CN115258316A - Processing equipment of oxygen tube for internal medicine nursing - Google Patents

Abstract

The invention discloses a processing device of an oxygen tube for medical nursing, which comprises a supporting table and an installation table arranged on the supporting table, wherein a plurality of arc-shaped rods are arranged at the bottom of the installation table, a supporting frame is arranged on the supporting table, a first driving device can drive the arc-shaped rods to move in a staggered manner, a second supporting groove is formed in one side, located on the first supporting groove, of the supporting frame, a second driving device is arranged in the second supporting groove, an inclined plate is arranged on one side, located on the supporting frame, of the supporting frame, and a rolling device is arranged on the inclined plate.

Description

Processing equipment of oxygen tube for internal medicine nursing

Technical Field

The invention relates to the technical field of medical treatment, in particular to a processing device of an oxygen tube for medical nursing.

Background

Oxygen inhalation is a clinical common treatment method, is used for correcting oxygen deficiency, improving the partial pressure of arterial blood oxygen and the level of oxygen saturation, and promoting metabolism, is one of important methods for auxiliary treatment of various diseases, and the equipment used by the prior oxygen inhalation mainly comprises an oxygen source, an oxygen humidifier and an oxygen inhalation tube;

the oxygen tube is mainly assembled by a horn port, a nose support, an adjusting port and other accessories, when the existing oxygen tube is processed, the horn port, the nose support, the adjusting port and other accessories are mainly sequentially installed on a connecting thin tube through processing equipment, then the oxygen tube is placed on rolling equipment, the rolling equipment can roll the oxygen tube, and finally the rolled oxygen tube is taken down by a mechanical arm and then placed inside a packaging bag for packaging, so that the whole processing process of the oxygen tube can be completed;

but present rolling equipment is when with the rolling of oxygen tube, mainly be from the nose of oxygen uptake hold in the palm one end with the oxygen tube rolling, the nose of nose support one end can be located the inboard of pipe shaft like this, but the horn mouth of the one end of the pipe shaft that has the horn mouth is located the outside of pipe shaft, like this in the packing, the horn mouth is located the edge of wrapping bag, consequently, can receive the inboard of wrapping bag and the pressure extrusion of pipe shaft flare-out, and at the in-process of transportation, the horn mouth that is located the edge also can receive the extrusion of external force. Therefore, the processing equipment of the oxygen uptake pipe for medical nursing is provided.

Disclosure of Invention

The invention aims to provide processing equipment of an oxygen tube for medical nursing, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a processing device of an oxygen tube for medical nursing comprises a supporting table and an installation table arranged on the supporting table, wherein a plurality of arc-shaped rods are arranged at the bottom of the installation table, the arc-shaped rod is provided with a plurality of grooves, and the arc-shaped rod can position and support the oxygen inhalation tube through the grooves;

the supporting table is provided with a supporting frame, the supporting frame is positioned on one side of the mounting table, the bottom of the supporting frame is provided with a first supporting groove, a first driving device is arranged in the first supporting groove, and the first driving device can drive the arc-shaped rods to move in a staggered mode;

a second support groove is formed in one side, located on the first support groove, of the support frame, a second driving device is arranged inside the second support groove, and the second driving device can move the plurality of oxygen uptake pipes on the arc-shaped rod away;

one side that is located the support frame on is provided with the hang plate, the hang plate top is provided with the mobile device that can drive the hang plate and remove, be provided with the rolling equipment on the hang plate, the rolling equipment can drive the oxygen tube and follow the rolling at both ends.

Preferably, the first driving device comprises two first lead screws which are rotatably connected with the inner part of the first supporting groove, one ends of the two first lead screws penetrate through the first supporting groove and are connected with a driving gear, the two driving gears are meshed and connected, one end of any one of the first lead screws penetrates through the driving gear and is connected with a first driving motor, and the first driving motor is arranged on the outer side of the supporting frame through a motor frame;

the first moving block is sleeved on the outer side of the first lead screw and is connected with the inner portion of the first supporting groove in a sliding mode, and a connecting piece is arranged at the bottom of the first moving block and is connected with the arc-shaped rod.

