CN112975328B - Three-way short pipe assembly steering device and use method thereof - Google Patents

Abstract

The invention relates to the technical field of short-junction pipe assembly treatment equipment, in particular to a short-junction pipe assembly steering device and a using method thereof. The three-way pipe assembly steering device comprises a base, a mounting seat arranged on the upper end face of the base, a rotating shaft arranged on the mounting seat in a rotating mode, a rotary driving mechanism arranged on the mounting seat and used for driving the rotating shaft to rotate, and a three-way pipe assembly bearing mechanism arranged at the top of the rotating shaft and rotating along with the rotating shaft, wherein the three-way pipe assembly bearing mechanism comprises a bottom plate, three-way pipe supporting plates symmetrically arranged at two ends of the bottom plate and short pipe supporting plates symmetrically arranged inside the base, a plurality of three-way pipe supporting openings are arranged in the three-way pipe supporting plates at intervals, a plurality of short pipe supporting openings are arranged in the short pipe supporting plates at intervals, and the positions of the three-way pipe supporting openings correspond to the positions of the short pipe supporting openings, and the bottoms of the three-way pipe supporting openings are higher than the bottoms of the short pipe supporting openings. The invention has the advantages of compact and simple structure, convenient operation and strong continuity of flow, and improves the treatment efficiency of the short-junction pipe assembly.

Description

Tee junction pipe assembly steering device and use method thereof

Technical Field

The invention relates to the technical field of short-junction pipe assembly treatment equipment, in particular to a short-junction pipe assembly steering device and a using method thereof.

Background

Infusion sets are currently very commonly used medical devices, which are mainly used for intravenous infusion of patients. The transfusion system is a disposable medical product, and the demand is huge, so that higher productivity and production efficiency are required. The pipeline of the infusion apparatus comprises a three-way pipe, a short pipe and a long pipe, the short pipe and the three-way pipe of the infusion apparatus are required to be assembled in the preparation process of the infusion apparatus, a three-way pipe assembly is formed, and the three-way pipe in the three-way pipe assembly is also required to be assembled with the long pipe of the infusion apparatus. After the existing three-way pipe is assembled with the short pipe of the infusion apparatus, the state before the assembly of the three-way pipe and the long pipe of the infusion apparatus needs to be adjusted, and the structure adopted in the process is complex, the operation is inconvenient, and the assembly efficiency of the long pipe of the infusion apparatus is affected.

Disclosure of Invention

The invention aims to provide a steering device of a short-junction pipe assembly and a using method thereof, which overcome the defects of the prior art, and have the advantages of compact and simple structure, convenient operation, strong continuity of flow and improvement of the treatment efficiency of the short-junction pipe assembly.

The technical scheme adopted for solving the technical problems is as follows:

The utility model provides a tee bend nozzle assembly turns to device, includes the base, sets up in the mount pad of base up end, rotates the pivot of setting on the mount pad, sets up on the mount pad and is used for driving the rotatory rotary drive mechanism of pivot and sets up in the rotatory tee bend nozzle assembly of pivot top along with the pivot and bear the weight of the mechanism, tee bend nozzle assembly bears the weight of the mechanism and includes the bottom plate, sets up the tee bend pipe support board at the bottom plate both ends and sets up the tee bend pipe support board in the bottom plate up end inboard symmetrically, is provided with a plurality of tee bend pipe support mouths in the tee bend pipe support board interval, and the position of tee bend pipe support mouths corresponds with the position of tee bend pipe support mouths, and the bottom of tee bend pipe support mouths is higher than the bottom of tee bend pipe support mouths; the setting mode of the bearing mechanism of the three-way pipe assembly is that two groups of three-way pipe supporting plates and short pipe supporting plates for supporting the three-way pipe assembly are symmetrically arranged, the three-way pipe assembly is firstly moved to the three-way pipe supporting plate and the short pipe supporting plate which are closest to the assembling equipment after being assembled, then the bearing mechanism of the three-way pipe assembly is rotated 180 degrees through the rotary driving mechanism, the assembled three-way pipe assembly is moved to one side which is close to the assembling equipment of the long pipe of the infusion apparatus, at the moment, one end of the three-way pipe in the three-way pipe assembly, which is required to be assembled with the long pipe of the infusion apparatus, faces horizontally to the long pipe of the infusion apparatus, the three-way pipe assembly is moved to the assembling procedure of the long pipe of the infusion apparatus, meanwhile, a new assembled three-way pipe assembly is put into the three-way pipe supporting plate and the short pipe supporting plate at the other side, the rotary driving mechanism drives the bearing mechanism of the three-way pipe assembly to rotate 180 degrees again, so that the second assembled three-way pipe assembly is moved to one side which is close to the assembling equipment of the long pipe of the infusion apparatus, with this circulation operation, the continuity of operation flow is strong, improves the treatment effeciency of tee bend nozzle assembly.

