CN115488093A - Full-automatic high-cleanness quartz clock cleaning device and cleaning method thereof - Google Patents

Abstract

The invention relates to the technical field of quartz clock cleaning, in particular to a full-automatic high-cleanness quartz clock cleaning device and a cleaning method thereof. Wherein, this belt cleaning device includes shell, fixture and rotary mechanism to and spray mechanism, stoving mechanism. The quartz clock cleaning device is characterized in that a cleaning chamber for cleaning the quartz clock is arranged inside the shell, and an opening is formed in one side of the shell. The rotating mechanism is arranged in the cleaning chamber, is connected with the clamping mechanism and drives the clamping mechanism to move to the spraying mechanism and the drying mechanism from the opening in sequence and then move back to the opening to form a circular rotating process. When the quartz clock is cleaned, the rotary seat rotates to drive the clamping mechanism to rotate to the positions of the spraying mechanism and the drying mechanism in the cleaning chamber in sequence, and the clamping mechanism can be overturned in the moving process to drive the quartz clock clamped by the clamping mechanism to overturn, so that automatic spraying cleaning and drying treatment on two sides of the quartz clock are realized. Therefore, the quartz clock is not required to be cleaned manually when being cleaned, so that the quartz clock is very convenient.

Description

Full-automatic high-cleanness cleaning device and cleaning method for quartz clock

Technical Field

The invention relates to the technical field of quartz clock cleaning, in particular to a full-automatic high-cleanness quartz clock cleaning device and a cleaning method thereof.

Background

Due to the high specification requirements of quartz timepieces, the quartz timepiece movements used need to be rigorously cleaned to ensure the quality of the quartz glass articles. At present, quartz clock cleaning is mostly performed through manual cleaning, the quartz clock generally needs to be turned over and cleaning liquid is sprayed on two surfaces of the quartz clock, the operation mode is time-consuming and labor-consuming, manual operation can cause a lot of uncontrollable factors, such as observation angle of an operator and responsibility of the operator, the local position is not sprayed in place, and accordingly cleaning is not up to the standard.

Disclosure of Invention

Aiming at the defects brought by the background technology, the invention provides a full-automatic high-cleanness quartz clock cleaning device and a cleaning method thereof.

The invention adopts the following technical scheme:

the utility model provides a quartz clock full automatization high clean belt cleaning device which characterized in that this belt cleaning device includes:

a housing with a cleaning chamber therein;

the clamping mechanism is used for installing and fixing the quartz clock, and an opening is formed in one side of the shell and used for placing the quartz clock into the clamping mechanism;

the rotary mechanism is arranged in the cleaning chamber and comprises guide seats, rotary seats and a swinging piece, the guide seats are fixed in the shell, a plurality of guide grooves are annularly distributed on the annular surface of each guide seat, a cleaning station is arranged between every two adjacent guide grooves, the rotary seats are coaxially connected to the outer sides of the guide seats to rotate, a rotating shaft is arranged in the middle of one surface of each swinging piece, rolling wheels are connected to two sides of the other surface of each swinging piece, the rotating shaft penetrates out of the rotary seats to enable the swinging pieces to rotate relative to the rotary seats, and the rotating shaft is fixedly connected with the clamping mechanism outside the rotary seats;

the spraying mechanism is arranged in the shell and comprises spray heads for spraying liquid medicine, and the spray heads are fixed on any two adjacent cleaning stations; wherein,

the guide groove comprises two mutually-jointed first notches and a second notch positioned between the two first notches, and the first notches form an isosceles shape; when the rotating seat rotates, the swinging piece is driven to rotate outside the guide seat, and the rollers on two sides of the swinging piece are sequentially embedded into the first notch, the second notch and the first notch.

As an improvement of the cleaning device, the clamping mechanism comprises a clamping frame and a limiting part, wherein a convex blocking part is arranged on one side of the inner wall of the clamping frame, concave yielding grooves are arranged at two corresponding ends of the side wall of the clamping frame, and a through connecting hole is formed in one surface, away from the center of the clamping frame, of each yielding groove; one end of the limiting part is a limiting part, the limiting part faces away from one side of the blocking part and is an inclined guide inclined plane, the other end of the limiting part is a connecting shaft, the connecting shaft penetrates through the connecting hole, the limiting part is located on one side of the abdicating groove, the connecting shaft is located, the spring penetrates through the part of the abdicating groove, the elastic acting force of the spring stretching is used for pushing the limiting part to be embedded into the quartz clock in the clamping frame, the clamping piece is used for pressing the two sides of the quartz clock respectively, and therefore the quartz clock is clamped and fixed in the clamping frame.

