CN115854698A - Medical bottle stopper drying equipment - Google Patents

Abstract

The invention provides medical bottle stopper drying equipment which comprises a box body, a sliding block, a screen structure, a driving assembly and a drying assembly. The box body is internally provided with a holding cavity, and is provided with a feeding hole and a discharging hole. The slider is equipped with two, and two sliders set up respectively on two lateral walls of holding chamber. The head end of the screen structure is rotatably connected with the two sliders, the tail end of the screen structure is hinged to the driving assembly, and the driving assembly can drive the combination of the screen structure and the sliders to move along a reciprocating mode. The drying components are two, and the medical bottle stopper on the screen structure is dried on the upper side and the lower side of the screen structure. The medical bottle stopper drying equipment provided by the invention enables the medical bottle stopper to be continuously turned, ensures that the surface of the medical bottle stopper can be timely and completely eliminated under the action of the drying components, and the two drying components can simultaneously dry the medical bottle stopper on the screen structure at the upper side and the lower side of the screen structure, so that the drying effect is good, and the practicability is strong.

Description

Medical bottle stopper drying equipment

Technical Field

The invention belongs to the technical field of drying equipment, and particularly relates to medical bottle stopper drying equipment.

Background

The medical bottle stopper is a rubber elastomer product with certain shape and size, and is used for sealing the mouth of a medical bottle-shaped container such as glass, plastic and the like. The processing process of the medical bottle stopper involves cleaning, and drying treatment is needed after the cleaning to eliminate the water attached to the surface of the medical bottle stopper, and drying equipment is often adopted.

Among the prior art, drying equipment to medical bottle plug, feed inlet and discharge gate have usually, can set up transmission structure (belt drive) between feed inlet and discharge gate, along with transmission structure drives medical bottle plug and removes, the dry structure who sets up in drying equipment eliminates medical bottle plug surface adnexed moisture, but because of the quantity of medical bottle plug is more, can pile up on transmission structure, along with transmission structure's removal this moment, the moisture that is located the medical bottle plug surface of bottom can't receive the effect of dry structure, lead to moisture can't eliminate, drying effect is relatively poor. In addition, the drying structure is only arranged above the transmission structure, the drying effect is poor, and the practicability is poor.

Disclosure of Invention

The embodiment of the invention provides medical bottle stopper drying equipment, and aims to solve the problem that the existing medical bottle stopper drying equipment is poor in drying effect.

In order to achieve the purpose, the invention adopts the technical scheme that: there is provided a medical stopper drying apparatus comprising:

the box body is internally provided with a cuboid accommodating cavity and is provided with a feeding hole and a discharging hole which are respectively communicated with the accommodating cavity and are arranged at intervals; setting the length direction of the accommodating cavity as a first direction, and setting the horizontal direction vertical to the first direction as a second direction;

the two sliding blocks are respectively in one-to-one correspondence with the two side walls opposite to each other in the second direction in the accommodating cavity, and each sliding block is arranged on the corresponding side wall of the accommodating cavity in a sliding manner in the first direction;

the screen structure is arranged in the accommodating cavity and provided with a head end and a tail end, the head end of the screen structure corresponds to the discharge port and is rotatably connected with the two sliders, the tail end of the screen structure is positioned below the discharge port, and the height of the tail end of the screen structure is higher than that of the head end of the screen structure;

the driving assembly is arranged in the accommodating cavity and is hinged with the other end of the screen structure, and the driving assembly is used for driving the combination body of the screen structure and the sliding block to move back and forth along the first direction; and

and the two drying assemblies are arranged in the accommodating cavity and are respectively positioned on the upper side and the lower side of the screen structure so as to dry the medical bottle stopper on the screen structure.

In one possible implementation, the screen structure includes a first fixed frame and a first mesh; the first fixing frame is a rectangular frame and is provided with two long side parts and two wide side parts, two ends of one wide side part of the first fixing frame are respectively provided with a first rotating shaft which is rotatably connected with the sliding block, the axis of the first rotating shaft is arranged along the second direction, and the wide side part of the first fixing frame, which is far away from the first rotating shaft, is hinged with the screen structure along the length direction of the long side part of the first fixing frame; the first net sheet is covered on the frame opening of the first fixing frame and is used for bearing the medical bottle stopper;

and each sliding block is provided with a rotating hole arranged along the second direction.

