CN212395044U - Disposable finger stall taking device - Google Patents

Abstract

The utility model discloses a disposable fingerstall taking device, which comprises a shell, wherein the back surface of the shell is provided with a shell cover, the front surface of the shell is provided with a sleeve taking port, the periphery of the sleeve taking port is provided with a liquid pipe, the inner ring side of the liquid pipe is provided with a plurality of spraying holes, the liquid pipe is connected with the liquid outlet end of a micro booster pump through a liquid outlet pipe, and the liquid inlet end of the micro booster pump is connected with a disinfection liquid tank which is arranged on the shell through a liquid inlet pipe; a sliding cover is covered at the sleeve taking opening, the sliding cover is connected with the inner wall of the shell in a sliding mode, a first strip-shaped rack is arranged on the sliding cover, the first strip-shaped rack is meshed and connected with a first gear, the first gear is installed on an output shaft of a first rotating motor, and the first rotating motor is installed on the inner side of the shell; the upper part of the shell is provided with a fingerstall box for placing the finger sleeve, the outer part of the fingerstall barrel is sleeved with a disposable fingerstall in a sliding way, the disposable fingerstall has elasticity, and the sleeve opening of the disposable fingerstall is sleeved on the barrel wall of the finger sleeve in a sliding way. The utility model discloses can improve the security that the dactylotheca used, and the dactylotheca has elasticity, matches different users' hand and uses.

Description

Disposable finger stall taking device

Technical Field

The utility model relates to a disposable dactylotheca equipment technical field, in particular to device is taken to disposable dactylotheca.

Background

Before blood drawing or transfusion, doctors need to wear sterile gloves to avoid cross infection in the operation process. Most of the existing medical sterile gloves are five-finger gloves which are inconvenient to wear, and the operation flexibility of fingers after wearing the gloves is limited to a certain extent. At present, some gloves with three or two fingers still have the defects of inconvenient wearing, inflexible operation and the like.

Based on this, a disposable medical sterile finger stall device is disclosed in the utility model with the patent number 201721048151.X, and comprises a plurality of disposable sterile finger stalls and a sterile tank for storing the sterile finger stalls, wherein the sterile tank comprises a tank body and a tank cover; the aseptic finger sleeves are sleeved in the tank body of the aseptic tank one by one in an overlapping mode, the open ends of the aseptic finger sleeves face the open ends of the tank body, and the aseptic finger sleeves are single finger sleeves. Namely, the utility model provides a single finger stall which can reduce the cost and improve the operation flexibility, however, if the finger stall is taken by opening the can cover, if the hands of the user are not clean enough, bacteria and viruses are easy to remain on the can cover or in the can body, or saliva splashes into the tank body, so that the finger stall has the possibility of being polluted, therefore, although the finger stall of the utility model is convenient to take, the possibility of being polluted still exists, secondly, different fingers have different sizes, if the size of the finger sleeve is limited to a certain value, the use requirements of different people cannot be met, may be larger and easy to loosen, and may also be smaller and unable to be worn, so that the common disposable sterile finger cot is made of elastic material, if the single finger cot is made of elastic material, it cannot be superposed like this utility model, and therefore, this utility model cannot be matched to the hand use of different users.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need for a disposable finger cot access device to improve the safety of using finger cot, and the finger cot has elasticity to match the hand use of different users.

In order to achieve the above purpose, the utility model adopts the technical proposal that:

a disposable fingerstall taking device comprises a shell, wherein a shell cover is arranged on the back surface of the shell, a sleeve taking opening is arranged on the front surface of the shell, an annular liquid pipe matched with the outline of the sleeve taking opening is arranged on the periphery of the sleeve taking opening, the liquid pipe is positioned on the inner side of the shell and attached to the sleeve taking opening, a plurality of spray holes are formed in the inner ring side of the liquid pipe, the spray holes are arranged around the periphery of the sleeve taking opening and face the center of the sleeve taking opening, the liquid pipe is connected with a liquid outlet end of a micro booster pump through a liquid outlet pipe, and a liquid inlet end of the micro booster pump is connected with a disinfectant tank which is arranged on the shell through a liquid inlet; the sleeve taking opening is covered with a sliding cover, the sliding cover is positioned on the inner side of the shell, the liquid pipe is positioned between the sleeve taking opening and the sliding cover, the sliding cover is connected with the inner wall of the shell in a sliding mode, a first strip-shaped rack is arranged on the sliding cover, the length direction of the first strip-shaped rack is the sliding direction of the sliding cover, the first strip-shaped rack is meshed with a first gear, the first gear is arranged on an output shaft of a first rotating motor, the first rotating motor is arranged on the inner side of the shell and positioned on one side of the sliding cover, and the side of the first rotating motor is not the side of the sliding cover in;

