CN212484480U - Ultraviolet lamp mechanism and self-service equipment thereof - Google Patents

Abstract

An ultraviolet lamp mechanism and self-service equipment thereof are disclosed, wherein the ultraviolet lamp mechanism comprises an ultraviolet lamp panel, and ultraviolet lamp beads are arranged on the ultraviolet lamp panel and are supplied with power through a power line; two ends of the ultraviolet lamp panel are respectively fixed on two belts, the two belts respectively bypass a first belt wheel and a second belt wheel corresponding to the two belts to form a belt transmission mechanism, the first belt wheel and the second belt wheel are respectively sleeved and fixed on a first shaft body and a second shaft body, the first shaft body and a shell of the self-service machine can be circumferentially rotatably assembled, and the second shaft body and a shaft plate fixed at the top of the self-service machine can be circumferentially rotatably assembled; a first gear is further sleeved and fixed on the second shaft body, the first gear is in meshing transmission with the second gear, the second gear is in meshing transmission with the third gear, the second gear and the third gear are respectively sleeved on the third shaft body and the fourth shaft body, and the third shaft body and the fourth shaft body are respectively assembled with the shaft plate in a circumferential rotating manner; the fourth shaft body penetrates through a hollow output shaft of the hollow shaft motor and is fixedly assembled with the hollow output shaft.

Description

Ultraviolet lamp mechanism and self-service equipment thereof

Technical Field

The utility model relates to a self-service equipment especially relates to an ultraviolet lamp mechanism and self-service equipment thereof.

Background

The self-service equipment is convenient to use and can be used for 24 hours on duty, so that the working pressure of window personnel can be greatly relieved. However, the self-service equipment is large in usage amount, and many people are in close contact with the self-service equipment, so that cross infection is difficult to avoid, and therefore, a large potential risk exists. Especially in case of outbreaks, this risk increases exponentially, and it is therefore necessary to sterilize the self-service device. The existing self-service equipment is not designed for disinfection, and can only be scrubbed and sterilized by adopting a disinfectant manually and periodically, so that the water prevention not only greatly increases the labor cost, but also can not effectively avoid cross infection.

The applicant has proposed a solution to the above-mentioned problems in the chinese patent application entitled "an ultraviolet sterilization module and a self-service device thereof" filed on the same day as the present application, namely, sterilization is achieved by means of ultraviolet light irradiation. But when practical application, can't judge who is the sick person of having hair feel, consequently generally all use once the back for the insurance purpose and disinfect immediately, consequently efficiency is extremely low, can't satisfy the big condition of use amount, and it shines comparatively concentrated to the ultraviolet light of touch-sensitive screen moreover, can't accomplish abundant shining to touch-sensitive screen marginal portion, consequently the protective effect only promotes greatly, but has not reached the protection of medical grade yet.

The most important expression of human body after virus or bacteria infection is fever, so that the accuracy rate of taking the measured body temperature as the evidence for judging a patient with the infected hair is higher, and the method is also the most important detection mode of the current 'new coronavirus'. Therefore, the applicant thinks that whether the patient is a high-risk infected person or an infected person is judged by detecting the body temperature, and the high-risk infected person or the infected person is sufficiently sterilized after use, so that a higher protection level can be obtained, and even the medical protection level can be reached; and carry out ordinary disinfection to the user that does not have a fever after using, can improve self-service device's availability factor greatly to both satisfy the demand that large-traffic was used, satisfy the demand that prevents cross infection again.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect of prior art, the utility model aims to solve the technical problem that an ultraviolet lamp mechanism and self-service equipment thereof are provided, its ultraviolet lamp mechanism passes through ultraviolet irradiation touch-sensitive screen in order to disinfect, disinfect.

