CN111000648B - Device capable of cleaning oral cavity apparatus mosquito teeth - Google Patents

Abstract

The invention discloses a device capable of cleaning oral cavity apparatus mosquito teeth, which comprises a shell, wherein a water tank is arranged in the shell, a conveying mechanism is arranged on the upper side of the annular water tank, four communicated working cavities are annularly arranged on the lower side of the conveying mechanism in an array manner, three identical water spraying mechanisms are arranged in the working cavities, a first transmission cavity is arranged in the lower end wall of the annular water tank, a driving mechanism and a transmission mechanism are arranged in the first transmission cavity, a cleaning mechanism is arranged on the right side of the first transmission cavity, the oral cavity apparatus to be cleaned is manually placed on a hanging frame, the hanging frame can enable the oral cavity apparatus to be opened so as to clean the concave-convex mosquito tooth joints of the apparatus, the oral cavity apparatus is conveyed into the cleaning mechanism by the conveying mechanism to clean the oral cavity apparatus, and then the water spraying mechanism washes the outer surface of the oral cavity apparatus, so that residual bacteria and sundries are more thoroughly cleaned, the infection of residual bacteria to a patient is effectively reduced, and the problems that manual cleaning is labor-consuming and cleaning of joint parts and instruments with mosquito teeth is not complete are avoided.

Description

Device capable of cleaning oral cavity apparatus mosquito teeth

Technical Field

The invention relates to the field of oral cavities, in particular to a device capable of cleaning mosquito teeth of oral cavity instruments.

Background

At present, the washing of oral cavity apparatus is mostly manual washing, in the washing to the oral cavity apparatus, to some apparatuses that have the mosquito, unsmooth mosquito tooth department and some place that are difficult to the clearance of mosquito hemostatic forceps point mouth part, abluent thoroughly inadequately, still bacterium and debris remain in the apparatus, should not use the patient once more, remaining bacterium can be to the infection of patient, lead to the state of an illness more serious, and in the washing to the oral cavity apparatus, all adopt manually to wash, then wipe and collect the disinfection after clean, abluent efficiency is lower, and the cost of labor is higher.

Disclosure of Invention

Aiming at the technical defects, the invention provides a device capable of cleaning the mosquito teeth of oral cavity instruments, which can overcome the defects.

The invention relates to a device capable of cleaning oral cavity apparatus mosquito teeth, which comprises a shell, wherein an annular water tank is arranged in the shell, a control cavity is arranged in the upper end wall of the annular water tank, a transport mechanism for providing rotary transport is arranged in the control cavity, the left end wall, the right end wall and the rear end wall of the control cavity are connected with the same three control mechanisms, four communicated working cavities are annularly and uniformly distributed in the lower end wall of the control cavity and respectively comprise a washing cavity, a joint washing cavity, a main body washing cavity and a cleaning cavity, three same water spraying mechanisms are respectively arranged in the washing cavity, the joint washing cavity is internally provided with mosquito-type hemostatic forceps, a communication port for communicating the cleaning cavity with the outside is arranged in the front end wall of the cleaning cavity, a first transmission cavity is arranged in the lower end wall of the annular water tank, a power-driven driving mechanism and a power-transmission mechanism are arranged in the first transmission cavity, a second transmission cavity with an opening at the left end communicated with the first transmission cavity is arranged in the right end wall of the first transmission cavity, and a cleaning mechanism for cleaning the mosquito-type hemostatic forceps is arranged in the second transmission cavity; the cleaning mechanism comprises a first transmission shaft, the lower end wall of the second transmission cavity is rotatably connected with the first transmission shaft, the upper end of the first transmission shaft penetrates through the upper end wall of the second transmission cavity, the upper end of the first transmission shaft is positioned in the joint cleaning cavity, a triangular brush sleeve positioned in the joint cleaning cavity is fixedly arranged at the upper end of the first transmission shaft, a first transmission friction wheel positioned in the second transmission cavity is fixedly arranged on the first transmission shaft, and a first belt wheel positioned in the second transmission cavity is fixedly arranged at the lower end of the first transmission shaft; during operation, it is manual will need abluent mosquito hemostatic forceps put into through the intercommunication mouth in the joint washing chamber, and then will actuating mechanism starts, thereby makes transport mechanism work drives mosquito hemostatic forceps transports, and then passes through control mechanism makes water spray mechanism work is right mosquito hemostatic forceps water spray, just actuating mechanism passes through drive mechanism makes the wiper mechanism work, and then can be to getting into in the working chamber mosquito hemostatic forceps washs, passes through after the washing completion wipe the chamber will mosquito hemostatic forceps clean.

Preferably, wiper mechanism includes the front and back symmetry is equipped with the opening intercommunication in the end wall around the first transmission chamber two third transmission chambers in first transmission chamber, be equipped with follower in the third transmission chamber, in the second transmission chamber up end wall for first transmission shaft bilateral symmetry is equipped with lower extreme opening intercommunication two driven chambers in second transmission chamber, the driven chamber up end rotates and is connected with the upper end and runs through driven chamber up end wall and upper end are located the first driven shaft in the joint cleaning chamber, first driven shaft upper end has set firmly and is located the first brush sleeve in the joint cleaning chamber, first driven shaft lower extreme has set firmly and is located the first transmission bevel gear in the driven chamber, the left side in the driven chamber is close to the end wall of first transmission shaft rotates and is connected with and runs through the left side the driven chamber is close to the end wall and the left side of first transmission shaft the driven intracavity and right end are located the right side in the driven chamber and right end are located the driven chamber The left end and the right end of the second driven shaft are symmetrically provided with two second transmission bevel gears which are bilaterally symmetrical and meshed with the first transmission bevel gear, the lower end wall of the second transmission cavity is rotatably connected with a second transmission shaft which is positioned at the left rear side of the first transmission shaft, a second transmission friction wheel which is positioned in the second transmission cavity and meshed with the first transmission friction wheel is fixedly arranged on the second transmission shaft, and a third transmission bevel gear which is positioned at the left side and meshed with the second transmission bevel gear is fixedly arranged at the upper end of the second transmission shaft.