Preferably, the connecting piece comprises a first telescopic cylinder arranged at the bottom of the first moving block, the output end of the first telescopic cylinder is connected with a connecting plate, the outer side of the connecting plate is connected with a second telescopic cylinder, and the output end of the second telescopic cylinder is connected with one end of the arc-shaped rod.

Preferably, the second driving device comprises a second lead screw rotatably connected with the inside of the second support groove, one end of the second lead screw penetrates through the second support groove and is connected with a second driving motor, a second moving block is sleeved on the second lead screw, the outer side of the second moving block is slidably connected with the inside of the second support groove, the bottom of the second moving block is connected with a third telescopic cylinder, the output end of the third telescopic cylinder is connected with a third driving motor through a motor shell, and the output end of the third driving motor is connected with a movable plate;

and the driving assembly is arranged at the three output ends of the driving motor and positioned at the top of the movable plate, and the driving assembly can move the oxygen uptake pipe.

Preferably, the driving assembly comprises a moving gear which is arranged at the three output ends of the driving motor and is positioned at the top of the moving plate, the top of the moving plate is provided with a plurality of connecting gears, gear chains are meshed and connected between the moving gear and the connecting gears, and a limiting rod capable of limiting the gear chains is arranged on the connecting plate;

the utility model discloses an oxygen tube oxygen uptake device, including connecting gear, dwang, movable plate, dwang, flexible cylinder four output ends are connected with the dwang, the dwang rotates with the movable plate to be connected with, the dwang bottom is passed the movable plate and is connected with the rotor plate, rotor plate one side is provided with telescopic cylinder four, the ram that can take off the oxygen tube is connected to four output ends of telescopic cylinder.

Preferably, the moving device comprises a connecting frame arranged at the top of the inclined plate, the connecting frame is connected with the top of the supporting table, a first rotating motor is arranged on the outer side of the inclined plate, and the first rotating motor is connected with the outer side of the connecting frame through a motor frame.

Preferably, the rolling equipment is including setting up in hang plate bottom multiunit splint group, and splint group can carry out the centre gripping to the both ends of oxygen inhalation tube, splint group bottom is connected with force application equipment, force application equipment can drive splint group and rotate the shrink that removes the realization to the oxygen inhalation tube, and is a plurality of force application equipment one end is connected with force application device, force application device drives a plurality of force application equipment and removes simultaneously.

Preferably, the clamping plate group comprises a bottom fixing block and a top fixing block which are respectively arranged at two ends of the inclined plate, and a bottom clamping groove and a top clamping groove which can limit the bottom and the bottom of the oxygen inhalation tube are respectively arranged on the bottom fixing block and the bottom fixing block;

a toothed plate meshed and connected with the outer side of the rotating gear is arranged inside the through groove and positioned on the outer side of the connecting groove;

the bottom fixed block is rotatably connected with the bottom of the inclined plate, the top fixed block is slidably connected with the top of the inclined plate, and the bottom fixed block and the top fixed block are both connected with force application equipment.

Preferably, the force application equipment comprises a through groove arranged in the inclined plate, and connecting grooves communicated with the outside are formed in the top and the bottom of the through groove;

the bottom of the top fixed block is connected with an intermediate rod, the intermediate rod is connected with the inside of the connecting groove in a sliding manner, the outer side of the intermediate rod is connected with a rotating gear, the bottom of the rotating gear is connected with a limiting slide block in a rotating manner, the limiting slide block is connected with the bottom connecting groove in a sliding manner, the bottom of the limiting slide block penetrates through the bottom connecting groove to be connected with a threaded rod, and the threaded rod is connected with the bottom of the inclined plate in a rotating manner;

the bottom of the bottom fixing block is connected with a first helical gear, the outer side of the first helical gear is connected with a second helical gear in a meshed manner, and the outer side of the second helical gear is sleeved with one end of a threaded rod;

one end of each threaded rod is connected with a force application device.

