CN116816238A - Be used for hospital X-ray film room radiation protection door to close slip subassembly - Google Patents

Abstract

The utility model belongs to the technical field of medical equipment, and discloses a radiation-proof door closing sliding assembly for an X-ray film room of a hospital, which comprises a radiation-proof door supporting base, wherein a mounting pipe is fixedly arranged on one side of the top of the radiation-proof door supporting base, a sliding groove is formed in one side, far away from the mounting pipe, of the top of the radiation-proof door supporting base, the inside of the sliding groove is connected with the radiation-proof door closing assembly in a sliding manner, and a connecting groove is formed in one end, close to the radiation-proof door closing assembly, of the mounting pipe. According to the utility model, through the cooperation of the structures such as the first inclined block and the sliding groove, the cleaning effect on the groove at the bottom end of the radiation-proof door is further realized, when the power assembly operates, the top of the radiation-proof door body is pulled to move towards one side wall of the mounting pipe, impurities and granular medical waste in the sliding groove are pushed and cleaned along with the movement of the first inclined block, and the smoothness of the movement of the subsequent radiation-proof door closing assembly is ensured.

Description

Be used for hospital X-ray film room radiation protection door to close slip subassembly

Technical Field

The utility model belongs to the technical field of medical equipment, and particularly relates to a radiation-proof door closing sliding assembly for an X-ray film room of a hospital.

Background

The X-ray film room in hospital irradiates the human body with X-ray to make medical examination, and to prevent the radiation from being released outwards during the film shooting operation of the patient, the related radiation-proof door is used for blocking.

For example, the utility model of application number CN202021085269.1 discloses a cleaning device for elevator car door edge joint, including the bracing piece, its characterized in that: the top of the supporting rod is provided with a transverse connecting rod, one side of the connecting rod far away from the supporting rod is provided with a vertical ejector rod, one side of the ejector rod is detachably provided with a connecting plate, the bottom of the other side is provided with a side cleaning layer, one side of the connecting plate is provided with a T-shaped sliding block and an ejector block, the other side is provided with a cleaning hair layer, the utility model discloses a T-shaped sliding block, including ejector pin, connecting plate, bracing piece, fastening bolt, screw thread groove, hanging hole, the ejector pin is equipped with the T-shaped spacing spout of the spacing complex of ejector pin and connecting plate slip with one side that the ejector pin meets, be equipped with fastening bolt on the ejector pin, the ejector pin top is equipped with the screw thread groove, fastening bolt vertically passes the ejector pin and meets with the screw thread groove screw thread, the bracing piece bottom is equipped with the hanging hole. The utility model is convenient to assemble, disassemble, clean and maintain, and is convenient to support in the door gap of the car to clean the edge gap.

In the above-mentioned patent, adopt the connecting plate to pass through the cooperation of relevant structure such as the spacing spout slip butt joint of T type and T type, the operation is comparatively convenient and fast to the edge joint, but in actual use, because the device is independent design, can 'T be with the effectual combination of body, thereby it needs to operate alone to lead to it, the availability factor has been reduced by a wide margin, and in the application of current X-ray film room radiation protection door, because the gate often has patient business turn over, impurity dust and granular medical waste that patient and doctor carried on will drop or drift to the inslot of radiation protection door bottom, in order to guarantee the normal sealed effect of radiation protection door after closing, need in time clear up it, nevertheless adopt independent clearance subassembly clearance, because radiation protection door bottom inslot area is less, hospital flow is great, the clearance will influence the follow-up efficiency to the health detection of disease this moment, and the granular medical impurity in the inslot will influence radiation protection door in the laminating time, therefore, a kind of health clearance subassembly is carried out to the patient under the condition that the effective impurity that can not normally clear up in time to the slip of the patient of the effect is closed to the doctor's X-ray film room radiation protection door.