Further, the up end of mount pad is provided with the pivot supporting seat, and the pivot supporting seat includes two curb plates that the interval set up and sets up in the roof at two curb plate tops, corresponds on mount pad and the roof and installs the bearing, and the pivot passes through the bearing installation, and the upper end of pivot is connected with the bottom plate of three-way pipe subassembly bearing mechanism.

Further, rotary driving mechanism includes gear, cylinder bedplate, cylinder, connecting plate, rack, slide rail, slider and slider mounting panel, on the outer wall of pivot was located to the gear cover, the cylinder bedplate is installed on the mount pad, the cylinder is installed on the cylinder bedplate, the piston rod end and the one end fixed connection of connecting plate of cylinder, the other end and the rack connection of connecting plate, the setting direction of rack is parallel with the setting direction of cylinder, the tooth of rack meshes with the tooth of gear, be fixed with the slide rail on the rack, be provided with the slider mounting panel on the mount pad, be fixed with the slider on the slider mounting panel, slider and sliding connection, the cylinder stretches out and draws back and drive the rack and follow the slider with the slide rail that rack is connected and remove, the removal of rack drives the gear rotation, and then drives tee bend pipe assembly and bears the mechanism and rotate.

Further, the upper end of mount pad is provided with stop gear, stop gear includes the gag lever post mounting panel that the interval set up, sets up gag lever post on the gag lever post mounting panel and sets up the contact plate of terminal surface under the bottom plate of tee bend pipe assembly bearing mechanism, contact plate and one of them gag lever post contact, rotatory drive mechanism drive tee bend pipe assembly bearing mechanism rotatory 180 back contact plate and another gag lever post contact, stop gear's being provided with is favorable to improving tee bend pipe assembly bearing mechanism rotation angle's degree of accuracy.

Further, the short tube support plate comprises a horizontal installation plate and at least two longitudinal support plates which are arranged on the upper end face of the horizontal installation plate at intervals, the longitudinal support plates are parallel to the three-way pipe support plates, short tube support openings are correspondingly formed in the longitudinal support plates, and the support effect on the short tube of the infusion apparatus is improved.

The application method of the steering device of the tee joint pipe assembly comprises the following steps:

(1) Arranging a tee joint pipe assembly formed by assembling a tee joint pipe and a short pipe of an infusion apparatus on a tee joint pipe supporting plate and a short pipe supporting plate on one side of the tee joint pipe assembly bearing mechanism, wherein one end of the tee joint pipe, which is required to be connected with a long pipe of the infusion apparatus, is horizontally arranged on a tee joint pipe supporting opening, and the short pipe of the infusion apparatus is supported on the short pipe supporting plate;

(2) Starting a rotary driving mechanism, wherein a cylinder drives a rack to translate, and the rack drives a gear to rotate, so that the rotary shaft and the bearing mechanism of the short-junction pipe assembly rotate 180 degrees;

(3) And moving the nth batch of short-junction pipe assemblies into a production line assembled with the long tube of the infusion apparatus, simultaneously placing the (N+1) th batch of short-junction pipe assemblies on a three-way pipe supporting plate and a short-tube supporting plate on the other side of the short-junction pipe assembly bearing mechanism, driving the short-junction pipe assembly bearing mechanism to rotate 180 degrees, moving the (N+1) th batch of short-junction pipe assemblies into the production line assembled with the long tube of the infusion apparatus, and simultaneously placing the (N+2) th batch of short-junction pipe assemblies on a three-way pipe supporting plate and a short-tube supporting plate on one side of the short-junction pipe assembly bearing mechanism, thereby circulating.