the upper part of the shell is provided with a finger stall box for placing a finger sleeve, the outside of the finger sleeve is sleeved with a disposable finger stall in a sliding way, the disposable finger stall has elasticity, a loop opening of the disposable finger stall is sleeved on the cylinder wall of the finger sleeve in a sliding way, the finger tip of the disposable finger stall is over against and seals the end part of the finger sleeve, and the length of the disposable finger stall is less than that of the finger sleeve; the fingerstall box is bottomless, the width direction of the fingerstall box is slightly larger than the length direction of a fingerstall sleeve, a plurality of sliding rail groups are arranged on the fingerstall box at intervals along the height direction of the fingerstall box, each sliding rail group comprises two sliding rails, the two sliding rails are respectively arranged on the inner walls of two opposite sides of the fingerstall box, the distance between the two sliding rails and the bottom surface of the fingerstall box is the same, each sliding rail group is provided with a fingerstall plate for placing a row of fingerstall sleeves in a sliding manner, and the length direction of all the fingerstall sleeves in the row is parallel to the; a box cover is detachably covered on one side face of the finger sleeve box, the side face is the side where one end of the finger sleeve plate in the sliding direction is located, the box cover is slidably arranged at the end of the finger sleeve plate in a penetrating mode, and the end portion of the end is located on the outer side of the finger sleeve box;

the bottom of the finger sleeve box extends into the shell through the top of the shell, a conveying assembly is arranged right below the finger sleeve box, an upper conveying surface of the conveying assembly is right opposite to the bottom of the finger sleeve box, the length direction of the upper conveying surface is parallel to the length direction of the finger sleeve box, two ends of the upper conveying surface in the length direction are not right opposite to the bottom of the finger sleeve box, a placing platform is arranged right below a conveying tail end of the conveying assembly, the placing platform is horizontally arranged and extends to a sleeve taking opening from the conveying tail end of the conveying assembly, and the upper surface of the placing platform is slightly lower than the lower end of the sleeve taking opening;

the placing platform is provided with a limiting frame in a sliding mode, the sliding direction is the conveying direction of the conveying assembly, the limiting frame comprises two limiting plates and two connecting rods, the length direction of the limiting plates is the width direction of the finger sleeve box, the plate surfaces of the limiting plates are perpendicular to the sleeve taking opening, the bottoms of the two limiting plates are connected with the placing platform in a sliding mode and are parallel to and opposite to each other, the two ends of the two limiting plates in the length direction are connected with each other through the connecting rods, and the distance between the two connecting rods is larger than the length of one finger sleeve; one of the two limiting plates is connected with the placing platform in a sliding mode through a sliding driving assembly, and the two limiting plates are located right below the conveying tail end of the conveying assembly in a sliding mode or only one of the two limiting plates close to the sliding driving assembly is connected to the placing platform; the sliding driving assembly comprises a second strip-shaped rack, a second gear and a second rotating motor, the length direction of the second strip-shaped rack is the sliding direction of the limiting frame, the second strip-shaped rack is in meshed connection with the second gear, the second gear is sleeved on the second rotating motor, and the second rotating motor is installed on the placing platform;

the bottom of the shell is provided with a cylinder outlet, the cylinder outlet and the conveying assembly are respectively arranged on two opposite sides of the sleeve taking opening, the cylinder outlet is positioned at one end of the placing platform, which is far away from the conveying assembly, a recovery cylinder bag is detachably arranged at the cylinder outlet, and the recovery cylinder bag is positioned outside the shell;

the shell is further provided with an infrared sensor, a distance sensor, a pressure sensor, a controller and a power supply device, the power supply device is connected with the controller, the controller is respectively connected with the micro booster pump, the first rotating motor, the second rotating motor, the infrared sensor, the distance sensor, the pressure sensor and a driving part of the conveying assembly, a sensing part of the infrared sensor is positioned on the outer side surface of the shell, the outer side surface is not a bearing surface of the shell, the infrared sensor is used for sensing a hand of a human body and generating a human body sensing signal to be sent to the controller, and the controller controls whether the first rotating motor runs or not according to the condition of receiving the human body sensing signal; the induction part of the second infrared inductor is positioned on the inner side of the shell, and on the sliding path of the sliding cover, the induction part generates a shielding signal when the sliding cover is shielded and sends the shielding signal to the controller, and the controller controls the operation of the micro booster pump according to the condition of receiving the shielding signal; the sensing part of the pressure sensor is positioned in the shell and is right opposite to the sleeve taking opening and positioned between the two connecting rods, the distance between the sensing part of the pressure sensor and the connecting rods which are relatively close to the sleeve taking opening is slightly larger than the length of one finger sleeve, the pressure sensor is used for sensing the butting condition of the finger sleeve and generating a pressure sensing signal to be sent to the controller, and the controller controls the operation of the second rotating motor according to the condition of the pressure sensing signal.