Preferably, the force application device comprises a force application gear connected with the outer side of one end of the threaded rod, an intermediate gear is meshed and connected between every two force application gears, the bottom of a first intermediate gear inclined plate is connected with the bottom of a second intermediate gear inclined plate, any one of the first intermediate gear inclined plate and the second intermediate gear is connected with a second rotating motor, and the output end of the second rotating motor is connected with the outer side of the inclined plate through a motor frame

Compared with the prior art, the invention has the beneficial effects that:

1. according to the device, the rolling device can roll the oxygen inhalation tube, and the oxygen inhalation tube can be rolled from the end of the nose support and the two ends of the horn mouth to the inner side simultaneously, so that the horn mouth of the tube body and the inner side of the tube body rolled by the nose support can be protected by the tube body, and the horn mouth and the nose support are prevented from being damaged by pressure.

2. According to the equipment, when the driving device I and the driving device II are used, a plurality of oxygen uptake pipes can be conveyed and moved to the containing equipment at the same time, so that the processing efficiency of the oxygen uptake pipes can be improved.

Drawings

FIG. 1 is a schematic top view of the overall structure of the present invention;

FIG. 2 is a front view of a portion of the present invention;

FIG. 3 is a bottom view of the structural support of the present invention;

FIG. 4 is a schematic front view of the connection relationship between the arc rod and the oxygen inhalation tube according to the present invention;

FIG. 5 is a cross-sectional side view of the structural brace of the present invention;

FIG. 6 is a schematic front view of a structural driving device according to the present invention;

FIG. 7 is a bottom view of the driving device of the present invention;

FIG. 8 is a schematic top view of the structural driving device of the present invention;

FIG. 9 is a front view of the movable plate of the present invention;

FIG. 10 is a rear view of the inclined plate of the present invention;

FIG. 11 is a rear cross-sectional view of a structural tilt plate of the present invention;

FIG. 12 is a side cross-sectional structural view of a structural tilting plate according to the present invention.

In the figure: 1-a support table; 2-mounting a platform; 3-an arc-shaped rod; 30-a groove; 10-a support frame; 11-supporting the first groove; 4-a first driving device; 12-a second support groove; 5-a second driving device; 6-inclined plate; 60-a mobile device; 7-winding equipment; 40-a first screw rod; 41-a drive gear; 42-driving the motor I; 43-moving block one; 44-a connector; 45-a telescopic cylinder I; 46-a connecting plate; 47-telescopic cylinder two; 50-a second screw rod; 51-driving a second motor; 52-moving block two; 53-telescopic cylinder three; 54-driving motor three; 55-moving the board; 56-a drive assembly; 57-moving the gear; 58-connecting gear; 59-gear train; 5 a-a limiting rod; 5 b-rotating rod; 5 c-a rotating plate; 5 d-a telescopic cylinder IV; 5 e-a ram; 61-a connecting frame; 62-rotating the first motor; 70-assembling clamping plate groups; 71-a force applying device; 72-a force applying device; 73-bottom fixed block; 74-top fixed block; 75-a bottom clamping groove; 76-a top gripping groove; 710-through slots; 711-connecting grooves; 712-an intermediate bar; 713-a turning gear; 714-limit slide block; 715-threaded rod; 716-bevel gear one; 717-bevel gear two; 718-toothed plate; 720-force application gear; 721-intermediate gear; 722-rotating electrical machine two.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first implementation mode comprises the following steps:

referring to fig. 1-12, the present invention provides a technical solution: a processing device of an oxygen tube for medical nursing comprises a supporting table 1 and an installation table 2 arranged on the supporting table 1, wherein a plurality of arc-shaped rods 3 are arranged at the bottom of the installation table 2, a plurality of grooves 30 are formed in the arc-shaped rods 3, and the oxygen tube can be positioned and supported by the arc-shaped rods 3 through the grooves 30;

a support frame 10 is fixed on the support table 1, the support frame 10 is positioned on one side of the mounting table 2, a support groove I11 is formed in the bottom of the support frame 10, a driving device I4 is arranged inside the support groove I11, and the driving device I4 can drive the arc-shaped rods 3 to move in a staggered mode;

a second support groove 12 is formed in one side, located at the first support groove 11, of the support frame 10, a second driving device 5 is arranged inside the second support groove 12, and the second driving device 5 can move the plurality of oxygen uptake pipes on the arc-shaped rod 3 away;