Preferably, the driven mechanism comprises two third driven shafts which are symmetrically arranged at the front and back of the rear side in the third transmission cavity, are rotatably connected with the lower end wall of the third transmission cavity at the rear side, have the upper ends penetrating through the upper end wall of the third transmission cavity and have the upper ends positioned in the main body cleaning cavity, a second brush sleeve positioned in the main body cleaning cavity is fixedly arranged at the upper end of the third driven shaft, two first driven straight gears which are positioned at the rear side in the third transmission cavity and are mutually meshed are fixedly arranged on the two third driven shafts, a second belt pulley positioned at the rear side in the third transmission cavity is fixedly arranged at the lower end of the third driven shaft close to the first transmission cavity, a fourth driven shaft which is rotatably connected with the lower end wall of the third transmission cavity at the front side and has the upper ends penetrating through the upper end wall of the third transmission cavity and has the upper ends positioned in the cleaning cavity is symmetrically arranged at the front side and back in the third transmission cavity, the gauze sleeve that fourth driven shaft upper end set firmly to be located clean the intracavity, two set firmly on the fourth driven shaft to be located the front side two driven spur gears of third transmission intracavity and intermeshing are close to first transmission chamber fourth driven shaft lower extreme sets firmly to be located the front side the third band pulley of third transmission intracavity.

Preferably, the transportation mechanism comprises a loop-shaped groove which is arranged in the lower end wall of the control cavity and is communicated with the control cavity, the washing cavity, the joint washing cavity, the main body washing cavity and the wiping cavity, the lower end wall of the control cavity is rotatably connected with a fifth driven shaft, the lower end of the fifth driven shaft penetrates through the lower end wall of the control cavity, the lower end of the fifth driven shaft is positioned in the first driving cavity, the lower end of the fifth driven shaft is fixedly connected with a third driving friction wheel which is positioned in the first driving cavity, the upper end of the fifth driven shaft is fixedly provided with a circular wheel disc which is positioned in the control cavity, the outer end wall of the right side of the circular wheel disc is fixedly connected with a connecting rod, a sliding groove with an opening at the lower end communicated with the control cavity is arranged in the connecting rod, a first sliding block which is connected in a sliding manner is arranged in the sliding groove, the lower end surface of the first sliding block, the lower end face of the second sliding block is fixedly connected with a U-shaped rod which is positioned in the joint cleaning cavity and can drive the mosquito-type hemostatic forceps to transport.

Preferably, the control mechanism includes a moving block slidably connected to the upper and lower end walls of the control chamber in the control chamber, two first springs fixed to the inner wall of the control chamber are fixedly disposed on an end surface of the moving block away from the fifth driven shaft, and a pull rope having a lower end connected to the water spraying mechanism and having one end extending through the inner wall of the control chamber is fixedly disposed on an end surface of the moving block away from the fifth driven shaft.

Preferably, the water spraying mechanism comprises water pump cavities, the joint cleaning cavity, the main body cleaning cavity and the flushing cavity are symmetrically provided with two water pump cavities in the end wall close to the annular water tank and in the end wall far away from the annular water tank, a water pump is fixedly arranged on the lower end wall in the water pump cavity, a pipeline is fixedly connected to the water pump, a spray nozzle is fixedly connected to a pipeline water outlet, one end, far away from the annular water tank, of the pipeline in the water pump cavity is connected to an external water source, one end, close to the annular water tank, of the pipeline in the water pump cavity is connected to a through pipe positioned in the annular water tank, spray holes communicating the flushing cavity and the spray nozzle are symmetrically arranged in the left end wall and the right end wall of the flushing cavity, and a third slider is slidably connected in the water pump cavity far away from the annular water, the upper end face of the third sliding block is fixedly connected with one end, far away from the fifth driven shaft, of the pull rope, two second springs fixed on the upper end wall of the water pump cavity far away from the annular water tank are fixedly arranged on the upper end face of the third sliding block, and drainage grooves communicated with the joint cleaning cavity and the outside, the main body cleaning cavity and the flushing cavity are formed in the lower end wall of the joint cleaning cavity, the main body cleaning cavity and the flushing cavity and communicated with the outside.

Preferably, the driving mechanism comprises a motor fixed on the upper end wall of the first transmission cavity, a driving shaft is dynamically connected to the lower end face of the motor, a second transmission cavity engaged with the third transmission friction wheel is fixedly arranged at the upper end of the driving shaft, a fourth belt wheel located on the lower side of the second transmission cavity is arranged on the driving shaft, a first belt is connected between the fourth belt wheel and the second belt wheel, and a fifth belt wheel is fixedly arranged at the lower end of the fourth belt wheel.

Preferably, the transmission mechanism comprises a third transmission shaft which is rotatably connected to the lower end wall of the first transmission cavity and located on the left side of the motor, a sixth belt wheel is fixedly arranged at the upper end of the third transmission shaft, a second belt is connected between the sixth belt wheel and the third belt wheel, a seventh belt wheel is fixedly arranged at the lower end of the third transmission shaft, and a third belt is connected between the seventh belt wheel, the fifth belt wheel and the first belt wheel.

