CN206508327U - Infusion bottle circular array automated needle changeover infusion device - Google Patents

Abstract

An infusion bottle circular array automatic needle-changing infusion device, including a base, a fixed plate, a turntable, and a pressure plate arranged horizontally from bottom to top, and the upper surface of the base and the lower surface of the fixed plate are fixedly connected by connecting rods arranged along the vertical direction , a rotating shaft is installed between the base and the fixed disk, the rotating disk and the pressure plate are sleeved on the rotating shaft, the rotating disk is fixedly connected with the rotating shaft, the rotating disk is provided with cylinders, and at least 6 cylinders are arranged in a circular array along the center line of the rotating shaft, and the rotating disk There are upper and lower transparent through-holes in the mouth of each cylinder, and the upper end of the rotating shaft is threadedly connected with a lock nut; the fixed plate is provided with a power drive mechanism for driving the rotating shaft, a support rod and an automatic needle-punching mechanism, and the support rod is connected with the needle. The axis of rotation is parallel. The utility model has the advantages of reasonable design, simple structure and high degree of automation. The mouth of the bottle is sterilized before needle insertion, which is safe and hygienic, fully reduces the labor intensity of nursing staff, saves a lot of time, and fully improves the efficiency of medical services.

Description

Infusion Bottle Circular Array Automatic Needle Change Infusion Device

technical field

The utility model relates to a medical device, in particular to an automatic needle-changing transfusion device for circular arrays of infusion bottles.

Background technique

With the development of society, people's requirements for medical conditions are getting higher and higher. However, due to the limited number of medical workers, it is the general trend to gradually improve the automation level of medical equipment. Some patients need to infuse multiple bottles or bags of medicines during infusion. At present, nursing workers need to manually replace each bottle of medicines after infusion. When there are many infusion patients, this will take up a lot of time and energy for nursing workers. If It can automatically change the needle at the liquid input end of the infusion tube to a different bottle, which will certainly reduce the labor intensity of nursing workers to a certain extent, which also has positive significance for improving the automation of medical equipment.

Utility model content

In order to solve the deficiencies in the prior art, the utility model provides an automatic needle-changing infusion device with a circular array of infusion bottles, which is simple in structure, high in automation, safe and hygienic, saves time and energy.

In order to solve the above-mentioned technical problems, the utility model adopts the following technical scheme: the infusion bottle circular array automatic needle-changing infusion device includes a base, a fixed plate, a turntable and a pressure plate arranged horizontally from bottom to top, and the upper surface of the base and the fixed plate The lower surfaces are fixedly connected by connecting rods arranged in the vertical direction. The upper surface of the base is provided with a lower bearing seat, and the center of the fixed plate is provided with an upper bearing seat corresponding to the upper and lower sides of the lower bearing seat. There is a rotating shaft for the rotation between the rotating disc and the pressure plate. The rotating disc is fixedly connected with the rotating shaft. , the center line of the cylinder is parallel to the shaft, and at least 6 cylinders are arranged in a circular array along the center line of the shaft. On the turntable, there is a through hole at the mouth of the bottle that is transparent up and down in each cylinder, and the upper end of the shaft is threaded with a upper lock nut;

The fixed plate is provided with a power drive mechanism for driving the rotation of the rotating shaft, a support rod and an automatic needle pricking mechanism. The support rod is parallel to the rotating shaft, and the support rod is provided with a sensor for monitoring the liquid volume in the infusion bottle and for closing the mouth of the infusion bottle. Disinfectant brush for surface disinfection.

The power drive mechanism includes a stepping motor arranged on the fixed disk and a driven pulley coaxially arranged on the rotating shaft. The upper end of the main shaft of the stepping motor is provided with a driving pulley. The driving pulley and the driven pulley pass through Belt drive connection.