Disclosure of Invention

(one) solving the technical problems

In order to solve the problems in the background technology, the utility model provides a radiation-proof door closing sliding component for an X-ray film room of a hospital, which has the advantage of timely cleaning the inside of a groove on the premise of not influencing the normal body health detection of a patient, and the cleaning effect of the inside of the groove at the bottom end of the radiation-proof door is realized by arranging the first inclined block, the sliding groove and other structures to cooperate; by arranging the connection grooves, the cleaning assembly and other structures, the cleanliness of the outer side wall of the installation tube is further improved when the installation tube is attached to the radiation-proof door closing assembly, and the particle solid medical waste is prevented from being attached and extruded due to the attachment of the radiation-proof door closing assembly; through setting up the cooperation of pressing block and taking unit isotructure, and then facilitated the clearance to collecting back medical waste, adoption embedded design will have reduced occupation space by a wide margin.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a be used for hospital X line film room radiation protection door to close slip subassembly, includes the radiation protection door support base, one side fixed mounting who radiation protection door supports the base top has the mounting tube, the one side that the radiation protection door supported the base top and kept away from the mounting tube has seted up the sliding tray, the inside of sliding tray slides and is connected with the radiation protection door and closes the subassembly, the mounting tube is close to the one end that the radiation protection door closed the subassembly and has seted up the spread groove, the inside swing joint of spread groove has the clearance subassembly, one side fixed mounting who installs the tube top has power component, the inside and the upper end fixed connection of sliding tray of power component, the clearance subassembly is located the inside one side hinge connection that the mounting tube is close to at the radiation protection door support base top has two shielding plates, the one end swing joint that the radiation protection door supported the base top kept away from the radiation protection door closes the subassembly presses the subassembly, the rear end fixedly connected with at radiation protection door support base top moves the subassembly and is located the inside one end and the radiation protection door and closes subassembly fixed connection.

Preferably, the radiation protection door closing assembly comprises a radiation protection door body, the lower end of the radiation protection door body is connected with the inner wall of the sliding groove in a sliding manner, the top of the radiation protection door body is movably connected with the upper end of the installation pipe, a first inclined block positioned in the sliding groove is fixedly installed at the bottom of the radiation protection door body, a rubber extrusion sleeve is fixedly installed on one side wall of the radiation protection door body, which is close to the installation pipe, and a clamping block is fixedly installed at one end of the rubber extrusion sleeve, which is far away from the radiation protection door body.

Preferably, the power component comprises a servo motor and a second connecting shaft, the servo motor is arranged on the outer side of the installation tube, one end of an output shaft of the servo motor is fixedly connected with a first connecting shaft, one end of the first connecting shaft, which is far away from the servo motor, is connected with the installation tube in a bearing manner, the front end and the rear end of the outer surface of the first connecting shaft are respectively sleeved with a first belt, the first connecting shaft is connected with the second connecting shaft through a first belt transmission, the middle end of the outer surface of the first connecting shaft is connected with the upper end of the cleaning component in a sleeved manner, and the bottom of the first belt is fixedly connected with the middle end of the top of the radiation protection door closing component.

Preferably, the cleaning assembly comprises a third connecting shaft, the third connecting shaft is connected with an inner cavity bearing of the radiation protection door supporting base, a second belt is sleeved on the outer surface of the third connecting shaft, the third connecting shaft is in transmission connection with the power assembly through the second belt, a stabilizing block is movably connected to the inside of the second belt, the stabilizing block is fixedly connected with the inner wall of the mounting pipe, a rectangular pipe is fixedly arranged at the upper end of the second belt, which is close to a side wall of the radiation protection door closing assembly, a connecting block is movably clamped in the inner part of the rectangular pipe, which is far away from one end of the second belt, a second inclined block is fixedly arranged at one end of the connecting block, which is close to the second belt, a first spring telescopic cylinder is fixedly connected with the first spring telescopic cylinder, and the rectangular pipe.

Preferably, the pressing assembly comprises a pressing block, the lower extreme of the pressing block extends to the inside of the radiation protection door supporting base and the front side and the rear side of the bottom are fixedly provided with matched gears, the lower end of the pressing block is close to a side wall of the radiation protection door closing assembly and is connected with the matched gears in a meshed mode, the matched gears are connected with an inner wall bearing of the radiation protection door supporting base, the matched gears are connected with a placing unit in a meshed mode, the top of the placing unit is movably clamped with a taking unit located under the covering plate, and one end of the placing unit, which is far away from the second spring supporting base, is movably clamped with a limiting clamping plate.

Preferably, the movable assembly comprises a fourth connecting shaft, the fourth connecting shaft is connected with an inner wall bearing of the radiation protection door supporting base, a third belt is sleeved on the outer surface of the fourth connecting shaft, the fourth connecting shaft is in transmission connection with the cleaning assembly through the third belt, a movable block is fixedly arranged at the top of the third belt, the movable block is fixedly connected with the radiation protection door closing assembly, two sides of the movable block are fixedly connected with movable plates positioned above the radiation protection door supporting base, one end of the movable plate, far away from the movable block, is movably sleeved with a fixed pipe, and the fixed pipe is fixedly connected with the top of the radiation protection door supporting base.

Preferably, the placing unit comprises a placing plate, one end of the placing plate, far away from the limiting clamping plate, is connected with the matched gear in a meshed mode, a limiting block is fixedly arranged at the top of the placing plate, and the top of the limiting block is movably clamped with the taking unit.

