CN112872973B

CN112872973B - Medical infusion frame processingequipment

Info

Publication number: CN112872973B
Application number: CN202110035125.8A
Authority: CN
Inventors: 农佳梅
Original assignee: Individual
Current assignee: Laiwu Zhaoyuan Machinery Equipment Co ltd
Priority date: 2021-01-12
Filing date: 2021-01-12
Publication date: 2022-10-18
Anticipated expiration: 2041-01-12
Also published as: CN112872973A

Abstract

The invention relates to the technical field of drip stand processing, in particular to a medical drip stand processing device which comprises a bearing extension device, a translation fixing device, a part centering device, a linkage rotating ring component, a worm transmission device, a part supporting device, a processing supporting device and a part processing device.

Description

Medical infusion frame processingequipment

Technical Field

The invention relates to the technical field of infusion support processing, in particular to a medical infusion support processing device.

Background

Intravenous injection is a medical procedure in which liquid substances such as blood, medical solutions, nutritional solutions, etc. are directly injected into a vein. Intravenous injection can be divided into transient and continuous intravenous injection, transient intravenous injection is generally directly injected into veins by a needle cylinder, namely common 'injection', continuous intravenous injection is implemented by intravenous drip, commonly called 'drip', when patients carry out intravenous injection, medicines need to be hung on a drip rack, the drip rack processed by the prior art does not have an anti-corrosion function, an anti-corrosion layer needs to be manually smeared in the later period to realize anti-corrosion, and the working efficiency is reduced.

Disclosure of Invention

The invention aims to provide a medical infusion support processing device, and the infusion support processed by the medical infusion support processing device has an anti-corrosion function.

The utility model provides a medical drip stand processingequipment, is including bearing extension device, translation fixing device, part centring means, linkage change member, worm transmission, part strutting arrangement, processing supporting device and parts machining device, the extension device that bears on be connected with translation fixing device, translation fixing device on fixedly connected with part fixing device, part fixing device on fixedly connected with part centring means, part fixing device on be connected with linkage change member, worm transmission be connected with translation fixing device fixed connection and with linkage change member transmission and be connected, the extension device that bears on fixedly connected with part strutting arrangement, the extension device that bears on fixedly connected with processing supporting device, processing supporting device on be connected with parts machining device.

Bear and extend device including supporting table, spacing slide, fixing base, motor I, extend the lead screw and connect the slide, support two spacing slides of fixedly connected with on the table, support fixedly connected with fixing base on the table, fixedly connected with motor I on the fixing base, fixedly connected with extends the lead screw on motor I's the output shaft, support fixedly connected with on the table and connect the slide, the axle center of connecting the slide is in on the same straight line with the axle center of extending the lead screw.

Translation fixing device include translation board, internal thread chamber and spacing traveller, fixedly connected with internal thread chamber on the translation board, internal thread chamber with be connected slide sliding connection, extend the lead screw and pass through threaded connection in the internal thread chamber, two spacing travelers of fixedly connected with on the translation board, two spacing travelers difference sliding connection are in two spacing slides.

Part fixing device include fixed ring board, extrusion bent plate, extrusion lead screw, bevel gear and flexible traveller, fixed ring board and translation board fixed connection, the extrusion bent plate be provided with threely, all rotate on the three extrusion bent plate and be connected with the extrusion lead screw, the even rotation of three extrusion lead screw is connected on the fixed ring board, the equal fixedly connected with bevel gear in outer end of three extrusion lead screw, two flexible travelers of equal fixedly connected with on the three extrusion bent plate, three flexible travelers of group all with fixed ring board sliding connection.

Part centring means including supporting traveller, side solid board, adjustment lead screw, bearing slide, linkage chamber and centering awl post, the support traveller be provided with two, two support travellers all with fixed ring board fixed connection, side solid board fixed connection rotates on two outer ends that support the traveller, the side is fixed to be connected with the adjustment lead screw on the board, bearing slide and two support traveller sliding connection, fixedly connected with linkage chamber on the bearing slide, the linkage chamber passes through threaded connection with the adjustment lead screw, fixedly connected with centering awl post on the bearing slide, the axle center of centering awl post is in on same straight line with the axle center of fixed ring board.

