CN110975340A - Defoaming mechanism of infusion bottle - Google Patents

Abstract

The invention discloses a defoaming mechanism of an infusion bottle, which comprises a conveying device, a fixing device, an elastic rope and a stretching device, wherein the conveying device comprises a fixed cross beam, a supporting column, a conveying chain plate and a first driving device; the fixing device comprises a first fixing component and a second fixing component, the first fixing component and the second fixing component are fixed on the fixing cross beam respectively, one end of the elastic rope is fixed on the first fixing component, the other end of the elastic rope is fixed on the second fixing component, the elastic rope is arranged along the direction of conveying the infusion bottle by the conveying chain plate, the fixing device is fixed on the stretching device and can pull the elastic rope to eject the bottle body of the infusion bottle, bubbles attached to the bottle body are eliminated, and the influence of the subsequent detection on foreign matters in the infusion bottle is avoided.

Description

Defoaming mechanism of infusion bottle

Technical Field

The invention relates to the technical field of defoaming, in particular to a defoaming mechanism of an infusion bottle.

Background

The medical infusion bottle has a very high requirement on the cleanness of liquid in the bottle, but some foreign matters with small particle size, such as aluminum scraps, glass scraps, rubber scraps, fibers or insoluble medicines, can be mixed in an infusion finished product due to the aspects of production environment, production process and the like. During intravenous infusion, these foreign bodies may enter the body with the fluid, thereby causing blood vessel blockage, causing a phenomenon in the sac, and seriously endangering the life and health of the patient. Therefore, in the process of producing infusion products, it is necessary to inspect the medicine solution injected into the infusion bottle for the content of the medicine solution and inspect the body of the infusion bottle.

However, in the process of injecting the medical solution into the infusion bottle, air bubbles generally appear in the bottle, and the air bubbles will affect the detection of foreign matters in the infusion bottle in the following process. Therefore, it is necessary to provide a defoaming mechanism to eliminate bubbles.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a defoaming mechanism of an infusion bottle, which is used for eliminating air bubbles in the infusion bottle and avoiding the influence on the subsequent detection of foreign matters in the infusion bottle.

The purpose of the invention is realized by adopting the following technical scheme:

a defoaming mechanism of an infusion bottle comprises a conveying device, a fixing device, an elastic rope and a stretching device, wherein the conveying device comprises a fixed cross beam, a supporting column, a conveying chain plate and a first driving device, the fixed cross beam is erected on the supporting column, the conveying chain plate is installed on the fixed cross beam, and the first driving device is fixed on the fixed cross beam and can drive the conveying chain plate to convey;

the fixing device comprises a first fixing assembly and a second fixing assembly, the first fixing assembly and the second fixing assembly are respectively fixed on the fixing cross beam, one end of the elastic rope is fixed on the first fixing assembly, the other end of the elastic rope is fixed on the second fixing assembly, and the elastic rope is arranged along the direction of conveying the infusion bottle by the conveying chain plate;

the stretching device is fixed on the fixing device and can pull the elastic rope to bounce the bottle body of the transfusion bottle so as to eliminate air bubbles attached to the bottle body.

Further, first fixed subassembly includes first mounting bracket, first support frame and fixed rope spare, first mounting bracket can slide and be fixed in on the fixed cross beam, just first mounting bracket is followed the tensile direction setting of elasticity rope, first support frame can slide and fixed mounting in the top of first mounting bracket, fixed rope spare can slide and be fixed in on the first support frame, so that the one end of elasticity rope can be fixed in on the fixed rope spare.

Further, the second fixing component comprises a second mounting frame, a second supporting frame and an adjusting piece, the second mounting frame can slide and be fixed on the fixing cross beam, the second mounting frame is arranged along the stretching direction of the elastic rope, the second supporting frame can slide and be fixedly installed above the second mounting frame, the adjusting piece is used for adjusting the degree of tightness of the elastic rope and is installed on the second supporting frame, and the elastic rope is relatively fixed to one end of the fixing rope piece and is fixed on the adjusting piece.

Further, the fixing device further comprises a third fixing component, and the third fixing component is used for fixing the stretching device.

Furthermore, the stretching device comprises a mechanical gripper, a second driving device and a photoelectric sensor, the second driving device is connected to the mechanical gripper in a driving mode so that the mechanical gripper can stretch and retract, the second driving device is fixed to the third fixing assembly, and the photoelectric sensor is used for collecting stretching in-place information of the elastic rope and feeding back signals to the second driving device.