As an improvement of the cleaning device, a threaded column is fixed outside the clamping frame, a threaded hole is formed in the end face of the rotating shaft outside the rotating seat, and the threaded column is matched with the threaded hole in a threaded mode and penetrates into the threaded hole in a spiral mode.

As an improvement of the cleaning device, a transmission shaft is fixed in the rotating seat, the rotating shaft is connected to the guide seat to rotate, the guide seat is also fixedly connected with a driving motor, and the driving motor drives the transmission shaft to rotate so as to drive the rotating seat to rotate relative to the guide seat.

As an improvement of the cleaning device, a shaft sleeve is fixed above the guide seat, a bearing is fixed in the shaft sleeve, the upper end of the transmission shaft is a limiting part, the lower end of the transmission shaft is an embedded part with a diameter reduced relative to the limiting part, the embedded part penetrates through an inner ring of the bearing in an interference fit manner, so that the limiting part is blocked on the bearing, and the embedded part is in transmission connection with an output shaft of the driving motor.

As an improvement of the cleaning device, a bottom frame is fixed in the middle of the cleaning chamber, the guide seat is fixed on the bottom frame, a plurality of guide notches are annularly distributed on the annular surface of the guide seat, and guide pieces are respectively fixed in positions corresponding to the guide notches in the bottom frame; the direction breach is triangle-shaped, the guide is the adaptation the triangle-shaped panel of direction breach, just the side of guide with there is the clearance between the side of direction breach, this clearance does first notch, the second notch sets up the top of direction breach.

As an improvement of the cleaning device, the cleaning device further comprises a drying mechanism fixed on the shell, and the drying mechanism is positioned at the cleaning station behind the spray head; the drying mechanism comprises a fan and a heating unit, and the fan conveys air heated by the heating unit to the cleaning station.

The cleaning method of the full-automatic high-cleanness quartz clock cleaning device comprises the following steps of:

placing the quartz clock on a clamping mechanism positioned on a cleaning station at the opening position of the shell;

the clamping mechanism moves to the next cleaning station and turns over 180 degrees, and a spray head of a spray device above the cleaning station sprays cleaning liquid on the surface of the quartz clock so as to clean the surface of the quartz clock;

the clamping mechanism continuously moves to the next cleaning station and turns over for 180 degrees again, and at the moment, the other spray head of the spray device sprays cleaning liquid on the other surface of the quartz clock so as to clean the other surface of the quartz clock;

the clamping mechanism continuously moves to the next cleaning station and turns over for 180 degrees again, and at the moment, the drying mechanism above the cleaning station performs drying treatment on the upward surface of the quartz clock;

the clamping mechanism continuously moves to the next cleaning station and turns over for 180 degrees again, and at the moment, the other drying mechanism above the cleaning station performs drying treatment on the other surface of the quartz clock;

and the clamping mechanism continuously moves to the next cleaning station and turns over by 180 degrees again, at the moment, the clamping mechanism moves to the open position, and then the quartz clock can be detached from the clamping mechanism.

As an improvement of the cleaning device, six cleaning stations are arranged on the side face of the guide seat, the rotating direction of the rotating seat is used as an order, the opening corresponds to two adjacent cleaning stations, the nozzles are arranged on the two cleaning stations, and the drying mechanism is arranged on the last two cleaning stations.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the clamping mechanism is driven to rotate to the positions of the spraying mechanism and the drying mechanism in the cleaning chamber in sequence through the rotation of the rotary seat, and the clamping mechanism can be overturned in the moving process to drive the quartz clock clamped by the clamping mechanism to overturn, so that the automatic spraying cleaning and drying treatment on the two sides of the quartz clock is realized. Therefore, the quartz clock cleaning device does not need manual cleaning when cleaning the quartz clock, is very convenient, and can effectively avoid the problem that the local position is not sprayed in place because the cleaning solution is automatically sprayed on the quartz clock at the appointed position in the cleaning process.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of fig. 1 after the upper cover is hidden.