In conclusion, the device capable of cleaning the mosquito teeth of the oral cavity instrument disclosed by the invention has the advantages that the oral cavity instrument to be cleaned is manually placed on the hanging frame, the hanging frame can open the oral cavity instrument to clean the concave-convex mosquito tooth joints of the instrument conveniently, the oral cavity instrument is conveyed into the cleaning mechanism through the conveying mechanism to clean the oral cavity instrument, and the outer surface of the oral cavity instrument is washed through the water spraying mechanism, so that the residual instrument bacteria and sundries are more thoroughly cleaned, the infection of the residual bacteria to a patient is effectively reduced, and the problems that manual cleaning is laborious and the cleaning of joint parts and instruments with mosquito teeth is incomplete are solved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of a device for cleaning the teeth of an oral cavity apparatus according to the present invention;

FIG. 2 is a schematic view of the invention taken along line A-A of FIG. 1;

FIG. 3 is a schematic view of the invention taken along the line G-G of FIG. 2;

FIG. 4 is a schematic view of the invention taken along the line B-B in FIG. 1;

FIG. 5 is a schematic view of the invention taken in the direction H-H in FIG. 4;

FIG. 6 is a schematic view of the invention taken along the line C-C of FIG. 1;

FIG. 7 is an enlarged view taken at D of FIG. 1 in accordance with the present invention;

FIG. 8 is an enlarged view of FIG. 1 at E according to the present invention;

FIG. 9 is an enlarged view of the invention at F in FIG. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations where mutually exclusive features or steps are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-9, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

As shown in fig. 1-9, the device for cleaning oral cavity apparatus mosquito teeth of the invention comprises a casing 10, an annular water tank 25 is arranged in the casing 10, a control chamber 23 is arranged in the upper end wall of the annular water tank 25, a transport mechanism 90 for providing rotary transport is arranged in the control chamber 23, the left and right end walls and the rear end wall of the control chamber 23 are connected with the same three control mechanisms 91, four communicated working chambers are annularly and uniformly distributed in the lower end wall of the control chamber 23 and respectively comprise a washing chamber 12, a joint cleaning chamber 35, a main body cleaning chamber 44 and a cleaning chamber 59, three same water spraying mechanisms 93 are respectively arranged in the washing chamber 12, the joint cleaning chamber 35 and the main body cleaning chamber 44, a mosquito-type hemostatic forceps 34 is arranged in the joint cleaning chamber 35, a communication port 60 for communicating the cleaning chamber 59 with the outside is arranged in the front end wall of the cleaning chamber 59, be equipped with first transmission chamber 43 in the terminal wall under the annular water tank 25, be equipped with power drive's actuating mechanism 92 and power transmission's drive mechanism 95 in the first transmission chamber 43, be equipped with left end opening intercommunication in the right-hand member wall of first transmission chamber 43 the second transmission chamber 62 of first transmission chamber 43, be equipped with in the second transmission chamber 62 with the abluent wiper mechanism 94 of mosquito-repellent incense forceps 34, wiper mechanism 94 includes second transmission chamber 62 lower extreme wall rotates and is connected with the upper end and runs through second transmission chamber 62 upper end wall and upper end are located the first transmission shaft 63 in joint washing chamber 35, first transmission shaft 63 upper end sets firmly the triangle-shaped brush sleeve 75 that is located in joint washing chamber 35, be equipped with on the first transmission shaft 63 and be located the first transmission friction wheel 65 in the second transmission chamber 62, first transmission shaft 63 lower extreme sets firmly be located the first band pulley 64 in the second transmission chamber 62, during operation, it will be abluent manually mosquito hemostatic forceps 34 puts into through intercommunication mouth 60 in the joint washing chamber 35, and then will actuating mechanism 92 starts, thereby makes transport mechanism 90 work drives mosquito hemostatic forceps 34 transports, and then passes through control mechanism 91 makes water spray mechanism 93 work is right mosquito hemostatic forceps 34 sprays water, just actuating mechanism 92 passes through drive mechanism 95 makes wiper mechanism 94 work, and then can be to getting into the work intracavity mosquito hemostatic forceps 34 washs, passes through after the washing completion wipe clean chamber 59 will mosquito hemostatic forceps 34 clean.

Beneficially, the cleaning mechanism 94 includes two third transmission cavities 46 symmetrically provided with openings communicated with the first transmission cavity 43 in front and back end walls of the first transmission cavity 43, a driven mechanism 89 is provided in each third transmission cavity 46, two driven cavities 70 with lower end openings communicated with the second transmission cavity 62 are provided symmetrically left and right in an upper end wall of the second transmission cavity 62 relative to the first transmission shaft 63, an upper end surface of each driven cavity 70 is rotatably connected with a first driven shaft 73 with an upper end penetrating through the upper end wall of the driven cavity 70 and an upper end positioned in the joint cleaning cavity 35, a first brush sleeve 74 positioned in the joint cleaning cavity 35 is fixedly arranged at the upper end of the first driven shaft 73, a first transmission bevel gear 72 positioned in the driven cavity 70 is fixedly arranged at the lower end of the first driven shaft 73, an end wall in the driven cavity 70 at the left side close to the first transmission shaft 63 is rotatably connected with an end wall penetrating through the driven cavity 70 at the left side close to the end wall of the first transmission shaft 63 and a left end The second driven shaft 69 is positioned in the left driven cavity 70, the right end of the second driven shaft 69 is positioned on the right side of the driven cavity 70, two second transmission bevel gears 71 meshed with the first transmission bevel gears 72 which are bilaterally symmetrical are symmetrically arranged at the left end and the right end of the second driven shaft 69, the lower end wall of the second transmission cavity 62 is rotatably connected with a second transmission shaft 66 positioned at the left rear side of the first transmission shaft 63, a second transmission friction wheel 67 which is positioned in the second transmission cavity 62 and meshed with the first transmission friction wheel 65 is fixedly arranged on the second transmission shaft 66, and a third transmission bevel gear 68 which is positioned on the left side of the driven cavity 70 and meshed with the second transmission bevel gear 71 is fixedly arranged at the upper end of the second transmission shaft 66.