Preferably, the sensing part of the infrared sensor is located on the top surface of the housing and arranged upward.

Preferably, the minimum distance between the sensing part of the distance sensor and the edge of the sleeve taking opening is greater than the distance between the center of the sleeve taking opening and the edge of the sleeve taking opening, and the distance sensor is positioned right above the sleeve taking opening.

Preferably, the micro-booster pump is arranged in the shell, and the disinfectant tank is arranged outside the shell and is transparent.

Preferably, the box cover and the sleeve taking opening are located on the same side, and the box cover is located on the outer side of the shell.

Preferably, the top surface of the finger sleeve plate is provided with a placing groove for placing the finger sleeve side by side along the length direction of the finger sleeve plate, and the end of the placing groove, which is far away from the box cover, is provided with no groove wall.

Preferably, the distance between two adjacent finger sleeve plates is larger than the diameter of one finger sleeve.

Preferably, the finger sleeve plate is provided with a handle penetrating through one end part of the box cover.

Preferably, the box cover is transparent.

Preferably, the conveying assembly comprises a conveying belt, a conveying driving shaft, a conveying driven shaft and a driving part, the conveying belt is rotatably installed in the shell through the conveying driving shaft and the conveying driven shaft, the conveying driving shaft is connected with the driving part, and the driving part is a rotating motor.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses a mode that sets up the liquid pipe at the mouth of getting the cover realizes getting the disinfection of cover mouth, reduces the possibility that the user's finger remained virus or bacterium when stretching into in the casing.

2. The utility model discloses a set up the mode that self-sliding closure lid closed the cover mouth at the cover mouth and come airtight cover mouth of getting when not needing to get the cover, dust when avoiding not getting the cover, the virus, the bacterium etc. gets into in the casing from cover mouth department, pollution abatement's possibility, when needs are got the cover, it slides to respond to human hand back drive sliding closure through response infrared inductor, the sliding closure is opened and is got the cover mouth to the certain distance after, miniature booster pump takes out the antiseptic solution in the antiseptic solution jar to liquid intraductal, and spray out in the spray hole on the follow liquid pipe, thereby disinfect to the cover mouth of getting, and disinfect to user's finger to a certain extent.

3. The utility model discloses a dactylotheca has elasticity, and it is fixed on a dactylotheca section of thick bamboo through the cover, and relative finger sleeve slides when receiving user's hand effect, because of its elastic action, the part that the human finger of slip process contact can be automatic attached, when the dactylotheca breaks away from completely and indicates the sleeve, the dactylotheca is worn on the human finger completely promptly, and it need not the manual work and wears, and is comparatively convenient, and elastic setting can make the dactylotheca be applicable to different people's hand, and the suitability is better.

Drawings

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

Fig. 2 is a schematic view of the internal structure of fig. 1.

Fig. 3 is a schematic structural diagram of the finger sleeve box of the present invention.

Fig. 4 is a sectional view of the finger sleeve plate of the present invention.

Fig. 5 is a sectional view of the placing platform of the present invention.

Fig. 6 is a schematic structural diagram of the limiting frame of the present invention.

Description of the main elements

In the figure: the device comprises a shell 1, a sleeve taking port 11, a cylinder outlet 12, a liquid pipe 2, a liquid outlet pipe 21, a micro booster pump 3, a liquid inlet pipe 31, a disinfectant tank 4, a sliding cover 5, a first strip-shaped rack 51, a first gear 52, a first rotating motor 53, a finger stall box 6, a sliding rail group 61, a finger stall plate 7, a placing groove 71, a handle 72, a box cover 8, a conveying assembly 9, a conveying belt 91, a conveying driving shaft 92, a conveying driven shaft 93, a driving part 94, a placing platform 10, a limiting frame 20, a limiting plate 201, a connecting rod 202, a second strip-shaped rack 203, a second gear 204, a second rotating motor 205, an infrared sensor 30, a distance sensor 40, a pressure sensor 50, a recycling cylinder bag 60 and a finger stall cylinder 70.