In one possible implementation, the driving assembly includes a sliding base, a sliding plate, a cam structure, a driver, and a lifting adjustment structure; the sliding base is arranged in the accommodating cavity in a sliding mode along the vertical direction, a limiting sliding cavity is arranged at the top end of the sliding base, the limiting sliding cavity is arranged along the first direction and penetrates through the sliding base, a circular groove is further formed in the sliding base, and the circular groove is formed in the bottom surface of the sliding cavity and is communicated with the sliding cavity; the sliding plate is arranged in the sliding cavity in a sliding mode, one end of the sliding plate is hinged with the corresponding wide edge part, the hinge axis is arranged along the second direction, and a long sliding opening arranged along the second direction is formed in the sliding plate; the cam structure is positioned in the circular groove and is rotationally connected with the sliding base, and the cam structure is also connected with the long strip sliding opening and is used for rotating so as to drive the sliding plate to move back and forth along the first direction; the driver is fixedly arranged on the sliding base, and the power output end of the driver is in power connection with the cam structure so as to drive the cam structure to rotate; the lifting adjusting structure is used for adjusting the height of the sliding base;

and a sliding space for limiting sliding of the sliding base is arranged in the accommodating cavity.

In one possible implementation, the cam structure includes a circular roller and a transfer shaft; the circular roller is arranged in the circular groove, the axis of the circular roller is arranged along the vertical direction, the side surface of the circular roller below the circular roller is connected with a transmission shaft, the transmission shaft penetrates through the sliding base to be in power connection with the power output end of the driver, the side surface of the circular roller above the circular roller is provided with a plurality of mounting holes, the mounting holes are arranged annularly and at intervals around the axis of the transmission shaft, and the distance between the axis of each mounting hole and the axis of the transmission shaft is sequentially increased; one end of the transfer shaft is detachably connected with one of the mounting holes, and the other end of the transfer shaft extends out of the corresponding mounting hole along the vertical direction and extends into the long sliding opening;

and the sliding base is provided with a through hole for the transmission shaft to pass through.

In one possible implementation manner, the adapter shaft includes a cylindrical body, a limit post, a screw, and a spring; the cylindrical body is provided with a cylindrical cavity, one end of the cylindrical body is provided with a threaded hole which is communicated with the cylindrical cavity and is arranged in a collinear way with the axis of the cylindrical body, the other end of the cylindrical body is provided with two sliding holes, the two sliding holes are arranged along the radial direction of the cylindrical body, and the two sliding holes are arranged at intervals in a ring shape around the axis of the cylindrical body; the number of the limiting columns is two, the two limiting columns are respectively arranged in the two sliding holes in a sliding mode, and an auxiliary block is arranged at one end, located in the cylindrical cavity, of each limiting column; the screw rod is rotatably arranged in the threaded hole, one end of the screw rod, which is positioned in the cylindrical cavity, is provided with a conical part, and the screw rod is used for rotating so that the conical part is inserted between the two auxiliary blocks to enable the two limiting columns to move back to back; the two springs are respectively arranged in one-to-one correspondence with the two limiting columns, each spring is sleeved on the corresponding limiting column, one end of each spring is abutted against the inner wall of the cylindrical cavity, the other end of each spring is abutted against the auxiliary block, and the two springs are used for bouncing the two limiting columns to move relatively after the screw rod is separated from the abutting action on the two auxiliary blocks;

and the bottom of each mounting hole is provided with a limiting ring groove for each limiting column to extend into.

In a possible implementation manner, the lifting adjusting structure comprises two jacks, two the jacks are all arranged along the vertical direction and are arranged at intervals along the second direction, the fixed end of each jack is fixedly arranged on the bottom surface of the accommodating cavity, and the telescopic end is fixedly connected with the sliding base.