The linkage swivel component comprises a fixed swivel cavity and an inner bevel gear, the fixed swivel cavity is fixedly connected to a fixed ring plate, the fixed ring plate is rotatably connected with the inner bevel gear, worm gear teeth are arranged on the outer surface of the inner bevel gear, and the inner bevel gear is in meshing transmission connection with three bevel gears.

The worm transmission device comprises two bearing seats, a linkage rotating shaft and a transmission worm, wherein the two bearing seats are fixedly connected with the translation plate, two ends of the linkage rotating shaft are respectively rotatably connected with the two bearing seats, the transmission worm is fixedly connected onto the linkage rotating shaft, and the transmission worm is in meshing transmission connection with worm gear teeth on the outer surface of the inner bevel gear.

Part strutting arrangement include support frame, lift traveller, telescopic link and contact ball, sliding connection has four lift travelers on the support frame, the equal fixed connection of four lift travelers is on supporting the table, two telescopic links of fixedly connected with on the support frame, the equal fixed connection of two telescopic links is on supporting the table, the both ends of support frame are all rotated and are connected with a plurality of contact balls.

Processing bearing device include fixed cavity, supporting leg and motor II, two supporting legs of fixedly connected with on the fixed cavity, the equal fixed connection of two supporting legs is on supporting the table, the equal fixedly connected with motor II in both ends about fixed cavity top.

Part machining device including rotating the chamber, flexible chamber I, beat the module, flexible chamber II and scribble the piece, it connects in fixed cavity and both ends respectively with two motor II transmissions to rotate the chamber to rotate, rotate two flexible chamber I of left end fixedly connected with in the chamber, equal sliding connection beats the module in two flexible chamber I, all be provided with the spring in two flexible chamber I, two flexible chamber II of right-hand member fixedly connected with in the rotation chamber, equal sliding connection scribbles the piece in two flexible chamber II, all be provided with the spring in two flexible chamber II.

The medical infusion support processing device has the beneficial effects that:

the drip stand to be processed is fixed and driven to move, the drip stand is polished while moving, and finally, an anticorrosive layer is coated on the polished drip stand, so that the processes of polishing the drip stand, coating the anticorrosive layer and the like are completed simultaneously, and manual post-processing is not needed.

Drawings

FIG. 1 is a schematic structural view of a medical infusion support processing device according to the present invention;

FIG. 2 is a schematic view of a structure of a carrying and extending device;

FIG. 3 is a schematic view of the translation fixture;

FIG. 4 is a schematic view of the component mounting apparatus;

FIG. 5 is a schematic view of a part centering device;

FIG. 6 is a cross-sectional view of a linkage swivel member;

FIG. 7 is a schematic view of a worm drive;

FIG. 8 is a schematic view of the part holding apparatus;

FIG. 9 is a schematic view of a processing and supporting apparatus;

fig. 10 is a schematic structural view of the part processing apparatus.