The following detailed description of the invention will be further described in conjunction with the above-identified drawings.

Detailed Description

Referring to fig. 1 to 6, in a preferred embodiment of the present invention, a disposable finger cot taking device comprises a housing 1, a housing cover is disposed on a back surface of the housing 1, an inner surface of the housing 1 can be checked by opening the housing cover, a taking port 11 is disposed on a front surface of the housing 1, an annular liquid pipe 2 is disposed along a periphery of the taking port 11 and matches an outer contour of the taking port 11, the liquid pipe 2 is disposed inside the housing 1 and attached to the taking port 11, a plurality of spray holes are disposed on an inner side of the liquid pipe 2 and surround a periphery of the taking port 11 and face a center of the taking port 11, the liquid pipe 2 is connected to a liquid outlet of a micro booster pump 3 through a liquid outlet 21, a liquid inlet of the micro booster pump 3 is connected to a disinfectant tank 4 mounted on the housing 1 through a liquid inlet 31, so as to pump disinfectant in the disinfectant tank 4 into the liquid pipe 2 through an action of the micro booster pump 3, and the water is sprayed to the sleeve taking opening 11 from the spray hole on the liquid pipe 2, so that the disinfection effect on the sleeve taking opening 11 is realized. Preferably, the micro-booster pump 3 is arranged inside the casing 1, and the disinfectant tank 4 is arranged outside the casing 1 and is transparent, so that the storage amount of the disinfectant in the disinfectant tank 4 can be observed conveniently.

The sleeve taking opening 11 is covered with a sliding cover 5, the sliding cover 5 is positioned on the inner side of the shell 1, the liquid pipe 2 is positioned between the sleeve taking opening 11 and the sliding cover 5, the sliding cover 5 is connected with the inner wall of the shell 1 in a sliding manner, a first strip-shaped rack 51 is arranged on the sliding cover 5, the length direction of the first strip-shaped rack 51 is the sliding direction of the sliding cover 5, the first strip-shaped rack 51 is meshed and connected with a first gear 52, the first gear 52 is arranged on an output shaft of a first rotating motor 53, the first rotating motor 53 is arranged on the inner side of the shell 1 and positioned on one side of the sliding cover 5, and the one side is not the side of the sliding cover 5 in the; with the effect through first rotation motor 53 drive sliding closure 5 lid close get pullover 11, when avoiding not getting pullover, dust, virus or bacterium are from getting pullover 11 into casing 1 inboardly to pollute inside dactylotheca, perhaps open and get pullover 11, thereby conveniently get pullover.

The upper part of the shell 1 is provided with a finger stall box 6 for placing a finger sleeve 70, the exterior of the finger sleeve 70 is slidably sleeved with a disposable finger stall, the disposable finger stall has elasticity, the loop opening of the disposable finger stall is slidably sleeved on the cylinder wall of the finger sleeve 70, the tip end of the disposable finger stall is opposite to and seals the end part of the finger sleeve 70, and the length of the disposable finger stall is less than that of the finger sleeve 70; the disposable finger cot is attached to a human finger through the elastic action of the disposable finger cot, is suitable for users who do not need to use the finger to have a thick and thin structure, and is arranged on the finger sleeve 70 in a sliding mode to realize fixation and later-period sleeving on the finger. The finger sleeve box 6 is bottomless, the width direction of the finger sleeve box is slightly larger than the length direction of one finger sleeve 70, the finger sleeve box 6 is provided with a plurality of sliding rail sets 61 at intervals along the height direction of the finger sleeve box, each sliding rail set 61 comprises two sliding rails, the two sliding rails are respectively arranged on the inner walls of two opposite sides of the finger sleeve box 6, the distance between the two sliding rails and the bottom surface of the finger sleeve box 6 is the same, each sliding rail set 61 is provided with a finger guard plate 7 for placing one row of finger sleeves 70 in a sliding manner, and the length directions of all the finger sleeves 70 in the row are parallel to the width; a box cover 8 is detachably covered on one side surface of the finger sleeve box 6, the side surface is the side where one end of the finger sleeve plate 7 in the sliding direction is located, one end of the finger sleeve plate 7 penetrates through the box cover 8 in a sliding mode, and the end portion of the one end is located on the outer side of the finger sleeve box 6; the finger sleeves 70 are placed through the finger guard plates 7 placed up and down, thereby increasing the number of disposable finger guards contained in the device. It should be noted that, when in use, the finger stall plate 7 is used from bottom to top, and when the lower finger stall plate 7 does not have the finger sleeve 70, the upper finger stall plate 7 adjacent to the lower finger stall plate is slid, so that the finger sleeve 70 on the upper finger stall plate 7 falls onto the lower finger stall plate 7, and the finger sleeve 70 can fall out from the bottom of the finger stall box 6 in order to ask for questions in a sequential falling manner. In order to facilitate the finger sleeves 70 to be placed neatly and stably on the finger stall plate 7 and fall down, in the present embodiment, the top surface of the finger stall plate is provided with the placing groove 71 for placing the finger sleeves 70 side by side along the length direction thereof, the end of the placing groove 71 away from the box cover 8 has no groove wall, so as to improve the placing regularity of the finger sleeves 70 by placing the finger sleeves 70 on the placing groove 71, and furthermore, the distance between two adjacent finger stall plates 7 is preferably slightly larger than the diameter of one finger sleeve 70, so that the finger sleeves 70 fall down to the next finger stall plate 7 stably. Further, the box cover 8 and the sleeve taking port 11 are located on the same side, and the box cover 8 is located on the outer side of the shell 1, so that the box cover 8 can be conveniently disassembled and assembled. The finger sleeve plate 7 penetrates through one end part of the box cover 8, and a handle 72 is arranged at the end part, so that the finger sleeve plate 7 can be pulled to slide conveniently. The box cover 8 is transparent, so that the placement condition of the finger sleeve 70 in the finger sleeve box 6 can be conveniently checked.