an inclined plate 6 is arranged on one side of the upper support frame 10, a moving device 60 capable of driving the inclined plate 6 to move is arranged at the top of the inclined plate 6, a rolling device 7 is arranged on the inclined plate 6, and the rolling device 7 can drive the oxygen uptake pipe to roll from two ends;

during processing of the oxygen tube, accessories such as a horn port, a nose support, an adjusting port and the like are sequentially arranged on the connecting thin tube through different processing equipment, then the oxygen tube is placed on the winding equipment 7, the oxygen tube wound by the manipulator is taken down and then placed in a packaging bag for packaging, and therefore the whole processing process of the oxygen tube can be completed;

when the oxygen inhalation tube is used, the first driving device 4 drives different arc-shaped rods 3 to respectively and alternately move to the bottom of the mounting table 2, the mounting table 2 can put down the assembled oxygen inhalation tubes at the same time, the oxygen inhalation tubes can respectively fall into different grooves 30 on the arc-shaped rods 3, then the arc-shaped rods 3 can drive the oxygen inhalation tubes to move to proper positions, and meanwhile, other arc-shaped rods 3 can move to the bottom of the mounting table 2 to support the oxygen inhalation tubes behind;

then back drive arrangement two 5 can take off many oxygen tubes on the arc pole 3, place rolling equipment 7 in proper order on, but 7 both ends of rolling equipment can hold in the palm the horn mouth to the nose at oxygen tube both ends and fix, then rolling equipment 7 can drive the interior book respectively in oxygen tube both ends to can hold in the palm the inboard of rolling up at the pipe shaft with horn mouth and nose, all can protect horn mouth and nose on the oxygen tube when packing carton transportation.

The first driving device 4 comprises two first lead screws 40 which are rotatably connected with the inside of the first support groove 11 through bearings, one ends of the two first lead screws 40 penetrate through the first support groove 11 and are fixedly connected with driving gears 41, the two driving gears 41 are meshed and connected, one end of any one first lead screw 40 penetrates through the driving gear 41 and is connected with a first driving motor 42, and the first driving motor 42 is fixed on the outer side of the support frame 10 through a motor frame;

the first moving block 43 is sleeved on the outer side of the first lead screw 40 in a threaded mode, the first moving block 43 is connected with the inner portion of the first support groove 11 in a sliding mode, a connecting piece 44 is arranged at the bottom of the first moving block 43, and the connecting piece 44 is connected with the arc-shaped rod 3.

The connecting piece 44 comprises a first telescopic cylinder 45 fixed at the bottom of the first moving block 43, a first 45 output end of the telescopic cylinder is fixedly connected with a connecting plate 46, a second telescopic cylinder 47 is fixedly connected to the outer side of the connecting plate 46, and an output end of the second telescopic cylinder 47 is fixedly connected with one end of the arc-shaped rod 3.

When the mounting table 2 drives the oxygen inhalation pipes to move to the same plane with the arc-shaped rods 3, the first driving motor 42 is started, the first driving motor 42 drives the first lead screw 40 to rotate, the first lead screw 40 drives the first driving gears 41 to rotate, and the two first driving gears 41 and the two first lead screws 40 simultaneously rotate, so that the two first moving blocks 43 move in a staggered manner, and the two first moving blocks 43 drive the first telescopic cylinders 45 and the two arc-shaped rods 3 to move back and forth;

by adjusting the first telescopic cylinder 45 and the second telescopic cylinder 47, the arc-shaped rod 3 positioned on the front side can enter the inner sides of the bottoms of the oxygen uptake pipes, and the grooves 30 are positioned corresponding to the inner parts of the oxygen uptake pipes;

at this moment, move to initial position behind the arc pole 3 that has placed many oxygen inhalation tubes, and under the regulation of telescopic cylinder two 47 and telescopic cylinder 45, two arcs can not influence the motion each other when crisscross the removal, then drive arrangement two 5, drive arrangement two 5 can take off many oxygen inhalation tubes on the arc pole 3 and place and accomodate the equipment on, then repetitive motion can realize lasting oxygen inhalation tube processing.