Preferably, the unit of taking includes the access frame, the top activity joint of access frame and stopper, the top fixedly connected with of access frame is contradicted the arc piece, the appearance of contradicting the arc piece is semicircle arc, and the top appears to be the convexity.

Preferably, the top surface of the first inclined block, which is close to one end of the installation tube, presents an inclined surface, and the width value of the first inclined block is the same as the width value of the inner cavity of the sliding groove.

Preferably, the appearance of the second sloping block is triangular, one end of the second sloping block connected with the connecting block is movably connected in the connecting groove, the area size of a side wall, attached to the mounting pipe, of the second sloping block is larger than that of an opening of the connecting groove, and the area size of the opening of one end, connected with the connecting groove and the sliding groove, of the second sloping block is the same.

(III) beneficial effects

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

according to the utility model, through the cooperation of the structures such as the first inclined block and the sliding groove, the cleaning effect on the inside of the groove at the bottom end of the radiation-proof door is realized, when the power assembly operates, the top of the radiation-proof door body is pulled to move towards one side wall of the installation pipe, and meanwhile, the power assembly drives the bottom end of the radiation-proof door body to move towards one side of the installation pipe through the cleaning assembly and the moving assembly, so that the radiation-proof door body drives the first inclined block to move in the sliding groove, impurities and granular medical garbage in the sliding groove are pushed and cleaned along with the movement of the first inclined block, the inside cleanliness of the sliding groove is further ensured, and the moving smoothness of the subsequent radiation-proof door closing assembly is ensured;

according to the utility model, through the cooperation of the structures such as the connecting groove and the cleaning component, the cleanliness of the outer side wall of the mounting tube is further improved when the mounting tube is attached to the radiation-proof door closing component, the particle solid medical waste is prevented from being attached and extruded when the radiation-proof door closing component is attached to the mounting tube, the compactness when the mounting tube is connected with the mounting tube is reduced, the second inclined block moves downwards on the outer side wall of the mounting tube when the third connecting shaft drives the second belt to move, the outer side wall of the mounting tube is cleaned, the cleanliness of the surface of the outer side wall of the mounting tube when the mounting tube is attached to the radiation-proof door body is ensured, and when the second inclined block moves to the lower end of the connecting groove, the first inclined block is abutted against the stabilizing block, so that the second inclined block enters the inside of the mounting tube, the influence on the compactness when the radiation-proof door body is attached to the mounting tube by the second inclined block is prevented, the cleanliness when the mounting tube is attached to the radiation-proof door closing component is effectively ensured, and the compactness when the subsequent radiation-proof door closing component is connected to the mounting tube is improved;

the medical garbage collecting device is convenient to clean the collected medical garbage by arranging the pressing block, the taking unit and other structures in a matching manner, the occupied space is greatly reduced by adopting an embedded design, the pressing block is stepped down, the placing unit and the taking unit move upwards together by the pressing block through the matching gear, at the moment, the top of the abutting arc block can extrude the bottom of the shielding plate, the abutting arc block and the access frame can gradually move upwards through the shielding plate, the abutting arc block can be pulled to drive the access frame to separate outwards from the inside of the limiting block, the operation is simple, and medical staff can step on the medical garbage collecting device by feet, so that labor is saved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic side cross-sectional view of the present utility model;

FIG. 3 is a schematic diagram showing the structural cooperation of the pressing block and the taking unit according to the utility model;

FIG. 4 is a schematic diagram of the structural cooperation of the placing unit and the picking unit according to the present utility model;

FIG. 5 is a schematic cross-sectional view of the mounting tube of the present utility model;

FIG. 6 is a schematic illustration of the structural mating relationship of the attachment slot and mounting tube of the present utility model;

FIG. 7 is a schematic cross-sectional view of a third belt of the present utility model;

FIG. 8 is a schematic view of a partial enlarged structure at A in FIG. 7;

FIG. 9 is a schematic illustration of the structural cooperation of the radiation shield closure assembly and the power assembly of the present utility model;

FIG. 10 is a schematic view of the structure of the part at B in the present 9;

FIG. 11 is a schematic illustration of the structural cooperation of the radiation shield closure assembly, power assembly and cleaning assembly of the present utility model;

FIG. 12 is a schematic diagram of the structural mating relationship of the rectangular tube and the connecting block of the present utility model.