The bottom of the finger sleeve box 6 extends into the shell 1 through the top of the shell 1, a conveying assembly 9 is arranged right below the finger sleeve box, the upper conveying surface of the conveying assembly 9 is opposite to the bottom of the finger sleeve box 6, the length direction of the upper conveying surface is parallel to the length direction of the finger sleeve boxes 6, the two ends of the upper conveying surface in the length direction are not aligned with the bottoms of the finger sleeve boxes 6, so as to catch the whole row of finger sleeves 70 falling from finger stall box 6, placing platform 10 is arranged right below the conveying end of conveying assembly 9, so that finger sleeves 70 on the placing platform 10 are conveyed one by one, in the present embodiment, the conveying assembly 9 includes a conveying belt 91, a conveying driving shaft 92, a conveying driven shaft 93 and a driving part 94, the conveying belt 91 is rotatably installed in the housing 1 through a conveying driving shaft 92 and a conveying driven shaft 93, the conveying driving shaft 92 is connected with a driving part 94, and the driving part 94 is a rotating motor.

The placing platform 10 is horizontally arranged and extends from the conveying tail end of the conveying assembly 9 to the sleeve taking opening 11, and the upper surface of the placing platform 10 is slightly lower than the lower end of the sleeve taking opening 11. The placement platform 10 is provided with a limiting frame 20 in a sliding manner, the sliding direction is the conveying direction of the conveying assembly 9, the limiting frame 20 comprises two limiting plates 201 and two connecting rods 202, the length direction of the limiting plates 201 is the width direction of the finger stall box 6, the plate surfaces of the limiting plates 201 are perpendicular to the sleeve taking opening 11, the bottoms of the two limiting plates 201 are connected with the placement platform 10 in a sliding manner, the two limiting plates are parallel and opposite, the two ends of the two limiting plates in the length direction are connected with each other through the connecting rods 202, and the distance between the two connecting rods 202 is larger than the length of one finger sleeve 70; one of the two limiting plates 201 is connected with the placing platform 10 in a sliding manner through a sliding driving assembly, and the two limiting plates 201 are located right below the conveying tail end of the conveying assembly 9 in a sliding manner or only one of the two limiting plates is connected to the placing platform 10 and is close to the sliding driving assembly; the sliding driving assembly comprises a second strip-shaped rack 203, a second gear 204 and a second rotating motor 205, the length direction of the second strip-shaped rack 203 is the sliding direction of the limiting frame 20, the second rack is in meshing connection with the second gear 204, the second gear 204 is sleeved on the second rotating motor 205, and the second rotating motor 205 is installed on the placing platform 10; the placing space formed by the two limiting plates 201 of the limiting frame 20 is moved to the position right below the conveying end of the conveying assembly 9 through the sliding driving assembly, so that a single finger sleeve 70 falling from the conveying assembly 9 falls into the placing space, and then is conveyed to the position right opposite to the sleeve taking opening 11 through the sliding driving assembly, specifically, one end of the finger sleeve 70 with the tip of the disposable finger sleeve is right opposite to the sleeve taking opening 11, so that fingers coming from the sleeve taking opening 11 can contact the disposable finger sleeve conveniently, and the disposable finger sleeve is enabled to slide relative to the finger sleeve 70 to be separated from the finger sleeve 70, in the separation process, the disposable finger sleeve is attached to the fingers due to the elastic action of the disposable finger sleeve, namely, the wearing process of the whole finger sleeve is completed, when the fingers are taken out from the sleeve taking opening 11, the finger sleeve in the limiting frame 9 moves to one side back from the conveying assembly 9 under the action of the sliding driving assembly, and when the connecting rod 92 connecting the sliding driving assembly moves to the boundary of the placing platform, the finger sleeve cylinder 70 framed by the limiting frame 9 falls off because of no support at the bottom.