Beneficially, the driven mechanism 89 includes two third driven shafts 48, which are symmetrically arranged in the third transmission cavity 46 at the rear side in a front-back manner, are rotatably connected with the lower end wall of the third transmission cavity 46 at the rear side, and have upper ends penetrating through the upper end wall of the third transmission cavity 46 at the rear side, and have upper ends positioned in the main body cleaning cavity 44, a second brush sleeve 45 positioned in the main body cleaning cavity 44 is fixedly arranged at the upper end of the third driven shaft 48, two first driven spur gears 47, which are positioned in the third transmission cavity 46 at the rear side and are engaged with each other, are fixedly arranged on the two third driven shafts 48, a second pulley 49 positioned in the third transmission cavity 46 at the rear side is fixedly arranged at the lower end of the third driven shaft 48, which is close to the first transmission cavity 43, two fourth driven shafts 54, which are symmetrically arranged in the third transmission cavity 46 at the front side in a front-back manner, are rotatably connected with the lower end wall of the third transmission cavity 46 at the front side, and have upper ends penetrating through the upper end wall of the third transmission cavity 46 at the, the upper end of the fourth driven shaft 54 is fixedly provided with a gauze sleeve 58 positioned in the wiping cavity 59, two second driven spur gears 56 which are positioned at the front side and are meshed with each other are fixedly arranged on the fourth driven shaft 54, and the lower end of the fourth driven shaft 54 close to the first transmission cavity 43 is fixedly provided with a third belt wheel 55 which is positioned at the front side and is positioned in the third transmission cavity 46.

Advantageously, the transportation mechanism 90 includes a rectangular groove 20 disposed in the lower end wall of the control chamber 23 and communicating the control chamber 23 with the flushing chamber 12, the joint cleaning chamber 35, the main body cleaning chamber 44 and the wiping chamber 59, a fifth driven shaft 27 having a lower end penetrating through the lower end wall of the control chamber 23 and a lower end disposed in the first transmission chamber 43 is rotatably connected to the lower end wall of the control chamber 23, a third transmission friction wheel 38 disposed in the first transmission chamber 43 is fixedly connected to the lower end of the fifth driven shaft 27, a circular wheel disc 26 disposed in the control chamber 23 is fixedly disposed at the upper end of the fifth driven shaft 27, a connecting rod 28 is fixedly connected to the outer end wall of the right side of the circular wheel disc 26, a sliding groove 29 having a lower end opening communicating with the control chamber 23 is disposed in the connecting rod 28, a first sliding block 30 slidably connected is disposed in the sliding groove 29, a fixing column 31 is rotatably connected to the lower end surface of the first sliding block, the lower end face of the fixing column 31 is fixedly connected with a second sliding block 32 which is positioned in the return groove 20 and is in sliding connection with the return groove 20, and the lower end face of the second sliding block 32 is fixedly connected with a U-shaped rod 33 which is positioned in the joint cleaning cavity 35 and can drive the mosquito-type hemostatic forceps 34 to transport.

Beneficially, the control mechanism 91 includes a moving block 24 slidably connected to upper and lower end walls of the control chamber 23 in the control chamber 23, two first springs 22 fixed to an inner wall of the control chamber 23 are fixedly arranged on an end surface of the moving block 24 away from the fifth driven shaft 27, and a pull rope 21 having a lower end connected to the water spraying mechanism 93 and having one end far away from the fifth driven shaft 27 penetrating through an inner wall of the control chamber 23 is fixed to an end surface of the moving block 24 away from the fifth driven shaft 27.

Advantageously, the water spraying mechanism 93 comprises a water pump cavity 16, two water pump cavities 16 are symmetrically arranged in the end wall of the joint cleaning cavity 35, the main body cleaning cavity 44 and the flushing cavity 12 close to the annular water tank 25 and in the end wall of the joint cleaning cavity 12 far away from the annular water tank 25, a water pump 14 is fixedly arranged on the inner lower end wall of the water pump cavity 16, a pipeline 15 is fixedly connected to the water pump 14, a spray head 19 is fixedly connected to the water outlet of the pipeline 15, one end of the pipeline 15 in the water pump cavity 16 far away from the annular water tank 25 is connected to an external water source, one end of the pipeline 15 in the water pump cavity 16 close to the annular water tank 25 is connected to a through pipe 61 positioned in the annular water tank 25, and spray holes 13 communicating the flushing cavity 12 with the spray head 19 are symmetrically arranged in the left end wall and the right end wall of the flushing cavity 12, a third slider 17 is slidably connected in the water pump cavity 16 far away from the annular water tank 25, the upper end surface of the third slider 17 is fixedly connected with one end of the pull rope 21 far away from the fifth driven shaft 27, two second springs 18 fixed on the upper end wall of the water pump cavity 16 far away from the annular water tank 25 are fixedly arranged on the upper end surface of the third slider 17, and a water drainage groove 11 for communicating the joint cleaning cavity 35 with the outside, the main body cleaning cavity 44 and the flushing cavity 12 is formed in the lower end wall of the joint cleaning cavity 35, the main body cleaning cavity 44 and the outside and communicating the flushing cavity 12 with the outside.

Advantageously, the driving mechanism 92 includes a motor 36 fixed to the upper end wall of the first transmission chamber 43, a driving shaft 51 is dynamically connected to the lower end surface of the motor 36, a second transmission chamber 62 engaged with the third transmission friction wheel 38 is fixed to the upper end of the driving shaft 51, a fourth pulley 53 located on the lower side of the second transmission chamber 62 is provided on the driving shaft 51, a first belt 50 is connected between the fourth pulley 53 and the second pulley 49, and a fifth pulley 52 is fixed to the lower end of the fourth pulley 53.

Advantageously, the transmission mechanism 95 includes a third transmission shaft 40 rotatably connected to the lower end wall of the first transmission cavity 43 and located on the left side of the motor 36, a sixth pulley 41 is fixedly arranged on the upper end of the third transmission shaft 40, a second belt 42 is connected between the sixth pulley 41 and the third pulley 55, a seventh pulley 39 is fixedly arranged on the lower end of the third transmission shaft 40, and a third belt 37 is connected between the seventh pulley 39, the fifth pulley 52 and the first pulley 64.