In the figure: 1. a radiation protection door supporting base; 2. installing a pipe; 3. a radiation shield door closure assembly; 31. a radiation shield door body; 32. a first sloping block; 33. a rubber extrusion sleeve; 34. a clamping block; 4. a power assembly; 41. a servo motor; 42. a first connecting shaft; 43. a second connecting shaft; 44. a first belt; 5. a sliding groove; 6. a connecting groove; 7. cleaning the assembly; 71. a third connecting shaft; 72. a second belt; 73. a stabilizing block; 74. a rectangular tube; 75. a connecting block; 76. a second sloping block; 77. a first spring telescoping cylinder; 8. a cover plate; 9. a pressing assembly; 91. pressing the blocks; 92. a second spring telescoping cylinder; 93. a mating gear; 94. a placement unit; 9401. placing a plate; 9402. a limiting block; 95. a taking unit; 9501. an access frame; 9502. an abutting arc block; 96. a limiting clamping plate; 10. a moving assembly; 101. a fourth connecting shaft; 102. a third belt; 103. a moving block; 104. a moving plate; 105. the tube is fixed.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 12, the utility model provides a radiation protection door closing sliding component for an X-ray film room of a hospital, which comprises a radiation protection door supporting base 1, wherein a mounting pipe 2 is fixedly arranged on one side of the top of the radiation protection door supporting base 1, a sliding groove 5 is formed in one side of the top of the radiation protection door supporting base 1, which is far away from the mounting pipe 2, a radiation protection door closing component 3 is slidingly connected in the sliding groove 5, a connecting groove 6 is formed in one end of the mounting pipe 2, which is close to the radiation protection door closing component 3, a cleaning component 7 is movably connected in the connecting groove 6, a power component 4 is fixedly arranged on one side of the top of the mounting pipe 2, the inside of the power component 4 is fixedly connected with the upper end of the sliding groove 5, one end of the cleaning component 7, which is positioned in the inside of the mounting pipe 2, is sleeved with the outer surface of the power component 4, two cover plates 8 are hinged on one side of the top of the radiation protection door supporting base 1, one end of the top of the radiation protection door supporting base 1, which is far away from the radiation protection door closing component 3, is movably connected with a pressing component 9, the rear end of the top of the radiation protection door supporting base 1 is fixedly connected with a moving component 10, the moving component 10 is positioned on one end of the top of the radiation protection door supporting base 1, which is fixedly connected with the radiation protection door closing component 3, and adopts a scheme of fixing scheme that: through the cooperation of above-mentioned structure, when power pack 4 operates, will drive the radiation protection door through moving subassembly 10 respectively and at the inside power pack 4 of installation pipe 2 upper end and close subassembly 3 and laminate mutually with one side of installation pipe 2 gradually, when power pack 4 is taking place the activity, will drive the clearance subassembly 7 and remove in the inside of spread groove 6 this moment, the lateral wall of clearance subassembly 7 will be close to the installation pipe 2 and keep away a lateral wall of radiation protection door and close subassembly 3, the while the bottom of radiation protection door closes the subassembly 3 and removes in the inside of sliding tray 5, the bottom of radiation protection door closes the subassembly 3 will be cleared up the impurity of sliding tray 5, make it get into the inside of pressing the subassembly 9, later through trampling down pressing the top that the subassembly 9 is located the radiation protection door and supports base 1 top, will make the pressing the subassembly 9 that has the impurity upwards extrude shielding plate 8, thereby the clearance use of medical personnel, the appearance of installation pipe 2 presents reverse and falls to "L" form.

As shown in fig. 9 to 12, the radiation protection door closing assembly 3 comprises a radiation protection door body 31, the lower end of the radiation protection door body 31 is connected with the inner wall of the sliding groove 5 in a sliding manner, the top of the radiation protection door body 31 is movably connected with the upper end of the installation tube 2, a first inclined block 32 positioned in the sliding groove 5 is fixedly installed at the bottom of the radiation protection door body 31, a rubber extrusion sleeve 33 is fixedly installed on one side wall of the radiation protection door body 31, which is close to the installation tube 2, one end of the rubber extrusion sleeve 33, which is far away from the radiation protection door body 31, is fixedly installed with a clamping block 34, the cleaning assembly 7 comprises a third connecting shaft 71, the third connecting shaft 71 is connected with an inner cavity bearing of the radiation protection door supporting base 1, the outer surface of the third connecting shaft 71 is sleeved with a second belt 72, the third connecting shaft 71 is in transmission connection with the power assembly 4 through the second belt 72, a stabilizing block 73 is movably connected with the inner wall of the installation tube 2 in a fixed manner, a side wall of the radiation protection door body 31, which is close to the radiation protection door 3, a pipe 74 is fixedly installed on one side wall of the radiation protection door body 74, one end of the radiation protection door body 74 is far away from the second belt 72, one end of the inner movable clamping block 75 is far away from the second belt 72, which is fixedly connected with a first rectangular pipe 75, which is far away from the first end 75, which is fixedly connected with a telescopic connecting block 75, which is far from the first 75, and is fixedly connected with a telescopic connecting block 75, which is far from the telescopic connecting block 75, and is fixedly connected with a telescopic connecting block 75, respectively. Through the cooperation of the structures such as the third connecting shaft 71 and the first spring telescopic cylinder 77, the third connecting shaft 71 is matched with the first connecting shaft 42 to drive the second belt 72 to move, and meanwhile, the second belt 72 drives the rectangular pipe 74, the connecting block 75 and the second inclined block 76 to move together on the outer side wall of the installation pipe 2, so that the outer side wall of the installation pipe 2 is cleaned, and granular impurities are prevented from being stored on one side, attached to the radiation protection door closing assembly 3, of the inner side wall of the installation pipe 2 during use, and the radiation protection effect is further influenced; through the cooperation of structures such as radiation protection door body 31 and fixture block 34, radiation protection door body 31 when removing, will drive first sloping block 32 and promote the clearance to the impurity and the cubic medical waste of sliding tray 5 inside, and rubber extrusion cover 33 and fixture block 34 will promote the closure when radiation protection door closes the subassembly 3 and be connected with installation tube 2 by a wide margin.

