appearance of shallow mite in, be different from the roller structure that is driven by the fan in the dust catcher generally, the fan of mite appearance often needs stronger wind-force to inhale the inside mite of object, so generally set up the gyro wheel to unpowered structure, drive the gyro wheel through the frictional force with object contact and rotate, but the unavoidable work efficiency that can reduce the gyro wheel.

Whereas conventional flappers are driven to flap by a vibrator, such a vibrator is obviously unsuitable for driving the rotation of the roller.

Disclosure of Invention

The invention aims to solve the technical problems and provides the mite removing instrument with the roller transmission structure with higher working efficiency, so that the flapping device and the roller synchronously rotate to synchronously cooperate with each other, and the working efficiency of the mite removing instrument is improved.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

the mite removing instrument comprises a shell of the mite removing instrument, a rolling brush and a beating device, and further comprises a driving device for simultaneously driving the rolling brush and the beating device, wherein the driving device comprises a motor, a spline shaft, a first synchronous wheel, a second synchronous wheel, a synchronous belt and an eccentric shaft; the power output end of the motor is connected with the spline shaft to output power, a first spline and a second spline are arranged on the spline shaft, the first spline and the first synchronous wheel are connected and driven through a synchronous belt, and the second spline and the second synchronous wheel are connected and driven through the synchronous belt; the first synchronous wheel drives the rolling brush to rotate, the second synchronous wheel drives the eccentric shaft to rotate, the beating device penetrates through the shell and is connected with the eccentric shaft, and the eccentric shaft rotates to enable the beating device to do reciprocating motion relative to the shell.

According to the mite removing instrument, the rolling brush is driven by the motor to synchronously act with the beating device, the synchronous cooperation of synchronous operation can be realized between the rolling brush and the beating device, the working efficiency of the mite removing instrument is improved, the effect of the mite removing instrument is also avoided, the roller is further prevented from influencing the suction effect of the mite removing instrument, the driving device comprises the motor and the spline shaft, the first spline and the second spline are arranged on the spline shaft and are respectively used for driving the rolling brush and the beating device, the rolling of the rolling brush is realized through the driving of the first spline and the first synchronous wheel through the synchronous belt, the beating device is in the rolling mode, the eccentric shaft which is connected with the second synchronous wheel and rotates simultaneously is also arranged, the beating device is connected at the eccentric position of the eccentric shaft, and the beating device is made to reciprocate relative to the shell area of the relative installation beating device is telescopic back and forth so as to beat objects contacted with the shell area.

Further, the housing is formed at a bottom surface thereof with a first mounting groove in which the flapping device is mounted, and the flapping device passes upward through the housing and is connected with the eccentric shaft. The flapping device extends upwards and penetrates through the shell to be connected with the eccentric shaft, so that the flapping device moves back and forth along with the rotation of the eccentric shaft and takes the shell as a reference, and accordingly objects below the first mounting groove are flapped to perform mite removing operation.

Preferably, the housing is formed at a bottom surface thereof with a second mounting groove for mounting the roll brush, and the motor is disposed between the first and second mounting grooves; the first synchronous wheel is arranged in a shell on one side of the second mounting groove, a first transmission head is arranged in the second mounting groove by penetrating through the shell, one end of the rolling brush is inserted on the first transmission head to carry out transmission, and the spline shaft is respectively connected with the first synchronous wheel and the second synchronous wheel on two sides through the synchronous belt to carry out transmission. The second mounting groove is close to the first mounting groove, so that the mounting position of the rolling brush can be close to the flapping device, and the driving device is more convenient to set.

Further, the motor is fixed on the first bracket. The motor needs to be erected in the housing to provide space for installation of the timing belt, so that the first bracket is provided to erect the motor in the housing.

Still further still, still include the second support, the second support is fixed in the casing the top of first mounting groove, the eccentric shaft is installed in this second support, the one end of eccentric shaft is connected the second synchronizing wheel, the other end is connected the flapping device. The eccentric shaft and the second synchronous wheel are also required to be erected in the shell, and the eccentric shaft is arranged on the second support by arranging the second support, one end of the eccentric shaft is connected with the second synchronous wheel, and the other end of the eccentric shaft is connected with the beating device, so that the beating device reciprocates.

Preferably, the first spline and the second spline are involute splines.

