CN210455275U

CN210455275U - Syringe transmission mechanism of pre-filling catheter flusher

Info

Publication number: CN210455275U
Application number: CN201921422061.1U
Authority: CN
Inventors: 季忠
Original assignee: Shanghai Yali Machinery Technology Co ltd
Current assignee: Shanghai Yali Machinery Technology Co ltd
Priority date: 2019-06-04
Filing date: 2019-06-04
Publication date: 2020-05-05
Anticipated expiration: 2029-06-04
Also published as: CN209535530U

Abstract

The utility model discloses a pre-filling formula pipe flusher cylinder transport mechanism, pre-filling formula pipe flusher cylinder transport mechanism includes: the storage bin is used for storing a plurality of syringes; and the L-shaped inverted feeding unit is connected with the material containing bin and is used for conveying the needle cylinder from the material containing bin. The syringe conveying mechanism of the prefilled catheter flusher adopts a closed synchronous belt to convey the syringe in the storage bin into a barrel of a syringe centrifugal device of the prefilled catheter flusher. Therefore, all the machines are operated automatically, the labor is saved, and the production efficiency is improved.

Description

Syringe transmission mechanism of pre-filling catheter flusher

The application is a Chinese patent with application number of 2019208328205, and the application date is: in 2019, 6, 4, the invention is invented and created a divisional application of a utility model patent application named as a pre-filled catheter flusher syringe centrifugal device.

Technical Field

The utility model belongs to the technical field of medical machinery, especially, relate to a pre-filling formula pipe flusher cylinder transport mechanism.

Background

The prefilled catheter flusher is a common medical appliance, and the principle of the prefilled catheter flusher was proposed by kathler, italian as early as the 15 th century. The disposable prefilled catheter flusher completes filling before delivery, so that the pollution risk and the cross infection risk caused by manual operation are effectively reduced. The disposable pre-filled catheter flusher consists of syringe, core rod, rubber plug, needle, etc. and is used mainly for taking out or injecting medicine liquid. As shown in fig. 11, the syringe 91 of the prior art includes a cylindrical body 911 for holding a medical solution, a lug 912 connected to the body 911, and a nozzle 913 for placing a needle, which is placed on a conveyor chain before filling the prefilled catheter flusher.

At present, the placement of the needle cylinder on the conveying chain is manually operated, so that time and labor are wasted, and the production efficiency is very limited.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to laying of cylinder on the conveying chain among the prior art adopts manual operation, the beneath technical problem of efficiency, aim at provides a pre-filling formula pipe flusher cylinder centrifugal device.

The pre-filled catheter flusher syringe centrifugal device comprises: a frame, a drum and a straight rail;

the barrel includes:

the upper half barrel body is fixed on the frame and is used for containing the syringe of the prefilled catheter flusher;

the lower half barrel body is supported on the frame in a rotating mode and is positioned under the upper half barrel body, a narrow slit capable of hanging the needle cylinder is formed between the lower half barrel body and the upper half barrel body, and the distance between the narrow slits is larger than the outer diameter of the needle cylinder and smaller than the shortest dimension of the needle cylinder hanging lugs;

the inclined round bottom is supported on the frame in a rotating mode and placed in the lower half barrel body, the highest line of the inclined round bottom is not lower than the narrow slit, and the inclined round bottom is used for supporting the needle cylinder and centrifugally suspending the needle cylinder to the narrow slit;

the straight rail is formed by arranging a first rail edge and a second rail edge at intervals, is butted with the narrow slit and is used for receiving and suspending a needle cylinder centrifugally coming from the narrow slit.

Preferably, the prefilled catheter flusher syringe centrifuge comprises:

the barrel body driving mechanism is connected with the lower barrel body and is used for driving the lower barrel body to rotate;

and the round bottom driving mechanism is connected with the inclined round bottom and is used for driving the inclined round bottom to rotate.

