CN114453897B - Medical vehicle part production system and preparation method thereof - Google Patents

Abstract

The invention relates to the technical field of conveying, in particular to a medical vehicle part production system and a preparation method thereof.A conveying part comprises a conveying frame and a conveying belt which is rotatably arranged on the conveying frame; the weld part, the weld part is including the crimping board that slides the setting in the conveyer belt top, rotate the waist shaped plate that sets up on the crimping board, elasticity sets up the stripper plate on the crimping board, the soldered connection that sets up in the conveyer belt top sets up the shear plate of the L shape on the soldered connection with rotating, the cold gas mouth has been seted up at the both ends of waist shaped plate, the both sides of waist shaped plate still are equipped with the welding groove, be equipped with gasbag one on the both sides wall in welding groove, the bottom in welding groove is equipped with the mouth one of blowing with gasbag one intercommunication, the one end that the stripper plate is close to the waist shaped plate is equipped with gasbag two, be equipped with the mouth two of blowing with gasbag two intercommunications on the lateral wall in welding groove. The invention realizes the cold air ventilation after the welding is finished and realizes the accurate cooling by arranging the matching of the cold air port and the welding port, and has high efficiency, low cost and good cooling effect.

Description

Medical vehicle part production system and preparation method thereof

Technical Field

The invention relates to the technical field of conveying, in particular to a medical vehicle part production system and a preparation method thereof.

Background

The medical equipment refers to instruments, equipment, appliances, materials or other articles which are used for a human body independently or in combination, and also comprises required software, the medical equipment is the most basic element of medical treatment, scientific research, teaching, institutions and clinical discipline work, namely comprises professional medical equipment and household medical equipment, a medical vehicle plays an important role in the medical equipment, and the medical vehicle is required to carry instruments and medicines required by medical treatment no matter a nursing staff carries out a medicine changing process on a patient or the medical treatment of the medical staff on the patient. The existing medical vehicle needs to use a frame body with fins, part of the fins need to be welded on a frame of the medical vehicle, and part of the fins on the frame body need to be cut off in order to improve the appearance.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome one of the technical problems in the prior art, the invention provides a medical vehicle part production system and a preparation method thereof, which comprises the following steps,

the conveying part comprises a conveying frame and a conveying belt rotatably arranged on the conveying frame;

the welding part comprises a crimping plate arranged above the conveying belt in a sliding mode, a waist-shaped plate rotationally arranged on the crimping plate, an extrusion plate elastically arranged on the crimping plate, a welding head arranged above the conveying belt and an L-shaped shear plate rotationally arranged on the welding head, cold air ports are formed in two ends of the waist-shaped plate, welding grooves are further formed in two sides of the waist-shaped plate, air bags I are arranged on two side walls of the welding grooves, air blowing ports I communicated with the air bags I are formed in the bottoms of the welding grooves, air bags II are arranged at one ends, close to the waist-shaped plate, of the extrusion plate, and air blowing ports II communicated with the air bags II are formed in the side walls of the welding grooves; wherein the content of the first and second substances,

the conveyer belt conveys the objects to be welded to the lower part of the welding part, and the compression joint plate moves downwards to compress the objects to be welded;

when the waist-shaped plate rotates until the waist-shaped plate pushes the shearing plate to extrude the air bag, the first air blowing port is suitable for cleaning redundant fins on the object to be welded, meanwhile, the extruding plate moves towards the waist-shaped plate to clamp and fix the object to be welded, the shearing plate moves downwards to remove the redundant fins on the object to be welded, the welding head welds the object to be welded, then the cold air port cools the welding position, and the welding head moves upwards for a certain distance;

when the waist-shaped plate rotates to the initial position, the shearing plate rotates to remove the redundant welding flux at the welding position, and meanwhile, the waist-shaped plate extrudes the second air bag to clean and cool the welding position.

Further, the shear plate comprises a bearing part and a cutting edge fixedly connected with the bearing part, wherein the bearing part is provided with a mounting groove,

the welding head is arranged in the mounting groove through a bearing and extends out of the mounting groove.

Furthermore, a rotating column is fixed in the mounting groove, a torsion spring is sleeved on the rotating column, wherein,

one end of the torsion spring is propped against the side wall of the mounting groove, and the other end of the torsion spring is propped against the welding head.

Furthermore, the extrusion plate comprises a guide part, a slide block arranged at the bottom of the guide part and an extrusion part fixedly connected with the guide part, a sliding groove is arranged on the crimping plate, a spring is also fixed in the sliding groove, wherein,

the sliding block is arranged in the sliding groove in a sliding mode;

one end of the spring is propped against the guide part, and the other end of the spring is propped against the inner wall of the sliding groove.