Further, the third fixing component comprises a third mounting frame, a third support frame and an extension support, the third mounting frame can slide and be fixed on the fixing cross beam, the third mounting frame is arranged along the stretching direction of the elastic rope, the third support frame is vertically arranged on the third mounting frame, the extension support can slide and be fixed on the third support frame, and the extension support is arranged along the stretching direction of the elastic rope, so that the second driving device can be fixed on the extension support.

Further, extend the support with the third support frame all adopts the aluminium alloy to make, just extend the support with connection between the third support frame is fixed through aluminium alloy A-frame.

Further, the second driving device is a cylinder.

Further, the air cylinder is connected with the mechanical clamping hand through a connecting piece.

Further, the first driving device is a motor.

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

according to the invention, the elastic rope is arranged along the direction of conveying the infusion bottle by the conveying chain plate, when the first driving device drives the conveying chain plate to convey the infusion bottle to the tail end of the elastic rope, the stretching device is utilized to pull the elastic rope to bounce the bottle body of the infusion bottle so as to eliminate bubbles attached to the bottle body, thereby avoiding the influence on the subsequent detection of foreign matters in the infusion bottle and further improving the cleanness degree of the detection of liquid in the bottle.

Drawings

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

FIG. 2 is a schematic view of another embodiment of the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2;

FIG. 4 is an enlarged view of the structure at B in FIG. 2;

fig. 5 is an enlarged schematic view of the structure at C in fig. 2.

In the figure: 1. a conveying device; 10. fixing the cross beam; 11. a support pillar; 12. conveying chain plates; 13. a first driving device; 2. a fixing device; 20. a first fixed component; 200. a first mounting bracket; 201. a first support frame; 202. fixing the rope piece; 21. a second fixed component; 210. a second mounting bracket; 211. a second support frame; 212. an adjustment member; 22. a third fixed component; 220. a third mounting bracket; 221. a third support frame; 222. an extension bracket; 3. a stretching device; 30. a second driving device; 31. a mechanical gripper; 4. an elastic cord; 5. an infusion bottle; 6. an aluminum profile triangular support.

Detailed Description

The present invention will be described with reference to the accompanying drawings and the detailed description, and it should be noted that, in the following description, various embodiments or technical features may be arbitrarily combined to form a new embodiment without conflict.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "horizontal", "vertical", "top", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or through both elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The implementation mode is as follows:

as shown in fig. 1-5, the present invention shows a defoaming mechanism for an infusion bottle 5, which includes a conveying device 1, a fixing device 2, an elastic rope 4 and a stretching device 3, wherein the conveying device 1 includes a fixed beam 10, a supporting column 11, a conveying chain plate 12 and a first driving device 13, the fixed beam 10 is erected on the supporting column 11, and of course, a plurality of supporting columns 11 may be provided for reinforcing the support of the fixed beam 10; the conveying chain plate 12 is arranged on the fixed cross beam 10, of course, two sides of the fixed cross beam 10 can also be provided with guardrails to prevent the infusion bottle 5 from falling off in the process of conveying the infusion bottle 5 by the conveying chain plate 12; the first driving device 13 is fixed on the fixed cross beam 10 and can drive the conveying of the conveying chain plate 12, the first driving device 13 is preferably a motor, and is in driving connection with the conveying chain plate 12 through the motor to drive the conveying of the conveying chain plate 12, and how the motor is in driving connection with the conveying chain plate 12 is the prior art and is not described herein again.

The fixing device 2 comprises a first fixing component 20 and a second fixing component 21, the first fixing component 20 and the second fixing component 21 are respectively fixed on the fixing beam 10, one end of the elastic rope 4 is fixed on the first fixing component 20, the other end of the elastic rope 4 is fixed on the second fixing component 21, and the elastic rope 4 is arranged along the direction of conveying the infusion bottle 5 by the conveying chain plate 12, so that the elastic rope 4 can elastically beat the infusion bottle 5, the infusion bottle 5 is a transparent PET infusion bottle 5, or other transparent infusion bottles 5, as long as the elastic rope 4 can be ensured to elastically beat the bottle body thereof to eliminate air bubbles, and the position is not limited.

The stretching device 3 is fixed on the fixing device 2 and can pull the elastic rope 4 to flick the bottle body of the transfusion bottle 5 so as to eliminate air bubbles attached in the bottle body. It can be understood that, certainly, install position sensor at the end of elastic rope 4, when first drive arrangement 13 drive transport link joint 12 carried infusion bottle 5 to the end of elastic rope 4, position sensor feedback signal is in the control system of defoaming mechanism, control system control transport link joint 12 stops the transport of infusion bottle 5, start stretching device 3 simultaneously and stimulate elastic rope 4 bullet and beat the body of infusion bottle 5, after the bullet is beaten and is accomplished, control system control transport link joint 12 continues to carry infusion bottle 5 to subsequent detection process, thereby eliminate the bubble that adheres to in the body, avoid subsequent detection process to cause the influence to the detection of the interior foreign matter of infusion bottle 5.