The applicant will now specifically describe a device for cleaning the teeth of an oral appliance according to the present application with reference to the accompanying figures 1 to 9 and the description above: in the initial state, the second spring 18 is in a compressed state, the first spring 22 is in a relaxed state, the elastic force of the first spring 22 is larger than that of the second spring 18, the transmission ratio of the second transmission cavity 62 to the third transmission friction wheel 38 is five to one, the distance from the upper end surface of the water pump 14 to the upper end surface of the water pump cavity 16 is smaller than the distance from the end surface of the moving block 24 away from the fifth driven shaft 27 to the end wall of the control cavity 23 away from the fifth driven shaft 27, water is fully stored in the annular water tank 25, the end surface of the first slider 30 away from the fifth driven shaft 27 is in contact with the end wall of the sliding chute 29 away from the fifth driven shaft 27, the connecting rod 28 is located at the position of negative forty-five degrees in the fourth quadrant in the horizontal direction, the lower end surface of the third slider 17 is not in contact with the upper end surface of the water pump 14, the water pump 14 away from the annular water tank 25 is electrically connected with the water pump 14 close to the annular water tank 25, and the; when the cleaning device starts to work, the mosquito-type hemostatic forceps 34 to be cleaned is manually put from the outside onto the lower end of the U-shaped rod 33 in the joint cleaning cavity 35 through the communicating port 60, the second sliding block 32 is started, the second sliding block 32 drives the second transmission cavity 62, the fourth belt wheel 53 and the fifth belt wheel 52 to rotate through the driving shaft 51, the second transmission cavity 62 enables the third transmission friction wheel 38 to drive the circular wheel disc 26 to rotate through the fifth driven shaft 27, the circular wheel disc 26 drives the first sliding block 30 to rotate around the fifth driven shaft 27 through the connecting rod 28, the second sliding block 32 is driven to slide in the circular groove 20 through the fixed column 31, the U-shaped rod 33 drives the mosquito-type hemostatic forceps 34 to transport the mosquito-type hemostatic forceps 34 into the joint cleaning cavity 35, when the fourth belt wheel 53 rotates, the second belt wheel 49 on the third driven shaft 48 close to the first transmission cavity 43 in the rear-side third transmission cavity 46 is driven through the first belt 50 to drive the third belt wheel 48 close to rotate close to the first transmission cavity 43, and further the first driven spur gear 47 far from the first transmission chamber 43 drives the third driven shaft 48 far from the first transmission chamber 43 to rotate, thereby driving the second brush sleeve 45 located in the main body cleaning chamber 44 on the two third driven shafts 48 to rotate, when the fifth belt wheel 52 rotates, the seventh belt wheel 39 and the first belt wheel 64 are driven to rotate by the third belt 37, and further the first belt wheel 64 drives the first transmission friction wheel 65 and the triangular brush sleeve 75 to rotate by the first transmission shaft 63, and further the first transmission friction wheel 65 drives the second transmission shaft 66 to rotate by the second transmission friction wheel 67, and further drives the left second transmission bevel gear 71 to rotate by the third transmission bevel gear 68, and further drives the right second transmission bevel gear 71 to rotate by the second driven shaft 69, thereby driving the left and right first transmission bevel gears 72 to rotate, and further the first transmission bevel gear 72 drives the first brush sleeve 74 to rotate by the first driven shaft 73, the seventh belt pulley 39 rotates to drive the sixth belt pulley 41 to rotate through the third transmission shaft 40, and then the sixth belt pulley 41 drives the third belt pulley 55 on the fourth driven shaft 54 close to the first transmission cavity 43 in the front-side third transmission cavity 46 to rotate through the second belt 42, and then drives the second driven spur gear 56 close to the first transmission cavity 43 to rotate through the fourth driven shaft 54 close to the first transmission cavity 43, and further drives the fourth driven shaft 54 far from the first transmission cavity 43 to rotate through the second driven spur gear 56 far from the first transmission cavity 43, so as to drive the gauze sleeves 58 in the wiping cavities 59 on the two fourth driven shafts 54 to rotate; when the U-shaped rod 33 drives the mosquito-type hemostatic forceps 34 to transport the mosquito-type hemostatic forceps 34 in a rotating manner, the moving block 24 on the right side of the control cavity 23 is pushed, the first spring 22 on the right side is compressed, the pull rope 21 on the right side is loosened, the third slide block 17 of the water pump 14 in the right end wall of the joint cleaning cavity 35 is pressed by the second spring 18 in the right end wall of the joint cleaning cavity 35, the upper end surface of the water pump 14 in the right end wall of the joint cleaning cavity 35 is contacted with the lower end surface of the third slide block 17 in the right end wall of the joint cleaning cavity 35, the water pump 14 in the right end wall of the joint cleaning cavity 35 is started, the water pump 14 in the left end wall of the joint cleaning cavity 35 is started, water is sprayed into the joint cleaning cavity 35 through the spray nozzles 19 at the water outlets of the pipelines 15 in the left and right end walls of the joint cleaning cavity 35, the water is sprayed