The automatic needle pricking mechanism consists of a cylinder vertically arranged on the fixed plate and guide columns on the left and right sides of the cylinder. The piston rod and guide columns of the cylinder are parallel to the rotating shaft. A mounting frame is installed sliding on the two guide columns, and the bottom of the mounting frame is in contact with the cylinder. The upper end of the piston rod is fixedly connected, the mounting frame is fixed with a needling motor, the mounting frame is rotated with a hollow shaft parallel to the rotating shaft, the lower part of the hollow shaft is coaxially equipped with a driven gear, and the main shaft of the needling motor is horizontally equipped with a The driving gear meshed with the driven gear, the upper end of the hollow shaft is coaxially connected with a needle, the lower end of the hollow shaft is connected with a quick connector coaxially, and the surface of the needle is provided with spiral ribs along the axial direction.

The center line of the through hole of the bottle mouth, the position of the sterilizing brush and the center line of the pricking needle are all located on the generatrix of the same cylinder.

Adopting the above-mentioned technical scheme, the working principle and process of the utility model are as follows: first connect the inlet of the infusion tube to the quick joint at the lower end of the hollow shaft, then lift the pressure plate upwards, put the infusion bottle upside down into the barrel, and each An infusion bottle full of medicinal liquid is placed in the barrel, and the mouth of the infusion bottle passes through the through hole of the bottle mouth downwards. Then, the locking nut is turned to make the pressure plate press down on the tops of all the infusion bottles. Make the stopper of one of the infusion bottles directly above the needle, start the cylinder, and the cylinder pushes the installation frame upwards to move along the two guide columns, and at the same time, the needle motor starts, and the needle motor drives the driven gear to rotate through the driving gear, and the driven gear The needle is driven to rotate through the hollow shaft. Since the outer surface of the needle is provided with spiral ribs and has an upward thrust, the needle rotates upwards to pierce the bottle stopper and extend into the infusion bottle. Both the cylinder and the needle motor stop, and then the needle can be operated normally. Infusion. When the sensor monitors that the liquid in the infusion bottle is about to be finished, it sends a signal to the control unit, and the control unit sends a command to the cylinder, the needle motor turns over, the piston rod of the cylinder pulls the mounting frame downward, the needle exits the infusion bottle, and then the stepping motor The driving pulley drives the driven pulley, the driven pulley drives the rotating shaft to rotate, the rotating shaft drives the turntable and the pressure plate to rotate, the turntable drives the cylinder and the infusion bottle to rotate, and the disinfection brush first wipes the surface of the bottle stopper of the infusion bottle After disinfection, when the mouth of another infusion bottle turns to the top of the needle, the stepping motor stops, and then the cylinder and the needle motor start to drive the needle to move upward while rotating, and the needle is inserted into the infusion bottle After that, the air cylinder and needle motor stop. After this infusion bottle has been infused, according to the above-mentioned process, the needle is automatically changed again.

The connecting rod supports and keeps the fixed plate in place. The setting of the upper bearing seat and the lower bearing seat makes the force of the rotating shaft balanced during the rotation. The pressure plate plays the role of limiting the position of the infusion bottle, avoiding the upward movement of the infusion bottle when the needle is inserted into the cork, and ensuring the stability of the needle injection process. The needling adopts the method of rotating and piercing, which can reduce the resistance of piercing.

To sum up, the utility model has reasonable design, simple structure and high degree of automation. It can sterilize the mouth of the bottle before acupuncture, which is safe and hygienic. It fully reduces the labor intensity of nursing staff, saves a lot of time, and fully improves medical services. s efficiency.

Description of drawings

Fig. 1 is the structural representation of the utility model.

detailed description

As shown in Figure 1, the circular array of infusion bottle automatic needle-changing infusion device of the present utility model comprises a base 1, a fixed plate 2, a turntable 3 and a pressure plate 4 arranged horizontally from bottom to top, and the upper surface of the base 1 is connected with the fixed plate. The lower surfaces of the discs 2 are fixedly connected by connecting rods 5 arranged in the vertical direction, the upper surface of the base 1 is provided with a lower bearing seat 6, and the center of the fixed disc 2 is provided with an upper bearing seat 7 corresponding to the upper and lower sides of the lower bearing seat 6, Rotating between the upper bearing seat 7 and the lower bearing seat 6 is provided with a rotating shaft 8, the rotating disc 3 and the pressure plate 4 are sleeved on the rotating shaft 8, the rotating disc 3 is fixedly connected with the rotating shaft 8, and the rotating shaft 8 is provided under the rotating disc 3 and used for supporting The support sleeve 9 of the turntable 3, the turntable 3 is provided with a cylinder 10 for accommodating an upside-down infusion bottle, the centerline of the cylinder 10 is parallel to the rotating shaft 8, and at least 6 cylinders 10 are arranged in a circular array along the centerline of the rotating shaft 8, The turntable 3 is provided with a through hole through the bottle mouth up and down in each barrel 10 , and the upper end of the rotating shaft 8 is threaded with a locking nut 11 located above the pressure plate 4 .