In a possible implementation manner, the medical bottle stopper drying device further comprises a net blocking structure, wherein the net blocking structure comprises a second fixing frame and a second net piece; the second fixing frame is positioned at the tail end of the screen structure and is a rectangular frame which is provided with two long side parts and two wide side parts, one of the wide side parts of the second fixing frame is hinged with the wide side part of the first fixing frame, the hinge axis is arranged along the second direction, the second fixing frame is obliquely arranged, two ends of the other wide side part of the second fixing frame are provided with second rotating shafts, and each second rotating shaft is arranged along the second direction and is in sliding connection with the side wall of the accommodating cavity along the vertical direction; the second net sheet is covered on the frame opening of the second fixing frame and used for blocking the medical bottle stopper;

and a first sliding groove for limiting and sliding the second rotating shaft is formed in the side wall of the accommodating cavity.

In a possible implementation manner, a second sliding groove for the sliding of the sliding block is provided on a side wall of the accommodating cavity, and the length of the second sliding groove is greater than the length of the sliding block along the first direction.

In one possible implementation, each of the drying assemblies includes a ventilation hood, an electric heating structure, and a pressure pump; the ventilation hood is arranged above or below the screen structure, the ventilation hood is fixedly arranged in the accommodating cavity, the ventilation hood is provided with a plurality of air outlets arranged towards the screen structure, and the ventilation hood is provided with air inlets communicated with the air outlets; the electric heating structures are arranged in a plurality, correspond to the air outlets one by one and are arranged at the air outlets for heating the air flow passing through the air outlets; the pressure pump is communicated with the air inlet and is used for conveying air under pressure.

In this implementation way/application embodiment, the holding chamber in the box can provide a relatively sealed space for the drying of medical bottle plug, and then can guarantee dry effect. The screen cloth structure inclines to set up, and can realize reciprocating motion through two sliders under drive assembly's tractive, makes each medical bottle plug be progressive and removes, can guarantee to remove to the discharge gate direction by the medical bottle plug that the feed inlet got into, can guarantee simultaneously that each medical bottle plug is continuous to be stirred, and then guarantees that the effect that receives drying assembly that medical bottle plug surface can be timely and eliminates moisture completely, and drying effect is good. In addition, two drying assembly can be in screen cloth structure's upper and lower both sides simultaneously to the medical bottle plug on the screen cloth structure dry, further guarantee the drying effect of medical bottle plug, the practicality is strong.

Drawings

Fig. 1 is a schematic structural diagram of a medical bottle stopper drying device provided by an embodiment of the invention;

fig. 2 is a schematic structural view of a front cross section of the medical bottle stopper drying device provided by the embodiment of the invention;

fig. 3 is a schematic side sectional view of a medical bottle stopper drying device provided by an embodiment of the invention;

fig. 4 is a schematic view of a connection structure of a sliding block, a screen structure, a driving assembly and a blocking net structure in the medical bottle stopper drying device provided by the embodiment of the invention;

fig. 5 is a schematic structural view of a cam structure in the medical bottle stopper drying device provided by the embodiment of the invention;

fig. 6 is a schematic cross-sectional structural view of a transfer shaft in the medical bottle stopper drying device provided by the embodiment of the invention;

description of reference numerals:

10. a box body; 11. an accommodating cavity; 12. a feed inlet; 13. a discharge port; 14. an inclined guide plate; 15. a first chute; 16. a second chute; 20. a slider; 30. a screen mesh structure; 31. a first fixed frame; 32. a first mesh sheet; 40. a drive assembly; 41. a sliding base; 42. a sliding plate; 421. a strip sliding opening; 43. a cam structure; 431. a circular roller; 432. a transfer shaft; 433. mounting holes; 434. a cylindrical body; 435. a limiting column; 436. a screw; 437. a spring; 44. a driver; 45. a lifting adjustment structure; 50. a drying assembly; 51. a ventilation hood; 52. an electrical heating structure; 60. a net blocking structure; 61. a second fixed frame; 62. a second mesh sheet.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 4 together, the medical bottle stopper drying apparatus provided by the present invention will now be described. The medical bottle stopper drying device comprises a box body 10, a sliding block 20, a screen structure 30, a driving assembly 40 and a drying assembly 50. A cuboid accommodating cavity 11 is arranged in the box body 10, and the box body 10 is provided with a feeding hole 12 and a discharging hole 13 which are respectively communicated with the accommodating cavity 11 and are arranged at intervals. The length direction of the accommodating chamber 11 is set as a first direction, and a horizontal direction perpendicular to the first direction is set as a second direction. The two sliding blocks 20 are respectively in one-to-one correspondence with the two opposite side walls in the accommodating cavity 11 along the second direction, and each sliding block 20 is arranged on the corresponding side wall of the accommodating cavity 11 in a sliding manner along the first direction. The screen structure 30 is arranged in the accommodating cavity 11, the screen structure 30 is provided with a head end and a tail end, the head end of the screen structure 30 corresponds to the discharge hole 13 and is rotatably connected with the two sliders 20, the tail end of the screen structure 30 is positioned below the discharge hole 13, and the height of the tail end of the screen structure 30 is higher than that of the head end of the screen structure 30. The driving assembly 40 is disposed in the accommodating cavity 11 and hinged to the other end of the screen structure 30, and the driving assembly 40 can drive the combination of the screen structure 30 and the sliding block 20 to reciprocate along the first direction. The two drying assemblies 50 are arranged in the accommodating cavity 11, and the two drying assemblies 50 are respectively positioned at the upper side and the lower side of the screen structure 30 so as to dry the medical bottle stopper on the screen structure 30.

