Disclosure of Invention
The invention mainly solves the technical problem of providing oral cleaning equipment for stomatology department, which can assist a patient to open a mouth, can spray cleaning liquid into the mouth of the patient, can automatically adsorb the cleaning liquid sprayed into the mouth of the patient to an outlet cavity, can automatically move a spray head and an adsorption head out of the mouth after the cleaning liquid is adsorbed, and can automatically discharge the adsorbed cleaning liquid to another cavity of a cleaning liquid tank.
In order to solve the technical problem, the invention relates to oral cleaning equipment, in particular to oral cleaning equipment for stomatology department, which comprises an auxiliary opening and closing mechanism, a transverse reciprocating mechanism and a cleaning liquid output linkage mechanism, wherein the equipment can assist a patient to open a mouth, can spray cleaning liquid into the mouth of the patient, can automatically adsorb the cleaning liquid sprayed into the mouth of the patient to an outlet cavity, can automatically move a spray head and an adsorption head out of the mouth after adsorbing the cleaning liquid, and can automatically discharge the adsorbed cleaning liquid to another cavity of a cleaning liquid box.
The auxiliary opening and closing mechanism is connected with the transverse reciprocating mechanism, the transverse reciprocating mechanism is connected with the cleaning liquid output linkage mechanism, and the cleaning liquid output linkage mechanism is connected with the auxiliary opening and closing mechanism.
As a further optimization of the technical scheme, the invention relates to oral cavity cleaning equipment for department of stomatology, wherein the auxiliary opening and closing mechanism comprises a power shaft, a connecting plate a, a friction wheel a, a friction strip, an upper auxiliary sheet, a reset strip, a lower auxiliary sheet supporting strip, a supporting sheet supporting column, a reset column a, a reset plate, a reset spring, a belt a, a forward threaded pipe, a reverse threaded pipe, an upper jaw adsorption block, a forward threaded block, a spring a, a connecting plate b, a compression column, a belt b, a nozzle connecting pipe, a connecting plate c, a spherical nozzle, an equipment installation block and a connecting plate e, the power shaft is connected with a bearing of the connecting plate a, the connecting plate a is connected with the equipment installation block, the friction wheel a is connected with the friction strip, the friction strip is connected with the upper auxiliary sheet, the friction strip is connected with the equipment installation block in a sliding manner, the upper auxiliary sheet is connected with a reset strip, the reset strip is connected with an equipment installation block in a sliding way, two ends of the lower auxiliary sheet are connected with a lower auxiliary sheet support bar, the lower auxiliary sheet support bar is connected with a supporting sheet, the supporting sheet is connected with a supporting sheet support column, the supporting sheet support column is connected with a connecting plate e, a reset column a is connected with an upper reset plate, the reset column a is connected with a lower reset plate in a sliding way, the upper reset plate is slightly longer than the lower reset plate, the upper reset plate is connected with the equipment installation block in a sliding way, the lower reset plate is connected with the equipment installation block, a reset spring is sleeved on the reset column a and limited on the two reset plates, one end of a belt is in friction connection with a power shaft, the other end of the belt is in friction connection with a forward threaded pipe, the belt a is in friction connection with a reverse threaded pipe, the forward threaded pipe is connected with an upper jaw adsorption block, the forward threaded pipe is in threaded connection with the forward threaded block, the positive threaded pipe is connected with a connecting plate c, the positive threaded pipe is connected with an equipment installation block in a sliding mode, the reverse threaded pipe is connected with a belt b in a friction mode, the reverse threaded pipe is connected with the equipment installation block in a sliding mode, the positive threaded block is connected with a compression column, a spring a is sleeved on the compression column and limited to the positive threaded block and the connecting plate b, the connecting plate b is connected with the equipment installation block, the connecting plate b is connected with the compression column in a sliding mode, the belt b is connected with a sprayer connecting pipe in a friction mode, the sprayer connecting pipe is connected with the connecting plate c, the sprayer connecting pipe is connected with the equipment installation block in a sliding mode, the sprayer connecting pipe is connected with a spherical sprayer, and the equipment installation block is connected with the connecting plate e.