Further, still include the mount pad, the device of patting includes connecting piece, connecting plate and patting body, the body of patting is equipped with two, and installs in the mount pad, the body of patting upwards extends there is the connecting rod, the mount pad is equipped with first perforation in the position that corresponds the connecting rod, first mounting groove is equipped with the second perforation in the position that corresponds the connecting rod, makes the connecting rod stretches into in the casing, the connecting plate simultaneously with two connecting rod fixed connection, and one side of connecting piece is fixed on the connecting plate, opposite side fixed connection is in eccentric department of eccentric shaft, along with the rotation of eccentric department makes the body of patting makes reciprocating motion. The structure of the beating device is improved, and two beating bodies can be driven to reciprocate simultaneously through one eccentric shaft.

Still further still, still include the sealing member, the sealing member includes first ring body, second ring body and connects the sealing membrane of first ring body and second ring body, first ring body is fixed on first perforation and/or second perforation, the second ring body is fixed on the connecting rod. By arranging the sealing element, the flapping device keeps the sealing of the shell when flapping, and prevents dust or other substances from entering the shell of the mite removing instrument.

Preferably, the shell comprises a mounting cavity and a mite storage cavity, the mounting cavity and the mite storage cavity are sealed, the driving device is mounted in the mounting cavity, the clapping body penetrates through the shell to be connected with the driving device, and the mounting cavity is sealed through the sealing piece: and an air suction port is arranged on the second mounting groove and communicated with the mite storage cavity. Sundries can be effectively prevented from entering the mounting cavity through the sealing piece, and normal operation of equipment in the mounting cavity is affected.

Preferably, the spline shaft is supported by the support frame.

Drawings

Fig. 1 is a perspective view of the mite controller of the present invention;

FIG. 2 is an exploded view of the mite controller of the present invention;

fig. 3 is a perspective view of a bottom inside mounting structure of a housing of the mite controller of the present invention;

FIG. 4 is an exploded view of the roll brush, drive device and flapping device of the present invention;

FIG. 5 is a perspective view of a stent of the present invention;

FIG. 6 is a perspective view of the eccentric shaft of the present invention;

FIG. 7 is an exploded view of the flapping device of the present invention;

FIG. 8 is a cross-sectional view of the flapping device of the present invention;

fig. 9 is a sectional view of the flapping device of the present invention in another state;

fig. 10 is a perspective view of the roll brush, the driving device and the flapping device of the present invention;

fig. 11 is an exploded view of the mite controller of the present invention.

Detailed Description

An acarid eliminator according to the present invention will be described with reference to the accompanying drawings.

The mite removing instrument shown in fig. 1 to 11 comprises a shell 1 of the mite removing instrument, a rolling brush 4 and a beating device 3, wherein a handle 2 is arranged on the shell 1, so that a user can conveniently hold the handle 2 to apply force to the mite removing instrument when using the mite removing instrument, the mite removing instrument can be stably pressed on a processed object, and meanwhile, the mite removing instrument can be conveniently moved, and the rolling brush 4 and the beating device 3 are arranged in the direction in which the user can easily apply force to the handle 2, so that the rolling brush 4 and the beating device 3 can perform mite removing actions such as rolling and beating on a moving path of the mite removing instrument.

Preferably, in order to facilitate the cooperation of the rolling brush 4 and the flapping device 3 with the handle 2, when the handle 2 is used for moving the mite-killing device, the moving paths of the rolling brush 4 and the flapping device 3 relative to the mite-killing device are intersected or vertically arranged, so that the mite-killing device can be moved at the same time, and the region with larger effect of the flapping device 3 and the rolling brush 4 is formed in the moving path of the mite-killing device, so that a relatively larger mite-killing range is formed.

Also, a first mounting groove 11 and a second mounting groove 12 for mounting the roll brush 4 and the flapping device 3 are also included, and the positions of the first mounting groove 11 and the second mounting groove 12 should be set in conformity with the positions of the roll brush 4 and the flapping device 3.

As shown in fig. 2, the housing 1 is formed at the bottom surface thereof with a first mounting groove 11 for mounting the flapping device 3, and the flapping device 3 passes upward through the housing 1 and is connected to the eccentric shaft 65. The flapping device 3 extends upward and passes through the housing 1 to be connected with the eccentric shaft 65, so that the flapping device 3 reciprocates with the housing 1 as a reference along with the rotation of the eccentric shaft 65, thereby flapping the object under the corresponding first mounting groove 11 for mite removal operation.