In order to achieve the purpose, the utility model provides an ultraviolet lamp mechanism, which comprises an ultraviolet lamp plate, wherein the ultraviolet lamp plate is provided with ultraviolet lamp beads, and the ultraviolet lamp beads are powered by a power cord; the two ends of the ultraviolet lamp panel are respectively fixed on two belts, the two belts respectively bypass a first belt wheel and a second belt wheel corresponding to the two belts to form a belt transmission mechanism, the first belt wheel and the second belt wheel are respectively sleeved and fixed on a first shaft body and a second shaft body, the first shaft body and a shell of the self-service machine can be assembled in a circumferential rotating mode, and the second shaft body and a shaft plate fixed at the top of the self-service machine can be assembled in a circumferential rotating mode; the second shaft body is also fixedly sleeved with a first gear, the first gear is in meshing transmission with the second gear, the second gear is in meshing transmission with a third gear, the second gear and the third gear are respectively sleeved on the third shaft body and the fourth shaft body, and the third shaft body and the fourth shaft body are respectively assembled with the shaft plate in a circumferential rotating manner; the fourth shaft body penetrates through a hollow output shaft of the hollow shaft motor and is fixedly assembled with the hollow output shaft.

Preferably, the fourth shaft body is further sleeved with a winding wheel, a thrust ball bearing and an inclined pushing disc, the inclined pushing disc is sleeved and fixed on the fourth shaft body, a shaft ring of the thrust ball bearing is sleeved on the fourth shaft body in an axially sliding manner, a seat ring is tightly attached to one end of the winding wheel, the shaft ring of the thrust ball bearing is further tightly attached to one end of a winding pressure spring, the winding pressure spring is sleeved on the fourth shaft body, and the other end of the winding pressure spring is tightly attached to a shell of the hollow shaft motor;

the rolling wheel can move axially and is installed on the fourth shaft body in a non-circumferential rotation mode, a push rod is fixed to one end, away from the thrust ball bearing, of the rolling wheel, a ball is installed on one end, close to the inclined push disc, of the push rod in a spherical rolling mode, and the ball is tightly attached to the end face of the inclined push disc.

Preferably, the winding wheel is wound and fixed with a power line, the power line is in conductive connection with a rotor of the electric slip ring, the rotor is sleeved and fixed on the fourth shaft body, a stator of the electric slip ring is in conductive connection with a power supply line, and the power supply line is in conductive connection with a power supply.

Preferably, the self-service machine further comprises a first wire ball, the first wire ball is arranged on the wire vertical plate in a ball-shaped rolling mode, the wire vertical plate is fixed to the top of the self-service machine, and the power line penetrates through the first wire ball and is assembled with the first wire ball in a sliding mode.

The utility model also discloses a self-service equipment, its application has above-mentioned ultraviolet lamp mechanism.

Preferably, the wire guide device further comprises a self-service machine, wherein side shields are respectively arranged on two sides of the self-service machine, a wire vertical plate is arranged at the tops of the two side shields, top plates are arranged at the tops of the two side shields, and a top vertical plate is arranged on the top plate; a second wire ball is arranged on the top vertical plate in a spherical rotating manner, a ball body locking groove and a clamping groove are formed in the second wire ball, and the clamping groove is spliced and assembled with the splicing end of the infrared temperature measuring sensor;

the power connection end and the signal end of the infrared temperature measurement sensor are respectively and electrically connected with one end of the combined cable, and the other end of the combined cable is electrically connected with the power supply so as to supply power for the infrared temperature measurement sensor and be in communication connection with the signal end of the controller; the locking block sliding groove is arranged on the top vertical plate, the second wire ball is tightly attached to the ball driving wheel, and the second wire ball can be driven to rotate through friction force when the ball driving wheel rotates circumferentially; the ball body locking groove can be tightly clamped with one end of the ball locking block; the ball lock block is fixed at one end of the telescopic rod, and the other end of the telescopic rod is sleeved with a lock block pressure spring and penetrates through the lock block sliding groove to be installed in the electromagnet;

the ball body driving wheel is sleeved and fixed on the first ball body shaft, the first ball body shaft and the top vertical plate can be assembled in a circumferential rotating mode, the first ball body shaft is further sleeved and fixed with a second helical gear, the second helical gear is in meshing transmission with the first helical gear, the first helical gear is sleeved and fixed on a ball body output shaft, and the ball body output shaft is installed in the ball body motor.

Preferably, the ball driving wheel is made of a high-friction-coefficient elastic material, and the ball driving wheel is pressed against the second wire ball so as to be driven to rotate by friction.