In the figure: carrying the extension device 1; a support table 1-1; a limiting slide way 1-2; a fixed seat 1-3; motors I1-4; 1-5 of an extension screw rod; connecting the sliding seats 1-6; the translation fixing device 2; a translation plate 2-1; an internal thread cavity 2-2; 2-3 of a limiting sliding column; a part fixing device 3; a fixed ring plate 3-1; 3-2 of extruding the bent plate; 3-3 parts of an extrusion screw rod; bevel gears 3-4; 3-5 parts of a telescopic sliding column; a part centering device 4; a support strut 4-1; 4-2 of a side fixing plate; adjusting a screw rod 4-3; supporting the sliding plate 4-4; 4-5 of a linkage cavity; 4-6 of centering conical column; a link swivel member 5; a fixed rotary cavity 5-1; an inner bevel gear 5-2; a worm gear 6; a bearing seat 6-1; a linkage rotating shaft 6-2; 6-3 of a transmission worm; a part supporting device 7; a support frame 7-1; 7-2 of a lifting sliding column; 7-3 of a telescopic rod; contact balls 7-4; processing the supporting device 8; a fixed cavity 8-1; support legs 8-2; motor II8-3; a parts processing device 9; rotating the cavity 9-1; a telescopic cavity I9-2; beating the module 9-3; a telescopic cavity II9-4; and 9-5 of smearing block.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, unless explicitly fixed or limited otherwise, the terms "mounted," "connected" and "connected" should be construed broadly, and may be, for example, a fixed connection, a detachable connection, an integral connection, a direct connection, an indirect connection through an intermediate medium, and a communication between two components. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 10, and a medical infusion support processing device includes a bearing extension device 1, a translation fixing device 2, a part fixing device 3, a part centering device 4, a linkage swivel member 5, a worm transmission device 6, a part supporting device 7, a processing supporting device 8 and a part processing device 9, wherein the bearing extension device 1 is connected with the translation fixing device 2, the translation fixing device 2 is fixedly connected with the part fixing device 3, the part fixing device 3 is fixedly connected with the part centering device 4, the part fixing device 3 is connected with the linkage swivel member 5, the worm transmission device 6 is fixedly connected with the translation fixing device 2 and is in transmission connection with the linkage swivel member 5, the bearing extension device 1 is fixedly connected with the part supporting device 7, the bearing extension device 1 is fixedly connected with the processing supporting device 8, and the processing supporting device 8 is connected with the part processing device 9.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-10, wherein the carrying and extending device 1 includes a supporting table 1-1, two limiting slideways 1-2, fixing seats 1-3, motors I1-4, extending screws 1-5 and connecting slides 1-6, the supporting table 1-1 is fixedly connected with the two limiting slideways 1-2, the supporting table 1-1 is fixedly connected with the fixing seats 1-3, the fixing seats 1-3 are fixedly connected with the motors I1-4, the output shafts of the motors I1-4 are fixedly connected with the extending screws 1-5, the supporting table 1-1 is fixedly connected with the connecting slides 1-6, and the axes of the connecting slides 1-6 and the axes of the extending screws 1-5 are on the same straight line;

the supporting table 1-1 plays a role in bearing and supporting and provides a fixed space for the whole device, the two limiting slide ways 1-2 can provide a sliding space for the two limiting slide columns 2-3, the fixing seat 1-3 can provide a fixed space for the motor I1-4, the starting motor I1-4 can drive the extension screw rod 1-5 to rotate, the rotating extension screw rod 1-5 can drive the internal thread cavity 2-2 to slide left and right, and the connecting slide seat 1-6 can enable the internal thread cavity 2-2 to slide more stably.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 10, where the translation fixing device 2 includes a translation plate 2-1, an internal thread cavity 2-2, and a limiting slide column 2-3, the translation plate 2-1 is fixedly connected with the internal thread cavity 2-2, the internal thread cavity 2-2 is slidably connected with a connecting slide seat 1-6, an extension screw 1-5 is connected in the internal thread cavity 2-2 through a thread, the translation plate 2-1 is fixedly connected with two limiting slide columns 2-3, and the two limiting slide columns 2-3 are respectively slidably connected in the two limiting slide ways 1-2;

the translation plate 2-1 plays a role in linkage, can drive the fixed drip stand to move, utilizes the internal thread cavity 2-2 to drive the translation plate 2-1 to slide left and right, and after the two limiting sliding columns 2-3 are respectively and slidably connected into the two limiting sliding ways 1-2, the translation plate 2-1 is limited, and at the moment, the translation plate 2-1 can only slide left and right.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-10, the part fixing device 3 includes three fixing ring plates 3-1, three extrusion curved plates 3-2, three extrusion screws 3-3, three bevel gears 3-4, and three telescopic sliding columns 3-5, the fixing ring plate 3-1 is fixedly connected to the translation plate 2-1, the three extrusion curved plates 3-2 are all rotatably connected to the three extrusion curved plates 3-2, the three extrusion screws 3-3 are uniformly rotatably connected to the fixing ring plate 3-1, the outer ends of the three extrusion screws 3-3 are all fixedly connected to the bevel gears 3-4, the three extrusion curved plates 3-2 are all fixedly connected to the two telescopic sliding columns 3-5, and the three groups of telescopic sliding columns 3-5 are all slidably connected to the fixing ring plate 3-1;