The housing 1 is formed with a second mounting groove 12 on the bottom surface thereof for mounting the roller brush 4, the second mounting groove 12 is arranged close to the first mounting groove 11, and the first synchronizing wheel 64 is arranged in the housing 1 on one side of the second mounting groove 12 and passes through the housing 1 to be connected with the roller brush 4 for transmission. The second mounting groove 12 is arranged close to the first mounting groove 11, so that the mounting position of the rolling brush 4 can be arranged close to the flapping device 3, and the driving device 6 is more convenient to set.

As shown in fig. 3, the rolling brush 4 and the flapping device 3 are mounted on the casing 1, specifically on the bottom surface of the casing 1, and further comprise a driving device 6 for simultaneously driving the rolling brush 4 and the flapping device 3, wherein the driving device 6 comprises a motor 61, a spline shaft 62, a first synchronous wheel 64, a second synchronous wheel 63, a synchronous belt 66 and an eccentric shaft 65; the power output end of the motor 61 is connected with a spline shaft 62 to output power, a first spline 622 and a second spline 621 are arranged on the spline shaft 62, and the first spline 622 and the first synchronous wheel 64, and the second spline 621 and the second synchronous wheel 63 are connected and driven through a synchronous belt 66; the first synchronous wheel 64 drives the rolling brush 4 to rotate, the second synchronous wheel 63 drives the eccentric shaft 65 to rotate, the flapping device 3 passes through the shell 1 and is connected with the eccentric shaft 65, and the eccentric shaft 65 rotates to enable the flapping device 3 to reciprocate relative to the shell 1.

The first synchronizing wheel 64 extends through the housing 1 into the second mounting groove 12, and a first transmission head 641 is provided, and the first transmission head 641 is used for sleeving and transmitting with the rolling brush 4. As shown in fig. 2, a second transmission head 42 is arranged at one end of the rolling brush 4 to be matched with the first transmission head 641 for transmission, and a locking block 41 is arranged at the other end of the rolling brush, and the locking block 41 is matched with a locking cover plate 122 arranged on the second mounting groove 12 to detachably fix the rolling brush 4 in the second mounting groove 12.

Further includes a first bracket 71, the first bracket 71 is fixed in the housing 1, and the motor 61 is fixed to the first bracket 71. The motor 61 needs to be installed in the housing 1 to provide a space for installing the timing belt 66, so the first bracket 71 is provided to install the motor 61 in the housing 1.

The device further comprises a second bracket 72, the second bracket 72 is fixed above the first mounting groove 11 in the shell 1, the eccentric shaft 65 is mounted in the second bracket 72, one end of the eccentric shaft 65 is connected with the second synchronous wheel 63, and the other end is connected with the flapping device 3. The eccentric shaft 65 and the second synchronizing wheel 63 also need to be erected in the housing 1, and by providing the second bracket 72, the eccentric shaft 65 is mounted on the second bracket 72, and one end is connected with the second synchronizing wheel 63, and the other end is connected with the flapping device 3, so that the flapping device 3 reciprocates.

In addition, the present application also provides an embodiment in which the first bracket 71 and the second bracket 72 are integrally provided.

As shown in fig. 3, 4 and 5, the first bracket 71 and the second bracket 72 are integrally formed to form a bracket 7 for mounting the motor 61, the spline shaft 62 and the eccentric shaft 65, and the bracket 7 is mounted on the bottom surface of the housing 1, specifically, the bracket 74 is used for supporting the main body of the bracket 7 through a supporting column 74 and a fixing lug 73 on the bracket 7, a threaded hole is provided on the fixing lug 73, the bracket 7 is fixed on the bottom surface through a screw, and a passage for passing the timing belt 66 is also provided between the first bracket 71 and the second bracket 72.

The first spline 622 and the second spline 621 are involute splines. The application adopts involute spline, synchronizing wheel and synchronous belt 66 to cooperate the transmission, in addition, can also utilize gear chain transmission or V belt transmission, all can realize the technical scheme of this application. The timing belt 66 is selected for transmission when a more compact construction is desired and a more accurate transmission ratio is desired due to the relatively smaller construction relative to the transmission construction of the present application.