towards the mosquito-type hemostatic forceps 34 entering the joint cleaning cavity 35, and the fifth shaft 27 continuously drives the connecting, then the U-shaped rod 33 drives the mosquito-shaped hemostatic forceps 34 to move backwards, so that the lower end of the mosquito-shaped hemostatic forceps 34 passes through the first brush sleeve 74 to be contacted with the triangular brush sleeve 75, and water in the joint cleaning cavity 35 is continuously sprayed, further, the mosquito teeth and joints at the lower end of the mosquito-type hemostatic forceps 34 are cleaned by the rotation of the first brush sleeve 74 and the triangular brush sleeve 75, the circular wheel disc 26 continues to drive the connecting rod 28 to rotate, and then drives the fixed column 31 to rotate through the first sliding block 30 in the sliding slot 29, so that the second sliding block 32 slides in the square-shaped slot 20, thereby driving the mosquito-type hemostatic forceps 34 to move along with the second slide block 32 through the U-shaped rod 33, cleaning the mosquito teeth and joints at the lower end of the mosquito-type hemostatic forceps 34, and the round wheel disc 26 drives the connecting rod 28 to rotate, so that the first sliding block 30 in the sliding chute 29 drives the fixed column 31, so that the second slide block 32 drives the mosquito-type hemostatic forceps 34 to rotate along with the connecting rod 28 through the U-shaped rod 33; when the circular disc 26 drives the connecting rod 28 to rotate to the position where the joint cleaning cavity 35 is communicated with the main body cleaning cavity 44, the first sliding block 30 drives the fixed driving column 31 to slide in the sliding groove 29, so that the second sliding block 32 drives the mosquito-type hemostatic forceps 34 through the U-shaped rod 33 to keep the placed front state to move leftwards from the backward moving direction to the side surface to enter the main body cleaning cavity 44, further the circular disc 26 drives the connecting rod 28 to rotate around the fifth driven shaft 27 to separate from being abutted to the moving block 24 on the right side of the control cavity 23, further the moving block 24 on the right side of the control cavity 23 is driven by the acting force of the first spring 22 on the right side of the control cavity 23 to further pull the pull rope 21 on the right side of the control cavity 23 leftwards, further the third sliding block 17 in the water pump cavity 16 in the right end wall of the joint cleaning cavity 35 is pulled to compress the second spring 18 upwards, further the lower end surface of, so as to stop the water pump 14 in the water pump chamber 16 in the right end wall of the joint cleaning chamber 35, and the connecting rod 28 is separated from the instant of the moving block 24 on the right side of the control chamber 23 and contacts the moving block 24 on the rear side of the control chamber 23, further pushes the moving block 24 on the rear side of the control chamber 23 to compress the first spring 22 on the rear side of the control chamber 23 backward, further releases the pull rope 21 on the rear side of the control chamber 23, so that the third slider 17 of the water pump 14 in the water pump chamber 16 in the rear end wall of the main body cleaning chamber 44 is contacted with the lower end surface of the third slider 17 in the rear end wall of the main body cleaning chamber 44 under the action of the second spring 18 in the rear end wall of the main body cleaning chamber 44, further starts the water pump 14 in the rear end wall of the main body cleaning chamber 44, further sprays water into the main body cleaning chamber 44 through the spray nozzle 19 at the water outlet of the pipeline 15 in the left rear end wall of the main body cleaning chamber 44, then water is sprayed towards the mosquito-type hemostatic forceps 34 entering the main body cleaning cavity 44, the fifth driven shaft 27 continues to drive the connecting rod 28 to rotate around the fifth driven shaft 27 through the circular disc 26, so that the connecting rod 28 continuously pushes the moving block 24 at the rear side of the control cavity 23, the water spraying on the mosquito-type hemostatic forceps 34 is kept in the main body cleaning cavity 44, the mosquito-type hemostatic forceps 34 are further driven by the U-shaped rod 33 to move leftwards, the front and rear end faces of the mosquito-type hemostatic forceps 34 are in contact with the two second brush sleeves 45 which are symmetrical front and back in the main body cleaning cavity 44, so that the surface of the mosquito-type hemostatic forceps 34 is cleaned, the circular disc 26 continues to drive the connecting rod 28 to rotate, the fixing column 31 is further driven by the first sliding block 30 in the sliding groove 29 to rotate, the second sliding block 32 slides in the clip-shaped groove 20, the mosquito-type hemostatic forceps 34 are driven by the U-shaped rod 33 to move along with the second sliding block, and then the round disc 26 continues to drive the connecting rod 28 to rotate, so that the first slide block 30 in the sliding groove 29 drives the fixed column 31 to rotate, thereby the second slide block 32 drives the mosquito-type hemostatic forceps 34 to move along with the fixed column 31 through the U-shaped rod 33, when the round disc 26 drives the connecting rod 28 to rotate to the position where the main body cleaning cavity 44 is communicated with the washing cavity 12, the first slide block 30 drives the fixed column 31 to slide in the sliding groove 29, so that the second slide block 32 drives the mosquito-type hemostatic forceps 34 through the U-shaped rod 33 to keep entering the side surface of the main body cleaning cavity 44 to move forward in the front direction to