A cylinder outlet 12 is formed in the bottom of the shell 1, the cylinder outlet 12 and the conveying assembly 9 are respectively arranged on two opposite sides of the sleeve taking opening 11, the cylinder outlet 12 is positioned at one end of the placing platform 10 far away from the conveying assembly 9, a recovery cylinder bag 60 is detachably mounted at the cylinder outlet, and the recovery cylinder bag 60 is positioned outside the shell 1; so as to guide the finger sleeve cylinder 70 dropped from the placing platform 10 to drop into the recovery cylinder bag 60 through the cylinder outlet 12 for centralized collection. Preferably, the outlet 12 is funnel-shaped.

The shell 1 is further provided with an infrared sensor 30, a distance sensor 40, a pressure sensor 50, a controller and a power supply device, the power supply device is connected with the controller, the controller is respectively connected with the micro booster pump 3, the first rotating motor 53, the second rotating motor 205, the infrared sensor 30, the distance sensor 40, the pressure sensor 50 and the driving part 94 of the conveying assembly 9, the sensing part of the infrared sensor 30 is positioned on the outer side surface of the shell 1, the outer side surface is not the bearing surface of the shell 1, the infrared sensor 30 is used for sensing a hand of a human body and generating a human body sensing signal to be sent to the controller, the controller controls the first rotating motor 53 to operate or not according to the condition of receiving the human body sensing signal, namely, when the situation that the sensing part of the infrared sensor 30 is covered by the human body is detected, the controller drives the first rotating motor 53 to operate, the sliding cover 5 slides to open the sleeve taking opening 11; the induction part of the distance inductor 40 is positioned at the inner side of the shell 1, and on the sliding path of the sliding cover 5, the distance inductor generates a shielding signal to be sent to the controller when the sliding cover 5 is shielded, the controller controls the operation of the micro booster pump 3 according to the condition of receiving the shielding signal, namely, when the induction part of the distance inductor 40 is shielded by the sliding cover, the controller drives the micro booster pump 3 to operate so as to perform injection disinfection on the sleeve taking port 11; the sensing part of the pressure sensor is positioned in the shell 1, is opposite to the sleeve taking opening 11 and is positioned between the two connecting rods 202, the distance between the sensing part of the pressure sensor and the connecting rods 202 which are relatively close to the sleeve taking opening 11 is slightly larger than the length of one finger sleeve 70, the pressure sensor is used for sensing the abutting condition of the finger sleeve 70 and generating a pressure sensing signal to be sent to the controller, the controller controls the operation of the second rotating motor 205 according to the condition of the pressure sensing signal so as to sense whether the finger sleeve 70 acts on the pressure sensor 50 or not through the pressure sensor 50, namely, when a finger abuts against the disposable finger sleeve, the disposable finger sleeve can cause the finger sleeve 70 to contact and extrude the pressure sensor 50, so that the pressure sensor 50 generates the pressure sensing signal, when a hand is separated from the finger sleeve and does not act on the finger sleeve 70, the pressure sensor 50 is not pressed, the controller controls the second rotating motor 205 to move according to whether the pressure sensing signal exists or not, namely, after the pressure sensing signal is received, the controller cancels the pressure sensing signal to drive the second rotating motor 205 to complete a motion process, the motion process comprises the steps of enabling the finger sleeve 70 to fall off the placing platform 10, returning to the conveying end of the conveying assembly 9 to catch a new finger sleeve 70 falling off from the conveying assembly 9, and then moving to enable the new finger sleeve 70 to just face the sleeve taking opening 11.