The second driving device 5 comprises a second lead screw 50 which is rotatably connected with the inside of the second support groove 12 through a bearing, one end of the second lead screw 50 penetrates through the second support groove 12 and is fixedly connected with a second driving motor 51, a second moving block 52 is sleeved on the second lead screw 50, the outer side of the second moving block 52 is slidably connected with the inside of the second support groove 12, the bottom of the second moving block 52 is fixedly connected with a third telescopic cylinder 53, the output end of the third telescopic cylinder 53 is fixedly connected with a third driving motor 54 through a motor shell, and the output end of the third driving motor 54 is fixedly connected with a moving plate 55;

the output end of the driving motor three 54 and the top of the moving plate 55 are provided with a driving assembly 56, and the driving assembly 56 can move the oxygen inhalation tube.

The driving assembly 56 comprises a moving gear 57 which is fixed at the output end of the driving motor three 54 and is positioned at the top of the moving plate 55, the top of the moving plate 55 is provided with a plurality of connecting gears 58, gear chains 59 are engaged and connected between the moving gear 57 and the connecting gears 58, and the connecting plate 46 is provided with a limiting rod 5a which can limit the gear chains 59;

a rotating rod 5b is fixedly connected at the center of the connecting gear 58, the rotating rod 5b is rotatably connected with the top of the moving plate 55 through a bearing, a rotating plate 5c is fixedly connected at the bottom of the rotating rod 5b through the moving plate 55, a telescopic cylinder four 5d is fixed on one side of the rotating plate 5c, and the output end of the telescopic cylinder four 5d is fixedly connected with a lifting rod 5e which can take down the oxygen uptake pipe;

when the oxygen inhalation tube is used, when the arc-shaped rod 3 drives the oxygen inhalation tubes to move to the initial position, the second driving motor 51 is started, the second driving motor 51 drives the second lead screw 50 to rotate, the second lead screw 50 drives the second moving block 52 to move, the second moving block 52 drives the third telescopic cylinder 53 and the moving plate 55 to move to one end of the second lead screw 50, then the second telescopic cylinder 47 is started, and the second telescopic cylinder 47 drives the arc-shaped rod 3 and the oxygen inhalation tubes to move to the position aligned with the moving plate 55;

when the second driving motor 51 is turned on, the second driving motor 51 drives the moving plate 55 to move to the top of the oxygen inhalation tube, then the third telescopic cylinder 53 drives the moving plate 55 to move downwards, meanwhile, the second driving motor 51 is turned on in the opposite direction, and the second driving motor 51 drives the ram 5e to move, so that the ram 5e can support the nose on the oxygen inhalation tube and can take the oxygen inhalation tube off from the arc-shaped rod 3, and the arc-shaped rod 3 returns to the initial position under the action of the second telescopic cylinder 47;

then, the third motor 54 is driven to drive the moving plate 55 to rotate to a position parallel to the inclined plate 6, meanwhile, the third motor 54 is driven to drive the moving gear 57 and the connecting gear 58 to rotate, the connecting gear 58 drives the rotating rod 5b to rotate, the rotating rod 5b drives the rotating plate 5c to rotate, and the rotating plate 5c drives the telescopic cylinder four 5d and the ram 5e to rotate, so that the oxygen uptake pipe can be driven to rotate to a direction parallel to the inclined plate 6;

then the second driving motor 51 and the second screw rod 50 drive the moving rod and the siya female pipe to move towards the direction close to the inclined plate 6.

The moving device 60 comprises a connecting frame 61 which is rotatably connected with the top of the inclined plate 6 through a bearing, the connecting frame 61 is fixedly connected with the top of the support table 1, a first rotating motor 62 is fixed on the outer side of the inclined plate 6, and the first rotating motor 62 is fixedly connected with the outer side of the connecting frame 61 through a motor frame;

when in use, the inclination angle of the inclined plate 6 can be adjusted through the rotating motor according to the use requirement.

The winding device 7 comprises a plurality of groups of clamping plate groups 70 arranged at the bottom of the inclined plate 6, the clamping plate groups 70 can clamp two ends of the oxygen suction pipe, the bottom of the clamping plate group 70 is connected with a force application device 71, the force application device 71 can drive the clamping plate groups 70 to rotate and move to realize contraction of the oxygen suction pipe, one end of each of the force application devices 71 is connected with a force application device 72, and the force application devices 72 drive the force application devices 71 to move simultaneously.