Preferably, the second wire ball is located and still is provided with the locking groove on the lateral wall that clamps the groove, still be provided with mounting groove, spring groove on the grafting end respectively, the locking groove can be with locking end joint dress, and the locking end is fixed and is served and be provided with the locking inclined plane at lever one end and locking, the lever is articulated through round pin axle and mounting groove both sides inner wall, and the lever is far away from one of locking end and is provided with the unblock inclined plane, unblock inclined plane and unblock piece paste tightly, and unblock piece block, slidable install in the mounting groove, and be provided with the arch that resets on the unblock piece, the arch that resets clamps and packs into the spring inslot and compress tightly with reset spring one end, and reset spring installs at the spring inslot and its other end compresses tightly with the spring.

Preferably, a pushing block is fixed on the unlocking block and penetrates out of the mounting groove; the lever is located locking end one end and is fixed with locking pressure spring top assembly, and locking pressure spring bottom is fixed on the mounting groove bottom surface.

Preferably, a touch screen is installed on the self-service machine, and the touch screen is used for displaying pictures and inputting signals through touch.

The utility model has the advantages that:

1. the invention has simple structure, can quickly and accurately detect the forehead temperature (forehead temperature) of a user through the external temperature measuring sensor so as to judge whether the user has fever or not, judge whether the user has infection or an infection morbidity state or not through whether the user has the infection or the infection morbidity state, and judge whether the user needs to be sufficiently disinfected or not through whether the user has the infection or the infection morbidity state or not. Therefore, the requirements of large flow and quick use can be met, and the risk of cross infection can be reduced to the maximum extent. The self-help machine is particularly suitable for self-help machines of hospitals, banks and government departments, and can greatly reduce the cross infection rate caused by the self-help machine when a user passes through the self-help machine particularly during the period of infectious disease outbreak. The invention can be directly added or modified on the existing self-service machine, so the real-time cost is low, the existing self-service machine is not needed to be abandoned, the invention has higher market promotion value, and the machine can be detached after the epidemic situation subsides, and the flexibility is higher.

2. The ultraviolet lamp mechanism can realize the sufficient disinfection of the touch screen by moving the ultraviolet lamp to irradiate the touch screen, the design of the automatic ultraviolet lamp can ensure that all parts of the touch screen can be sufficiently irradiated, so that the disinfection effect and the disinfection efficiency are increased, generally, the 16-inch screen can be disinfected within 15-20 seconds (the disinfection rate is about 90 percent), the efficiency is high, and the requirement of large-flow use can be met.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic diagram of the structure of the infrared temperature measuring sensor of the present invention.

Fig. 4 is a schematic diagram of the structure of the infrared temperature measuring sensor of the present invention.

Fig. 5 is a schematic diagram of the structure of the infrared temperature measuring sensor of the present invention.

Fig. 6 is an enlarged view at F1 in fig. 5.

Fig. 7 is a schematic structural view of the ultraviolet lamp mechanism of the present invention.

Fig. 8 is a schematic structural view of the ultraviolet lamp mechanism of the present invention.

Fig. 9 is a schematic structural view of the ultraviolet lamp mechanism of the present invention.

Fig. 10 is a schematic structural view of the ultraviolet lamp mechanism of the present invention.

Fig. 11 is a schematic structural view of the ultraviolet lamp mechanism of the present invention.

Fig. 12 is a cross-sectional view of the electrical slip ring of the present invention at the center plane of its axis.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1 to 11, the self-service device of the present embodiment includes a self-service machine 110, side shields 120 are respectively installed on two sides of the self-service machine 110, a vertical wire plate 140 is installed on the tops of the two side shields 120, a top plate 150 is installed on the top plate 150, and a vertical top plate 130 is installed on the top plate 150;

the self-service machine 110 is provided with a touch screen 210, and the touch screen 210 is used for displaying pictures and inputting signals through touch. The second wire ball 320 is rotatably installed on the top vertical plate 130 in a spherical shape, a ball locking groove 321 and a clamping groove 323 are arranged on the second wire ball 320, and the clamping groove 323 is assembled with the inserting end 242 of the infrared temperature measuring sensor 240 in an inserting manner, so that the infrared temperature measuring sensor 240 and the second wire ball 320 are assembled and fixed;