the fixed ring plate 3-1 plays a role in connection and fixation, the drip stand penetrates through the fixed ring plate 3-1, the three extrusion bent plates 3-2 are used for extrusion and fixation of the drip stand, the extrusion bent plates 3-2 are driven to move inwards by rotation of the extrusion lead screws 3-3, the extrusion lead screws 3-3 can be driven to rotate by the bevel gears 3-4, the extrusion bent plates 3-2 are limited by the two telescopic sliding columns 3-5 and only can slide, when the three bevel gears 3-4 rotate, the three extrusion lead screws 3-3 can be driven to rotate, and the three extrusion lead screws 3-3 can drive the three extrusion bent plates 3-2 to move inwards at the same time and contact with the drip stand to fix the drip stand.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-10, wherein the part centering device 4 includes two support sliding columns 4-1, two side fixing plates 4-2, two adjusting screws 4-3, two support sliding plates 4-4, two linkage cavities 4-5 and two centering cone columns 4-6, the two support sliding columns 4-1 are both fixedly connected with the fixed ring plate 3-1, the side fixing plates 4-2 are fixedly connected with the outer ends of the two support sliding columns 4-1, the side fixing plates 4-2 are rotatably connected with the adjusting screws 4-3, the support sliding plates 4-4 are slidably connected with the two support sliding columns 4-1, the linkage cavities 4-5 are fixedly connected with the support sliding plates 4-4, the linkage cavities 4-5 are connected with the adjusting screws 4-3 through threads, the centering cone columns 4-6 are fixedly connected with the support sliding plates 4-4, and the axes of the centering cone columns 4-6 are on the same straight line with the axes of the fixed ring plate 3-1;

the two supporting sliding columns 4-1 play a role in bearing connection, the side fixing plates 4-2 can provide a rotating space for the adjusting screw rod 4-3, the rotating adjusting screw rod 4-3 can drive the linkage cavity 4-5 to move, the supporting sliding plates 4-4 can drive the centering cone columns 4-6 to move, the centering treatment is carried out on the tube of the drip stand by the centering cone columns 4-6, the tube of the drip stand is enabled to be in a correct position, the processed drip stand is better if the position of the drip stand is correct, the anticorrosive layer is more uniform, the adjusting screw rod 4-3 rotates to adjust the position of the sliding plate 4-4 through the linkage cavity 4-5, the supporting sliding plates 4-4 are utilized to adjust the position of the centering cone columns 4-6, the tube of the drip stand is inserted onto the centering cone columns 4-6, the center of the tube of the drip stand is limited, and the tube of the drip stand is fixed.

The sixth specific implementation mode:

referring to fig. 1-10, the present embodiment will be described, wherein the linkage swivel member 5 includes a fixed swivel cavity 5-1 and an inner bevel gear 5-2, the fixed swivel cavity 5-1 is fixedly connected to a fixed ring plate 3-1, the fixed ring plate 3-1 is rotatably connected to the inner bevel gear 5-2, worm gear teeth are disposed on an outer surface of the inner bevel gear 5-2, and the inner bevel gear 5-2 is in meshing transmission connection with three bevel gears 3-4;

the fixed rotary cavity 5-1 can provide a rotating space for the inner bevel gear 5-2, when the inner bevel gear 5-2 rotates, the three bevel gears 3-4 can be driven to rotate simultaneously, and finally, the pipe of the drip stand is fixed, and worm gear teeth arranged on the inner bevel gear 5-2 can provide a driving space for the driving worm 6-3.