Furthermore, one end of the guide part close to the waist plate is provided with a circular arc surface, wherein,

the air bag is arranged to protrude out of the arc surface.

Furthermore, the circular arc surface is made of rubber.

Furthermore, a support frame is arranged on the conveyor belt, a linear air cylinder is fixed on the support frame, a piston rod of the linear air cylinder is fixedly connected with a straight plate, a lifting air cylinder is fixed on the straight plate, wherein,

the lifting cylinder is in transmission connection with the welding head.

Furthermore, a rotary cylinder is fixed on the straight plate, wherein,

the rotary cylinder is in transmission connection with the waist-shaped plate.

Further, a rubber layer is arranged on one surface, close to the conveying belt, of the compression joint plate.

The invention also provides a medical vehicle part production system and a preparation method thereof, comprising the following steps,

s1, conveying an object to be welded to the lower side of a welding part by the conveying belt, and pressing the object to be welded by downward movement of the pressing plate;

s2, when the waist-shaped plate rotates until the waist-shaped plate pushes the shearing plate to extrude the air bag, the first air blowing port is suitable for cleaning redundant fins on the object to be welded, meanwhile, the extruding plate moves towards the waist-shaped plate to clamp and fix the object to be welded, the shearing plate moves downwards to remove the redundant fins on the object to be welded, the welding head welds the object to be welded, then the cold air port cools the welded part, and the welding head moves upwards for a certain distance;

and S3, when the waist-shaped plate rotates to the initial position, the shearing plate rotates to remove redundant welding flux at the welding position, and meanwhile, the waist-shaped plate extrudes the second air bag to clean and cool the welding position.

Has the advantages that: the invention relates to a medical vehicle part production system and a preparation method thereof.A shear plate is arranged to cut off redundant fins and cut off welding flux after welding is finished; the matching of the cold air port and the welding port is arranged, so that the welding is finished, cold air is introduced immediately, accurate cooling is realized, the efficiency is high, the cost is low, and the cooling effect is good; through setting up the mouth of blowing two, will treat the impurity clearance of welding thing before the welding, guaranteed the welding effect, also played and carried out air-cooled effect after the welding is accomplished, set up the mouth of blowing one, will treat the fin of shearing and cut, prevent when cuting that impurity damages the cutting edge.

Drawings

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

FIG. 2 is a schematic view of a weld configuration of the present invention;

FIG. 3 is a schematic view of the slider configuration of the present invention;

in the figure:

100. the conveying part comprises a conveying part 110, a conveying frame 120, a conveying belt 121, a supporting frame 122, a lifting cylinder 123, a rotating cylinder 124, a linear cylinder 125, a straight plate 126 and a connecting frame;

200. welding portion 210, pressure welding plate 211, sliding groove 212, spring 220, kidney-shaped plate 221, cold air port 230, extrusion plate 231, guide portion 232, sliding block 233, extrusion portion 234, arc surface 240, welding head 250, shearing plate 251, bearing portion 252, cutting edge 253, mounting groove 254, rotating column 260 and welding groove.

Detailed Description

In order to make those skilled in the art better understand the technical solutions of the present invention, 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.

Reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic may be included in at least one implementation of the invention. In the description of the present invention, it is to be understood that the terms "upper", "top", "bottom", and the like, as used herein, refer to an orientation or positional relationship based on that shown in the drawings, which is for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be taken as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. Moreover, the terms "first," "second," and the like are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein.

Example one

As shown in fig. 1~3, a medical cart component production system and a method for manufacturing the same includes a conveying portion 100 and a welding portion 200. The conveying part 100 is adapted to convey objects to be welded to below the welding part 200 in sequence. The welding part 200 is adapted to weld the objects to be welded and to clean the objects to be welded of surplus scrap. With respect to the above components, detailed description will be made below.

Conveying part 100

The conveying part 100 is arranged on a horizontal working surface, a plurality of objects to be welded can be placed on the conveying part 100 at intervals, and the conveying part 100 can convey the objects to be welded to the lower side of the welding part 200 in sequence, so that the welding part 200 can weld the objects to be welded. The object to be welded comprises a frame body and a frame, and part of fins on the frame body are required to be welded on the frame at present.