the power connection end and the signal end of the infrared temperature measurement sensor 240 are respectively and electrically connected with one end of the combined cable 241, the other end of the combined cable is in conductive connection with a power supply so as to supply power for the infrared temperature measurement sensor and is in communication connection with the signal end of the controller, and therefore the communication connection between the infrared temperature measurement sensor 240 and the controller is achieved. The controller is used for receiving and sending analysis control instructions and calculating parameters, and the controller of the embodiment can be a PLC, an industrial personal computer, a CPU and the like, and is a controller of a self-service machine.

The ball lock slot 321 is tightly clamped with one end of the ball lock block 420, so as to lock the second wire ball 320, and at this time, the second wire ball 320 cannot rotate and is in a locked state; the ball lock block 420 is fixed on one end of the telescopic rod 231, the other end of the telescopic rod 231 is sleeved with the lock block pressure spring 410 and penetrates through the lock block sliding groove 131 to be installed in the electromagnet 230, the electromagnet 230 can drive the telescopic rod to overcome the elasticity of the lock block pressure spring to pull the ball lock block 420 into the lock block sliding groove 131 after being started, and therefore the ball lock block 420 is not pressed with the ball lock groove 321 any more, and at the moment, the second lead ball can rotate and is in an unlocking state.

The locking block sliding groove 131 is arranged on the top vertical plate 130, the second wire ball 320 is tightly attached to the ball driving wheel 330, and the second wire ball 320 can be driven to rotate through friction force when the ball driving wheel 330 rotates circumferentially, so that the included angle between the infrared temperature measuring sensor and the top vertical plate is adjusted, and the infrared temperature measuring device is suitable for users with different heights. The sphere driving wheel 330 is made of high friction coefficient and elastic material, such as silica gel and rubber; the ball driving wheel 330 is pressed with the second wire ball 320 so as to be rotated by a frictional force. The sphere driving wheel 330 is fixed on the first sphere shaft 430 in a sleeved mode, the first sphere shaft 430 and the top vertical plate can be assembled in a circumferential rotating mode, the first sphere shaft 430 is further fixed with a second bevel gear 342 in a sleeved mode, the second bevel gear 342 is in meshed transmission with the first bevel gear 341, the first bevel gear 341 is fixed on the sphere output shaft 251 in a sleeved mode, the sphere output shaft 251 is installed in the sphere motor 250, and after the sphere motor 250 is started, the sphere output shaft can be driven to rotate forwards or backwards in the circumferential direction. In use, the ball motor drives the ball drive wheel 330 to rotate, thereby driving the second wire ball 320 to rotate.

In this embodiment, since the user has different heights, the infrared temperature measuring sensor needs to adjust the angle according to the user with different heights to acquire the infrared image of at least the forehead, so as to convert the body temperature through the infrared image, and determine whether the user has fever according to the detected body temperature. The principle here is the same with current infrared temperature measurement helmet, infrared thermoscope, and for more mature prior art, the present case is no longer repeated.

The second wire ball 320 is further provided with a locking groove 322 on the side wall of the clamping groove 323, the insertion end 242 is further provided with a mounting groove 243 and a spring groove 244 respectively, the locking groove 322 can be assembled with a locking end 522 in a clamping manner, the locking end 522 is fixed at one end of the lever 520, a locking inclined surface 523 is arranged on the locking end 522, the lever 520 is hinged to the inner walls of the two sides of the mounting groove 243 through a pin shaft 460, an unlocking inclined surface 521 is arranged at one end of the lever 520 far away from the locking end 522, the unlocking inclined surface 521 is attached to the unlocking block 510, the unlocking block 510 is clamped and slidably mounted in the mounting groove 243, a resetting protrusion 511 is arranged on the unlocking block 510, the resetting protrusion 511 is clamped in the spring groove 244 and tightly pressed against one end of the resetting spring 440, the resetting spring 440 is mounted in the spring groove 244, and the other end of. The return spring serves to generate an elastic force to the return protrusion 511 to hinder the movement thereof toward the locking end 522. A pushing block 512 is fixed on the unlocking block 510, and the pushing block 512 penetrates through the mounting groove 243.