In a preferred embodiment, as shown in fig. 3, the first fixing assembly 20 includes a first mounting bracket 200, a first supporting bracket 201 and a fixing rope member 202, the first mounting bracket 200 is capable of sliding and being fixed on the fixing cross beam 10, the first mounting bracket 200 is arranged along a direction in which the elastic rope 4 is stretched, the first mounting bracket 200 and the fixing cross beam 10 are both made of aluminum profiles, and the first mounting bracket 200 and the fixing cross beam 10 are connected and fixed through an aluminum profile triangular bracket 6, so that the first mounting bracket 200 can be slidably adjusted and mounted on the fixing cross beam 10; the first support frame 201 can be slidably and fixedly mounted above the first mounting frame 200, the first support frame 201 is also made of aluminum profiles, and the first support frame 201 and the first mounting frame 200 are also fixedly connected through an aluminum profile triangular support 6, so that the first support frame 201 can be slidably adjusted and mounted on the first mounting frame 200; the fixing rope 202 can slide and be fixed on the first support frame 201, so that one end of the elastic rope 4 can be fixed on the fixing rope 202, and the fixing rope 202 can be conveniently installed and adjusted by means of the first support frame 201 made of aluminum profiles.

In a preferred embodiment, as shown in fig. 4, the second fixing assembly 21 includes a second mounting bracket 210, a second supporting bracket 211 and an adjusting member 212, the second mounting bracket 210 is capable of sliding and being fixed on the fixed cross beam 10, the second mounting bracket 210 is arranged along the direction in which the elastic cord 4 is stretched, the second mounting bracket 210 is also made of an aluminum profile, and the second mounting bracket 210 and the fixed cross beam 10 are also connected and fixed through an aluminum profile triangular bracket 6, so that the second mounting bracket 210 can slide on the fixed cross beam 10; the second supporting frame 211 can be slidably and fixedly mounted above the second mounting frame 210, the second supporting frame 211 is also made of aluminum profile, and the second supporting frame 211 and the second mounting frame 210 are also fixedly connected through an aluminum profile triangular support 6, so that the second supporting frame 211 can be slidably adjusted and mounted on the first mounting frame 200; the adjusting member 212 is used for adjusting the tightness degree of the elastic cord 4 and is mounted on the second support frame 211, and one end of the elastic cord 4, which is fixed to the fixed cord member 202, is fixed to the adjusting member 212. The adjuster 212 is not limited herein as long as it can adjust the degree of tightness of the elastic cord 4.

In addition, as shown in fig. 5, the fixing device 2 further includes a third fixing component 22, the third fixing component 22 is configured to fix the stretching device 3, wherein the stretching device 3 includes a mechanical gripper 31, a second driving device 30 and a photoelectric sensor, the second driving device 30 is drivingly connected to the mechanical gripper 31 to extend and retract the mechanical gripper 31, and the second driving device 30 is fixed on the third fixing component 22. Preferably, the second driving device 30 is a cylinder, so that the mechanical gripper 31 can extend and retract through the extension and retraction end of the cylinder; further, the cylinder is connected with the mechanical clamping hand 31 through a connecting piece, so that the service life of the cylinder is prolonged. The photoelectric sensor is used for collecting the stretched information of the elastic rope 4, when the cylinder drives the mechanical clamping hand 31 to stretch the elastic rope 4 to a set position, the photoelectric sensor feeds back the collected signal to the second driving device 30 (cylinder) through the control system, the second driving device 30 (cylinder) stops stretching, at the moment, the control system drives the mechanical clamping hand 31 to open the claw, and the elastic rope 4 realizes the bouncing of the infusion bottle 5 under the action of elastic force, so that air bubbles in the infusion bottle 5 are eliminated. Of course, after the elastic cord 4 has been used to pop the infusion bottle 5, the mechanical gripper 31 returns to the original state and is ready for the next popping.

In a preferred embodiment, as shown in fig. 5, the third fixing assembly 22 includes a third mounting bracket 220, a third support bracket 221 and an extension bracket 222, the third mounting bracket 220 is capable of sliding and being fixed on the fixed cross beam 10, the third mounting bracket 220 is arranged along the direction in which the elastic cord 4 is stretched, and the third mounting bracket 220, the extension bracket 222 and the third support bracket 221 are all made of aluminum profiles, so that the third mounting bracket 220 can be slidably and adjustably mounted on the fixed cross beam 10 of the aluminum profiles; the extension bracket 222 and the third support bracket 221 are connected and fixed through an aluminum profile triangular bracket 6, so that the extension bracket 222 can be slidably adjusted and mounted on the third support bracket 221; the third support frame 221 is vertically installed on the third mounting frame 220, the extension bracket 222 is slidably fixed on the third support frame 221, and the extension bracket 222 is disposed along a direction in which the elastic cord 4 is stretched, so that the second driving device 30 can be fixed on the extension bracket 222.