The fixed plate 2 is provided with a power drive mechanism for driving the rotating shaft 8 to rotate, a pole 12 and an automatic needle pricking mechanism. The disinfecting brush 14 is used for disinfecting the outer surface of the bottle stopper of the infusion bottle.

Power drive mechanism comprises the stepper motor 15 that is located on the fixed disc 2 and the driven pulley 16 that coaxially is located on the rotating shaft 8, and the main shaft upper end of stepper motor 15 is provided with driving pulley 17, and driving pulley 17 and The driven pulleys 16 are connected in transmission through a belt 18 .

The automatic needle pricking mechanism comprises a cylinder 19 vertically arranged on the fixed disc 2 and guide posts 20 positioned at the left and right sides of the cylinder 19. The piston rod of the cylinder 19 and the guide posts 20 are all parallel to the rotating shaft 8, and two guide posts 20 are slidably provided with Mounting frame 21, the bottom of mounting frame 21 is fixedly connected with the piston rod upper end of cylinder 19, the mounting frame 21 is fixedly provided with needle motor 22, the hollow shaft parallel to rotating shaft 8 is installed on the mounting frame 21, and the hollow shaft bottom is coaxial A driven gear 23 is provided, and a drive gear 24 meshing with the driven gear 23 is horizontally provided on the main shaft of the needling motor 22. The upper end of the hollow shaft is coaxially connected with a needling needle 25, and the lower end of the hollow shaft is coaxially connected with a quick joint 26. The surface of the pricking needle 25 is provided with a spiral rib 27 along the axial direction. In addition, a shielding cylinder cover 28 for covering the automatic needle pricking mechanism and the power driving mechanism is arranged on the fixed disk 2 , and there is a gap between the upper edge of the shielding cylinder cover 28 and the lower surface of the rotating disk 3 .

The centerline of the bottle mouth through hole, the position of the sterilizing brush 14 and the centerline of the pricking needle 25 are all located on the generatrix of the same cylinder.

The working principle and process of the utility model are as follows: first connect the inlet of the infusion tube to the quick connector 26 at the lower end of the hollow shaft, then lift up the pressure plate 4, put the infusion bottle upside down in the cylinder body 10, each cylinder A bottle of infusion bottle full of medicinal liquid is placed in the body 10, and the bottleneck of the infusion bottle passes through the bottleneck through hole downwards. Then, the locking nut 11 is turned to make the pressure plate 4 press down on all the infusion bottle tops. Make the bottle stopper of one of the infusion bottles directly above the needle 25, start the cylinder 19, and the cylinder 19 pushes the installation frame 21 upwards to move along the two guide posts 20, and at the same time, the needle motor 22 is started, and the needle motor 22 is driven by the driving gear 24 The driven gear 23 rotates, and the driven gear 23 drives the needle 25 to rotate through the hollow shaft. Since the outer surface of the needle 25 is provided with a spiral rib 27 and has an upward thrust, the needle 25 rotates upwards to pierce the bottle stopper and enter the infusion bottle. Inside, cylinder 19 and acupuncture motor 22 all stop, and then just can carry out transfusion normally. When the sensor 13 monitors that the liquid in the infusion bottle is about to be infused, it sends a signal to the control unit (not shown in the figure, it can be set in the nurse's office or on the fixed disk 2), and the control unit sends a command to the cylinder 19, The needle motor 22 turns over, the piston rod of the cylinder 19 pulls the installation frame 21 downward, the needle 25 exits the infusion bottle, and then the stepper motor 15 drives the driven pulley 16 through the driving pulley 17, and the driven pulley 16 drives the rotating shaft 8 to rotate , the rotating shaft 8 drives the turntable 3 and the pressure plate 4 to rotate, and the turntable 3 drives the cylinder body 10 and the infusion bottle to rotate. After the disinfection brush 14 first wipes and disinfects the surface of the bottle stopper of the bottle mouth of the infusion bottle, the bottle mouth of another infusion bottle is When forwarding to just above the needle 25, the stepping motor 15 stops, then the cylinder 19 and the needle motor 22 are all started, and the needle 25 is driven to move upwards while rotating. After the needle 25 is inserted into the infusion bottle, the cylinder 19 and the needle The needle motor 22 stops. After this infusion bottle has been infused, according to the above-mentioned process, the needle is automatically changed again.