The seventh concrete implementation mode:

the embodiment is described below with reference to fig. 1-10, the worm transmission device 6 includes two bearing seats 6-1, two linkage rotating shafts 6-2 and a transmission worm 6-3, the two bearing seats 6-1 are both fixedly connected with the translation plate 2-1, two ends of the linkage rotating shaft 6-2 are respectively rotatably connected with the two bearing seats 6-1, the transmission worm 6-3 is fixedly connected with the linkage rotating shaft 6-2, and the transmission worm 6-3 is in meshing transmission connection with worm gear teeth on the outer surface of the inner bevel gear 5-2;

the two bearing seats 6-1 can provide a rotating space for the linkage rotating shaft 6-2, and the rotation of the linkage rotating shaft 6-2 can drive the transmission worm 6-3 to rotate.

The specific implementation mode is eight:

the embodiment is described below with reference to fig. 1 to 10, where the part supporting device 7 includes a supporting frame 7-1, lifting sliding columns 7-2, telescopic rods 7-3, and contact balls 7-4, the supporting frame 7-1 is connected with four lifting sliding columns 7-2 in a sliding manner, the four lifting sliding columns 7-2 are all fixedly connected to the supporting table 1-1, the supporting frame 7-1 is connected with two telescopic rods 7-3 in a fixed manner, the two telescopic rods 7-3 are all fixedly connected to the supporting table 1-1, and two ends of the supporting frame 7-1 are both rotatably connected with a plurality of contact balls 7-4;

the support frame 7-1 plays a role in bearing and supporting, the four lifting sliding columns 7-2 can provide sliding space for the support frame 7-1 and limit the sliding space, the support frame 7-1 can only slide up and down, the height of the support frame 7-1 can be different according to different drip stand pipes, the two telescopic rods 7-3 are started to adjust the height of the support frame 7-1, the two groups of multiple contact balls 7-4 can provide contact space for the drip stand pipes, and translation of the drip stand pipes cannot be delayed.

The specific implementation method nine:

the embodiment is described below with reference to fig. 1-10, the processing and supporting device 8 includes a fixed cavity 8-1, two supporting legs 8-2 and a motor II8-3, the fixed cavity 8-1 is fixedly connected with the two supporting legs 8-2, the two supporting legs 8-2 are both fixedly connected to the supporting table 1-1, and the left and right ends above the fixed cavity 8-1 are both fixedly connected with the motor II8-3;

the fixed cavity 8-1 plays a role of bearing, the two supporting legs 8-2 can support and fix the fixed cavity 8-1, the two motors II8-3 are started to drive the rotating cavity 9-1 to rotate, and the two motors II8-3 can realize the stable rotation of the rotating cavity 9-1.

The detailed implementation mode is ten:

the embodiment is described below with reference to fig. 1-10, the part processing device 9 includes a rotating cavity 9-1, a telescopic cavity I9-2, a beating module 9-3, a telescopic cavity II9-4 and a smearing block 9-5, the rotating cavity 9-1 is rotatably connected in the fixed cavity 8-1, and two ends of the rotating cavity 9-1 are respectively in transmission connection with two motors II8-3, the left end of the rotating cavity 9-1 is fixedly connected with two telescopic cavities I9-2, the two telescopic cavities I9-2 are both in sliding connection with the beating module 9-3, the beating module 9-3 is provided with a plurality of fine polishing protrusions, the two telescopic cavities I9-2 are both provided with springs, the right end of the rotating cavity 9-1 is fixedly connected with two telescopic cavities II9-4, the two telescopic cavities II9-4 are both in sliding connection with the smearing block 9-5, the smearing block 9-5 is designed in a hollow structure, so as to conveniently store the preservative solution, the smearing block 9-5 is adhered with a sponge and is communicated with the interior of the smearing block 9-5, the inner end of the smearing block is communicated with the interior of the smearing block 9-5, and the inner end of the dripping frame is provided with the sponge, and the two smearing block II-4;

the rotating cavity 9-1 plays a role in connection, springs in the two telescopic cavities I9-2 and the two telescopic cavities II9-4 can act on the two beating modules 9-3 and the two coating blocks 9-5, the two beating modules 9-3 and the two coating blocks 9-5 are in contact with the drip stand pipe at any time, when the rotating cavity 9-1 rotates, the two beating modules 9-3 can be in contact with the drip stand pipe and rotate firstly, polishing of the drip stand pipe is achieved, the two coating blocks 9-5 are in contact with the drip stand pipe and rotate, an anti-corrosion layer is coated on the polished drip stand, and the drip stand coated with the anti-corrosion layer has a longer service life.