As a further optimization of the technical scheme, the oral cavity cleaning equipment for the department of stomatology comprises a belt c, a first connecting shaft, a small friction wheel, a large friction wheel, a second connecting shaft, a sliding plate, a sliding groove, a reverse thread block and a first connecting plate, wherein one end of the belt c is in friction connection with a power shaft, the other end of the belt c is in friction connection with the first connecting shaft, the first connecting shaft is connected with the small friction wheel, the first connecting shaft is connected with a first connecting plate bearing, the small friction wheel is in friction connection with the large friction wheel, the large friction wheel is connected with the second connecting shaft, the large friction wheel is in friction connection with the sliding plate, the second connecting shaft is connected with a first connecting plate bearing, the sliding plate is in sliding connection with the sliding groove, the sliding groove is connected with the reverse thread block, and the first connecting plate is connected with a connecting plate e.
As a further optimization of the technical scheme, the oral cleaning device for the department of stomatology comprises a first cleaning liquid output linkage mechanism, a transmission shaft a, a first friction wheel, a transmission shaft b, a rotary adsorption block a, a rotary adsorption block b, a transmission shaft c, an adsorption tank, an adsorption pipe a, an adsorption pipe b, a liquid discharge pipe a, a liquid discharge pipe b, a sealing plate a, an installation plate a, a cleaning liquid box and a cleaning liquid box sealing plate, wherein one end of the belt is in friction connection with a power shaft, the other end of the belt is in friction connection with the transmission shaft a, the belt is in friction connection with the first friction wheel, the transmission shaft a is in bearing connection with the cleaning liquid box, the first friction wheel is in connection with the transmission shaft b, the transmission shaft b is in connection with the rotary adsorption block a, the transmission shaft b is in bearing connection with the sealing plate a, and the transmission shaft b is in sliding connection with the cleaning liquid box, the rotary adsorption block a is connected with the rotary adsorption block b in a sliding manner, the rotary adsorption block b is connected with the transmission shaft c, the transmission shaft c is connected with an adsorption groove bearing, the adsorption groove is connected with the cleaning liquid box in a sliding manner, one end of an adsorption pipe a is connected and communicated with the adsorption groove, the other end of the adsorption pipe a is placed at the bottom of the cleaning liquid box, one end of the adsorption pipe b is connected and communicated with the adsorption groove, the other end of the adsorption pipe b is connected and communicated with a reverse threaded pipe, one end of a liquid discharge pipe a is connected and communicated with the adsorption groove, the other end of the liquid discharge pipe a is connected and communicated with a spray head connecting pipe, one end of the liquid discharge pipe b is connected and communicated with the adsorption groove, the other end of the liquid discharge pipe b is connected and communicated with the cleaning liquid box, the sealing plate a is connected with the mounting plate a in a sliding manner, the sealing plate a is connected with the cleaning liquid box in a sliding manner, and the cleaning liquid box is connected with the sealing plate.
As a further optimization of the technical scheme, the oral cavity cleaning equipment for the department of stomatology is provided, and a large number of small holes are formed in the hollow lower part of the upper jaw adsorption block.
The oral cleaning equipment for the department of stomatology has the beneficial effects that:
the oral cavity cleaning equipment for the department of stomatology can assist a patient to open a mouth, can spray cleaning liquid into the mouth of the patient, can automatically adsorb the cleaning liquid sprayed into the mouth of the patient to an outlet cavity, can automatically move a spray head and an adsorption head out of the oral cavity after the cleaning liquid is adsorbed, and can automatically discharge the adsorbed cleaning liquid to another cavity of a cleaning liquid box.