Compared with the prior art, the medical bottle stopper drying equipment provided by the embodiment has the advantages that the accommodating cavity 11 in the box body 10 can provide a relatively sealed space for drying the medical bottle stopper, so that the drying effect can be ensured, and the rectangular cavity is convenient to manufacture. The screen structure 30 is obliquely arranged, and can realize reciprocating movement through the two sliding blocks 20 under the traction of the driving component 40, so that each medical bottle stopper is progressively moved, the medical bottle stopper entering from the feeding hole 12 can be moved towards the discharging hole 13, meanwhile, each medical bottle stopper can be continuously turned, and further, the surface of the medical bottle stopper can be timely completely eliminated by the action of the drying component 50, and the drying effect is good. In addition, two drying assembly 50 can be in the upper and lower both sides of screen cloth structure 30 simultaneously to the medical bottle plug on the screen cloth structure 30 dry, further guarantee the drying effect of medical bottle plug, the practicality is strong.

In some embodiments, the screen structure 30 may be configured as shown in FIG. 4. Referring to fig. 4, the screen structure 30 includes a first fixed frame 31 and a first mesh 32. The first fixed frame 31 is a rectangular frame, the first fixed frame 31 has two long edge parts and two wide edge parts, two ends of one of the wide edge parts of the first fixed frame 31 are both provided with a first rotating shaft rotatably connected with the slider 20, the axis of the first rotating shaft is arranged along the second direction, and the wide edge part of the first fixed frame 31, which is far away from the first rotating shaft, is hinged with the screen structure 30 along the length direction of the long edge part of the first fixed frame 31. The first mesh 32 covers the opening of the first fixed frame 31 and can bear the medical bottle stopper.

Wherein, each slide block 20 is provided with a rotating hole arranged along the second direction.

The simple structure of first fixed frame 31 can be convenient for make, and the installation of the first net piece 32 of also being convenient for simultaneously, first net piece 32 self has a plurality of mesh, can guarantee the circulation of hot blast that blows off in the dry component 50, and the area of contact of increase and medical bottle plug can guarantee the effect of stirring of medical bottle plug simultaneously, and the practicality is strong.

Note that, two wide side portions of the first fixed frame 31 correspond to the head end of the screen structure 30 and the tail end of the screen structure 30, respectively. In addition, the two ends of the inclined guide plate 14, which can be provided with the inclined guide plate 14 at the discharge port 13, have a height difference, the higher end is located in the accommodating cavity 11 and below the head end of the screen structure 30, and the lower end is located outside the box body 10, so as to ensure that the medical bottle stopper falling down on the screen structure 30 is led out to the outside.