In order to achieve the above effect, the conveying part 100 includes a conveying frame 110 and a conveying belt 120 rotatably disposed on the conveying frame 110. The carrier 110 is a frame body of the conveying part 100, the conveyor belt 120 is installed on an upper end plane of the carrier 110, and the carrier 110 can provide a reliable support for the conveyor belt 120. The upper end of the conveying belt 120 can be placed with a plurality of objects to be welded, two ends of the conveying frame 110 are provided with rotating shafts, two ends of the conveying belt 120 are respectively sleeved on the side walls of the rotating shafts, and at least one side wall of the rotating shaft is provided with a motor. In this way, the motor can drive the rotating shaft to rotate, so as to drive the conveying belt 120 to rotate circularly, thereby achieving the effect of conveying the objects to be welded on the conveying belt 120 in one way.

Welding part 200

The welding part 200 is disposed above the conveyor belt 120, and when the conveyor belt 120 conveys the object to be welded to the lower side of the welding part 200, the welding part 200 can weld the object to be welded and clean the excessive waste on the object to be welded. In order to achieve the above effect, the welding part 200 includes a crimping plate 210 slidably disposed above the conveyor belt 120, a waist plate 220 rotatably disposed on the crimping plate 210, a pressing plate 230 elastically disposed on the crimping plate 210, a welding head 240 disposed above the conveyor belt 120, and an L-shaped shear plate 250 rotatably disposed on the welding head 240.

The crimping plate 210 is a positioning device for the welding part 200, and the crimping plate 210 is slidably disposed relative to the conveyor belt 120. Specifically, a support frame 121 is arranged on the conveyor belt 120, a linear cylinder 124 is fixed on the support frame 121, the linear cylinder 124 is fixedly connected with a straight plate 125, a lifting cylinder 122 is fixed on the straight plate, and a piston rod of the lifting cylinder 122 is in transmission connection with a welding head 240. The lifting cylinder 122 can drive the welding head 240 to slide up and down along the direction perpendicular to the conveying belt 120, so as to drive the shear plate 250 to move up and down. The linear cylinder 124 is in transmission connection with the straight plate 125, and the straight plate 125 and the pressure welding plate 210 are relatively fixedly arranged. The linear cylinder 124 drives the straight plate 125 to move up and down, so that the pressing plate 210 is driven to approach and press the object to be welded, and the object to be welded is convenient to weld; or away from the object to be welded and loosen the object to be welded so that the next object to be welded on the conveyor belt 120 enters the corresponding welding position. In this way, the object to be welded can be positioned vertically. In addition, in order to avoid rigid contact between the pressing plate 210 and the object to be welded, which would cause the pressing plate 210 to crush the object to be welded, a rubber layer is disposed on one surface of the pressing plate 210 close to the conveyor belt 120. The pressure welding plate 210 is in contact with the object to be welded through the rubber layer, and the rubber layer can adapt to the shape deformation of the object to be welded after contacting the object to be welded, so that the object to be welded is prevented from being damaged.

The waist plate 220 is coaxially disposed with the crimp plate 210, and the waist plate 220 can be rotated to switch different working processes. In order to achieve the effect, two sides of the waist plate 220 are further provided with welding grooves 260, two side walls of the welding grooves 260 are provided with first air bags, the bottom of the welding grooves 260 is provided with first air blowing openings communicated with the first air bags, and the first air blowing openings face the positions of the to-be-welded objects, where the to-be-welded objects are to be redundant. When the first air bag is compressed, air in the first air bag can be blown out from the first air blowing opening, so that the surface of the redundant fin of the object to be welded can be blown and cleaned. In addition, cold air ports 221 are further formed in the two ends of the waist-shaped plate 220, and after the welding of the objects to be welded is completed, the welding positions of the objects to be welded can be cooled by blowing cold air through the cold air ports 221, so that the forming speed of the welding positions of the objects to be welded is accelerated, and the welding quality is improved.