Preferably, the tub driving mechanism has:

a barrel motor;

a pinion gear and a bull gear engaged with each other, the pinion gear being driven by the tub motor;

the barrel body bearing sleeve is fixed on the frame;

the two barrel body bearings are fixed in two ends of the barrel body bearing sleeve;

and the hollow shaft sequentially penetrates through the two barrel body bearings, one end of the hollow shaft is fixed in the gearwheel, and the other end of the hollow shaft is fixed at the bottom of the lower barrel body, so that the lower barrel body is driven to rotate.

Preferably, the round bottom driving mechanism comprises:

a round bottom motor;

the round-bottom bearing sleeve is fixed on the frame and obliquely passes through the hollow shaft in a non-contact manner;

the two round-bottom bearings are fixed in the two ends of the round-bottom bearing sleeve;

and the inclined shaft is sequentially arranged in the two round-bottom bearings in a penetrating manner, one end of the inclined shaft is in driving connection with the round-bottom motor, and the other end of the inclined shaft is fixed at the center of the bottom of the inclined round bottom, so that the inclined shaft is driven to rotate around the inclined round bottom.

Another object of the present invention is to provide a syringe conveying mechanism for a prefilled catheter flusher.

The pre-filled catheter flusher syringe delivery mechanism includes:

the storage bin is used for storing a plurality of syringes;

and the L-shaped inverted feeding unit is connected with the material containing bin and is used for conveying the needle cylinder from the material containing bin.

Preferably, the feeding unit has:

the bottom of the closed synchronous belt is inserted into the material containing bin and is used for conveying the needle cylinder from the material containing bin, a plurality of transmission strips capable of placing the needle cylinder are arranged on the outer surface of the synchronous belt at intervals in parallel, and the inner surface of the synchronous belt is a tooth surface;

and the transmission wheel assembly is meshed with the inner surface of the synchronous belt, is provided with at least one driving wheel and at least one driven wheel, is respectively meshed with the tooth surface of the synchronous belt and is respectively positioned at two end parts of the closed ring of the synchronous belt and used for driving the synchronous belt.

Preferably, the driving wheel of the driving wheel assembly is arranged at the bottom of the synchronous belt closing ring, and the driven wheel of the driving wheel assembly is arranged at the top of the synchronous belt closing ring; the driven wheel includes an at least first driven wheel and an at least second driven wheel, first driven wheel sets up the top of hold-in range closed loop and with the action wheel is on same plumb line, the second driven wheel sets up the top of hold-in range closed loop and with one section distance in first driven wheel interval and lie in same horizontal plane.

Preferably, the feeding unit is further provided with a shaping frame;

the shaping frame is provided with: the two inverted L-shaped outer frame plates which are arranged at intervals are respectively and vertically arranged on the peripheries of two sides of the synchronous belt closed ring, and the synchronous belt is clamped between the two outer frame plates; and shafts of a driving wheel and a driven wheel of the transmission wheel assembly are respectively fixed at corresponding positions of the outer frame plate.

Preferably, the inverted L-shaped outer frame plate has:

the fixing side plate is inverted L-shaped, the shaft of a driving wheel of the transmission wheel assembly is fixed at the bottom of the fixing side plate, and the shaft of a driven wheel of the transmission wheel assembly is fixed at two ends of the top of the fixing side plate;

the upper stable plate is inverted L-shaped, is lapped on the outer long edge and the outer short edge of the shaping side plate and is vertical to the edge of the outer surface of the synchronous belt loading section;

the lower short stable plate is in a short strip shape, is lapped on the inner short edge of the shaping side plate and is vertical to the edge of the outer surface of the synchronous belt unloading section;

and the lower long and stable type plate is in a long strip shape, is lapped on the inner long edge of the shaping side plate and is vertical to the edge of the outer surface of the non-material-carrying section of the synchronous belt.