The working principle of the medical infusion support processing device is as follows:

the two supporting sliding columns 4-1 play a role in bearing connection, the side fixing plates 4-2 can provide a rotating space for the adjusting screw rod 4-3, the rotating adjusting screw rod 4-3 can drive the linkage cavity 4-5 to move, the supporting sliding plates 4-4 can drive the centering cone column 4-6 to move, the centering treatment is carried out on the tube of the drip stand by utilizing the centering cone column 4-6, the tube of the drip stand is in a correct position, the processed drip stand is better only if the position of the drip stand is correct, the anticorrosive layer is more uniform, the rotating adjusting screw rod 4-3 can adjust the position of the supporting sliding plate 4-4 through the linkage cavity 4-5, the position of the centering cone column 4-6 is adjusted by utilizing the supporting sliding plates 4-4, and the tube of the drip stand is inserted onto the centering cone column 4-6, the center of the pipe of the drip stand is limited, then the pipe of the drip stand is fixed, the support frame 7-1 plays a role of bearing and supporting, the four lifting sliding columns 7-2 can provide sliding space for the support frame 7-1 and limit the same, so that the support frame 7-1 can only slide up and down, the height of the support frame 7-1 can be different according to the different pipes of the drip stand, the two telescopic rods 7-3 are started to adjust the height of the support frame 7-1, the two groups of the contact balls 7-4 can provide contact space for the pipe of the drip stand, the translation of the pipe of the drip stand cannot be delayed, the two bearing seats 6-1 can provide rotating space for the linkage rotating shaft 6-2, and the rotation linkage rotating shaft 6-2 can drive the transmission worm 6-3 to rotate, the fixed rotating cavity 5-1 can provide a rotating space for the inner bevel gear 5-2, when the inner bevel gear 5-2 rotates, the three bevel gears 3-4 can be simultaneously driven to rotate, and finally, the fixing of the tube of the drip stand is realized, worm gear teeth arranged on the inner bevel gear 5-2 can provide a transmission space for the transmission worm 6-3, the fixed ring plate 3-1 plays a role in connection and fixation, the drip stand penetrates through the fixed ring plate 3-1, the drip stand is extruded and fixed by the three extrusion curved plates 3-2, the extrusion curved plates 3-2 are driven to move inwards by the rotation of the extrusion lead screws 3-3, the extrusion lead screws 3-4 can drive the extrusion lead screws 3-3 to rotate, the extrusion curved plates 3-2 are limited by the two telescopic sliding columns 3-5 and can only slide, when the three bevel gears 3-4 rotate, the three extrusion lead screws 3-3 can be driven to rotate, the three extrusion lead screws 3-3 can drive the three extrusion curved plates 3-2 to simultaneously move inwards and contact with the fixed bevel gears 3-2 to realize the stable contact with the fixed drip stand, the fixed rotating cavity, the support block II-9 can be connected to the support block II-3-9, the support block II-1 can be connected to the support block II-9, two polishing modules 9-3 and two smearing blocks 9-5 are contacted with a drip frame pipe at any time, when a rotating cavity 9-1 rotates, the two polishing modules 9-3 are firstly contacted with the drip frame pipe and rotate to polish the drip frame pipe, the two smearing blocks 9-5 are then contacted with the drip frame pipe and rotate to polish the polished drip frame pipe, an anticorrosive coating is smeared on the polished drip frame pipe, the drip frame coated with the anticorrosive coating has longer service life, a supporting table 1-1 plays a role of bearing support to provide a fixed space for the whole device, two limiting slideways 1-2 can provide a sliding space for two limiting sliding columns 2-3, a fixed seat 1-3 can provide a fixed space for a point motor I1-4, a starting motor I1-4 can drive an extending screw 1-5 to rotate, the rotating extending screw 1-5 can drive an internal threaded cavity 2-2 to slide leftwards, a connecting seat 1-6 can make the internal threaded cavity 2-2 slide more stably, a translation plate 2-1 can only play a role of a translation function, the translation of the translation sliding block 2-1 can be driven by the translation sliding column 2, the translation sliding block 2-2, when the two smearing blocks 9-1 and the translation slide to polish the drip frame pipe, the two limiting slideways can be moved, the polishing blocks, the polishing process can be completed by the two limiting slideways 2-2, the drip frame pipe, when the polishing process is completed by the two limiting slide blocks 2-3, the translation slide blocks can be completed by the translation slide blocks, the translation slide blocks 2, and manual post-processing is not needed.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a medical drip frame processingequipment, is including bearing extension device (1), translation fixing device (2), part fixing device (3), part centring means (4), linkage swivel component (5), worm drive (6), part strutting arrangement (7), processing supporting device (8) and parts machining device (9), its characterized in that: the bearing and extending device (1) is connected with a translation fixing device (2), the translation fixing device (2) is fixedly connected with a part fixing device (3), the part fixing device (3) is fixedly connected with a part centering device (4), the part fixing device (3) is connected with a linkage rotating ring member (5), the worm transmission device (6) is fixedly connected with the translation fixing device (2) and is in transmission connection with the linkage rotating ring member (5), the bearing and extending device (1) is fixedly connected with a part supporting device (7), the bearing and extending device (1) is fixedly connected with a processing and supporting device (8), and the processing and supporting device (8) is connected with a part processing device (9);