Of course, the fixing device 2, the elastic cord 4 and the stretching device 3 can be arranged on both sides of the fixing beam 10, that is, the fixing device 2, the elastic cord 4 and the stretching device 3 are arranged on both sides of the infusion bottle 5 in the conveying direction, so that the infusion bottle 5 can be elastically beaten by the elastic cord 4 on both sides of the infusion bottle 5 in the conveying direction to eliminate air bubbles. It should be noted that the elastic ropes 4 on both sides of the infusion bottle 5 in the conveying direction can eject the infusion bottle 5 synchronously, or eject the infusion bottle 5 asynchronously, that is, the control system controls the stretching device 3 to realize synchronous or asynchronous actions.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. A defoaming mechanism of an infusion bottle is characterized in that: the conveying device comprises a fixed cross beam, a supporting column, a conveying chain plate and a first driving device, wherein the fixed cross beam is erected on the supporting column, the conveying chain plate is installed on the fixed cross beam, and the first driving device is fixed on the fixed cross beam and can drive the conveying chain plate to convey;

the fixing device comprises a first fixing assembly and a second fixing assembly, the first fixing assembly and the second fixing assembly are respectively fixed on the fixing cross beam, one end of the elastic rope is fixed on the first fixing assembly, the other end of the elastic rope is fixed on the second fixing assembly, and the elastic rope is arranged along the direction of conveying the infusion bottle by the conveying chain plate;

the stretching device is fixed on the fixing device and can pull the elastic rope to bounce the bottle body of the transfusion bottle so as to eliminate air bubbles attached to the bottle body.

2. The defoaming mechanism for an infusion bottle according to claim 1, wherein: first fixed subassembly includes first mounting bracket, first support frame and fixed rope spare, first mounting bracket can slide and be fixed in on the fixed cross beam, just first mounting bracket is set up along the tensile direction of elasticity rope, first support frame can slide and fixed mounting in the top of first mounting bracket, fixed rope spare can slide and be fixed in on the first support frame, so that the one end of elasticity rope can be fixed in on the fixed rope spare.

3. The defoaming mechanism for an infusion bottle according to claim 2, wherein: the fixed subassembly of second includes second mounting bracket and second support frame and regulating part, the second mounting bracket can slide and be fixed in on the fixed cross beam, just the second mounting bracket is set up along the tensile direction of elastic rope, the second support frame can slide and fixed mounting in the top of second mounting bracket, the regulating part be used for adjusting the elasticity degree of elastic rope and install in on the second support frame, elastic rope relatively fixed in the one end of fixed rope spare is fixed in on the regulating part.

4. The defoaming mechanism for an infusion bottle according to claim 1, wherein: the fixing device further comprises a third fixing component, and the third fixing component is used for fixing the stretching device.

5. The defoaming mechanism for an infusion bottle according to claim 4, wherein: the stretching device comprises a mechanical clamping hand, a second driving device and a photoelectric sensor, the second driving device is connected to the mechanical clamping hand in a driving mode so that the mechanical clamping hand can stretch, the second driving device is fixed to the third fixing assembly, and the photoelectric sensor is used for collecting in-place information of the stretching elastic rope and feeding back signals to the second driving device.

6. The defoaming mechanism for an infusion bottle according to claim 5, wherein: the third fixing assembly comprises a third mounting frame, a third supporting frame and an extension support, the third mounting frame can slide and be fixed on the fixed cross beam, the third mounting frame is arranged along the stretching direction of the elastic rope, the third supporting frame is vertically arranged on the third mounting frame, the extension support can slide and be fixed on the third supporting frame, and the extension support is arranged along the stretching direction of the elastic rope, so that the second driving device can be fixed on the extension support.

7. The defoaming mechanism for an infusion bottle according to claim 6, wherein: the extension support with the third support frame all adopts the aluminium alloy to make, just the extension support with connection between the third support frame is fixed through aluminium alloy A-frame.

8. The defoaming mechanism for an infusion bottle according to claim 6, wherein: the second driving device is a cylinder.

9. The defoaming mechanism for an infusion bottle according to claim 8, wherein: the cylinder is connected with the mechanical clamping hand through a connecting piece.

10. The defoaming mechanism for an infusion bottle according to claim 1, wherein: the first driving device is a motor.

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