Compared with the prior art, the three-way pipe assembly steering device and the application method thereof have the advantages that the structure design is compact, the operation is convenient, the three-way pipe assembly is assembled and then moves to the three-way pipe support plate and the short pipe support plate closest to the assembly equipment, then the bearing mechanism of the three-way pipe assembly is rotated 180 degrees through the rotary driving mechanism, the assembled three-way pipe assembly is moved to one side close to the assembly equipment of the long pipe of the infusion apparatus, at the moment, one end of the three-way pipe in the three-way pipe assembly, which is required to be assembled with the long pipe of the infusion apparatus, faces horizontally to the long pipe of the infusion apparatus, the three-way pipe assembly is moved to the assembly process of the long pipe of the infusion apparatus, meanwhile, a new assembled three-way pipe assembly is put into the three-way pipe support plate and the short pipe support plate on the other side, and the rotary driving mechanism drives the bearing mechanism of the three-way pipe assembly to rotate 180 degrees again, so that the second assembled three-way pipe assembly is moved to one side close to the assembly equipment of the long pipe of the infusion apparatus, the operation flow is circulated, the continuity of the operation is high, and the treatment efficiency of the three-way pipe assembly is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention at a first angle;

FIG. 2 is a schematic view of the overall structure at a second angle of the present invention;

FIG. 3 is a schematic view of the overall structure of the third angle of the present invention;

FIG. 4 is a schematic view of the construction of the invention with the junction tube assembly carrying mechanism removed;

FIG. 5 is an enlarged schematic view of the junction tube assembly of the present invention

The device comprises a base 1, a mounting seat 2, a rotating shaft 3, a rotating driving mechanism 4, a gear 401, a cylinder seat plate 402, a cylinder 403, a connecting plate 404, a rack 405, a slide rail 406, a slide block 407, a slide block 408, a bearing mechanism for a short-junction pipe assembly 5, a bottom plate 501, a three-way pipe supporting plate 502, a short-pipe supporting plate 503, a three-way pipe supporting opening 504, a short-pipe supporting opening 505, a short-junction pipe assembly 6, a three-way pipe 601, a short pipe of an infusion apparatus 602, a rotating shaft 7 supporting seat 701, a side plate 702, a top plate 8, a limiting rod 801, a limiting rod 802 and a limiting rod 803 and a contact plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

1-5, A three-way pipe assembly steering device comprises a base 1, a mounting seat 2 arranged on the upper end surface of the base 1, a rotating shaft 3 rotatably arranged on the mounting seat 2, a rotary driving mechanism 4 arranged on the mounting seat 2 and used for driving the rotating shaft 3 to rotate, and a three-way pipe assembly bearing mechanism 5 arranged on the top of the rotating shaft 3 and rotating along with the rotating shaft 3, wherein the three-way pipe assembly bearing mechanism 5 comprises a bottom plate 501, three-way pipe supporting plates 502 symmetrically arranged at two ends of the bottom plate 501 and three-way pipe supporting plates 503 symmetrically arranged on the inner side of the upper end surface of the bottom plate 501, a plurality of three-way pipe supporting openings 504 are arranged on the three-way pipe supporting plates 502 at intervals, a plurality of short pipe supporting openings 505 are arranged on the three-way pipe supporting plates 503 at intervals, the positions of the three-way pipe supporting openings 504 correspond to the positions of the short pipe supporting openings 505, and the bottoms of the three-way pipe supporting openings 504 are higher than the bottoms of the short pipe supporting openings 505; the setting mode of the bearing mechanism 5 of the three-way pipe assembly is that two groups of pipe supporting plates 502 and pipe supporting plates 503 for supporting the three-way pipe assembly 6 are symmetrically arranged, after the three-way pipe assembly 6 is assembled, the bearing mechanism 5 of the three-way pipe assembly is firstly moved to the three-way pipe supporting plates 502 and the pipe supporting plates 503 closest to the pipe assembling equipment, then the bearing mechanism 5 of the three-way pipe assembly is rotated 180 degrees through the rotation driving mechanism 4, the assembled three-way pipe assembly 6 is moved to one side close to the pipe assembling equipment of the infusion apparatus, at the moment, one end of the three-way pipe 601 in the three-way pipe assembly 6, which is required to be assembled with the pipe of the infusion apparatus, faces horizontally to the pipe of the infusion apparatus, the three-way pipe assembly 6 is moved to the pipe assembling procedure of the infusion apparatus, meanwhile, the three-way pipe supporting plates 502 and the pipe supporting plates 503 on the other side are put into the new assembled three-way pipe assembly 6, the rotary driving mechanism 4 drives the bearing mechanism 6 of the short-junction pipe assembly to rotate 180 degrees again, so that the second batch of assembled short-junction pipe assemblies 6 move to one side close to the long pipe assembling equipment of the infusion apparatus, the cyclic operation is performed, the continuity of the operation flow is strong, and the treatment efficiency of the short-junction pipe assemblies 6 is improved.