Preferably, the first and second liquid crystal display panels are,

the shaping frame is also provided with: the two ends of the plurality of outer shaping rods and the two ends of the plurality of inner shaping rods are respectively fixed on the shaping side plates;

the outer shaping rods are arranged in an arc line in a self-rotating mode, are positioned between the lower short stabilizing plate and the lower long stabilizing plate and abut against the outer surface of the synchronous belt unloading section, so that the transmission direction of the synchronous belt unloading section is in arc transition from the lower short stabilizing plate to the lower long stabilizing plate;

the plurality of inner shaping rods are arranged on the inner surface of the non-material-carrying section of the synchronous belt at intervals, and the non-material-carrying section of the synchronous belt is clamped from the inner side and the outer side together with the lower short stable plate, the plurality of outer shaping rods and the lower long stable plate, so that the transmission direction of the non-material-carrying section of the synchronous belt is maintained.

Preferably, the inverted L-shaped outer frame plate further has two long fixing strips and two short fixing strips, which are respectively fixed to the fixing side plates near the outer long edge and the outer short edge and perpendicular to the edge of the inner surface of the synchronous belt loading section, and the upper stabilizing plate and the synchronous belt loading section are clamped from the inner side and the outer side together, so as to maintain the transmission direction of the synchronous belt loading section.

Preferably, the syringe conveying mechanism of the prefilled catheter flusher comprises a base for fixing and supporting the L-shaped inverted feeding unit.

Preferably, the syringe transmission mechanism of the prefilled catheter flusher comprises a motor which is in driving connection with the driving wheel of the transmission wheel component.

The utility model discloses an actively advance the effect and lie in: the utility model provides a pre-filled catheter flusher cylinder feeding machine adopts the mode that pre-filled catheter flusher cylinder transport mechanism combines together with pre-filled catheter flusher cylinder centrifugal device, but the slope round bottom of self rotation is installed to the bottom of pre-filled catheter flusher cylinder centrifugal device in the cask, but slope round bottom is through self high-speed rotation, with the centrifugation of pre-filled catheter flusher cylinder of splendid attire in the cask get rid of in the slot of the ladle body of cask, the hangers of cylinder just hang on the slot, further through the rotation of the next ladle body with the cylinder transport on the straight rail; the syringe conveying mechanism of the prefilled catheter flusher adopts a closed synchronous belt to convey the syringe in the storage bin into a barrel of a syringe centrifugal device of the prefilled catheter flusher. Therefore, all the machines are operated automatically, the labor is saved, and the production efficiency is improved.

The conception, the specific structure and the technical effects of the present invention will be further described with reference to the accompanying drawings, so as to fully understand the objects, the features and the effects of the present invention.

Drawings

FIG. 1 is a schematic view of the top view of the syringe feeder of the prefilled catheter flusher of the present invention;

FIG. 2 is a schematic side view of the syringe transport mechanism of the prefilled catheter flusher of the present invention;

FIG. 3 is a schematic perspective view of the syringe transport mechanism of the pre-filled catheter flusher of the present invention;

FIG. 4 is a schematic perspective view of the inner structure (without side plates and without two side forming frames) of the syringe transmission mechanism of the pre-filled catheter flusher of the present invention;

FIG. 5 is a schematic side view of the inner structure (without side plate and one side shaping frame) of the syringe transmission mechanism of the pre-filled catheter flusher of the present invention;

FIG. 6 is a perspective view of another internal structure (not including a side plate but including a shaping frame) of the syringe delivery mechanism of the pre-filled catheter flusher of the present invention;

FIG. 7 is a schematic view of the structure of the driving wheel of the syringe transmission mechanism of the prefilled catheter flusher of the present invention;

FIG. 8 is a schematic perspective view of the syringe centrifuge of the prefilled catheter flusher of the present invention;

FIG. 9 is a schematic view of another perspective structure of the syringe centrifugal device of the prefilled catheter flusher of the present invention;

FIG. 10 is a schematic sectional view of the barrel driving mechanism and the round-bottom barrel driving mechanism of the syringe centrifugal device of the prefilled catheter flusher of the present invention;

fig. 11 is a schematic structural view of a syringe 91 according to the prior art.