Fig. 3 is a schematic bottom perspective view of the rotary base after the rotary base is connected with the guide base and the clamping mechanism.

Fig. 4 is a perspective view of the guide base viewed from below.

FIG. 5 is a schematic top view of the present invention.

Fig. 6 isbase:Sub>A schematic sectional view taken along the direction A-A in fig. 5.

Fig. 7 is an enlarged schematic view of C in fig. 6.

Fig. 8 is a schematic cross-sectional view taken along the direction B-B in fig. 5.

Fig. 9 is an enlarged schematic view at D in fig. 8.

Fig. 10 is a perspective view of the clamping mechanism.

FIG. 11 is a perspective view of the clamping mechanism and the oscillating member coupled together.

Fig. 12 is a schematic view of the first roller of the oscillating member moving into the guide groove.

FIG. 13 is a schematic view of the first roller of the oscillating member moving to a second notch position.

Fig. 14 is a schematic view of the swing member with the first roller about to move out of the guide groove.

Fig. 15 is a schematic view after the first roller in the swinging member moves out of the guide groove.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

The invention discloses a full-automatic high-cleanness quartz clock cleaning device, which comprises a shell 1, a clamping mechanism 3, a rotating mechanism 2, a spraying mechanism 5 and a drying mechanism 4, as shown in attached figures 1 and 2. Referring to fig. 6 and 8 again, a cleaning chamber 101 for cleaning the quartz clock is disposed inside the casing 1, and an opening 102 is further disposed on one side of the casing 1, and the opening 102 is used for placing the quartz clock into the clamping mechanism 3. The rotating mechanism 2 is arranged in the cleaning chamber 101, and the rotating mechanism 2 is connected with and drives the clamping mechanism 3 to sequentially move from the opening 102 to the spraying mechanism 5 and the drying mechanism 4, and then move back to the opening 102, so as to form a circular rotation process.

The housing 1 includes a bottom case 12 and an upper cover 11. A notch is formed in one side of the upper cover 11, the upper cover 11 covers and is fixed on the bottom casing 12, so that the cleaning chamber 101 is formed in a gap between the upper cover 11 and the bottom casing 12, and the opening 102 is formed in the notch in one side of the upper cover 11.

As shown in fig. 10 and 11, the clamping mechanism 3 includes a clamping frame 31 and a stopper 32. One side of centre gripping frame 31 inner wall sets up bellied stopper 311, just centre gripping frame 31 lateral wall all sets up sunken groove 312 of stepping down at corresponding both ends, the one side that groove 312 kept away from centre gripping frame 31 center sets up the connecting hole (the attached drawing does not mark) that runs through. One end of the limiting part 32 is a limiting part 322, the limiting part 322 faces away from one side of the blocking part 311 is an inclined guide inclined plane, the other end of the limiting part 32 is a connecting shaft 321, the connecting shaft 321 penetrates through the connecting hole, so that the limiting part 322 is located on one side of the abdicating groove 312, the connecting shaft 321 is in the part of the abdicating groove 312 is externally sleeved with the spring 33, and the elastic acting force of the spring 33 stretching is used for pushing the limiting part 322 to the center of the clamping frame 31. When the quartz clock is clamped, the quartz clock is pressed into the clamping frame 31 along the guiding inclined planes of the two limiting members 32, the two limiting members 32 are pushed into the receding grooves 312 at the two ends of the clamping frame 31 by the guiding action of the guiding inclined planes in the process, the spring 33 is compressed at the same time, and after the quartz clock is completely embedded into the clamping frame 31, the two sides of the quartz clock are clamped by the elastic acting force of the stretching of the spring 33, so that the quartz clock is fixed on the clamping frame 31. When the quartz clock is dismounted, the two connecting shafts 321 are respectively pulled towards the two ends outside the clamping frame 31, so that the two limiting parts 322 leave the quartz clock, and then the quartz clock can be dismounted.