Detailed Description
The first embodiment is as follows:
the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present invention relates to an oral cleaning device, and more specifically to an oral cleaning device for department of stomatology, which includes an auxiliary opening and closing mechanism 1, a transverse reciprocating mechanism 2, and a cleaning liquid output linkage mechanism 3, and the device can assist a patient to open a mouth, can spray a cleaning liquid into the mouth of the patient, can automatically adsorb the cleaning liquid sprayed into the mouth of the patient, can automatically remove a spray head and an adsorption head from the mouth after adsorbing the cleaning liquid, and can automatically discharge the adsorbed cleaning liquid into another cavity of a cleaning liquid tank.
The auxiliary opening and closing mechanism 1 is connected with the transverse reciprocating mechanism 2, the transverse reciprocating mechanism 2 is connected with the cleaning liquid output linkage mechanism 3, and the cleaning liquid output linkage mechanism 3 is connected with the auxiliary opening and closing mechanism 1.
The second embodiment is as follows:
referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, the present embodiment will be further described, wherein the auxiliary opening and closing mechanism 1 includes a power shaft 1-1, a connecting plate a1-2, a friction wheel a1-3, a friction bar 1-4, an upper auxiliary plate 1-5, a reset bar 1-6, a lower auxiliary plate 1-7, a lower auxiliary plate support bar 1-8, a supporting plate 1-9, a supporting plate support bar 1-10, a reset column a1-11, a reset plate 1-12, a reset spring 1-13, a belt a1-14, a forward threaded pipe 1-15, a reverse threaded pipe 1-16, an upper jaw block 1-17, a forward threaded block 1-18, a spring a1-19, a connecting plate b1-20, a compression column 1-21, a belt b1-22, a connecting plate 1-24, a spray head 1-16, a spray head 1-25, a ball-type mounting device 1-27, a connecting plate 25, the power shaft 1-1 is connected with the connecting plate a1-2 through a bearing, the power shaft 1-1 is connected with the friction wheel a1-3, the connecting plate a1-2 is connected with the equipment mounting block 1-26, the friction wheel a1-3 is connected with the friction strip 1-4 through friction, the friction strip 1-4 is connected with the upper auxiliary sheet 1-5, the friction strip 1-4 is connected with the equipment mounting block 1-26 through sliding, the upper auxiliary sheet 1-5 is connected with the reset strip 1-6, the reset strip 1-6 is connected with the equipment mounting block 1-26 through sliding, two ends of a lower auxiliary sheet 1-7 are connected with a lower auxiliary sheet support bar 1-8, the lower auxiliary sheet support bar 1-8 is connected with a supporting sheet 1-9, the supporting sheet 1-9 is connected with a supporting sheet support column 1-10, the supporting sheet support column 1-10 is connected with a connecting plate e1-27, a reset column a1-11 is connected with an upper reset plate 1-12, the reset column a1-11 is connected with a lower reset plate 1-12 in a sliding way, the upper reset plate 1-12 is slightly longer than the lower reset plate 1-12, the upper reset plate 1-12 is connected with an equipment mounting block 1-26 in a sliding way, the lower reset plate 1-12 is connected with an equipment mounting block 1-26, a reset spring 1-13 is sleeved on the reset column a1-11 and limited on the two reset plates 1-12, one end of a belt a1-14 is connected with a power shaft 1-1 in a friction way, the other end is in friction connection with a forward threaded pipe 1-15, a belt a1-14 is in friction connection with a reverse threaded pipe 1-16, the forward threaded pipe 1-15 is connected with the reverse threaded pipe 1-16, the forward threaded pipe 1-15 is connected with an upper jaw adsorption block 1-17, the forward threaded pipe 1-15 is in thread connection with a forward threaded block 1-18, the forward threaded pipe 1-15 is connected with a connecting plate c1-24, the forward threaded pipe 1-15 is in sliding connection with an equipment installation block 1-26, the reverse threaded pipe 1-16 is in friction connection with a belt b1-22, the reverse threaded pipe 1-16 is in sliding connection