In some embodiments, the driving assembly 40 may be configured as shown in fig. 3-4. Referring to fig. 3 to 4, the driving assembly 40 includes a sliding base 41, a sliding plate 42, a cam structure 43, a driver 44, and a lift adjusting structure 45. The sliding base 41 is arranged in the accommodating cavity 11 in a sliding mode along the vertical direction, a limiting sliding cavity is arranged at the top end of the sliding base 41 and arranged along the first direction, the sliding base 41 is communicated with the limiting sliding cavity, a circular groove is further formed in the sliding base 41 and arranged on the bottom surface of the sliding cavity and communicated with the sliding cavity. The sliding plate 42 is slidably disposed in the sliding cavity, one end of the sliding plate 42 is hinged to the corresponding wide edge, the hinge axis is disposed along the second direction, and the sliding plate 42 is provided with a long sliding opening 421 disposed along the second direction. The cam structure 43 is located in the circular groove and is rotatably connected with the sliding base 41, and the cam structure 43 is further connected with the long sliding opening 421 and can rotate to drive the sliding plate 42 to move back and forth along the first direction. The driver 44 is fixed on the sliding base 41, and a power output end of the driver 44 is in power connection with the cam structure 43 to drive the cam structure 43 to rotate. The elevation adjustment structure 45 can adjust the height of the slide base 41.

Wherein, a sliding space for limiting sliding of the sliding base 41 is provided in the accommodating cavity 11.

Sliding base 41 slides and sets up in holding chamber 11, and can carry out altitude mixture control through lift adjustment structure 45, and this kind of structure can be guaranteed to adjust the gradient of screen structure 30, and then can adjust the transmission speed of medical bottle plug, prevents that medical bottle plug transition from being heated or the time of being heated is not enough, can adjust at random to the medical bottle plug of different grade type, can adapt to the medical bottle plug of different grade type, the medical bottle plug of surface area difference promptly. The sliding plate 42 can be driven by the cam structure 43 to reciprocate in the first direction, and simultaneously drives the combined body of the screen structure 30 and the sliding block 20 to reciprocate, so that the vibration effect of the medical bottle stopper on the screen structure 30 can be ensured. The driver 44 ensures the driving of the cam structure 43.

In some embodiments, the cam structure 43 may be configured as shown in fig. 5. Referring to fig. 5, the cam structure 43 includes a circular roller 431 and a switching shaft 432. The circular roller 431 is arranged in the circular groove, the axis is arranged along the vertical direction, the side face, below the circular roller 431 is located, is connected with the transmission shaft, the transmission shaft penetrates through the power output end of the sliding base 41 and the driver 44 to be in power connection, the side face, above the circular roller 431 is located, is provided with a plurality of mounting holes 433, each mounting hole 433 is arranged around the axis ring shape of the transmission shaft at intervals, and the distance between the axis of each mounting hole 433 and the axis of the transmission shaft is gradually increased. One end of the adapting shaft 432 is detachably connected with one of the mounting holes 433, and the other end of the adapting shaft 432 extends out of the corresponding mounting hole 433 along the vertical direction and extends into the long sliding opening 421.

Wherein, the sliding base 41 is provided with a via hole for the transmission shaft to pass through.

A plurality of mounting holes 433 that set up on the circular roller 431 can adjust the interaxial distance of coupling shaft 432 and transmission shaft, and then can guarantee to adjust the vibration range of sliding plate 42, and this kind of structure can be effectual adjusts different vibration ranges to the medical bottle plug of different grade type, for example, the medical bottle plug of different weight need correspond different vibration ranges, increases adaptability.

In some embodiments, the adapter shaft 432 may be configured as shown in FIG. 6. Referring to fig. 6, the adapting shaft 432 includes a cylindrical body 434, a limit post 435, a screw 436, and a spring 437. The cylinder body 434 has the cylinder chamber, is equipped with in the one end of cylinder body 434 with the cylinder chamber intercommunication and with the cylinder body 434 axis collineation setting's screw hole, the cylinder body 434 other end is equipped with two slide openings, two slide openings all along the radial setting of cylinder body 434, and two slide openings set up round the axis annular interval of cylinder body 434. Two limiting columns 435 are arranged, the two limiting columns 435 are respectively arranged in the two sliding holes in a sliding mode, and an auxiliary block is arranged at one end, located in the cylindrical cavity, of each limiting column 435. The screw 436 is rotatably arranged in the threaded hole, one end of the screw 436, which is located in the cylindrical cavity, is provided with a conical part, and the screw 436 can rotate so that the conical part is inserted between the two auxiliary blocks, so that the two limiting columns 435 move back to back. The springs 437 are two, the two springs 437 are respectively arranged in one-to-one correspondence with the two limiting columns 435, each spring 437 is sleeved on the corresponding limiting column 435, one end of each spring is abutted to the inner wall of the cylindrical cavity, the other end of each spring is abutted to the auxiliary block, and the two springs 437 can bounce the two limiting columns 435 to move relatively after the screw 436 is disengaged from the abutting action on the two auxiliary blocks.