Fig. 6 shows the state that the plugging end is assembled and fixed with the clamping groove. When the infrared temperature sensor 240 needs to be taken out, the unlocking block 510 is pushed towards the locking end 522 through the pushing block 512, so that the reset spring is extruded to store elastic force, the unlocking block 510 is matched with the unlocking inclined plane 521, the end, provided with the unlocking inclined plane, of the lever 520 is lifted upwards, the end, provided with the locking end 522, of the lever 520 rotates downwards, and the inserting end can be pulled out after the end is separated from the locking groove 322.

The lever 520 is fixed to the top of the locking end 522 and the bottom of the locking pressure spring 450 is fixed to the bottom of the mounting groove 243, so as to provide an elastic force to the locking end 522, which lifts upward or prevents downward rotation of the locking end 522, and this design can keep the locking end 522 engaged with the locking groove 322.

Referring to fig. 1-2 and 7-11, in order to prevent cross infection at the touch screen, the applicant further designs an ultraviolet lamp mechanism for sterilizing the touch screen, wherein the ultraviolet lamp mechanism includes an ultraviolet lamp panel 270, an ultraviolet lamp bead 271 is installed on the ultraviolet lamp panel 270, the ultraviolet lamp bead 271 emits ultraviolet light after being energized, and the ultraviolet lamp bead 271 is powered by a power cord 220; the two ends of the ultraviolet lamp panel 270 are respectively fixed on two belts 610, the two belts 610 respectively bypass a first belt wheel 611 and a second belt wheel 612 corresponding to the two belts to form a belt transmission mechanism, the first belt wheel 611 and the second belt wheel 612 are respectively sleeved and fixed on a first shaft body 710 and a second shaft body 720, the first shaft body 710 and the shell of the self-service machine can be circumferentially rotatably assembled, and the second shaft body 720 and the shaft plate 160 fixed at the top of the self-service machine 110 can be circumferentially rotatably assembled; a first gear 621 is further sleeved and fixed on the second shaft body 720, the first gear 621 is in meshing transmission with the second gear 622, the second gear 622 is in meshing transmission with a third gear 623, the second gear 622 and the third gear 623 are respectively sleeved on a third shaft body 730 and a fourth shaft body 740, and the third shaft body 730 and the fourth shaft body 740 are respectively assembled with the shaft plate 160 in a circumferential rotation manner;

the fourth shaft 740 penetrates through the hollow output shaft of the hollow shaft motor 260 and is fixedly assembled with the hollow output shaft, and the hollow shaft motor can drive the fourth shaft to rotate circumferentially after being started. Still the cover is equipped with wind-up wheel 640, thrust ball bearing 650, oblique pushing disk 630 on the fourth axis body 740, oblique pushing disk 630 suit is fixed on fourth axis body 740, but the axle ring suit of thrust ball bearing 650 is on fourth axis body 740, the seat circle pastes tightly with wind-up wheel 640 one end, thrust ball bearing 650's axle ring still pastes tightly with rolling pressure spring 670 one end, rolling pressure spring 670 suit is on fourth axis body 740 and its other end pastes tightly with the shell of hollow shaft motor.

The winding wheel 640 is wound and fixed with the power line 220, the power line 220 is in conductive connection with the rotor 281 of the electric slip ring 280, the rotor 281 is sleeved and fixed on the fourth shaft body 640, the stator 282 of the electric slip ring 280 is in conductive connection with the power supply line 221, and the power supply line 221 is in conductive connection with a power supply, so that current is conveyed to the power line through the electric slip ring and then conveyed to the ultraviolet lamp bead 271, and the design that the power supply line 221 and the power line can rotate circumferentially relatively is achieved.

The winding wheel 640 is axially movably and non-circularly rotatably mounted on the fourth shaft 740, a push rod 660 is fixed at one end of the winding wheel 640, which is far away from the thrust ball bearing 650, a ball 680 is spherically and rollably mounted at one end of the push rod 660, which is close to the inclined push disc 630, and the ball 680 is tightly attached to the end surface of the inclined push disc 630.