In this embodiment, the up end of mount pad 2 is provided with pivot supporting seat 7, and pivot supporting seat 7 is including two curb plates 701 that the interval set up and set up in the roof 702 at two curb plate 701 tops, corresponds on mount pad 2 and the roof 702 and installs the bearing, and pivot 3 passes through the bearing installation, and the upper end of pivot 3 is connected with the bottom plate 501 of three-way pipe subassembly bearing mechanism 5.

In this embodiment, the rotation driving mechanism 4 includes a gear 401, a cylinder seat board 402, a cylinder 403, a connection board 404, a rack 405, a slide rail 406, a slide block 407 and a slide block mounting board 408, the gear 401 is sleeved on the outer wall of the rotating shaft 3, the cylinder seat board 402 is mounted on the mounting seat 2, the cylinder 403 is mounted on the cylinder seat board 402, the tail end of a piston rod of the cylinder 403 is fixedly connected with one end of the connection board 404, the other end of the connection board 404 is connected with the rack 405, the setting direction of the rack 405 is parallel to the setting direction of the cylinder 403, teeth of the rack 405 are meshed with teeth of the gear 401, a slide rail 406 is fixed on the rack 405, a slide block mounting board 408 is arranged on the mounting seat 2, a slide block 407 is fixed on the slide block mounting board 408, the slide block 407 is in sliding connection with the slide rail 406, the cylinder 403 stretches and stretches to drive the slide rail 406 connected with the rack 405 to move along the slide block 407, and the movement of the rack 405 drives the gear 401 to rotate, and further drives the three-way pipe component bearing mechanism 5 to rotate.

In this embodiment, the upper end of mount pad 2 is provided with stop gear 8, stop gear 8 includes spacing gag lever post mounting panel 801 that the interval set up, sets up gag lever post 802 on gag lever post mounting panel 801 and sets up the contact plate 803 in the bottom plate 501 lower terminal surface of tee bend pipe assembly bearing mechanism 5, contact plate 803 and one of them gag lever post 802 contact, contact plate 803 and another gag lever post 802 contact behind rotatory 180 of rotatory actuating mechanism 4 drive tee bend pipe assembly bearing mechanism 5, and stop gear 8's setting is favorable to improving tee bend pipe assembly bearing mechanism 5 rotation angle's degree of accuracy.

In this embodiment, the short tube support plate 503 includes a horizontal mounting plate and at least two longitudinal support plates disposed at intervals on an upper end surface of the horizontal mounting plate, the longitudinal support plates are parallel to the three-way tube support plate 502, and short tube support openings 505 are correspondingly formed in the longitudinal support plates, so as to improve the support effect on the short tube 602 of the infusion apparatus.

The application method of the three-way pipe assembly steering device in the embodiment comprises the following steps:

(1) An nth batch of short-junction pipe assemblies 6 are placed in the short-junction pipe assembly bearing mechanism 5, wherein the short-junction pipe assemblies 6 formed by assembling a three-way pipe 601 and an infusion set short pipe 602 are arranged on a three-way pipe supporting plate 502 and a short-pipe supporting plate 503 on one side of the short-junction pipe assembly bearing mechanism 5, one end, which is required to be connected with the infusion set long pipe, of the three-way pipe 601 is horizontally placed on a three-way pipe supporting opening 504, and the infusion set short pipe 602 is supported on the short-pipe supporting plate 505;

(2) Starting the rotary driving mechanism 4, driving the rack 405 to translate by the cylinder 403, and driving the gear 401 to rotate by the rack 405 so as to enable the rotating shaft 3 and the short-junction pipe assembly bearing mechanism 5 to rotate 180 degrees;

(3) The nth batch of short-junction pipe assemblies 6 are moved into a production line assembled with the long tube of the infusion apparatus, meanwhile, the (n+1) th batch of short-junction pipe assemblies 6 are placed on a three-way pipe supporting plate 502 and a short-pipe supporting plate 503 on the other side of a short-junction pipe assembly bearing mechanism 5, the short-junction pipe assembly bearing mechanism 5 is driven to rotate 180 degrees, the (n+1) th batch of short-junction pipe assemblies 6 are moved into the production line assembled with the long tube of the infusion apparatus, and meanwhile, the (n+2) th batch of short-junction pipe assemblies 6 are placed on the three-way pipe supporting plate 502 and the short-pipe supporting plate 503 on the one side of the short-junction pipe assembly bearing mechanism 5, so that circulation is achieved.

The foregoing embodiments are merely examples of the present invention, and the scope of the present invention includes, but is not limited to, the forms and styles of the foregoing embodiments, and any suitable changes or modifications made by those skilled in the art, which are consistent with the claims of the present invention, shall fall within the scope of the present invention.