The clamping plate group 70 comprises a bottom fixing block 73 and a top fixing block 74 which are respectively arranged at two ends of the inclined plate 6, and a bottom clamping groove 75 and a top clamping groove 76 which can limit the bottom and the bottom of the oxygen suction pipe are respectively arranged on the bottom fixing block 73 and the bottom fixing block 73;

the bottom fixing block 73 is rotatably connected with the bottom of the inclined plate 6 through a bearing, the top fixing block 74 is slidably connected with the top of the inclined plate 6, and both the bottom fixing block 73 and the top fixing block 74 are connected with the force application device 71.

The force application device 71 comprises a through groove 710 arranged inside the inclined plate 6, and the top and the bottom of the through groove 710 are both provided with a connecting groove 711 communicated with the outside;

the bottom of the top fixing block 74 is fixedly connected with an intermediate rod 712, the intermediate rod 712 is connected with the inside of a connecting groove 711 in a sliding manner, the outer side of the intermediate rod 712 is fixedly connected with a rotating gear 713, the bottom of the rotating gear 713 is rotatably connected with a limiting slider 714, a limiting slider 714 is connected with the bottom connecting groove 711 in a sliding manner, the bottom of the limiting slider 714 penetrates through the bottom connecting groove 711 and is sleeved with a threaded rod 715 in a threaded manner, and the threaded rod 715 is rotatably connected with the bottom of the inclined plate 6 through a bearing;

a toothed plate 718 engaged with the outer side of the rotating gear 713 is fixed inside the through groove 710 and positioned at the outer side of the connecting groove 711;

the bottom of the bottom fixing block 73 is fixedly connected with a first bevel gear 716, the outer side of the first bevel gear 716 is meshed with a second bevel gear 717, and the outer side of the second bevel gear 717 is fixedly sleeved with one end of a threaded rod 715;

one end of the plurality of threaded rods 715 is connected to the force applying device 72.

The force application device 72 comprises force application gears 720 fixedly connected with the outer sides of one ends of the threaded rods 715, an intermediate gear 721 is meshed between every two force application gears 720, the bottoms of the inclined plates 6 of the intermediate gears 721 are rotatably connected through bearings, one end of any one threaded rod 715 is fixedly connected with a second rotating motor 722, and the output end of the second rotating motor 722 is fixedly connected with the outer sides of the inclined plates 6 through a motor frame;

when the moving plate 55 moves to a proper position towards the inclined plate 6, the telescopic cylinder four 5d is opened, the telescopic cylinder four 5d can drive the ram 5e and the oxygen inhalation tube to move in a direction close to the bottom fixed block 73 and the top fixed block 74, the bell mouth at the bottom of the oxygen inhalation tube is placed in the bottom clamping groove 75, and the nose support at the top of the oxygen inhalation tube is placed in the top clamping groove 76, so that a plurality of oxygen inhalation tubes can be sequentially placed in different bottom clamping grooves 75 and top clamping grooves respectively, and can also be placed in the bottom clamping groove 75 and the top clamping groove 76 at the same time;

then, the second rotating motor 722 is turned on, the second rotating motor 722 drives the threaded rod 715 to rotate, the threaded rod 715 rotates to drive the force application gear 720 and the middle gear 721 to rotate the rod 5b, so that the plurality of threaded rods 715 can rotate simultaneously, the threaded rod 715 rotates to drive the first helical gear 716 and the second helical gear 717 to rotate, the first helical gear 716 rotates to drive the bottom fixing block 73 to rotate, meanwhile, the threaded rod 715 rotates to drive the limiting slider 714 to slide along the connecting groove 711, the limiting slider 714 drives the rotating gear 713 to move, and the rotating gear 713 drives the top fixing block 74 to move towards the bottom fixing block 73, and the toothed plate 718 is meshed with the outer side of the rotating gear 713 to drive the top fixing block 74 to rotate while moving, so that the two ends of the oxygen inhalation tube are driven to be rolled, the nose support and the bell mouth are collected on the inner side of the tube body, when rolling is completed, the rolled oxygen tube is taken down and placed inside the packaging bag by using the existing manipulator to be packaged, and the processing of the oxygen tube can be completed.