with an equipment installation block 1-26, the forward threaded block 1-18 is connected with a compression column 1-21, and a spring a1-19 is sleeved on the compression column 1-21 and limited on the forward threaded block 1-18 and the forward threaded block 1-18 Connecting plates b1-20, connecting plates b1-20 are connected with equipment mounting blocks 1-26, connecting plates b1-20 are slidably connected with compression columns 1-21, belts b1-22 are frictionally connected with nozzle connecting tubes 1-23, nozzle connecting tubes 1-23 are connected with connecting plates c1-24, nozzle connecting tubes 1-23 are slidably connected with equipment mounting blocks 1-26, nozzle connecting tubes 1-23 are connected with spherical nozzles 1-25, equipment mounting blocks 1-26 are connected with connecting plates e1-27, the equipment can assist a patient to open the mouth, the patient bites the upper auxiliary sheet 1-5 and the lower auxiliary sheet 1-7 most, a power shaft 1-1 rotates, the power shaft 1-1 rotates to drive the friction wheel a1-3 to rotate, the friction wheel a1-3 rotates to drive the friction strip 1-4 to move upwards, the friction strip 1-4 moves to drive the upper auxiliary sheet 1-5 to move, the upper auxiliary sheet 1-5 drives the reset strip 1-6 to move, the reset strip 1-6 can automatically reset under the action of the reset spring 1-13, when the friction strip 1-4 moves to the upper limit position of the groove above the equipment installation block 1-26, the equipment completes the assistance of a patient to open the mouth, the friction wheel a1-3 continues to rotate, and the friction connection between the friction wheel a1-3 and the friction strip 1-4 fails.
The third concrete implementation mode:
the present embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16. The present embodiment includes a transverse reciprocating mechanism 2 including a belt c2-1, a first connecting shaft 2-2, a small friction wheel 2-3, a large friction wheel 2-4, a second connecting shaft 2-5, a sliding plate 2-6, a sliding chute 2-7, a reverse threaded block 2-8, and a first connecting plate 2-9, wherein one end of the belt c2-1 is frictionally connected to the power shaft 1-1, and the other end thereof is frictionally connected to the first connecting shaft 2-2, the first connecting shaft 2-2 is connected to the small friction wheel 2-3, the first connecting shaft 2-2 is connected to the first connecting plate 2-9, the small friction wheel 2-3 is frictionally connected to the large friction wheel 2-4, the large friction wheel 2-4 is connected to the second connecting shaft 2-5, the large friction wheel 2-4 is connected to the second connecting shaft 2-6, the second connecting plate 2-9 is connected to the sliding plate 2-9, and the sliding plate 2-9 is connected to the sliding plate 2-2.
The fourth concrete implementation mode:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the cleaning liquid output linkage mechanism 3 includes a first belt 3-1, a transmission shaft a3-2, a first friction wheel 3-3, a transmission shaft b3-4, a rotary adsorption block a3-5, a rotary adsorption block b3-6, a transmission shaft c3-7, an adsorption tank 3-8, an adsorption pipe a3-9, an adsorption pipe b3-10, a drain pipe a3-11, a drain pipe b3-12, a sealing plate a3-13, a mounting plate a3-14, a cleaning liquid tank 3-15, and a cleaning liquid tank sealing plate 3-16, one end of a belt I3-1 is in friction connection with a power shaft 1-1, the other end of the belt I3-1 is in friction connection with a transmission shaft a3-2, the belt I3-1 is in friction connection with a friction wheel I3-3, the transmission shaft a3-2 is in bearing connection with a cleaning liquid tank 3-15, the friction wheel I3-3 is in connection with a transmission shaft b3-4, the transmission shaft b3-4 is in connection with a rotary adsorption block a3-5, the transmission shaft b3-4 is in bearing connection with a sealing plate a3-13, the transmission shaft b3-4 is in sliding connection with the cleaning liquid tank 3-15, the rotary adsorption block a3-5 is in sliding connection with a rotary adsorption block b3-6, the rotary adsorption block b3-6 is in connection with a transmission shaft c3-7, the transmission shaft c3-7 is in bearing connection