As shown in fig. 6 and 8, the eccentric shaft 65 includes an eccentric end 652 and a fixed end 651, the fixed end 651 is connected with the second synchronizing wheel 63 for transmission, and the eccentric end 652 is connected with the flapping device 3 to make the flapping device 3 reciprocate, so as to flap an object under the mite-killing instrument. A bearing 67 for supporting the eccentric shaft 65 is provided in the second bracket 72, so that the eccentric shaft 65 is stably rotated in the second bracket 72.

As shown in fig. 7, the flapping device 3 further comprises a mounting seat 5, the flapping device 3 comprises a connecting piece 31, a connecting plate 32, a bolt 321 and a flapping body 33, the flapping body 33 is provided with two, and is arranged in the mounting seat 5, the flapping body 33 upwards extends to form a connecting rod 331, the mounting seat 5 is provided with a first perforation 51 at a position corresponding to the connecting rod 331, a first mounting groove 11 is provided with a second perforation 111 at a position corresponding to the connecting rod 331, the connecting rod 331 extends into the shell 1, the connecting plate 32 is provided with two connecting holes 322, the two connecting holes 322 are simultaneously connected with the two connecting rods 331, one side of the connecting piece 31 is fixed on the connecting plate 32 through the bolt 321, the other side is connected with an eccentric shaft 65, and the flapping body 33 is driven by the eccentric shaft 65 to reciprocate. The structure of the flapping device 3 is improved, and two flappers 33 can be driven to reciprocate simultaneously through one eccentric shaft 65.

The mounting seat 5 is also provided with a fixing column, a fixing hole 112 matched with the fixing column is arranged in the first mounting groove 11, and the fixing column is inserted into the fixing hole 112 for fixing.

As shown in fig. 8, the sealing member 34 further includes a sealing member 34, the sealing member 34 includes a first ring 341, a second ring 343, and a sealing membrane 342 connecting the first ring 341 and the second ring 343, the first ring 341 is fixed on the first through hole 51 and/or the second through hole 111, and the second ring 343 is sleeved on the connecting rod 331. By providing the seal 34, the flapping device 3 keeps the housing 1 sealed while flapping, preventing dust or other substances from entering the housing 1 of the acarid-killing device.

As shown in fig. 9, when the flapping device 3 moves downward, the connecting rod 331 drives the second ring body 343 to move downward, and the sealing membrane 342 has a movable margin and can move the second ring body 343 a certain distance, so that after the second ring body 343 moves downward, sealing can be maintained at all, so that the housing 1 of the acarid killing device can be kept sealed at all during the flapping process.

As shown in fig. 2, the second installation groove 12 is provided with an air suction port 121. And sucking mites into the mite removing instrument for collecting, and uniformly cleaning.

As shown in fig. 11, in order to match the air suction port 121, an mite storage cavity 101 matched with the air suction port is arranged in the shell 1 for storing inhaled mites; the shell 1 also needs to provide a mounting cavity 102 for some components which are not easy to be exposed, for example, a driving device 6 of the acarid killing device, a control circuit of the acarid killing device and other devices need to be arranged in the mounting cavity 102, and the acarid storage cavity 101 and the mounting cavity 102 are closed, so that mites are prevented from entering the mounting cavity 102; the connecting rod 331 of the flapper 33 needs to be connected to the driving device 6 in the housing through the housing 1, and the flapper 33 generates a lot of dust during the flapper, and the dust may enter the mounting cavity 102 along the gap between the connecting rod 331 and the housing 1, so that the sealing member 34 needs to be provided to seal the mounting cavity.

The device also comprises a support frame 13, wherein the support frame 13 is fixed on the bottom surface of the shell 1, and the spline shaft 62 is supported by the support frame 13.