enter the washing cavity 12 in a state of moving the side surface leftward, further the round disc 26 drives the connecting rod 28 to rotate around the fifth driven shaft 27 to separate from abutting against the moving block 24 at the rear side of the control cavity 23, and further the moving block 24 at the rear side of the control cavity 23 is driven, thereby pulling the third slider 17 positioned in the water pump chamber 16 in the rear end wall of the main body cleaning chamber 44 to compress the rear second spring 18 upwards, and further separating the lower end surface of the third slider 17 from contacting with the upper end surface of the water pump 14 positioned in the water pump chamber 16 in the rear end wall of the main body cleaning chamber 44, thereby stopping the operation of the water pump 14 positioned in the water pump chamber 16 in the rear end wall of the main body cleaning chamber 44; the connecting rod 28 is separated from the moving block 24 at the rear side of the control cavity 23 and is instantaneously contacted with the moving block 24 at the left side of the control cavity 23, so that the moving block 24 at the left side of the control cavity 23 is pushed to backwards compress the first spring 22 at the left side of the control cavity 23, and further the pull rope 21 at the left side of the control cavity 23 is loosened, so that the third slider 17 of the water pump 14 in the water pump cavity 16 in the left end wall of the flushing cavity 12 is under the action of the second spring 18 in the water pump cavity 16 in the left end wall of the flushing cavity 12, the upper end surface of the water pump 14 in the left end wall of the flushing cavity 12 is contacted with the lower end surface of the third slider 17 in the left end wall of the flushing cavity 12, and further the water pump 14 in the left end wall of the flushing cavity 12 is started, and further water is sprayed into the flushing cavity 12 through the spray nozzle 19 at the water outlet of the pipeline 15 in the left end wall of the flushing cavity 12 and is sprayed towards the driven mosquito-type hemostatic forceps 34, then the connecting rod 28 continuously pushes the moving block 24 on the left side of the control cavity 23, so that the water in the washing cavity 12 is kept spraying and washing the mosquito-type hemostatic forceps 34, the circular wheel disc 26 continuously drives the connecting rod 28 to rotate, the fixed column 31 is driven to rotate by the first slide block 30 in the sliding groove 29, the second slide block 32 slides in the clip groove 20, so that the mosquito-type hemostatic forceps 34 is driven to move along with the second slide block 32 by the U-shaped rod 33, and after the mosquito-type hemostatic forceps 34 are washed completely by the water, the connecting rod 28 is further driven to rotate by the circular wheel disc 26 continuously, the fixed column 31 is driven to rotate by the first slide block 30 in the sliding groove 29, so that the mosquito-type hemostatic forceps 34 is driven to move along with the fixed column 31 by the U-shaped rod 33, when the connecting rod 28 is driven to rotate to the communication position of the washing cavity 12 and the cleaning cavity 59, the fixed column 31 is driven to slide in, the second sliding block 32 drives the mosquito-repellent hemostats 34 to keep entering the flushing cavity 12 through the U-shaped rod 33, the evidence of the mosquito-repellent hemostat 34 keeps moving towards the front and moving towards the side and moving towards the right to enter the wiping cavity 59, the round disc 26 drives the connecting rod 28 to rotate around the fifth driven shaft 27 to separate from the contact with the moving block 24 at the left side of the control cavity 23, the moving block 24 at the left side of the control cavity 23 is further acted by the first spring 22 at the left side of the control cavity 23 to further pull the pull rope 21 at the left side of the control cavity 23 leftwards, so that the third sliding block 17 positioned in the water pump cavity 16 in the left end wall of the flushing cavity 12 is pulled to compress the second spring 18 upwards, the lower end face of the third sliding block 17 is separated from the contact with the upper end face of the water pump 14 positioned in the water pump cavity 16 in the left; the fifth driven shaft 27 drives the connecting rod 28 to rotate around the fifth driven shaft 27 continuously through the circular wheel disc 26, further drives the fixing post 31 to rotate through the first sliding block 30 in the sliding groove 29, so that the second sliding block 32 slides in the clip groove 20, further drives the mosquito-type hemostatic forceps 34 to move along with the second sliding block 32 through the U-shaped rod 33, further drives the mosquito-type hemostatic forceps 34 to move laterally and rightwards to penetrate through the two gauze sleeves 58 in the wiping cavity 59, further wipes off the residual water after washing on the mosquito-type hemostatic forceps 34, further drives the connecting rod 28 to rotate continuously through the circular wheel disc 26, drives the fixing post 31 to rotate through the first sliding block 30 in the sliding groove 29, further drives the mosquito-type hemostatic forceps 34 to move along with the fixing post 31 through the U-shaped rod 33, further drives the connecting rod 28 to rotate to the communication position of the wiping cavity 59 and the joint cleaning cavity 35 through the circular wheel disc 26, and the device stops working for waiting for the next, the cleaned mosquito hemostats 34 can then be removed for subsequent sterilization via the communication opening 60 in the front end wall of the scrubbing chamber 59.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (1)