As shown in fig. 11, the power assembly 4 includes a servo motor 41 and a second connecting shaft 43, the servo motor 41 is disposed on the outer side of the installation tube 2, one end of an output shaft of the servo motor 41 is fixedly connected with a first connecting shaft 42, one end of the first connecting shaft 42, which is far away from the servo motor 41, is connected with the installation tube 2 through bearings, the front end and the rear end of the outer surface of the first connecting shaft 42 are respectively sleeved with a first belt 44, the first connecting shaft 42 is connected with the second connecting shaft 43 through a first belt 44 in a transmission manner, the middle end of the outer surface of the first connecting shaft 42 is sleeved with the upper end of the cleaning assembly 7, and the bottom of the first belt 44 is fixedly connected with the middle end of the top of the radiation protection door closing assembly 3, by adopting the above scheme: through the cooperation of structures such as servo motor 41 and first belt 44, servo motor 41 starts to drive first connecting axle 42 and drives the rotation of second connecting axle 43 through first belt 44, later will drive radiation protection door closing component 3 and installation tube 2 and be close to the laminating mutually of a lateral wall of spread groove 6 together, realizes the sealed effect of radiation protection door closing component 3.

As shown in fig. 3 and 4, the pressing component 9 includes pressing block 91, the lower extreme of pressing block 91 extends to the inside of radiation protection door support base 1 and the front and back both sides of bottom are all fixed mounting and are cooperated gear 93, the side wall meshing that pressing block 91 lower extreme is close to radiation protection door and closes component 3 is connected with cooperation gear 93, cooperation gear 93 is connected with the inner wall bearing of radiation protection door support base 1, cooperation gear 93 is kept away from a side wall meshing of second spring telescopic tube 92 and is connected with and places unit 94, the top movable joint of placing unit 94 has the unit 95 of taking that is located under the shielding plate 8, the one end movable joint that places unit 94 and keep away from second spring telescopic tube 92 has spacing cardboard 96, spacing cardboard 96 and radiation protection door support base 1 fixed connection adopt above-mentioned scheme: through pressing the cooperation of structure such as briquetting 91 and spacing cardboard 96, press down and press briquetting 91, press briquetting 91 will drive through cooperation gear 93 and place the unit 94 and take the unit 95 and upwards move together, take the unit 95 and will extrude the bottom of shielding plate 8, and then drive the lower extreme of taking the unit 95 and upwards break away from the inside of radiation protection door support base 1, and then realize clearing up the impurity of taking the inside placing of unit 95, adopt the mode of pressing the briquetting 91 to take the unit 95 and embedded design will save occupation space by a wide margin, the upper end of pressing the briquetting 91 adopts the design of semicircle form, medical personnel is laborsaving when stepping on.

As shown in fig. 7 and 8, the moving assembly 10 includes a fourth connecting shaft 101, the fourth connecting shaft 101 is connected with an inner wall bearing of the radiation protection door supporting base 1, a third belt 102 is sleeved on an outer surface of the fourth connecting shaft 101, the fourth connecting shaft 101 is in transmission connection with the cleaning assembly 7 through the third belt 102, a moving block 103 is fixedly installed at the top of the third belt 102, the moving block 103 is fixedly connected with a radiation protection door closing assembly 3, two sides of the moving block 103 are fixedly connected with a moving plate 104 located above the radiation protection door supporting base 1, one end, far away from the moving block 103, of the moving plate 104 is movably sleeved with a fixing tube 105, and the fixing tube 105 is fixedly connected with the top of the radiation protection door supporting base 1, by adopting the above scheme: through the cooperation of structures such as fourth connecting axle 101 and fixed pipe 105, the third connecting axle 71 will drive the bottom of radiation protection door body 31 through fourth connecting axle 101 and third belt 102 and take place to remove, and movable block 103 has played stable connection to through the cooperation of movable plate 104 and fixed pipe 105, will play the covering effect to the top of fourth connecting axle 101, avoid dust and granular impurity to get into, thereby influence subsequent normal work.