Claims (5)

1. A method for using a steering device for a three-way short tube assembly, characterized in that: the steering device for the three-way short tube assembly comprises a base, a mounting seat arranged on an upper end surface of the base, a rotating shaft rotatably arranged on the mounting seat, a rotating driving mechanism arranged on the mounting seat and used to drive the rotating shaft to rotate, and a three-way short tube assembly bearing mechanism arranged on the top of the rotating shaft and rotating with the rotating shaft, wherein the three-way short tube assembly bearing mechanism comprises a bottom plate, a three-way tube support plate symmetrically arranged at both ends of the bottom plate, and a short tube support plate symmetrically arranged inside the bottom plate, a plurality of three-way tube support openings are arranged on the three-way tube support plate at intervals, a plurality of short tube support openings are arranged on the short tube support plate at intervals, the position of the three-way tube support opening corresponds to the position of the short tube support opening, and the bottom of the three-way tube support opening is higher than the bottom of the short tube support opening; The method of use includes the following steps: (1) placing the Nth batch of three-way short tube assemblies in the three-way short tube assembly carrying mechanism: arranging the three-way short tube assembly formed by assembling the three-way tube and the short tube of the infusion set on the three-way tube support plate and the short tube support plate on one side of the three-way short tube assembly carrying mechanism, placing the end of the three-way tube to be connected to the long tube of the infusion set horizontally on the three-way tube support port, and the short tube of the infusion set is supported on the short tube support plate; (2) Driving the three-way short pipe assembly bearing mechanism to rotate 180°: starting the rotation drive mechanism, the cylinder drives the rack to translate, and the rack drives the gear to rotate, thereby causing the rotating shaft and the three-way short pipe assembly bearing mechanism to rotate 180°; (3) The Nth batch of three-way short tube assemblies is moved to the production line for assembly with the long tube of the infusion set, and the N+1th batch of three-way short tube assemblies is placed on the three-way tube support plate and the short tube support plate on the other side of the three-way short tube assembly carrying mechanism, and the three-way short tube assembly carrying mechanism is driven to rotate 180°, and the N+1th batch of three-way short tube assemblies is moved to the production line for assembly with the long tube of the infusion set, and the N+2th batch of three-way short tube assemblies is placed on the three-way tube support plate and the short tube support plate on one side of the three-way short tube assembly carrying mechanism, and the cycle is repeated. 2. The method for using a steering device of a three-way short tube assembly according to claim 1 is characterized in that: a rotating shaft support seat is provided on the upper end surface of the mounting seat, and the rotating shaft support seat includes two side plates arranged at intervals and a top plate arranged on the top of the two side plates, bearings are installed on the mounting seat and the top plate, the rotating shaft is installed in the bearing, and the upper end of the rotating shaft is connected to the bottom plate of the three-way tube assembly supporting mechanism. 3. The method for using a steering device of a three-way short tube assembly according to claim 1 is characterized in that: the rotation driving mechanism includes a gear, a cylinder seat plate, a cylinder, a connecting plate, a rack, a slide rail, a slider and a slider mounting plate, the gear sleeve is arranged on the outer wall of the rotating shaft, the cylinder seat plate is installed on the mounting seat, the cylinder is installed on the cylinder seat plate, the end of the piston rod of the cylinder is fixedly connected to one end of the connecting plate, the other end of the connecting plate is connected to the rack, the setting direction of the rack is parallel to the setting direction of the cylinder, the teeth of the rack are meshed with the teeth of the gear, a slide rail is fixed on the rack, a slider mounting plate is provided on the mounting seat, a slider is fixed on the slider mounting plate, and the slider is connected to the slide rail. 4. The method for using a steering device of a three-way short tube assembly according to claim 1 is characterized in that: a limiting mechanism is arranged at the upper end of the mounting seat, and the limiting mechanism includes a limiting rod mounting plate arranged at intervals, a limiting rod arranged on the limiting rod mounting plate, and a contact plate arranged on the lower end surface of the bottom plate of the three-way short tube assembly supporting mechanism, the contact plate contacts one of the limiting rods, and the contact plate contacts the other limiting rod after the rotating driving mechanism drives the three-way short tube assembly supporting mechanism to rotate 180°. 5. The method for using a three-way short tube assembly steering device according to claim 1 is characterized in that: the short tube support plate includes a horizontal mounting plate and at least two longitudinal support plates spaced apart on the upper end surface of the horizontal mounting plate, the longitudinal support plate is parallel to the three-way tube support plate, and short tube support openings are correspondingly opened on the longitudinal support plates.