1. The utility model provides a device that can wash oral cavity apparatus mosquito tooth, includes the casing, its characterized in that: the improved joint cleaning device is characterized in that an annular water tank is arranged in the shell, a control cavity is arranged in the upper end wall of the annular water tank, a conveying mechanism for providing rotary transportation is arranged in the control cavity, the left end wall, the right end wall and the rear end wall of the control cavity are connected with the same three control mechanisms, four communicated working cavities are arranged in the lower end wall of the control cavity in an annular arrangement mode and are respectively a washing cavity, a joint cleaning cavity, a main body cleaning cavity and a cleaning cavity, three same water spraying mechanisms are arranged in the washing cavity, the joint cleaning cavity is internally provided with mosquito-type hemostatic forceps, a communication port for communicating the cleaning cavity with the outside is arranged in the front end wall of the cleaning cavity, a first transmission cavity is arranged in the lower end wall of the annular water tank, a power-driven driving mechanism and a power-transmission mechanism are arranged in the first transmission cavity, a left end opening is arranged in the right end wall of the first transmission cavity and is communicated with a second transmission cavity of, a cleaning mechanism for cleaning the mosquito-type hemostatic forceps is arranged in the second transmission cavity; the cleaning mechanism comprises a first transmission shaft, the lower end wall of the second transmission cavity is rotatably connected with the first transmission shaft, the upper end of the first transmission shaft penetrates through the upper end wall of the second transmission cavity, the upper end of the first transmission shaft is positioned in the joint cleaning cavity, a triangular brush sleeve positioned in the joint cleaning cavity is fixedly arranged at the upper end of the first transmission shaft, a first transmission friction wheel positioned in the second transmission cavity is fixedly arranged on the first transmission shaft, and a first belt wheel positioned in the second transmission cavity is fixedly arranged at the lower end of the first transmission shaft; when the cleaning device works, the mosquito-type hemostatic forceps to be cleaned are manually placed into the joint cleaning cavity through the communicating port, the driving mechanism is started, so that the transporting mechanism works to drive the mosquito-type hemostatic forceps to transport, the water spraying mechanism works to spray water to the mosquito-type hemostatic forceps through the control mechanism, the driving mechanism enables the cleaning mechanism to work through the transmission mechanism, the mosquito-type hemostatic forceps entering the working cavity can be cleaned, and the mosquito-type hemostatic forceps are cleaned through the cleaning cavity after the cleaning is finished; wiper mechanism includes the front and back symmetry is equipped with the opening intercommunication in the end wall around the first transmission chamber two third transmission chambers in first transmission chamber, be equipped with follower in the third transmission chamber, in the second transmission chamber up end wall for first transmission shaft bilateral symmetry is equipped with lower extreme opening intercommunication two driven chambers in second transmission chamber, the driven chamber up end rotates to be connected with the upper end and runs through driven chamber up end and upper end are located the first driven shaft in the joint cleaning chamber, first driven shaft upper end has set firmly to be located the first brush sleeve in the joint cleaning chamber, first driven shaft lower extreme has set firmly to be located the first transmission bevel gear in the driven chamber, left side the driven chamber is close to the end wall of first transmission shaft rotates to be connected with and runs through the left side the driven chamber is close to the end wall and the left end of first transmission shaft are located the left side driven intracavity and right end are located the driven intracavity second driven chamber in the driven chamber The left end and the right end of the second driven shaft are symmetrically provided with two second transmission bevel gears meshed with the first transmission bevel gears which are bilaterally symmetrical, the lower end wall of the second transmission cavity is rotatably connected with a second transmission shaft positioned at the left rear side of the first transmission shaft, a second transmission friction wheel positioned in the second transmission cavity and meshed with the first transmission friction wheel is fixedly arranged on the second transmission shaft, and a third transmission bevel gear positioned in the left driven cavity and meshed with the second transmission bevel gears is fixedly arranged at the upper end of the second transmission shaft; the driven mechanism comprises two third driven shafts which are symmetrically arranged at the front and back of the rear side in the third transmission cavity, are rotatably connected with the rear side through the lower end wall of the third transmission cavity, the upper ends of the two third driven shafts penetrate through the rear side, are positioned in the main body cleaning cavity, the upper ends of the third driven shafts are fixedly provided with a second brush sleeve positioned in the main body cleaning cavity, two first driven straight gears which are positioned at the rear side in the third transmission cavity and are mutually meshed are fixedly arranged on the two third driven shafts, the lower end of the third driven shaft close to the first transmission cavity is fixedly provided with a second belt pulley positioned at the rear side in the third transmission cavity, the front side in the third transmission cavity is symmetrically arranged at the front and back of the third transmission cavity, is rotatably connected with the lower end wall of the third transmission cavity, the upper end of the third transmission cavity penetrates through the front side, and is positioned at the upper end of the two fourth driven shafts in the cleaning, a gauze sleeve positioned in the wiping cavity is fixedly arranged at the upper end of the fourth driven shaft, two second driven straight gears which are positioned in the third transmission cavity at the front side and are meshed with each other are fixedly arranged on the two fourth driven shafts, and a third belt wheel positioned in the third transmission cavity at the front side is fixedly arranged at the lower end of the fourth driven shaft close to the first transmission cavity; the transportation mechanism comprises a loop-shaped groove which is arranged in the lower end wall of the control cavity and is communicated with the control cavity, the washing cavity, the joint washing cavity, the main body washing cavity and the wiping cavity, the lower end wall of the control cavity is rotatably connected with a fifth driven shaft, the lower end of the fifth driven shaft penetrates through the lower end wall of the control cavity, the lower end of the fifth driven shaft is positioned in the first driving cavity, the lower end of the fifth driven shaft is fixedly connected with a third driving friction wheel which is positioned in the first driving cavity, the upper end of the fifth driven shaft is fixedly provided with a round disc which is positioned in the control cavity, the outer end wall of the right side of the round disc is fixedly connected with a connecting rod, a sliding groove with an opening at the lower end communicated with the control cavity is arranged in the connecting rod, a first sliding block which is connected in a sliding manner is arranged in the sliding groove, the lower end surface of the first sliding block is, the lower end surface of the second sliding block is fixedly connected with a U-shaped rod which is positioned in the joint cleaning cavity and can drive the mosquito-type hemostatic forceps to transport; the control mechanism comprises a moving block which is connected with the upper end wall and the lower end wall of the control cavity in a sliding manner in the control cavity, two first springs fixed with the inner wall of the control cavity are fixedly arranged on the end surface, away from the fifth driven shaft, of the moving block, and a pull rope, away from the fifth driven shaft, is fixedly arranged on the end surface, away from the fifth driven shaft, of the moving block, and penetrates through the inner wall of the control cavity, and the lower end of the pull rope is connected with the water spraying mechanism; the water spraying mechanism comprises a water pump cavity, two water pump cavities are symmetrically arranged in the end wall of the joint cleaning cavity, the main body cleaning cavity and the flushing cavity close to the annular water tank and in the end wall far away from the annular water tank, a water pump is fixedly arranged on the lower end wall in the water pump cavity, a pipeline is fixedly connected to the water pump, a nozzle is fixedly connected to a pipeline water outlet, one end, far away from the annular water tank, of the pipeline in the water pump cavity is connected with an external water source, one end, close to the annular water tank, of the pipeline in the water pump cavity is connected with a through pipe positioned in the annular water tank, spray holes communicating the flushing cavity and the nozzle are symmetrically arranged in the left end wall and the right end wall of the flushing cavity, far away from the annular water tank, of the water pump cavity is connected with a third sliding block in a sliding mode, and the upper end face of the third sliding block is fixedly, two second springs fixed to the upper end wall of the water pump cavity far away from the annular water tank are fixedly arranged on the upper end face of the third sliding block, and water draining grooves communicated with the joint cleaning cavity and the outside, the main body cleaning cavity and the outside and the washing cavity and the outside are formed in the lower end walls of the joint cleaning cavity, the main body cleaning cavity and the washing cavity; the driving mechanism comprises a motor fixed on the upper end wall of the first transmission cavity, the lower end face of the motor is in power connection with a driving shaft, the upper end of the driving shaft is fixedly provided with a second transmission cavity meshed with the third transmission friction wheel, the driving shaft is provided with a fourth belt wheel positioned on the lower side of the second transmission cavity, a first belt is connected between the fourth belt wheel and the second belt wheel, and the lower end of the fourth belt wheel is fixedly provided with a fifth belt wheel; the transmission mechanism comprises a third transmission shaft which is arranged on the left side of the motor and is rotatably connected with the lower end wall of the first transmission cavity, a sixth belt wheel is fixedly arranged at the upper end of the third transmission shaft, a second belt is connected between the sixth belt wheel and the third belt wheel, a seventh belt wheel is fixedly arranged at the lower end of the third transmission shaft, and a third belt is connected between the seventh belt wheel and the fifth belt wheel and the first belt wheel.

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