When the touch screen needs to be disinfected, the power supply line supplies power to the ultraviolet lamp beads, the ultraviolet lamp beads emit ultraviolet light, then the hollow shaft motor 260 is started, the hollow shaft motor drives the fourth shaft body 740 to rotate forwards, the fourth shaft body 740 drives the belt to run, and the belt 610 slowly conveys the ultraviolet lamp panel 270 from the top of the touch screen to the bottom (from one end to the other end) of the touch screen; then the hollow shaft motor reverses, and the drive ultraviolet lamp plate resets. In the moving process of the ultraviolet lamp panel, the touch screen is fully irradiated by ultraviolet light, so that sufficient sterilization and disinfection are realized. The fourth shaft body drives the inclined pushing disc 630 to rotate, the inclined pushing disc 630 continuously generates axial pushing force on the pushing rod 660, and therefore the winding wheel 640 continuously reciprocates axially, the winding pressure spring stores elastic force when the winding wheel 640 is pushed to the thrust ball bearing, and then the winding pressure spring resets through the elastic force when the pushing force of the winding wheel 640 disappears. The design mainly enables the power cord to be wound in the axial direction of the winding wheel 640 in a distributed mode, so that the power cord is prevented from being wound at one position, and the thickness of the position is prevented from being too large.

In this embodiment, the power cord releases when the ultraviolet lamp plate removes to the touch-sensitive screen bottom, and the rolling otherwise to prevent that the power cord is loose, the winding.

The wire vertical plate 140 is mounted with a first wire ball 310 in a ball-rolling manner, and the power wire 220 passes through the first wire ball 310 and is slidably assembled with the first wire ball (in the length direction). The angle between the power line and the ultraviolet lamp panel is mainly corrected through the first wire ball 310 in the design, so that the power line is prevented from being wound and excessively drawn.

This embodiment installs additional on current self-service machine when the model machine is made, that is to install roof board 130, side guard shield 120, belt 610, ultraviolet lamp plate 270 etc. additional on current self-service machine, and it does not have the influence to self-service machine's inner structure, overall arrangement, can certainly directly design the structure of this embodiment in self-service machine, but need design self-service machine's structure, overall arrangement again like this, and the cost is higher, but more pleasing to the eye.

The details of the present invention are well known to those skilled in the art.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (10)

1. An ultraviolet lamp mechanism is characterized in that: the ultraviolet lamp panel is provided with ultraviolet lamp beads, and the ultraviolet lamp beads are powered by a power line; the two ends of the ultraviolet lamp panel are respectively fixed on two belts, the two belts respectively bypass a first belt wheel and a second belt wheel corresponding to the two belts to form a belt transmission mechanism, the first belt wheel and the second belt wheel are respectively sleeved and fixed on a first shaft body and a second shaft body, the first shaft body and a shell of the self-service machine can be assembled in a circumferential rotating mode, and the second shaft body and a shaft plate fixed at the top of the self-service machine can be assembled in a circumferential rotating mode; the second shaft body is also fixedly sleeved with a first gear, the first gear is in meshing transmission with the second gear, the second gear is in meshing transmission with a third gear, the second gear and the third gear are respectively sleeved on the third shaft body and the fourth shaft body, and the third shaft body and the fourth shaft body are respectively assembled with the shaft plate in a circumferential rotating manner; the fourth shaft body penetrates through a hollow output shaft of the hollow shaft motor and is fixedly assembled with the hollow output shaft.

2. The uv lamp mechanism of claim 1, wherein: the fourth shaft body is further sleeved with a rolling wheel, a thrust ball bearing and an inclined pushing disc, the inclined pushing disc is sleeved and fixed on the fourth shaft body, a shaft ring of the thrust ball bearing is sleeved on the fourth shaft body in an axially sliding mode, a seat ring is tightly attached to one end of the rolling wheel, the shaft ring of the thrust ball bearing is further tightly attached to one end of a rolling pressure spring, the rolling pressure spring is sleeved on the fourth shaft body, and the other end of the rolling pressure spring is tightly attached to a shell of the hollow shaft motor;

the rolling wheel can move axially and is installed on the fourth shaft body in a non-circumferential rotation mode, a push rod is fixed to one end, away from the thrust ball bearing, of the rolling wheel, a ball is installed on one end, close to the inclined push disc, of the push rod in a spherical rolling mode, and the ball is tightly attached to the end face of the inclined push disc.