As shown in fig. 3 and 4, the rotating mechanism 2 includes a guide base 21, a rotating base 22, and a swinging member 25. The guide holder 21 is fixed in the housing 1, and specifically, as shown in fig. 6 and 8, a bottom frame 29 is fixed on the bottom case 12, and the guide holder 21 is fixed to the bottom frame 29, so that the guide holder 21 is suspended in the cleaning chamber 101. A plurality of guide grooves 20 are annularly distributed on the annular surface of the guide seat 21, and referring to fig. 5 again, a cleaning station 105 is located between two adjacent guide grooves 20. Preferably, the guide holder 21 side sets up six wash station 105, use the direction of rotation of roating seat 22 is the preface, uncovered 102 corresponds two wherein adjacent wash station 105, two afterwards wash and set up on the station 105 shower nozzle 53 that sprays mechanism 5, two wash and set up on the station 105 drying mechanism 4 at last.

It should be noted that, the two cleaning stations 105 are located in the opening 102, one cleaning station is used for placing the crystal clock on the holding mechanism 3, and the other cleaning station 105 is used for unloading the crystal clock from the holding mechanism 3. Referring to fig. 1 again, the open port 102 further fixes a supporting plate 15 at a position where the quartz clock is detached, so that the quartz clock can correspondingly fall on the supporting plate 15, a layer of sponge can be laid on the surface of the supporting plate 15, and the quartz clock can fall on the sponge to avoid the surface of the sponge from being damaged.

As shown in fig. 1, the guide groove 20 includes two first notches 201 engaged with each other and a second notch 202 located between the two first notches 201, and the two first notches 201 form an isosceles shape. As shown in fig. 3 and 4, the guide groove 20 may be formed by a guide notch 204 provided at a side of the guide holder 21 and a guide 27 located at the guide notch. Specifically, a plurality of the guide notches 204 are annularly distributed on the annular surface of the guide seat 21, and the guide member 27 is fixed in the chassis 29 at a position corresponding to each of the guide notches 204. The guide notch 204 is triangular, the guide 27 is a triangular panel adapted to the guide notch 204, a gap is formed between the side edge of the guide 27 and the side edge of the guide notch 204, the gap is the first notch 201, and the second notch 202 is arranged above the guide notch 204.

As shown in fig. 3, the rotating base 22 is coaxially connected to the outside of the guide base 21 and can be connected to the shaft sleeve 23 through a transmission shaft 28 shown in fig. 8 and 9. The transmission shaft 28 is fixed to the center in the rotary base 22, the upper end of the transmission shaft 28 is a limiting portion 281, and the lower end of the transmission shaft 28 is an embedding portion 282 with a diameter reduced relative to the limiting portion 281. The shaft sleeve 23 is fixed at the center above the guide base 21, and a bearing 231 is embedded and fixed in the shaft sleeve 23. When the rotary seat 22 is installed, the rotary seat 22 is placed downward, the insertion portion 282 passes through the inner ring of the bearing 231 in an interference fit manner, and the limit portion 281 is stopped on the bearing 231, so that the rotary seat 22 is limited to rotate only relative to the guide seat 21. Meanwhile, an output shaft of the driving motor 24 fixed to the guide base 21 is in transmission connection with the insertion portion 282, so as to drive the rotary base 22 to rotate.

Furthermore, a fixing frame 26 is further arranged on the guide seat 21, the shaft sleeve 23 is fixed in the fixing frame 26, and a gap is further formed between the shaft sleeve 23 and the upper surface of the guide seat 21. An output shaft of the driving motor 24 is fixedly connected with a driving sprocket (not shown in the figure), an inner ring of the bearing 231 is fixedly connected with a driving sprocket 241 by welding, and the driving sprocket 241 and the driving sprocket are simultaneously meshed and connected with the same chain 242. A recessed spline groove (not shown) is formed at one side of the insertion part 282, and a spline 243 is fixed at one side of a central through hole of the driving sprocket 241. When the rotary base 22 is installed, the position of the keybar groove is corresponding to the position of the keybar 234 in advance, and then the embedding part 282 is embedded into the inner ring of the bearing 231, so that the embedding part 282 can continuously pass through the through hole in the center of the transmission chain wheel 241 after passing through the inner ring of the bearing 231, and the keybar 243 is clamped in the keybar groove, so that the transmission chain wheel 241 rotates to drive the transmission shaft 28 to rotate simultaneously, that is, the embedding part 282 is in transmission connection with the output shaft of the driving motor 24 through the chain 242, and the driving motor 24 drives the rotary base 22 to rotate through the chain 242. Therefore, the structure that the rotating base 22 is connected to the guide base 21 can facilitate the installation of the rotating base 22, so that the driving motor 24 can directly drive the rotating base 22 to rotate through the transmission of the chain 242, and the rotating base 22 is prevented from having no space to install and connect the transmission structure between the rotating base 22 and the driving motor 24 after being sleeved outside the guide base 21.