The pressing plates 230 are arranged on two sides of the waist-shaped plate 220 in a mirror image mode, and the pressing plates 230 can be linked with the waist-shaped plate 220. Specifically, a rotary cylinder 123 is further fixed on the straight plate 125, and the rotary cylinder 123 is in transmission connection with the kidney-shaped plate 220. The rotary cylinder 123 is disposed at the bottom of the straight plate 125, and the rotary cylinder 123 is fixed on the connecting frame 126, and the press plate 210 is fixed on the connecting frame 126. The rotary cylinder 123 can drive the waist plate 220 to axially rotate around the joint with the rotary cylinder 123. The pressing plate 230 is L-shaped, one end of the pressing plate 230 abuts against the kidney plate 220, and the other end of the pressing plate is disposed toward the conveyor belt 120. When the waist plate 220 rotates, the pressing plates 230 can move toward each other so that the pressing plates 230 clamp the object to be welded from both sides. In order to achieve the above effect, the pressing plate 230 includes a guide portion 231, a slider 232 disposed at the bottom of the guide portion 231, and a pressing portion 233 fixedly connected to the guide portion 231. The crimping plate 210 is provided with a sliding groove 211, the sliding groove 211 is matched with a sliding block 232, and the sliding block 232 is slidably arranged in the sliding groove 211. A spring 212 is further fixed in the sliding groove 211, one end of the spring 212 abuts against the guide portion 231, and the other end abuts against the inner wall of the sliding groove 211. One end of the guide part 231, which is close to the waist plate 220, is provided with an arc surface 234, when the waist plate 220 rotates, the guide part 231 can be pushed by the arc surface 234, and the guide part 231 slides along the length direction of the sliding groove 211 through the matching of the sliding block 232 and the sliding groove 211, so that the extrusion plate 230 can slide oppositely to clamp or loosen an object to be welded, and the object to be welded can be positioned in the horizontal direction by the way. The thickness of the pressing portion 233 is much greater than that of the object to be welded. In addition, an air bag II is arranged at one end of the extrusion plate 230 close to the waist-shaped plate 220, and a second air blowing opening communicated with the air bag II is arranged on the side wall of the welding groove 260. The air bag is arranged to protrude from the arc surface 234. So as to ensure that the waist plate 220 can fully press the second air bag when rotating. The circular arc surface 234 is made of rubber. So as to avoid the guide part 231 from puncturing the second air bag near one end of the second air bag. When the waist-shaped plate 220 rotates to extrude the air bag, the air bag II can be synchronously extruded, the air bag II is loosened to suck air inwards in the process that the waist-shaped plate 220 returns to the initial position, and impurities after cutting are adsorbed through the air blowing port II.

Shear plate 250

The shearing plate 250 is arranged on one side of the crimping plate 210, after the objects to be welded are positioned by the squeezing plate 230 and the crimping plate 210, the shearing plate 250 can cut off redundant fins of the objects to be welded, and meanwhile, before the shearing plate 250 is cut off, the first air bag can be squeezed, so that the first air bag can clean the redundant fins. The length of the object to be welded is longer than the length of the crimping plate 210. In order to achieve the above effect, the shear plate 250 includes a bearing part 251 and a cutting edge 252 fixedly connected to the bearing part 251, and a mounting groove 253 is formed on the bearing part 251. The carrying portion 251 is disposed coaxially with the welding head 240, and the carrying portion 251 and the end of the cutting edge 252 away from the conveying belt 120 are perpendicular to each other. The carrying portion 251 can drive the conveying belt 120 to synchronously rotate around the shaft. When the waist plate 220 rotates around the shaft, the cutting blade 252 can be pushed from one side, so that the cutting blade 252 drives the bearing part 251 to rotate with the waist plate 220 to enter the welding groove 260, and the first air bag is squeezed. So that the air bag can blow and clean the redundant fin surface of the object to be welded. Subsequently, the cutting edge 252 cuts off the excess fins of the object to be welded downward. The welding head 240 is disposed in the mounting groove 253 by a bearing and extends out of the mounting groove 253. In order to facilitate the resetting of the cutting edge 252, a rotating column 254 is fixed in the mounting groove 253, and a torsion spring is sleeved on the rotating column 254. One end of the torsion spring abuts against the side wall of the mounting groove 253, and the other end abuts against the welding head 240. After the waist plate 220 is reset, the rotating post 254 pulls the bearing part 251 through the torsion spring, thereby driving the cutting edge 252 to reset.

Example two

The second embodiment further provides a medical vehicle component production system and a manufacturing method thereof on the basis of the first embodiment, wherein the medical vehicle component production system is the same as the first embodiment, and details are not described here. The preparation method of the medical vehicle part comprises the following steps:

s1, conveying the object to be welded to the position below the welding part 200 by the conveying belt 120, and pressing the object to be welded by downward movement of the pressing plate 210;

s2, when the waist-shaped plate 220 rotates until the waist-shaped plate 220 pushes the shearing plate 250 to extrude the air bag, the first air blowing port is suitable for cleaning redundant fins on the object to be welded, meanwhile, the extruding plate 230 moves towards the waist-shaped plate 220 to clamp and fix the object to be welded, the shearing plate 250 moves downwards to remove the redundant fins on the object to be welded, the welding head 240 welds the object to be welded, then the cold air port 221 cools the welded part, and the welding head 240 moves upwards for a certain distance;

and S3, when the waist-shaped plate 220 rotates to the initial position, the shearing plate 250 rotates to remove the redundant welding flux at the welding position, and meanwhile, the waist-shaped plate 220 extrudes the second air bag to clean and cool the welding position.