3. The uv lamp mechanism of claim 2, wherein: the winding wheel is wound and fixed with a power line, the power line is in conductive connection with a rotor of the electric slip ring, the rotor is sleeved and fixed on the fourth shaft body, a stator of the electric slip ring is in conductive connection with a power supply line, and the power supply line is in conductive connection with a power supply.

4. The uv lamp mechanism of claim 1, wherein: still include first wire ball, but first wire ball is installed on the wire riser spherically with rolling, and the wire riser is fixed at self-service quick-witted top, and the power cord passes first wire ball and slidable assembly with it.

5. A self-service equipment, characterized by: use of a uv lamp assembly according to any one of claims 1 to 4.

6. The self-service device of claim 5, wherein: the wire guide device is characterized by further comprising a self-service machine, wherein side shields are respectively arranged on two sides of the self-service machine, a wire vertical plate is arranged at the tops of the two side shields, top plates are arranged at the tops of the two side shields, and a top vertical plate is arranged on each top plate; a second wire ball is arranged on the top vertical plate in a spherical rotating manner, a ball body locking groove and a clamping groove are formed in the second wire ball, and the clamping groove is spliced and assembled with the splicing end of the infrared temperature measuring sensor;

the power connection end and the signal end of the infrared temperature measurement sensor are respectively and electrically connected with one end of the combined cable, and the other end of the combined cable is electrically connected with the power supply so as to supply power for the infrared temperature measurement sensor and be in communication connection with the signal end of the controller; the top vertical plate is provided with a locking block sliding groove, the second wire ball is tightly attached to the ball body driving wheel, and the second wire ball can be driven to rotate through friction force when the ball body driving wheel rotates circumferentially; the ball body locking groove can be tightly clamped with one end of the ball locking block; the ball lock block is fixed at one end of the telescopic rod, and the other end of the telescopic rod is sleeved with a lock block pressure spring and penetrates through the lock block sliding groove to be installed in the electromagnet;

the ball body driving wheel is sleeved and fixed on the first ball body shaft, the first ball body shaft and the top vertical plate can be assembled in a circumferential rotating mode, the first ball body shaft is further sleeved and fixed with a second helical gear, the second helical gear is in meshing transmission with the first helical gear, the first helical gear is sleeved and fixed on a ball body output shaft, and the ball body output shaft is installed in the ball body motor.

7. The self-service device of claim 6, wherein: the sphere driving wheel is made of elastic materials with high friction coefficient, and the sphere driving wheel and the second wire ball are extruded to drive the sphere driving wheel to rotate through friction force.

8. The self-service device of claim 6, wherein: the second wire ball is located and still is provided with the locking groove on the lateral wall that clamps the groove, still be provided with mounting groove, spring groove on the grafting end respectively, the locking groove can be with locking end joint dress, and the locking end is fixed and is provided with the locking inclined plane on lever one end and the locking end, the lever is articulated through round pin axle and mounting groove both sides inner wall, and the lever is far away from one of locking end and is provided with the unblock inclined plane, unblock inclined plane and unblock piece paste tightly, and unblock piece block, slidable install in the mounting groove, and be provided with the arch that resets on the unblock piece, the arch that resets clamps into the spring inslot and compresses tightly with reset spring one end, and reset spring installs at the spring inslot and its other end compresses tightly with spring inslot medial.

9. The self-service device of claim 8, wherein: a pushing block is fixed on the unlocking block and penetrates out of the mounting groove; the lever is located locking end one end and is fixed with locking pressure spring top assembly, and locking pressure spring bottom is fixed on the mounting groove bottom surface.

10. The self-service device of claim 6, wherein: and the self-service machine is provided with a touch screen, and the touch screen is used for displaying pictures and inputting signals through touch.

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