the bearing extension device (1) comprises a supporting table (1-1), limiting slideways (1-2), fixing seats (1-3), motors I (1-4), extension lead screws (1-5) and connecting sliding seats (1-6), wherein the supporting table (1-1) is fixedly connected with the two limiting slideways (1-2), the supporting table (1-1) is fixedly connected with the fixing seats (1-3), the fixing seats (1-3) are fixedly connected with the motors I (1-4), output shafts of the motors I (1-4) are fixedly connected with the extension lead screws (1-5), the supporting table (1-1) is fixedly connected with the connecting sliding seats (1-6), and the axes of the connecting sliding seats (1-6) and the axes of the extension lead screws (1-5) are positioned on the same straight line;

the processing and supporting device (8) comprises a fixed cavity (8-1), two supporting legs (8-2) and a motor II (8-3), wherein the fixed cavity (8-1) is fixedly connected with the two supporting legs (8-2), the two supporting legs (8-2) are both fixedly connected to a supporting table (1-1), and the left end and the right end above the fixed cavity (8-1) are both fixedly connected with the motor II (8-3);

the part machining device (9) comprises a rotating cavity (9-1), a telescopic cavity I (9-2), a beating module (9-3), a telescopic cavity II (9-4) and a smearing block (9-5), wherein the rotating cavity (9-1) is rotatably connected in the fixed cavity (8-1), two ends of the rotating cavity are respectively in transmission connection with two motors II (8-3), the left end of the rotating cavity (9-1) is fixedly connected with the two telescopic cavities I (9-2), the two telescopic cavities I (9-2) are internally and respectively in sliding connection with the beating module (9-3), springs are respectively arranged in the two telescopic cavities I (9-2), the right end of the rotating cavity (9-1) is fixedly connected with the two telescopic cavities II (9-4), the two telescopic cavities II (9-4) are internally and respectively in sliding connection with the smearing block (9-5), and the springs are respectively arranged in the two telescopic cavities II (9-4).