As shown in fig. 4, the placing unit 94 includes a placing plate 9401, one end of the placing plate 9401 away from the limiting clamping plate 96 is engaged with the mating gear 93, a limiting block 9402 is fixedly mounted at the top of the placing plate 9401, a taking unit 95 is movably clamped at the top of the limiting block 9402, the taking unit 95 includes an access frame 9501, the access frame 9501 is movably clamped with the top of the limiting block 9402, an abutting arc block 9502 is fixedly connected at the top of the access frame 9501, the shape of the abutting arc block 9502 is semicircular arc, and the top of the abutting arc block is convex, and the scheme is adopted: through the cooperation of the structures of the access frame 9501 and the abutting arc block 9502, the design of the top arc form of the abutting arc block 9502 is beneficial to the subsequent extrusion of the bottom end of the shielding plate 8, so that medical staff pulls the access frame 9501 to move upwards through the abutting arc block 9502 and take out the shielding plate; through the cooperation of placing board 9401 and stopper 9402 structure, the downward movement of pressing block 91 will make cooperation gear 93 drive and place board 9401 upward movement, and the stopper 9402 that is located the board 9401 top of placing this moment will drive and take the unit 95 upwards ejecting to make the unit 95 of taking extrude the bottom of shielding plate 8, thereby the clearance of conveniently placing the impurity to taking the inside of unit 95.

As shown in fig. 6, 10 and 12, the second inclined block 76 has a triangular shape, one end of the second inclined block 76 connected with the connecting block 75 is movably connected in the connecting slot 6, the area size of a side wall of the second inclined block 76 attached to the mounting tube 2 is larger than that of the opening of the connecting slot 6, the area size of the opening of the connecting end of the second inclined block 76 connected with the connecting slot 6 and the sliding slot 5 is the same, the top surface of the first inclined block 32 close to one end of the mounting tube 2 presents an inclined surface, and the width value of the first inclined block 32 is the same as that of the inner cavity of the sliding slot 5, by adopting the scheme: through the limitation of the appearance and the width value size of the first inclined block 32, the bottom end of the radiation-proof door body 31 can drive the first inclined block 32 to clean and push comprehensively in the sliding groove 5 when the radiation-proof door body 31 moves, so that impurities in the sliding groove 5 can move downwards through the sliding groove 5 near one end of the installation tube 2; through the limitation of the appearance and the size of the second inclined block 76, when the second inclined block 76 moves on the outer side wall of the connecting groove 6, a side wall of the mounting pipe 2, which is close to the radiation-proof door closing assembly 3, is cleaned, when the second inclined block 76 moves to the connecting groove 6 and sliding groove 5 connecting area, the radiation-proof door closing assembly 3 presses the second inclined block 76, the second inclined block 76 is pulled by the first spring telescopic cylinder 77 and then enters the mounting pipe 2, namely, the external influence of the second inclined block 76 on the tightness of the radiation-proof door body 31 when the radiation-proof door body is attached to the mounting pipe 2 is avoided, the area size of the lower end of the connecting groove 6 is larger than the area size of the upper end of the connecting groove, one end, which is close to the mounting pipe 2, of the inside of the sliding groove 5 is inclined, and one wall, which is in contact with the radiation-proof door supporting base 1, of the access frame 9501 is inclined, is designed to be beneficial to guiding impurities inside the sliding groove 5.

The working principle and the using flow of the utility model are as follows:

when the radiation protection door is used, the servo motor 41 is started through the information transmission terminal, the servo motor 41 drives the top of the radiation protection door body 31 to move towards one side of the installation pipe 2 through the first connecting shaft 42, the first belt 44 and the second connecting shaft 43, meanwhile, the first connecting shaft 42 drives the third belt 102 and the fourth connecting shaft 101 to move through the cleaning assembly 7, at the moment, the moving block 103 drives the bottom end of the radiation protection door body 31 to move towards one side wall of the installation pipe 2, and the simultaneous movement of the power assembly 4 and the moving assembly 10 can improve the stability when the radiation protection door body 31 is pulled;