Preferably, a placing table 13 is further connected to the housing 1, and the placing table 13 can be used for stacking the quartz clocks to be cleaned. The top of upper cover 11 sets up the mouth of stepping down (the attached drawing does not mark) that runs through, place the platform 13 adaptation and inlay this mouth of stepping down. The bottom of the placing table 13 is fixed with a connecting shaft 14, the transmission shaft 28 is a through hollow structure, and the center of the upper surface of the rotating base 22 penetrates into the transmission shaft 28. The connecting shaft 14 passes through the transmission shaft 28 and then is connected to the rotating base 22, and the connecting shaft 14 may be connected to the rotating base in a manner that a threaded hole is formed in a bottom surface thereof, the threaded hole is adapted to a screw connection bolt 141, and the guide base 21 is provided with a rotating hole. When the placing table 13 is installed, the connecting shaft 14 is inserted into the transmission shaft 28 along the center of the rotating seat 22, and then the bolt 141 is inserted into the guide seat 21 and screwed into the threaded hole for fastening, and a gap is formed between the head of the bolt 141 and the guide seat 21 after fastening, so that the placing table 13 rotates relative to the guide seat 21, that is, the placing table 13 is connected to the abdication position of the upper cover 11 for rotation. During the use, the staff is located open 102 position operation, through rotating place the platform 13 can with be located keep away from open 102 quartz clock of position move to before the uncovered, avoid needing to get up to take or operation such as transport, consequently the operation of being more convenient for.

As shown in fig. 11, a rotating shaft 253 is disposed in the middle of one surface of the swinging member 25, and rotatable rollers, which may be ball bearings, are connected to both sides of the other surface of the swinging member 25, specifically, the two rollers are the first roller 251 and the second roller 252 shown in fig. 11 to 15. Referring to fig. 7 again, the rotating shaft 253 penetrates through the rotating base 22 to enable the swinging member 25 to rotate relative to the rotating base 22, specifically, a flat plate may be welded on an inner side wall of the rotating base 22, the flat plate fixes the bearing seat 254, and the rotating shaft 253 passes through the bearing seat 254 in an interference fit manner, so as to form a structure that the swinging member 25 rotates relative to the rotating base 22.

When the rotating base 22 rotates, the swinging member 25 is driven to rotate outside the guiding base 21, and the rollers on two sides of the swinging member 25 are sequentially inserted into the first notch 201, the second notch 202, and the other first notch 201.

The rotating shaft 253 is connected with the clamping mechanism 3 after penetrating out of the rotating seat 22, and the connecting mode may be that the threaded column 34 is fixed outside the clamping frame 31, and a threaded hole is formed in the end face of the rotating shaft 253 outside the rotating seat 22. When the clamping mechanism 3 is installed, the threaded column 34 is matched with the threaded hole in a threaded mode, the threaded column is screwed into the threaded hole and fastened in a screwed mode, and then the clamping mechanism 3 can be fixed. In this way, the mounting of the clamping mechanism 3 is facilitated, and the dismounting of the clamping mechanism 3 is also facilitated, that is, the clamping mechanisms 3 with different specifications and sizes are conveniently replaced, so as to clamp the quartz clocks with different sizes.

With the above structure, as shown in fig. 3, when the first roller 251 and the second roller 252 at the two ends of the swinging member 25 are both located below the cleaning station 105, the swinging member 25 is in a horizontal state, that is, the quartz clock clamped by the clamping mechanism 3 connected to the swinging member 25 is in a horizontal state with one side facing upward. At this time, after the driving motor 24 drives the rotary base 22 to rotate, the process that the rotating mechanism 2 drives the clamping mechanism 3 to work is as follows:

as shown in fig. 12, the first roller 251 of the oscillating member 25 close to the guide 27 is blocked by the lower end of the guide 27 and is inserted into the first notch 201, so as to drive the first roller 251 to rotate to be inserted into the first notch 201, and to move obliquely upward along the first notch 201 to the second notch 202, at this time, because the second roller 252 is located at the bottom of the guide seat 21, the oscillating member 25 can be rotated to be in an oblique state, and at the same time, the clamping mechanism 3 is also rotated to be in an oblique state along with the rotation of the oscillating member 25, so that the crystal clock clamped by the clamping mechanism 3 is also oblique;

as shown in fig. 13, when the upper side of the first roller 251 is blocked by the side of the second notch 202 (i.e. the front side of the second notch 202 in the rotation direction of the rotating base 22), the rotating base 22 drives the swinging member 25 to move continuously, so that the swinging member 25 turns around the center of the blocked first roller 251, so that the second roller 252 rotates to the lower side of the guide member 27, thereby turning over the swinging member 25, and at the same time, the crystal clock held by the holding mechanism 3 also turns over along with the turning over of the swinging member 25, where the turning over is a rotation exceeding 90 ° relative to the horizontal state of the swinging member 25, so that the crystal clock held by the holding mechanism 3 turns over to the other side upward, and after that, relative to the rotation direction of the rotating base 22, the second roller 252 is in front of the first roller 251;

as shown in fig. 14, the first roller 251 is driven by the rotary base 22 to move downwards along another first notch 201 (i.e. the other end of the guide groove 20), and the swinging member 25 also moves downwards along another first notch 201, so that the quartz clock held by the holding mechanism 3 moves downwards along with the downward inclination, and the second roller 252 is in front of the first roller 251 with respect to the rotation direction of the rotary base 22;

as shown in fig. 15, the first roller 251 is driven by the rotary base 22 to continue to move downward along the other end of the guide groove 20, after the first roller 251 moves to be separated from the guide groove 20, the first roller 251 and the second roller 252 are both located at the other cleaning station 105, so that the swinging member 25 rotates to be horizontal, and the quartz clock clamped by the clamping mechanism 3 and the clamping mechanism 3 rotates to be horizontal, so that the quartz clock clamped by the clamping mechanism 3 and the clamping mechanism 3 can be turned 180 degrees.

As can be known from the working process of the rotating mechanism 2, when the rotating base 22 drives the swinging member 25 to rotate from one of the cleaning stations 105 to the other cleaning station 105, the quartz clock clamped by the clamping mechanism 3 can be turned over by 180 degrees, so that the quartz clock clamped by the clamping mechanism 3 is turned over from a state of one face facing upward to a state of the other face facing upward.

As shown in fig. 2, the spraying mechanism 5 includes a nozzle 53 for spraying the chemical liquid, and the nozzle 53 is fixed to any two adjacent cleaning stations 105. Specifically, the spraying mechanism 5 further includes a liquid pumping pump 51 and a liquid guiding tube 52, the liquid pumping pump 51 is placed in the bottom case 12 of the housing 1, the bottom case 12 forms a water tank for accommodating the cleaning liquid, an output end of the liquid pumping pump 51 is connected to the liquid guiding tube 52, and the two spray heads 53 are both connected to the liquid guiding tube 52, so that the liquid pumping pump 51 can pump the cleaning liquid in the bottom case 12 to the spray heads 53, and then the cleaning liquid is pumped out downwards from the spray heads 53 to the cleaning station 105, and the surplus cleaning liquid after spraying falls downwards into the bottom case 12, thereby forming the recycling of the cleaning liquid. When the clamping mechanism 3 moves to the cleaning station 105, the spray nozzle 53 can spray cleaning solution to the surface of the quartz clock on the clamping mechanism 3, and when the clamping mechanism 3 moves to another cleaning station 105, the clamping mechanism 3 drives the quartz clock 180 to turn over, so that the spray nozzle of another cleaning station 105 can spray cleaning solution to the other surface of the quartz clock, and thus the spray cleaning of the two surfaces of the quartz clock can be completed.

The drying mechanism 4 includes a fan and a heating unit (not shown in the drawings), specifically, the heating unit may be an electric heating pipe, and the heating unit is located above the fan. The fan conveys the air heated by the heating unit to the cleaning station 105, so that the cleaning liquid on the surface of the quartz clock is dried. Specifically, when the clamping mechanism 3 moves to the cleaning station 105, the drying mechanism 4 blows hot air to the surface of the quartz clock on the clamping mechanism 3, and when the clamping mechanism 3 moves to another cleaning station 105, the clamping mechanism 3 drives the quartz clock 180 to turn over, so that another drying mechanism 4 can blow hot air to the other surface of the quartz clock, and thus, the drying after the two surfaces of the quartz clock are sprayed can be completed.