According to the mite removing instrument, the rolling brush 4 and the flapping device 3 are driven to synchronously act through the motor 61, the synchronous cooperation of synchronous operation can be realized between the rolling brush 4 and the flapping device 3, the working efficiency of the mite removing instrument is improved, the effect of sucking the mite removing instrument is also avoided, the roller is prevented from being influenced, the driving device 6 comprises the motor 61 and the spline shaft 62, the spline shaft 62 is provided with the first spline 622 and the second spline 621, the rolling brush 4 and the flapping device 3 are respectively driven, the rolling of the rolling brush 4 can be realized through the driving of the first spline 622 and the first synchronous wheel 64 through the synchronous belt 66, the flapping device 3 is in the flapping mode, the eccentric shaft 65 which is connected with the second synchronous wheel 63 and simultaneously rotates is also arranged, and the flapping device 3 is connected at the eccentric position of the eccentric shaft 65, so that the flapping device 3 moves back and forth relative to the shell 1, namely, the shell 1 area of the opposite installation device 3 stretches back and forth, and the object contacted with the shell 1 area is flapped.

Variations and modifications to the above would be obvious to persons skilled in the art to which the invention pertains from the foregoing description and teachings. Therefore, the invention is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the invention should be also included in the scope of the claims of the invention. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not limit the present invention in any way.

Claims

1. The mite removing instrument comprises a shell of the mite removing instrument, a rolling brush and a beating device, wherein the rolling brush and the beating device are arranged on the shell; the power output end of the motor is connected with the spline shaft to output power, a first spline and a second spline are arranged on the spline shaft, the first spline and the first synchronous wheel are connected and driven through a synchronous belt, and the second spline and the second synchronous wheel are connected and driven through the synchronous belt; the first synchronous wheel drives the rolling brush to rotate, the second synchronous wheel drives the eccentric shaft to rotate, the beating device penetrates through the shell and is connected with the eccentric shaft, the eccentric shaft rotates to enable the beating device to do reciprocating motion relative to the shell, and the rolling brush and the beating device are driven to synchronously act through a motor.

2. The mite controller according to claim 1, wherein the housing is formed at a bottom surface thereof with a first mounting groove for mounting the flapping device, and the flapping device passes upward through the housing and is connected to the eccentric shaft.

3. The mite controller according to claim 2, wherein the housing is formed with a second mounting groove on a bottom surface thereof for mounting the roller brush, and the motor is disposed between the first mounting groove and the second mounting groove; the first synchronous wheel is arranged in a shell on one side of the second mounting groove, a first transmission head is arranged in the second mounting groove by penetrating through the shell, one end of the rolling brush is inserted on the first transmission head to carry out transmission, and the spline shaft is respectively connected with the first synchronous wheel and the second synchronous wheel on two sides through the synchronous belt to carry out transmission.

4. The acarid removal device of claim 1, further comprising a first bracket secured within the housing, the motor secured to the first bracket.

5. The mite removal instrument of claim 2, further comprising a second bracket fixed in the housing above the first mounting groove, wherein the eccentric shaft is mounted in the second bracket, one end of the eccentric shaft is connected with the second synchronizing wheel, and the other end is connected with the flapping device.

6. The acarid remover according to claim 1, wherein the first and second splines are involute splines.

7. A mite removal instrument according to claim 3, further comprising a mounting base, wherein the flapping device comprises two connecting pieces, two connecting plates and a flapping body, the flapping body is arranged in the mounting base and extends upwards to form a connecting rod, the mounting base is provided with a first through hole at a position corresponding to the connecting rod, the first mounting groove is provided with a second through hole at a position corresponding to the connecting rod, the connecting rods extend into the shell, the connecting plates are fixedly connected with the two connecting rods at the same time, one side of each connecting piece is fixed on each connecting plate, the other side of each connecting piece is fixedly connected with the eccentric position of the eccentric shaft, and the flapping body moves in a reciprocating mode along with the rotation of the eccentric position.

8. The acarid removal device of claim 7, further comprising a seal comprising a first ring, a second ring, and a sealing membrane connecting the first ring and the second ring, wherein the first ring is secured to the first aperture and/or the second aperture, and the second ring is secured to the connecting rod.

9. The mite removal instrument of claim 8, wherein the housing comprises a mounting cavity and a mite storage cavity, wherein the mounting cavity and the mite storage cavity are closed, the driving device is mounted in the mounting cavity, and the slapping body penetrates through the housing to connect the driving device and seal the mounting cavity through the sealing element: and an air suction port is arranged on the second mounting groove and communicated with the mite storage cavity.

10. The acarid removal device of claim 1, further comprising a support bracket secured to the bottom surface of the housing, the spline shaft being supported by the support bracket.