Detailed Description

As shown in fig. 1, the pre-filled catheter flusher syringe feeder of the present invention includes a pre-filled catheter flusher syringe conveying mechanism 10 and a pre-filled catheter flusher syringe centrifugal device 20 for sorting the syringes conveyed by the pre-filled catheter flusher syringe conveying mechanism 10.

As shown in fig. 2 to 7, the syringe conveying mechanism 10 of the prefilled catheter flusher includes a storage bin 11, an L-shaped inverted feeding unit 18 and a base 19. The L-shaped inverted feeding unit 18 comprises a closed synchronous belt 12, a driving wheel assembly 13 and a shaping frame 14. The storage bin 11 is used for storing a prefilled catheter flusher syringe. The bottom of the closed synchronous belt 12 is inserted into the material containing bin 11, a plurality of transmission strips 121 capable of placing a needle cylinder are arranged on the outer surface of the synchronous belt 12 at intervals in parallel, and the inner surface of the synchronous belt is a tooth surface. The driving wheel assembly 13 is engaged with the inner surface of the timing belt 12, and the driving wheel assembly 13 has three driving wheels 131, a first driven wheel 132a and a second driven wheel 132b connected in series, which are respectively engaged with the tooth surface of the timing belt 12 and respectively located at the two end portions of the closed loop of the timing belt for driving the timing belt. The driving wheel 131 of the driving wheel assembly 13 is disposed at the bottom of the closed loop of the timing belt 12 and driven by a motor (not shown), the first driven wheel 132a is disposed at the top of the closed loop of the timing belt and is on the same vertical line with the driving wheel 131, and the second driven wheel 132b is disposed at the top of the closed loop of the timing belt 12 and is spaced apart from the first driven wheel 132a by a distance and is located on the same horizontal plane.

The shaping frame 14 is used for shaping the timing belt 12 into an inverted L shape and supporting the timing belt 12. The shaping frame 14 has two inverted L-shaped outer frame plates 141 arranged at intervals, and is respectively and vertically arranged at the periphery of two sides of a closed loop of the synchronous belt 12, and the synchronous belt 12 is clamped between the two outer frame plates 141; the shafts of the driving pulley 131, the first driven pulley 132a and the second driven pulley 132b of the transmission wheel assembly 13 are fixed at corresponding positions of the outer frame plate, respectively.

The inverted-L outer frame panel 141 has a shaped side panel 1411, an upper stabilizing panel 1412, a lower short stabilizing panel 1413, and a lower long stabilizing panel 1414. The shaping side plate 1411 is of an inverted-L shape, the shaft of the driving wheel 131 of the driving wheel assembly 13 is fixed at the bottom of the shaping side plate 1411, and the shafts of the first driven wheel 132a and the second driven wheel 132b of the driving wheel assembly 13 are fixed at two ends of the top of the shaping side plate 1411. The upper stable plate 1412 is of an inverted L shape, is lapped on the outer long edge and the outer short edge of the shaping side plate 1411, and is perpendicular to the edge of the outer surface of the material loading section of the synchronous belt 12. The lower short and stable plate 1413 is a short strip and is lapped on the inner short edge of the shaping side plate 1411 and is perpendicular to the edge of the outer surface of the non-material-carrying section of the synchronous belt 12. The lower long and stable plate 1414 is a strip-shaped plate, and is lapped on the inner long edge of the shaping side plate 1411 and is vertical to the edge of the outer surface of the non-material-carrying section of the synchronous belt. The sizing frame 14 further has: a plurality of outer shaping bars 1415 and a plurality of inner shaping bars 1416, both ends of which are fixed to the shaping side plates 1411, respectively. The outer shaping rods 1415 are arranged in an arc line, are positioned between the lower short stable plate 1413 and the lower long stable plate 1414 and abut against the outer surface of the non-material-carrying section of the synchronous belt 12, so that the transmission trend of the non-material-carrying section of the synchronous belt 12 is in arc transition from the lower short stable plate 1413 to the lower long stable plate 1414, and the outer shaping rods 1415 rotate along with the transmission motion of the synchronous belt 12, so that the synchronous belt 12 is more smoothly transited. A plurality of inner shaping rods 1416 are arranged on the inner surface of the non-material-carrying section of the synchronous belt 12 at intervals, two ends of each inner shaping rod 1416 are fixed on the shaping side plates 1411, and the inner shaping rods, the lower short stabilizing plate 1413, the plurality of outer shaping rods 1415 and the lower long stabilizing plate 1414 clamp the non-material-carrying section of the synchronous belt 12 from the inner side and the outer side together to maintain the transmission direction of the non-material-carrying section of the synchronous belt 12. The inverted L-shaped outer frame plate 141 further has a long fixing strip 1416 and a short fixing strip 1417, which are respectively fixed to the fixing side plates 1411 near the outer long edge and the outer short edge and perpendicular to the edges of the inner surface of the material loading section of the synchronous belt 12, and sandwich the material loading section of the synchronous belt 12 from the inner side and the outer side together with the upper fixing plate 1412, so as to maintain the transmission direction of the material loading section of the synchronous belt 13.