2. The medical infusion stand processing device according to claim 1, wherein: the translation fixing device (2) comprises a translation plate (2-1), an internal thread cavity (2-2) and limiting sliding columns (2-3), the translation plate (2-1) is fixedly connected with the internal thread cavity (2-2), the internal thread cavity (2-2) is in sliding connection with a connecting sliding seat (1-6), an extension lead screw (1-5) is connected into the internal thread cavity (2-2) through threads, the translation plate (2-1) is fixedly connected with the two limiting sliding columns (2-3), and the two limiting sliding columns (2-3) are respectively in sliding connection into two limiting sliding ways (1-2).

3. The medical infusion stand processing device according to claim 2, wherein: the part fixing device (3) comprises three fixing ring plates (3-1), three extrusion curved plates (3-2), three extrusion lead screws (3-3), bevel gears (3-4) and three telescopic sliding columns (3-5), wherein the fixing ring plates (3-1) are fixedly connected with the translation plates (2-1), the three extrusion curved plates (3-2) are all rotatably connected with the extrusion lead screws (3-3), the three extrusion lead screws (3-3) are uniformly rotatably connected onto the fixing ring plates (3-1), the outer ends of the three extrusion lead screws (3-3) are all fixedly connected with the bevel gears (3-4), the three extrusion curved plates (3-2) are all fixedly connected with the two telescopic sliding columns (3-5), and the three groups of telescopic sliding columns (3-5) are all slidably connected with the fixing ring plates (3-1).

4. The medical infusion stand processing device according to claim 3, wherein: the part centering device (4) comprises two supporting sliding columns (4-1), two side fixing plates (4-2), two adjusting screw rods (4-3), two bearing sliding plates (4-4), a linkage cavity (4-5) and two centering cone columns (4-6), wherein the two supporting sliding columns (4-1) are fixedly connected with a fixed ring plate (3-1), the side fixing plates (4-2) are fixedly connected at the outer ends of the two supporting sliding columns (4-1), the adjusting screw rods (4-3) are rotatably connected on the side fixing plates (4-2), the bearing sliding plates (4-4) are slidably connected with the two supporting sliding columns (4-1), the linkage cavity (4-5) is fixedly connected on the bearing sliding plates (4-4), the linkage cavity (4-5) is in threaded connection with the adjusting screw rods (4-3), the centering cone columns (4-6) are fixedly connected on the bearing sliding plates (4-4), and the centering cone columns (4-6) and the fixed ring plate (3-1) are positioned on the same axis.

5. The medical infusion stand processing device according to claim 4, wherein: the linkage rotating ring member (5) comprises a fixed rotating cavity (5-1) and an inner bevel gear (5-2), the fixed rotating cavity (5-1) is fixedly connected to a fixed ring plate (3-1), the fixed ring plate (3-1) is connected with the inner bevel gear (5-2) in a rotating mode, worm gear teeth are arranged on the outer surface of the inner bevel gear (5-2), and the inner bevel gear (5-2) is in meshing transmission connection with the three bevel gears (3-4).

6. The medical infusion stand processing device according to claim 5, wherein: the worm transmission device (6) comprises two bearing seats (6-1), a linkage rotating shaft (6-2) and a transmission worm (6-3), the two bearing seats (6-1) are fixedly connected with the translation plate (2-1), two ends of the linkage rotating shaft (6-2) are respectively rotatably connected with the two bearing seats (6-1), the transmission worm (6-3) is fixedly connected onto the linkage rotating shaft (6-2), and the transmission worm (6-3) is in meshing transmission connection with worm gear teeth on the outer surface of the inner bevel gear (5-2).

7. The medical infusion stand processing device according to claim 6, wherein: the part supporting device (7) comprises a supporting frame (7-1), lifting sliding columns (7-2), telescopic rods (7-3) and contact balls (7-4), wherein the supporting frame (7-1) is connected with the four lifting sliding columns (7-2) in a sliding mode, the four lifting sliding columns (7-2) are fixedly connected to the supporting table (1-1), the supporting frame (7-1) is fixedly connected with the two telescopic rods (7-3), the two telescopic rods (7-3) are fixedly connected to the supporting table (1-1), and the two ends of the supporting frame (7-1) are connected with the contact balls (7-4) in a rotating mode.