Preferably, in the present embodiment, the sensing portion of the infrared sensor 30 is located on the top surface of the housing 1 and is disposed upward. The minimum distance between the sensing part of the distance sensor 40 and the edge of the sleeve taking opening 11 is greater than the distance between the center of the sleeve taking opening 11 and the edge of the sleeve taking opening, and the distance sensor 40 is positioned right above the sleeve taking opening 11.

It should be noted that, the utility model discloses the couple on the side of accessible casing 1 leans on vertical wall, does to adopt other modes to fix and places, and this application does not restrict casing 1's fixed mode.

The above description is for the detailed description of the preferred possible embodiments of the present invention, but the embodiments are not intended to limit the scope of the present invention, and all equivalent changes or modifications accomplished under the technical spirit suggested by the present invention should fall within the scope of the present invention.

Claims (10)

1. The utility model provides a device is taken to disposable dactylotheca, includes the casing, its characterized in that: the back surface of the shell is provided with a shell cover, the front surface of the shell is provided with a sleeve taking opening, the periphery of the sleeve taking opening is provided with an annular liquid pipe matched with the outline of the sleeve taking opening, the liquid pipe is positioned inside the shell and attached to the sleeve taking opening, the inner ring side of the liquid pipe is provided with a plurality of spray holes, the spray holes are circumferentially arranged around the sleeve taking opening and face the center of the sleeve taking opening, the liquid pipe is connected with the liquid outlet end of the micro booster pump through a liquid outlet pipe, and the liquid inlet end of the micro booster pump is connected with a disinfection liquid tank which is arranged on the shell through a liquid inlet pipe; the sleeve taking port is covered with a sliding cover, the sliding cover is positioned on the inner side of the shell, the liquid pipe is positioned between the sleeve taking port and the sliding cover, the sliding cover is connected with the inner wall of the shell in a sliding mode, a first strip-shaped rack is arranged on the sliding cover, the length direction of the first strip-shaped rack is the sliding direction of the sliding cover, the first strip-shaped rack is meshed with a first gear, the first gear is arranged on an output shaft of a first rotating motor, the first rotating motor is arranged on the inner side of the shell and positioned on one side of the sliding cover, and the one side is not the side of the sliding cover in the sliding direction;

the upper part of the shell is provided with a finger stall box for placing a finger sleeve, the outside of the finger sleeve is sleeved with a disposable finger stall in a sliding way, the disposable finger stall has elasticity, a loop opening of the disposable finger stall is sleeved on the cylinder wall of the finger sleeve in a sliding way, the finger tip of the disposable finger stall is over against and seals the end part of the finger sleeve, and the length of the disposable finger stall is less than that of the finger sleeve; the fingerstall box is bottomless, the width direction of the fingerstall box is slightly larger than the length direction of a fingerstall sleeve, a plurality of sliding rail groups are arranged on the fingerstall box at intervals along the height direction of the fingerstall box, each sliding rail group comprises two sliding rails, the two sliding rails are respectively arranged on the inner walls of two opposite sides of the fingerstall box, the distance between the two sliding rails and the bottom surface of the fingerstall box is the same, each sliding rail group is provided with a fingerstall plate for placing a row of fingerstall sleeves in a sliding manner, and the length direction of all the fingerstall sleeves in the row is parallel to the; a box cover is detachably covered on one side face of the finger sleeve box, the side face is the side where one end of the finger sleeve plate in the sliding direction is located, the box cover is slidably arranged at the end of the finger sleeve plate in a penetrating mode, and the end portion of the end is located on the outer side of the finger sleeve box;

the bottom of the finger sleeve box extends into the shell through the top of the shell, a conveying assembly is arranged right below the finger sleeve box, an upper conveying surface of the conveying assembly is right opposite to the bottom of the finger sleeve box, the length direction of the upper conveying surface is parallel to the length direction of the finger sleeve box, two ends of the upper conveying surface in the length direction are not right opposite to the bottom of the finger sleeve box, a placing platform is arranged right below a conveying tail end of the conveying assembly, the placing platform is horizontally arranged and extends to a sleeve taking opening from the conveying tail end of the conveying assembly, and the upper surface of the placing platform is slightly lower than the lower end of the sleeve taking opening;