The connecting rod 5 plays the role of supporting and keeping the fixed disk 2 still. The arrangement of the upper bearing seat 7 and the lower bearing seat 6 makes the rotating shaft 8 balanced in force during rotation. The pressure plate 4 plays the role of limiting the position of the infusion bottle, avoiding the upward movement of the infusion bottle when the needle 25 is pierced into the cork, and ensuring the stability of the needle 25 process. Needle pricking 25 adopts the mode that rotates and plunges into, can reduce the resistance that plunges into like this.

The above embodiments are only used to illustrate and not limit the technical solutions of the present utility model. Although the present utility model has been described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that the present utility model can still be modified or equivalently replaced. Any modification or partial replacement without departing from the spirit and scope of the present invention shall be included in the claims of the present invention.

Claims (3)

1. An infusion bottle circular array automatic needle-changing infusion device, characterized in that it includes a base, a fixed plate, a turntable, and a pressure plate arranged horizontally from bottom to top, and the passage between the upper surface of the base and the lower surface of the fixed plate is along the vertical direction. The set connecting rod is fixedly connected, the upper surface of the base is provided with a lower bearing seat, the center of the fixed plate is provided with an upper bearing seat corresponding to the upper and lower sides of the lower bearing seat, and a rotating shaft is arranged between the upper bearing seat and the lower bearing seat. The pressure plate is set on the rotating shaft, and the rotating disc is fixedly connected with the rotating shaft. The rotating shaft is provided with a support sleeve located under the rotating disc and used to support the rotating disc. Parallel, at least 6 cylinders are arranged in a circular array along the center line of the rotating shaft. On the turntable, a through-hole through the bottle mouth that is transparent up and down is opened in each cylinder, and the upper end of the rotating shaft is threaded with a lock nut located above the pressure plate; The fixed plate is provided with a power drive mechanism for driving the rotation of the rotating shaft, a support rod and an automatic needle pricking mechanism. The support rod is parallel to the rotating shaft, and the support rod is provided with a sensor for monitoring the liquid volume in the infusion bottle and for closing the mouth of the infusion bottle. Sanitizing brushes for surface disinfection; The automatic needle pricking mechanism consists of a cylinder vertically arranged on the fixed plate and guide columns on the left and right sides of the cylinder. The piston rod and guide columns of the cylinder are parallel to the rotating shaft. A mounting frame is installed sliding on the two guide columns, and the bottom of the mounting frame is in contact with the cylinder. The upper end of the piston rod is fixedly connected, the mounting frame is fixed with a needling motor, the mounting frame is rotated with a hollow shaft parallel to the rotating shaft, the lower part of the hollow shaft is coaxially equipped with a driven gear, and the main shaft of the needling motor is horizontally equipped with a The driving gear meshed with the driven gear, the upper end of the hollow shaft is coaxially connected with a needle, the lower end of the hollow shaft is connected with a quick connector coaxially, and the surface of the needle is provided with spiral ribs along the axial direction. 2. The infusion bottle circular array automatic needle exchange infusion device according to claim 1, characterized in that: the power drive mechanism includes a stepping motor arranged on the fixed plate and a driven pulley coaxially arranged on the rotating shaft , The upper end of the main shaft of the stepping motor is provided with a driving pulley, and the driving pulley and the driven pulley are connected through a belt transmission. 3. The infusion bottle circular array automatic needle exchange infusion device according to claim 2, characterized in that: the center line of the through hole at the mouth of the bottle, the position of the disinfection brush and the center line of the needle pricking are all located on the generatrix of the same cylinder .