meanwhile, when the first connecting shaft 42 drives the second belt 72 to move through the third connecting shaft 71, the second belt 72 drives the rectangular tube 74, the connecting block 75, the second inclined block 76 and the first spring telescopic tube 77 to move on the outer side wall of the mounting tube 2, the outer side wall of the mounting tube 2 is cleaned on the side, which is attached to the mounting tube 2, of the second inclined block 76, so that the cleanliness of the surface when the outer side wall of the mounting tube 2 is attached to the radiation-proof door body 31 is ensured, when the second inclined block 76 moves to the lower end of the connecting groove 6, dust and solid particles on the outer side wall of the mounting tube 2 fall into the sliding groove 5 and slide into the picking unit 95 through the sliding groove 5, and meanwhile the first inclined block 32 moves together in the sliding groove 5, when the first inclined block 32 moves and contacts with the second inclined block 76, the first inclined block 32 and the stabilizing block 73 are in contact, so that the second inclined block 76 enters the inside of the installation tube 2, the second inclined block 76 is prevented from being positioned on the outer side of the installation tube 2 to influence the bonding compactness of the radiation protection door body 31 and the installation tube 2, garbage pushed by the first inclined block 32 also falls into the pick-up unit 95, the clamping block 34 enters the inside of the connecting groove 6, the rubber extrusion sleeve 33 is bonded with the outer wall of the installation tube 2, and each time the radiation protection door is closed, the first inclined block 32 and the second inclined block 76 clean the inside of the sliding groove 5 and the outer wall of the installation tube 2, so that the cleaning is efficient and timely, and medical staff is not required to singly perform;

subsequently, when the collected impurities and granular medical waste need to be taken out and cleaned, medical staff steps down on the pressing block 91, the pressing block 91 enables the placing unit 94 and the taking unit 95 to move upwards together through the matching gear 93, the top of the abutting arc block 9502 extrudes the bottom of the shielding plate 8, the abutting arc block 9502 and the access frame 9501 gradually move upwards through the shielding plate 8, and the abutting arc block 9502 can drive the access frame 9501 to separate outwards from the inside of the limiting block 9402 by pulling the abutting arc block 9502, so that cleaning of the inside of the access frame 9501 is achieved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a be used for hospital X line film room radiation protection door to close slip subassembly, includes radiation protection door support base (1), its characterized in that: one side fixed mounting who prevents radiation door support base (1) top has installed mounting tube (2), one side that prevents radiation door support base (1) top kept away from mounting tube (2) has seted up sliding tray (5), the inside of sliding tray (5) is slided and is connected with radiation door and closes subassembly (3), one end that mounting tube (2) is close to radiation door and closes subassembly (3) has been seted up spread groove (6), the inside swing joint of spread groove (6) has cleaning module (7), one side fixed mounting on mounting tube (2) top has power subassembly (4), the inside of power subassembly (4) is connected with the upper end fixed mounting of sliding tray (5), cleaning module (7) are located the inside one end of mounting tube (2) and the surface of power subassembly (4) cup joint, one side hinge connection that is close to radiation door support base (1) top is close to mounting tube (2) has two shielding plates (8), one end that radiation door support base (1) top kept away from radiation door and closes subassembly (3) presses movable connection subassembly (9), the fixed end of radiation door support base (1) has fixed connection back (10), one end of the moving assembly (10) positioned in the radiation-proof door supporting base (1) is fixedly connected with the radiation-proof door closing assembly (3).

2. A radiation-protective door closing slide assembly for a hospital X-ray film room as set forth in claim 1 wherein: the radiation protection door closing assembly (3) comprises a radiation protection door body (31), the lower end of the radiation protection door body (31) is connected with the inner wall of the sliding groove (5) in a sliding mode, the top of the radiation protection door body (31) is movably connected with the upper end of the installation pipe (2), a first inclined block (32) located in the sliding groove (5) is fixedly arranged at the bottom of the radiation protection door body (31), a rubber extrusion sleeve (33) is fixedly arranged on one side wall of the radiation protection door body (31) close to the installation pipe (2), and a clamping block (34) is fixedly arranged at one end, far away from the radiation protection door body (31), of the rubber extrusion sleeve (33).

3. A radiation-protective door closing slide assembly for a hospital X-ray film room as set forth in claim 1 wherein: the power assembly (4) comprises a servo motor (41) and a second connecting shaft (43), the servo motor (41) is arranged on the outer side of the installation tube (2), one end of an output shaft of the servo motor (41) is fixedly connected with a first connecting shaft (42), one end of the first connecting shaft (42), which is far away from the servo motor (41), is connected with the installation tube (2) through a bearing, the front end and the rear end of the outer surface of the first connecting shaft (42) are respectively sleeved with a first belt (44), the first connecting shaft (42) is connected with the second connecting shaft (43) through a first belt (44) in a transmission mode, the middle end of the outer surface of the first connecting shaft (42) is connected with the upper end of the cleaning assembly (7) in a sleeved mode, and the bottom of the first belt (44) is fixedly connected with the middle end of the top of the radiation-proof door closing assembly (3).