The second embodiment:

the top fixing block 74 can be driven to move by the second rotating motor 722 and the threaded rod 715, and the distance between the top fixing block 74 and the bottom fixing block 73 is adjusted, so that the oxygen tubes with different lengths can be wound.

In this scheme, the circuit operates as the conventional circuit, and the circuits and control related to the present invention are the prior art, and are not described in detail herein.

It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, 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 invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a processing equipment of oxygen tube for internal medicine nursing, includes brace table (1) and mount table (2) of setting on brace table (1), its characterized in that: the bottom of the mounting table (2) is provided with a plurality of arc-shaped rods (3), a plurality of grooves (30) are formed in the arc-shaped rods (3), and the arc-shaped rods (3) can position and support the oxygen suction pipe through the grooves (30);

a support frame (10) is arranged on the support table (1), the support frame (10) is located on one side of the installation table (2), a first support groove (11) is formed in the bottom of the support frame (10), a first driving device (4) is arranged inside the first support groove (11), and the first driving device (4) can drive the arc-shaped rods (3) to move in a staggered mode;

a second support groove (12) is formed in one side, located on the first support groove (11), of the support frame (10), a second driving device (5) is arranged inside the second support groove (12), and the second driving device (5) can move the plurality of oxygen uptake pipes on the arc-shaped rod (3);

one side that lies in support frame (10) on is provided with hang plate (6), hang plate (6) top is provided with mobile device (60) that can drive hang plate (6) and remove, be provided with rolling equipment (7) on hang plate (6), rolling equipment (7) can drive the oxygen tube and follow the rolling at both ends.

2. The processing equipment of oxygen tube for medical nursing according to claim 1, wherein: the driving device I (4) comprises two screw rods I (40) rotatably connected with the inner part of the supporting groove I (11), one ends of the two screw rods I (40) penetrate through the supporting groove I (11) and are connected with driving gears (41), the two driving gears (41) are meshed and connected, one end of any one screw rod I (40) penetrates through the driving gears (41) and is connected with a driving motor I (42), and the driving motor I (42) is arranged on the outer side of the supporting frame (10) through a motor frame;

a first moving block (43) is sleeved on the outer side of the first lead screw (40), the first moving block (43) is connected with the inner portion of the first support groove (11) in a sliding mode, a connecting piece (44) is arranged at the bottom of the first moving block (43), and the connecting piece (44) is connected with the arc-shaped rod (3).

3. The processing equipment of the oxygen uptake pipe for medical nursing according to claim 2, characterized in that: the connecting piece (44) comprises a first telescopic cylinder (45) arranged at the bottom of a first moving block (43), the output end of the first telescopic cylinder (45) is connected with a connecting plate (46), the outer side of the connecting plate (46) is connected with a second telescopic cylinder (47), and the output end of the second telescopic cylinder (47) is connected with one end of the arc-shaped rod (3).

4. The processing equipment of oxygen tube for medical nursing according to claim 1, wherein: the second driving device (5) comprises a second lead screw (50) rotatably connected with the inside of the second support groove (12), one end of the second lead screw (50) penetrates through the second support groove (12) to be connected with a second driving motor (51), a second moving block (52) is sleeved on the second lead screw (50), the outer side of the second moving block (52) is slidably connected with the inside of the second support groove (12), the bottom of the second moving block (52) is connected with a third telescopic cylinder (53), the output end of the third telescopic cylinder (53) is connected with a third driving motor (54) through a motor shell, and the output end of the third driving motor (54) is connected with a moving plate (55);

and a driving assembly (56) is arranged at the output end of the driving motor III (54) and positioned at the top of the moving plate (55), and the driving assembly (56) can move the oxygen uptake pipe.