Wherein, the bottom of each mounting hole 433 all is equipped with the spacing annular that supplies each spacing post 435 to stretch into.

The transfer shaft 432 is formed by combining the cylindrical body 434, the limiting column 435, the screw 436 and the spring 437, the convenient disassembly and assembly of the transfer shaft 432 and each mounting hole 433 can be ensured through the structure, and meanwhile, the stability of the transfer shaft 432 and the mounting hole 433 after the mounting can be ensured.

It should be noted that, the opposite sides of the two stoppers are required to be provided with a slope structure to ensure the insertion of the screw 436.

In some embodiments, the elevation adjustment structure 45 may be configured as shown in fig. 3. Referring to fig. 3, the lifting adjusting structure 45 includes two jacks, the two jacks are all arranged along the vertical direction and are arranged at intervals along the second direction, the fixed end of each jack is fixedly arranged on the bottom surface of the accommodating cavity 11, and the telescopic end is fixedly connected with the sliding base 41. The jack has the characteristics of simple structure, large bearing capacity and convenience in operation, and can ensure the stability of lifting adjustment and position fixation of the sliding base 41.

In this embodiment, a sealing door may be disposed at one end of the box 10 to ensure that the jack is operated after being opened.

In some embodiments, referring to fig. 2 and 4, the medical stopper drying device further comprises a mesh blocking structure 60, wherein the mesh blocking structure 60 comprises a second fixing frame 61 and a second mesh sheet 62. The fixed frame 61 of second is located screen cloth structure 30's tail end department, the fixed frame 61 of second is the rectangle frame, two long limit portion and two wide limit portion have, one of them wide limit portion of the fixed frame 61 of second is articulated with the first fixed frame 31 wide limit portion, and the articulated axis sets up along the second direction, the fixed frame 61 of second is the slope setting, the second pivot is all established at the both ends of another wide limit portion of the fixed frame 61 of second, each second pivot all sets up along the second direction, and along vertical direction sliding connection with the lateral wall of holding chamber 11. The second mesh sheet 62 covers the opening of the second fixing frame 61, and can block the medical bottle stopper. Wherein, the side wall of the accommodating cavity 11 is provided with a first sliding chute 15 for limiting sliding of the second rotating shaft.

The screen blocking structure 60 can effectively prevent the medical bottle stopper entering the accommodating cavity 11 from dropping into the accommodating cavity 11 at the tail end of the screen structure 30, and the screen blocking structure 60 can be linked with the screen structure 30 and the sliding plate 42 together, so that the structure is simple and the practicability is high. The second fixing frame 61 is simple in structure, convenient to manufacture and convenient to install the second net piece 62, and the second net piece 62 is provided with a plurality of meshes, so that hot air blown out of the drying assembly 50 can be circulated.

In some embodiments, the receiving chamber 11 may be configured as shown in fig. 2. Referring to fig. 2, the side wall of the accommodating cavity 11 is provided with a second sliding chute 16 for the sliding block 20 to slide, and the length of the second sliding chute 16 along the first direction is greater than that of the sliding block 20, because compensation needs to be performed through the movement of the sliding block 20 after the inclination of the screen structure 30 changes, at this time, the second sliding chute 16 can adapt to the movement of the sliding block 20, and meanwhile, the second sliding chute 16 can also adapt to the reciprocating movement of the sliding block 20.

In some embodiments, the drying assembly 50 may be configured as shown in fig. 2-3. Referring to fig. 2 to 3, each drying assembly 50 includes a ventilation hood 51, an electric heating structure 52, and a pressure pump. The ventilation hood 51 is disposed above or below the screen structure 30, the ventilation hood 51 is fixedly disposed in the accommodating chamber 11, the ventilation hood 51 has a plurality of air outlets disposed toward the screen structure 30, and the ventilation hood 51 is provided with air inlets communicating with the air outlets. The electric heating structures 52 are provided with a plurality of electric heating structures 52, and each electric heating structure 52 corresponds to each air outlet one by one and is arranged at the air outlet, so that the air flow passing through the air outlet can be heated. The pressure pump is communicated with the air inlet and can convey air under pressure.