The invention also discloses a cleaning method of the full-automatic high-cleanness quartz clock cleaning device, which comprises the following steps:

the quartz clock is placed on the clamping mechanism on the cleaning station at the open position, and in the placing process, the quartz clock can be clamped and fixed by the two clamping pieces under the action of the spring only by pressing the quartz clock into the frame body, so that the clamping mode is very convenient;

the clamping mechanism moves to the next cleaning station and turns over 180 degrees, and the spray nozzle above the cleaning station sprays cleaning liquid on the surface of the quartz clock to clean the surface of the quartz clock;

the clamping mechanism continues to move to the next cleaning station and turns over for 180 degrees again, and at the moment, the other spray head sprays cleaning liquid on the other surface of the quartz clock to clean the other surface of the quartz clock;

the clamping mechanism continues to move to the next cleaning station and turns over 180 degrees again, and at the moment, the drying mechanism performs drying treatment on the upward surface of the quartz clock;

the clamping mechanism continuously moves to the next cleaning station and turns over for 180 degrees again, and at the moment, the other drying mechanism performs drying treatment on the other surface of the quartz clock;

the clamping mechanism continues to move to the next cleaning station and turns over for 180 degrees again, at the moment, the clamping mechanism moves to the open position, the connecting shafts at the two ends of the frame body are pulled, the two clamping parts leave the quartz clock, and the quartz clock can fall downwards onto the bearing plate, so that the quartz clock is very convenient to dismount.

In summary, in the structure of the present invention, the rotation of the rotary seat 22 drives the clamping mechanism 3 to rotate sequentially in the cleaning chamber 101 to the positions of the spraying mechanism 5 and the drying mechanism 4, and during the moving process, the clamping mechanism 3 can be turned over to drive the quartz clock clamped by the clamping mechanism to turn over, so as to form the automatic spraying cleaning and drying treatment on both sides of the quartz clock. Therefore, the quartz clock cleaning device does not need manual cleaning when cleaning the quartz clock, is very convenient, automatically sprays cleaning liquid to the quartz clock at the specified position in the cleaning process, and can effectively avoid the problem that the local position is not sprayed in place.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (9)

1. The utility model provides a quartz clock full automatization high clean belt cleaning device which characterized in that this belt cleaning device includes:

a housing with a cleaning chamber therein;

the clamping mechanism is used for installing and fixing the quartz clock, and an opening is formed in one side of the shell and used for placing the quartz clock into the clamping mechanism;

the rotating mechanism is arranged in the cleaning chamber and comprises a guide seat, a rotating seat and a swinging piece, the guide seat is fixed in the shell, a plurality of guide grooves are annularly distributed on the annular surface of the guide seat, a cleaning station is arranged between every two adjacent guide grooves, the rotating seat is coaxially connected with the guide seat and rotates outside the guide seat, a rotating shaft is arranged in the middle of one surface of the swinging piece, two sides of the other surface of the swinging piece are both connected with rollers, the rotating shaft penetrates out of the rotating seat to enable the swinging piece to rotate relative to the rotating seat, and the rotating shaft is fixedly connected with the clamping mechanism outside the rotating seat;

the spraying mechanism is arranged in the shell and comprises spray heads for spraying liquid medicine, and the spray heads are fixed on any two adjacent cleaning stations; wherein,

the guide groove comprises two mutually-jointed first notches and a second notch positioned between the two first notches, and the first notches form an isosceles shape; when the rotating seat rotates, the swinging piece is driven to rotate outside the guide seat, and the rollers on two sides of the swinging piece are sequentially embedded into the first notch, the second notch and the first notch.