5. The processing equipment of oxygen tube for medical nursing according to claim 4, wherein: the driving assembly (56) comprises a moving gear (57) which is arranged at the output end of a driving motor III (54) and is positioned at the top of the moving plate (55), a plurality of connecting gears (58) are arranged at the top of the moving plate (55), gear chains (59) are connected between the moving gear (57) and the connecting gears (58) in a meshing manner, and a limiting rod (5 a) capable of limiting the gear chains (59) is arranged on the connecting plate (46);

connecting gear (58) center department is connected with dwang (5 b), dwang (5 b) are rotated with movable plate (55) and are connected, dwang (5 b) bottom is passed movable plate (55) and is connected with rotor plate (5 c), rotor plate (5 c) one side is provided with telescopic cylinder four (5 d), connecting ram (5 e) that can take off the oxygen tube is exported to telescopic cylinder four (5 d).

6. The processing equipment of oxygen tube for medical nursing according to claim 1, wherein: the moving device (60) comprises a connecting frame (61) arranged at the top of the inclined plate (6), the connecting frame (61) is connected with the top of the supporting table (1), a first rotating motor (62) is arranged on the outer side of the inclined plate (6), and the first rotating motor (62) is connected with the outer side of the connecting frame (61) through a motor frame.

7. The processing equipment of oxygen tube for medical nursing according to claim 1, wherein: rolling equipment (7) are including setting up at hang plate (6) bottom multiunit splint group (70), and splint group (70) can carry out the centre gripping to the both ends of oxygen hose, splint group (70) bottom is connected with application of force equipment (71), application of force equipment (71) can drive splint group (70) and rotate the shrink that removes the realization to the oxygen hose, and are a plurality of application of force equipment (71) one end is connected with force application device (72), force application device (72) drive a plurality of application of force equipment (71) and remove simultaneously.

8. The processing equipment of oxygen tube for medical nursing according to claim 7, wherein: the clamping plate group (70) comprises a bottom fixing block (73) and a top fixing block (74) which are respectively arranged at two ends of the inclined plate (6), and a bottom clamping groove (75) and a top clamping groove (76) which can limit the bottom and the bottom of the oxygen inhalation tube are respectively arranged on the bottom fixing block (73) and the bottom fixing block (73);

a toothed plate (718) which is meshed and connected with the outer side of the rotating gear (713) is arranged inside the through groove (710) and positioned on the outer side of the connecting groove (711);

the bottom fixing block (73) is rotatably connected with the bottom of the inclined plate (6), the top fixing block (74) is slidably connected with the top of the inclined plate (6), and the bottom fixing block (73) and the top fixing block (74) are both connected with the force application device (71).

9. The processing equipment of oxygen tube for medical nursing according to claim 8, wherein: the force application equipment (71) comprises a through groove (710) arranged in the inclined plate (6), and connecting grooves (711) communicated with the outside are formed in the top and the bottom of the through groove (710);

the bottom of the top fixing block (74) is connected with an intermediate rod (712), the intermediate rod (712) is in sliding connection with the inside of a connecting groove (711), the outer side of the intermediate rod (712) is connected with a rotating gear (713), the bottom of the rotating gear (713) is in rotating connection with a limiting sliding block (714), the limiting sliding block (714) is in sliding connection with the bottom connecting groove (711), the bottom of the limiting sliding block (714) penetrates through the bottom connecting groove (711) to be connected with a threaded rod (715), and the threaded rod (715) is in rotating connection with the bottom of the inclined plate (6);

the bottom of the bottom fixing block (73) is connected with a first bevel gear (716), the outer side of the first bevel gear (716) is in meshed connection with a second bevel gear (717), and the outer side of the second bevel gear (717) is sleeved with one end of a threaded rod (715);

one end of each threaded rod (715) is connected with the force application device (72).

10. The processing equipment of the oxygen uptake pipe for medical nursing according to claim 9, characterized in that: the force application device (72) comprises a force application gear (720) connected with the outer side of one end of the threaded rod (715), an intermediate gear (721) is meshed between every two force application gears (720), the bottom of an inclined plate (6) of the intermediate gear (721) is connected, one end of the threaded rod (715) is connected with a second rotating motor (722), and the output end of the second rotating motor (722) is connected with the outer side of the inclined plate (6) through a motor frame.

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