4. A radiation-protective door closing slide assembly for a hospital X-ray film room as set forth in claim 1 wherein: the cleaning assembly (7) comprises a third connecting shaft (71), the third connecting shaft (71) is connected with an inner cavity bearing of the radiation protection door supporting base (1), a second belt (72) is sleeved on the outer surface of the third connecting shaft (71), the third connecting shaft (71) is in transmission connection with the power assembly (4) through the second belt (72), a stabilizing block (73) is movably connected to the inside of the second belt (72), the stabilizing block (73) is fixedly connected with the inner wall of the mounting tube (2), a rectangular tube (74) is fixedly arranged at the upper end of the second belt (72) near one side wall of the radiation protection door closing assembly (3), a connecting block (75) is fixedly connected to the inner side wall of the rectangular tube (74) far away from one end of the second belt (72), a second inclined block (76) is fixedly arranged at one end of the connecting block (75) far away from the rectangular tube (74), a first telescopic spring tube (77) is fixedly connected to one end of the connecting block (75) near the second belt (72), and the first telescopic spring tube (77) is fixedly connected to one end of the rectangular tube (77).

5. A radiation-protective door closing slide assembly for a hospital X-ray film room as set forth in claim 1 wherein: the pressing assembly (9) comprises a pressing block (91), the lower end of the pressing block (91) extends to the inside of the radiation protection door supporting base (1) and the front side and the rear side of the bottom are fixedly provided with a matching gear (93), a side wall of the lower end of the pressing block (91) close to the radiation protection door closing assembly (3) is meshed and connected with a matching gear (93), the matching gear (93) is connected with an inner wall bearing of the radiation protection door supporting base (1), the matching gear (93) is far away from a side wall of the second spring telescopic cylinder (92) and is meshed and connected with a placing unit (94), the top of the placing unit (94) is movably clamped with a taking unit (95) located under the shielding plate (8), the placing unit (94) is far away from one end of the second spring telescopic cylinder (92) and is movably clamped with a limiting clamping plate (96), and the limiting clamping plate (96) is fixedly connected with the radiation protection door supporting base (1).

6. A radiation-protective door closing slide assembly for a hospital X-ray film room as set forth in claim 1 wherein: the movable assembly (10) comprises a fourth connecting shaft (101), the fourth connecting shaft (101) is connected with an inner wall bearing of the radiation protection door supporting base (1), a third belt (102) is sleeved on the outer surface of the fourth connecting shaft (101), the fourth connecting shaft (101) is in transmission connection with the cleaning assembly (7) through the third belt (102), a movable block (103) is fixedly arranged at the top of the third belt (102), the movable block (103) is fixedly connected with the radiation protection door closing assembly (3), movable plates (104) located above the radiation protection door supporting base (1) are fixedly connected to two sides of the movable block (103), a fixing pipe (105) is movably sleeved at one end of the movable plate (104) away from the movable block (103), and the fixing pipe (105) is fixedly connected with the top of the radiation protection door supporting base (1).

7. A radiation-protective door closing slide assembly for a hospital X-ray film room as defined in claim 5, wherein: the utility model discloses a device for holding a piece of goods, including placing unit (94), place board (9401), place one end that limiting clamp plate (96) was kept away from to board (9401) and cooperation gear (93) meshing are connected, the top fixed mounting of placing board (9401) has stopper (9402), the top activity joint of stopper (9402) has unit of taking (95).

8. A radiation-protective door closing slide assembly for a hospital X-ray film room as defined in claim 5, wherein: the taking unit (95) comprises an access frame (9501), the access frame (9501) is movably clamped with the top of the limiting block (9402), an abutting arc block (9502) is fixedly connected to the top of the access frame (9501), the shape of the abutting arc block (9502) is semicircular, and the top of the abutting arc block is convex.

9. A radiation-protective door closing slide assembly for a hospital X-ray film room as defined in claim 2, wherein: the top surface of the first inclined block (32) close to one end of the mounting pipe (2) presents an inclined surface, and the width value of the first inclined block (32) is the same as the width value of the inner cavity of the sliding groove (5).

10. A radiation-protective door closing slide assembly for a hospital X-ray film room as defined in claim 4, wherein: the appearance of second sloping block (76) presents to triangle-shaped, the one end swing joint that second sloping block (76) and connecting block (75) are connected is in the inside of spread groove (6), the area size of a side wall that second sloping block (76) and installation pipe (2) laminate mutually is greater than the area size of spread groove (6) opening part, the area size of second sloping block (76) and spread groove (6) and the continuous one end opening part of sliding tray (5) are the same.