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

Claims (10)

1. A medical vehicle part production system is characterized by comprising,

the conveying part comprises a conveying frame and a conveying belt rotatably arranged on the conveying frame;

the welding part comprises a crimping plate arranged above the conveying belt in a sliding mode, a waist-shaped plate rotationally arranged on the crimping plate, an extrusion plate elastically arranged on the crimping plate, a welding head arranged above the conveying belt and an L-shaped shear plate rotationally arranged on the welding head, cold air ports are formed in two ends of the waist-shaped plate, welding grooves are further formed in two sides of the waist-shaped plate, air bags I are arranged on two side walls of the welding grooves, air blowing ports I communicated with the air bags I are formed in the bottoms of the welding grooves, air bags II are arranged at one ends, close to the waist-shaped plate, of the extrusion plate, and air blowing ports II communicated with the air bags II are formed in the side walls of the welding grooves; wherein the content of the first and second substances,

the conveyer belt conveys the objects to be welded to the lower part of the welding part, and the compression joint plate moves downwards to compress the objects to be welded;

when the waist-shaped plate rotates until the waist-shaped plate pushes the shearing plate to extrude the air bag, the first air blowing port is suitable for cleaning redundant fins on the object to be welded, meanwhile, the extruding plate moves towards the waist-shaped plate to clamp and fix the object to be welded, the shearing plate moves downwards to remove the redundant fins on the object to be welded, the welding head welds the object to be welded, then the cold air port cools the welding position, and the welding head moves upwards for a certain distance;

when the waist-shaped plate rotates to the initial position, the shearing plate rotates to remove the redundant welding flux at the welding position, and meanwhile, the waist-shaped plate extrudes the second air bag to clean and cool the welding position.

2. The medical vehicle component production system of claim 1,

the shear plate comprises a bearing part and a cutting edge fixedly connected with the bearing part, wherein the bearing part is provided with a mounting groove,

the welding head is arranged in the mounting groove through a bearing and extends out of the mounting groove.

3. The medical vehicle component production system of claim 2,

a rotating column is fixed in the mounting groove, a torsional spring is sleeved on the rotating column, wherein,

one end of the torsion spring is propped against the side wall of the mounting groove, and the other end of the torsion spring is propped against the welding head.

4. The medical vehicle component production system of claim 1,

the extrusion plate comprises a guide part, a slide block arranged at the bottom of the guide part and an extrusion part fixedly connected with the guide part, a sliding groove is arranged on the compression joint plate, a spring is also fixed in the sliding groove, wherein,

the sliding block is arranged in the sliding groove in a sliding mode;

one end of the spring is propped against the guide part, and the other end of the spring is propped against the inner wall of the sliding groove.

5. The medical vehicle component production system of claim 4,

one end of the guide part close to the waist-shaped plate is provided with an arc surface, wherein,

the air bag is arranged to protrude out of the arc surface.

6. The medical vehicle component production system of claim 5,

the arc surface is made of rubber.

7. The medical vehicle component production system of claim 1,

the conveying belt is also provided with a support frame, a linear cylinder is fixed on the support frame, a piston rod of the linear cylinder is fixedly connected with a straight plate, a lifting cylinder is fixed on the straight plate, wherein,

the lifting cylinder is in transmission connection with the welding head.

8. The medical vehicle component production system of claim 7,

a rotary cylinder is also fixed on the straight plate, wherein,

the rotary cylinder is in transmission connection with the waist-shaped plate.

9. The medical vehicle component production system of claim 1,

and a rubber layer is arranged on one surface of the compression joint plate close to the conveying belt.

10. A method of manufacturing the component of the cart of any of claims 1~9,

s1, conveying an object to be welded to the lower side of a welding part by the conveying belt, and pressing the object to be welded by downward movement of the pressing plate;

s2, when the waist-shaped plate rotates until the waist-shaped plate pushes the shearing plate to extrude the air bag, the first air blowing port is suitable for cleaning redundant fins on the object to be welded, meanwhile, the extruding plate moves towards the waist-shaped plate to clamp and fix the object to be welded, the shearing plate moves downwards to remove the redundant fins on the object to be welded, the welding head welds the object to be welded, then the cold air port cools the welded part, and the welding head moves upwards for a certain distance;

and S3, when the waist-shaped plate rotates to the initial position, the shearing plate rotates to remove redundant welding flux at the welding position, and meanwhile, the waist-shaped plate extrudes the second air bag to clean and cool the welding position.

Images