with an adsorption tank 3-8, and the adsorption tank 3-8 is in sliding connection with the cleaning liquid tank 3-15, one end of an adsorption pipe a3-9 is connected and communicated with an adsorption groove 3-8, the other end is placed at the bottom of a cleaning liquid box 3-15, one end of an adsorption pipe b3-10 is connected and communicated with the adsorption groove 3-8, the other end is connected and communicated with a reverse threaded pipe 1-16, one end of a liquid discharge pipe a3-11 is connected and communicated with the adsorption groove 3-8, the other end is connected and communicated with a nozzle connecting pipe 1-23, one end of a liquid discharge pipe b3-12 is connected and communicated with the adsorption groove 3-8, the other end is connected and communicated with the cleaning liquid box 3-15, a sealing plate a3-13 is connected with a mounting plate a3-14 in a sliding manner, a sealing plate a3-13 is connected with the cleaning liquid box 3-15 in a sliding manner, a mounting plate a3-14 is connected with the cleaning liquid box 3-15, a cleaning liquid box 3-15 is connected with a cleaning liquid box sealing plate 3-16, and the device can spray cleaning liquid into a patient mouth, the device can automatically adsorb the cleaning liquid sprayed into the mouth of a patient to the outlet cavity, the device can automatically move the spray head and the adsorption head out of the mouth after the cleaning liquid is adsorbed, the device can automatically discharge the adsorbed cleaning liquid into the other cavity of the cleaning liquid box, the power shaft 1-1 drives the connecting shaft I2-2 to rotate through the belt c2-1 when rotating, the connecting shaft I2-2 rotates to drive the large friction wheel 2-4 to rotate at a reduced speed through the small friction wheel 2-3, the large friction wheel 2-4 rotates to drive the sliding plate 2-6 to slide downwards at a reduced speed, the sliding plate 2-6 drives the reverse thread block 2-8 to slide downwards under the limitation of the sliding groove 2-7, when the reverse thread block 2-8 slides to be in contact with the reverse thread pipe 1-16, the reverse threaded pipes 1-16 are in a rotating state, the reverse threaded pipes 1-16 move in a direction far away from the upper auxiliary sheet 1-5 under the action of the reverse threaded blocks 2-8, at the moment, the spray head and the adsorption head automatically move out of the oral cavity after adsorbing cleaning liquid, the power shaft 1-1 rotates to drive the transmission shaft a3-2 to rotate through the belt I3-1, the friction wheel I3-3 is also driven to rotate when the belt I3-1 rotates, the friction wheel I3-3 rotates to drive the transmission shaft b3-4 to rotate, the transmission shaft b3-4 rotates to drive the rotary adsorption block a3-5 to rotate, the rotary adsorption block a3-5 rotates to drive the rotary adsorption block b3-6 to rotate, liquid in the adsorption tank 3-8 is adsorbed upwards when the rotary adsorption block a3-5 and the rotary adsorption block b3-6 rotate, the adsorption pipe b3-10 generates adsorption force, the adsorption pipe b3-10 drives the spray cleaning liquid to be adsorbed into the cleaning liquid tank 3-15 through the reverse threaded pipes 1-16 and the upper adsorption block 1-17, the spray head and the cleaning liquid discharge tank 3-4 to move with the cleaning liquid discharge pipe 3-4, the sealing plate 3-4, the spray head 3-5 and the cleaning liquid discharge tank 3-13, when the cleaning pipe 11 and the cleaning liquid discharge tank 3-4 move, the cleaning liquid discharge pipe 13, the long groove on the cleaning liquid box 3-15 is sealed by a sealing plate a3-13, the liquid discharge pipe a3-11 stops discharging liquid upwards, at the moment, the position of the liquid discharge pipe b3-12 is matched with the square groove on the upper side of the cleaning liquid box 3-15, the liquid discharge pipe b3-12 is in a communication state with the cleaning liquid box 3-15, and at the moment, the cleaning liquid absorbed back by the absorption pipe b3-10 is absorbed to the other cavity of the space formed by the cleaning liquid box 3-15 and the sealing plate 3-16 of the cleaning liquid box by the absorption force generated by the absorption pipe a 3-9.