2. The fully automatic high-cleanness quartz clock cleaning device according to claim 1, wherein: the clamping mechanism comprises a clamping frame and a limiting part, wherein a convex blocking part is arranged on one side of the inner wall of the clamping frame, concave yielding grooves are formed in the corresponding two ends of the side wall of the clamping frame, and a through connecting hole is formed in one surface, far away from the center of the clamping frame, of each yielding groove; one end of the limiting part is a limiting part, the limiting part faces away from one side of the blocking part and is an inclined guide inclined plane, the other end of the limiting part is a connecting shaft, the connecting shaft penetrates through the connecting hole, the limiting part is located on one side of the abdicating groove, the connecting shaft is located, the spring penetrates through the part of the abdicating groove, the elastic acting force of the spring stretching is used for pushing the limiting part to be embedded into the quartz clock in the clamping frame, the clamping piece is used for pressing the two sides of the quartz clock respectively, and therefore the quartz clock is clamped and fixed in the clamping frame.

3. The fully automatic high-cleanness quartz clock cleaning device according to claim 1, characterized in that: the clamping frame is externally fixed with a threaded column, the rotating shaft is provided with a threaded hole in the end surface outside the rotating seat, and the threaded column is matched with the threaded hole in a spiral mode and penetrates into the threaded hole.

4. The fully automatic high-cleanness quartz clock cleaning device according to claim 1, characterized in that: the transmission shaft is fixed in the rotating seat and connected to the guide seat in a rotating mode, the guide seat is further fixedly connected with the driving motor, and the driving motor drives the transmission shaft to rotate so as to drive the rotating seat to rotate relative to the guide seat.

5. The full-automatic high-cleanness quartz clock cleaning device and the cleaning method thereof according to claim 4, wherein the cleaning method comprises the following steps: the upper end of the transmission shaft is a limiting part, the lower end of the transmission shaft is an embedded part with the diameter reduced relative to the limiting part, the embedded part penetrates through the inner ring of the bearing in an interference fit mode, so that the limiting part is blocked on the bearing, and the embedded part is in transmission connection with the output shaft of the driving motor.

6. The fully automatic high-cleanness quartz clock cleaning device according to claim 1, characterized in that: a bottom frame is fixed in the middle of the cleaning chamber, the guide seat is fixed on the bottom frame, a plurality of guide notches are annularly distributed on the annular surface of the guide seat, and guide pieces are respectively fixed in the positions corresponding to the guide notches in the bottom frame; the direction breach is triangle-shaped, the guide is the adaptation the triangle-shaped panel of direction breach, just the side of guide with there is the clearance between the side of direction breach, this clearance does first notch, the second notch sets up the top of direction breach.

7. A quartz clock full automatic high cleaning device according to any one of claims 1 to 6, characterized in that: the cleaning device also comprises a drying mechanism fixed on the shell, and the drying mechanism is fixed on the two cleaning stations behind the fixed spray head; the drying mechanism comprises a fan and a heating unit, and the fan conveys air heated by the heating unit to the cleaning station.

8. The fully automatic high-cleanness quartz clock cleaning device according to claim 7, characterized in that: the guide holder side sets up six wash the station, with the direction of rotation of roating seat is the preface, uncovered correspondence wherein adjacent two wash the station, later two set up on the washing station the shower nozzle, last two set up on the washing station stoving mechanism.

9. A cleaning method of a full-automatic high-cleanness quartz clock cleaning device is characterized by comprising the following steps:

placing the quartz clock on a clamping mechanism positioned on a cleaning station at the opening position of the shell;

the clamping mechanism moves to the next cleaning station and turns over for 180 degrees, and a spray head of the spray device above the cleaning station sprays cleaning liquid on the surface of the quartz clock so as to clean the surface of the quartz clock;

the clamping mechanism continues to move to the next cleaning station and turns over for 180 degrees again, and at the moment, the other spray head of the spray device sprays cleaning liquid on the other surface of the quartz clock so as to clean the other surface of the quartz clock;

the clamping mechanism continuously moves to the next cleaning station and turns over 180 degrees again, and the drying mechanism above the cleaning station performs drying treatment on the upward surface of the quartz clock;

the clamping mechanism continues to move to the next cleaning station and turns over 180 degrees again, and at the moment, the other drying mechanism above the cleaning station performs drying treatment on the other surface of the quartz clock;

and the clamping mechanism continues to move to the next cleaning station and turns over by 180 degrees again, at the moment, the clamping mechanism moves to the open position, and then the quartz clock can be detached from the clamping mechanism.

Images