Through the setting of ventilation hood 51 and the setting of electrical heating structure 52, can guarantee to blow into hot-blast to the medical bottle plug that moves gradually on screen cloth structure 30, and then guarantee that it is dry. The pressure pump can guarantee the velocity of flow of air current, guarantees drying effect. Preferably, the electrical heating structure 52 can be a thermal resistance wire electrically connected to an external power supply, which is not described in detail herein.

It should be noted that the feeding port 12 on the box 10 can be disposed above the box 10, and one end of the box 10 away from the discharging port 13 needs to have a certain space to ensure the placement of the driving assembly 40, and because the hot air in the ventilation hood 51 enters the accommodating cavity 11, an air guide port can be disposed at one end of the box 10 away from the discharging port 13, as shown in fig. 2, and is communicated with the inlet of the pressure pump through a pipeline, and this kind of structure can ensure the circulation of the air flow, and can save certain energy at the same time.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. Medical bottle plug drying equipment, its characterized in that includes:

the box body is internally provided with a cuboid accommodating cavity and is provided with a feeding hole and a discharging hole which are respectively communicated with the accommodating cavity and are arranged at intervals; setting the length direction of the accommodating cavity as a first direction, and setting the horizontal direction perpendicular to the first direction as a second direction;

the two sliding blocks are respectively in one-to-one correspondence with the two side walls opposite to each other in the second direction in the accommodating cavity, and each sliding block is arranged on the corresponding side wall of the accommodating cavity in a sliding manner in the first direction;

the screen structure is arranged in the accommodating cavity and provided with a head end and a tail end, the head end of the screen structure corresponds to the discharge port and is rotatably connected with the two sliders, the tail end of the screen structure is positioned below the discharge port, and the height of the tail end of the screen structure is higher than that of the head end of the screen structure;

the driving assembly is arranged in the accommodating cavity and is hinged with the other end of the screen structure, and the driving assembly is used for driving the combined body of the screen structure and the sliding block to move back and forth along the first direction; and

and the two drying assemblies are arranged in the accommodating cavity and are respectively positioned on the upper side and the lower side of the screen structure so as to dry the medical bottle stopper on the screen structure.

2. The medical vial stopper drying device of claim 1, wherein the screen structure comprises a first retaining frame and a first mesh; the first fixed frame is a rectangular frame and is provided with two long edge parts and two wide edge parts, two ends of one wide edge part of the first fixed frame are respectively provided with a first rotating shaft which is rotatably connected with the sliding block, the axis of the first rotating shaft is arranged along the second direction, and the wide edge part of the first fixed frame, which is far away from the first rotating shaft, is hinged with the screen structure along the length direction of the long edge part of the first fixed frame; the first mesh sheet is covered on the frame opening of the first fixing frame and is used for bearing the medical bottle stopper;

and each sliding block is provided with a rotating hole arranged along the second direction.

3. The medical vial stopper drying device of claim 2, wherein the drive assembly includes a slide base, a slide plate, a cam structure, a driver and a lift adjustment structure; the sliding base is arranged in the accommodating cavity in a sliding mode along the vertical direction, a limiting sliding cavity is arranged at the top end of the sliding base, the limiting sliding cavity is arranged along the first direction and penetrates through the sliding base, a circular groove is further formed in the sliding base, and the circular groove is formed in the bottom surface of the sliding cavity and is communicated with the sliding cavity; the sliding plate is arranged in the sliding cavity in a sliding mode, one end of the sliding plate is hinged with the corresponding wide edge part, the hinge axis is arranged along the second direction, and a long sliding opening arranged along the second direction is formed in the sliding plate; the cam structure is positioned in the circular groove and is rotationally connected with the sliding base, and the cam structure is also connected with the long sliding opening and is used for rotating so as to drive the sliding plate to move back and forth along the first direction; the driver is fixedly arranged on the sliding base, and the power output end of the driver is in power connection with the cam structure so as to drive the cam structure to rotate; the lifting adjusting structure is used for adjusting the height of the sliding base;

and a sliding space for limiting sliding of the sliding base is arranged in the accommodating cavity.