the placing platform is provided with a limiting frame in a sliding mode, the sliding direction is the conveying direction of the conveying assembly, the limiting frame comprises two limiting plates and two connecting rods, the length direction of the limiting plates is the width direction of the finger sleeve box, the plate surfaces of the limiting plates are perpendicular to the sleeve taking opening, the bottoms of the two limiting plates are connected with the placing platform in a sliding mode and are parallel to and opposite to each other, the two ends of the two limiting plates in the length direction are connected with each other through the connecting rods, and the distance between the two connecting rods is larger than the length of one finger sleeve; one of the two limiting plates is connected with the placing platform in a sliding mode through a sliding driving assembly, and the two limiting plates are located right below the conveying tail end of the conveying assembly in a sliding mode or only one of the two limiting plates close to the sliding driving assembly is connected to the placing platform; the sliding driving assembly comprises a second strip-shaped rack, a second gear and a second rotating motor, the length direction of the second strip-shaped rack is the sliding direction of the limiting frame, the second strip-shaped rack is in meshed connection with the second gear, the second gear is sleeved on the second rotating motor, and the second rotating motor is installed on the placing platform;

the bottom of the shell is provided with a cylinder outlet, the cylinder outlet and the conveying assembly are respectively arranged on two opposite sides of the sleeve taking opening, the cylinder outlet is positioned at one end of the placing platform, which is far away from the conveying assembly, a recovery cylinder bag is detachably arranged at the cylinder outlet, and the recovery cylinder bag is positioned outside the shell;

the shell is further provided with an infrared sensor, a distance sensor, a pressure sensor, a controller and a power supply device, the power supply device is connected with the controller, the controller is respectively connected with the micro booster pump, the first rotating motor, the second rotating motor, the infrared sensor, the distance sensor, the pressure sensor and a driving part of the conveying assembly, a sensing part of the infrared sensor is positioned on the outer side surface of the shell, the outer side surface is not a bearing surface of the shell, the infrared sensor is used for sensing a hand of a human body and generating a human body sensing signal to be sent to the controller, and the controller controls whether the first rotating motor runs or not according to the condition of receiving the human body sensing signal; the induction part of the distance inductor is positioned at the inner side of the shell, and on the sliding path of the sliding cover, the distance inductor generates a shielding signal to be sent to the controller when the sliding cover is shielded, and the controller controls the operation of the micro booster pump according to the condition of receiving the shielding signal; the sensing part of the pressure sensor is positioned in the shell and is right opposite to the sleeve taking opening, the pressure sensor is positioned between the two connecting rods, the distance between the sensing part of the pressure sensor and the connecting rods which are relatively close to the sleeve taking opening is slightly larger than the length of one finger sleeve, the pressure sensor is used for sensing the abutting condition of the finger sleeve and generating a pressure sensing signal to be sent to the controller, and the controller controls the operation of the second rotating motor according to the condition of the pressure sensing signal.

2. The disposable finger cot retrieval device of claim 1, wherein: the sensing part of the infrared sensor is positioned on the top surface of the shell and arranged upwards.

3. The disposable finger cot retrieval device of claim 1, wherein: the minimum distance between the sensing part of the distance sensor and the edge of the sleeve taking opening is greater than the distance between the center of the sleeve taking opening and the edge of the sleeve taking opening, and the distance sensor is positioned right above the sleeve taking opening.

4. The disposable finger cot retrieval device of claim 1, wherein: the micro booster pump is arranged in the shell, and the disinfectant tank is arranged outside the shell and is transparent.

5. The disposable finger cot retrieval device of claim 1, wherein: the box cover and the sleeve taking opening are located on the same side, and the box cover is located on the outer side of the shell.

6. The disposable finger cot retrieval device of claim 5, wherein: the top surface of finger sleeve board is provided with the standing groove that is used for placing the finger sleeve side by side along its length direction, the standing groove deviates from the one end no cell wall of lid.

7. The disposable finger cot retrieval device of claim 1, wherein: the distance between two adjacent finger sleeve plates is larger than the diameter of one finger sleeve.

8. The disposable finger cot retrieval device of claim 1, wherein: the finger sleeve plate penetrates through the end part of one end of the box cover and is provided with a handle.

9. The disposable finger cot retrieval device of claim 1, wherein: the box cover is transparent.

10. The disposable finger cot retrieval device of claim 1, wherein: the conveying assembly comprises a conveying belt, a conveying driving shaft, a conveying driven shaft and a driving part, the conveying belt is rotatably installed in the shell through the conveying driving shaft and the conveying driven shaft, the conveying driving shaft is connected with the driving part, and the driving part is a rotating motor.

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