The fifth concrete implementation mode is as follows:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the first embodiment, in which a large number of small holes are arranged in the hollow lower portion of the upper jaw suction blocks 1 to 17.
The working principle of the device is as follows: the device can assist a patient to open the mouth, the patient bites the upper auxiliary sheet 1-5 and the lower auxiliary sheet 1-7 most, the power shaft 1-1 rotates to drive the friction wheel a1-3 to rotate, the friction wheel a1-3 rotates to drive the friction strip 1-4 to move upwards, the friction strip 1-4 moves to drive the upper auxiliary sheet 1-5 to move, the upper auxiliary sheet 1-5 drives the reset strip 1-6 to move, the reset strip 1-6 can automatically reset under the action of the reset spring 1-13, when the friction strip 1-4 moves to the upper limit position of the groove above the device mounting block 1-26, the device assists the patient to open the mouth, the friction wheel a1-3 continues to rotate, the friction connection between the friction wheel a1-3 and the friction strip 1-4 fails, and the device can spray cleaning liquid into the mouth of the patient, the device can automatically adsorb the cleaning liquid sprayed into the mouth of a patient to the outlet cavity, the device can automatically move the spray head and the adsorption head out of the mouth after the cleaning liquid is adsorbed, the device can automatically discharge the adsorbed cleaning liquid into the other cavity of the cleaning liquid box, the power shaft 1-1 drives the connecting shaft I2-2 to rotate through the belt c2-1 when rotating, the connecting shaft I2-2 rotates to drive the large friction wheel 2-4 to rotate at a reduced speed through the small friction wheel 2-3, the large friction wheel 2-4 rotates to drive the sliding plate 2-6 to slide downwards at a reduced speed, the sliding plate 2-6 drives the reverse thread block 2-8 to slide downwards under the limitation of the sliding groove 2-7, when the reverse thread block 2-8 slides to be in contact with the reverse thread pipe 1-16, the reverse threaded pipes 1-16 are in a rotating state, the reverse threaded pipes 1-16 move in a direction far away from the upper auxiliary sheet 1-5 under the action of the reverse threaded blocks 2-8, at the moment, the spray head and the adsorption head automatically move out of the oral cavity after adsorbing cleaning liquid, the power shaft 1-1 rotates to drive the transmission shaft a3-2 to rotate through the belt I3-1, the friction wheel I3-3 is also driven to rotate when the belt I3-1 rotates, the friction wheel I3-3 rotates to drive the transmission shaft b3-4 to rotate, the transmission shaft b3-4 rotates to drive the rotary adsorption block a3-5 to rotate, the rotary adsorption block a3-5 rotates to drive the rotary adsorption block b3-6 to rotate, liquid in the adsorption tank 3-8 is adsorbed upwards when the rotary adsorption block a3-5 and the rotary adsorption block b3-6 rotate, the adsorption pipe b3-10 generates adsorption force, the adsorption pipe b3-10 drives the spray cleaning liquid to be adsorbed into the cleaning liquid tank 3-15 through the reverse threaded pipes 1-16 and the upper adsorption block 1-17, the spray head and the cleaning liquid discharge tank 3-4 to move with the cleaning liquid discharge pipe 3-4, the sealing plate 3-4, the spray head 3-5 and the cleaning liquid discharge tank 3-13, when the cleaning pipe 11 and the cleaning liquid discharge tank 3-4 move, the cleaning liquid discharge pipe 13, the long groove on the cleaning liquid box 3-15 is sealed by a sealing plate a3-13, the liquid discharge pipe a3-11 stops discharging liquid upwards, the position of the liquid discharge pipe b3-12 is matched with the square groove on the upper side of the cleaning liquid box 3-15, the liquid discharge pipe b3-12 is communicated with the cleaning liquid box 3-15, and the cleaning liquid absorbed back by the absorption pipe b3-10 is absorbed into the other cavity of the space formed by the cleaning liquid box 3-15 and the sealing plate 3-16 of the cleaning liquid box by the absorption force generated by the absorption pipe a 3-9.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.