4. The medical vial stopper drying device of claim 3, wherein the cam structure comprises a circular roller and a transfer shaft; the circular roller is arranged in the circular groove, the axis of the circular roller is arranged along the vertical direction, the side surface of the circular roller below the circular roller is connected with a transmission shaft, the transmission shaft penetrates through the sliding base to be in power connection with the power output end of the driver, the side surface of the circular roller above the circular roller is provided with a plurality of mounting holes, the mounting holes are arranged annularly and at intervals around the axis of the transmission shaft, and the distance between the axis of each mounting hole and the axis of the transmission shaft is sequentially increased; one end of the transfer shaft is detachably connected with one of the mounting holes, and the other end of the transfer shaft extends out of the corresponding mounting hole along the vertical direction and extends into the long sliding opening;

and the sliding base is provided with a through hole for the transmission shaft to pass through.

5. The medical vial stopper drying device of claim 4, wherein the transfer shaft comprises a cylindrical body, a restraining post, a screw, and a spring; the cylinder body is provided with a cylinder cavity, one end of the cylinder body is provided with a threaded hole which is communicated with the cylinder cavity and is arranged in a collinear way with the axis of the cylinder body, the other end of the cylinder body is provided with two sliding holes, the two sliding holes are arranged along the radial direction of the cylinder body, and the two sliding holes are arranged around the axis of the cylinder body at annular intervals; the number of the limiting columns is two, the two limiting columns are respectively arranged in the two sliding holes in a sliding mode, and an auxiliary block is arranged at one end, located in the cylindrical cavity, of each limiting column; the screw rod is rotatably arranged in the threaded hole, one end of the screw rod, which is positioned in the cylindrical cavity, is provided with a conical part, and the screw rod is used for rotating so that the conical part is inserted between the two auxiliary blocks to enable the two limiting columns to move back to back; the two springs are respectively arranged in one-to-one correspondence with the two limiting columns, each spring is sleeved on the corresponding limiting column, one end of each spring is abutted against the inner wall of the cylindrical cavity, the other end of each spring is abutted against the auxiliary block, and the two springs are used for bouncing the two limiting columns to move relatively after the screw rod is separated from the abutting action on the two auxiliary blocks;

and the bottom of each mounting hole is provided with a limiting ring groove for each limiting column to extend into.

6. The medical bottle stopper drying device according to claim 3, wherein the lifting adjusting structure comprises two jacks, the two jacks are arranged along the vertical direction and are arranged at intervals along the second direction, a fixed end of each jack is fixedly arranged on the bottom surface of the accommodating cavity, and a telescopic end is fixedly connected with the sliding base.

7. The medical stopper drying apparatus according to claim 3, further comprising a screen structure, the screen structure including a second fixed frame and a second mesh; the second fixing frame is positioned at the tail end of the screen structure and is a rectangular frame which is provided with two long side parts and two wide side parts, one of the wide side parts of the second fixing frame is hinged with the wide side part of the first fixing frame, the hinge axis is arranged along the second direction, the second fixing frame is obliquely arranged, two ends of the other wide side part of the second fixing frame are provided with second rotating shafts, and each second rotating shaft is arranged along the second direction and is in sliding connection with the side wall of the accommodating cavity along the vertical direction; the second net sheet is covered on the frame opening of the second fixing frame and used for blocking the medical bottle stopper;

and a first sliding groove for limiting and sliding the second rotating shaft is formed in the side wall of the accommodating cavity.

8. The medical bottle stopper drying device according to claim 1, wherein a second sliding groove for the sliding block to slide is provided on a side wall of the accommodating chamber, and a length of the second sliding groove along the first direction is greater than a length of the sliding block.

9. The medical vial stopper drying device of claim 1, wherein each of the drying assemblies comprises a ventilation hood, an electrical heating structure, and a pressure pump; the ventilating hood is arranged above or below the screen structure, the ventilating hood is fixedly arranged in the accommodating cavity, the ventilating hood is provided with a plurality of air outlets arranged towards the screen structure, and the ventilating hood is provided with air inlets communicated with the air outlets; the electric heating structures are arranged in a plurality, correspond to the air outlets one by one and are arranged at the air outlets for heating the air flow passing through the air outlets; the pressure pump is communicated with the air inlet and is used for conveying air under pressure.

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