As shown in FIGS. 8-10, the syringe centrifuge 20 of the prefilled catheter flusher comprises a frame 21, a barrel 22 fixed and supported on the frame 21, and a straight rail 23 extending from the half waist of the barrel 22. The drum 22 comprises an upper half-tub 221, a lower half-tub 222 and an inclined round bottom 223. The upper barrel body 221 is fixed on the frame 21 and used for containing a syringe of the prefilled catheter flusher, the upper barrel body 221 is positioned below the top of the closed synchronous belt 12, and the syringe conveyed by the closed synchronous belt 12 is contained in the barrel 22; the lower half-barrel 222 is rotatably supported on the frame 21 and located under the upper half-barrel 221, a narrow slit 224 for hanging the syringe is formed between the lower half-barrel 222 and the upper half-barrel 221, the distance between the narrow slits 224 is larger than the outer diameter of the syringe and smaller than the shortest dimension of the syringe hanging lug, and the lower half-barrel 222 has a bevel edge 2221 outside the narrow slit 224 for hanging the syringe in an inclined manner. An inclined round bottom 223 rotatably supported on the frame 21 is arranged in the lower half barrel 222, the highest line of the inclined round bottom 223 is not lower than the narrow slit 224, and the inclined round bottom 223 is used for supporting the needle cylinder and suspending the needle cylinder to the narrow slit 224 by hanging the needle cylinder by a hanger thereof centrifugally. The straight rail 23 is formed by a first rail edge 231 and a second rail edge 232 which are arranged at intervals, and the straight rail 23 is butted with the narrow slit 224 and used for receiving and suspending a needle cylinder which is centrifugally coming from the narrow slit 224. The pre-filled catheter flusher syringe centrifuge 20 also includes a barrel drive mechanism 24 and a round bottom drive mechanism 25. The barrel body driving mechanism 24 is connected with the lower barrel body 222 and is used for driving the lower barrel body 222 to rotate; the round bottom driving mechanism 25 is connected with the inclined round bottom 223 and is used for driving the inclined round bottom 223 to rotate. The tub driving mechanism 24 has a tub motor 241, a pinion gear 242 and a bull gear 243 engaged with each other, the pinion gear 242 is driven by the tub motor 241, a tub bearing housing 244 is fixed on the frame 21, two tub bearings 245 are fixed in both ends of the tub bearing housing 244, a hollow shaft 246 is sequentially inserted in the two tub bearings 244, one end is fixed in the bull gear 243, and the other end is fixed at the bottom of the lower half tub 222, thereby driving the lower half tub 222 to rotate. The round bottom driving mechanism 25 has a round bottom motor 251, a round bottom bearing sleeve 252 fixed on the frame 21 and non-contact slantingly inserted into the hollow shaft 246, two round bottom bearings 253 fixed in two ends of the round bottom bearing sleeve 252, a slant shaft 254 sequentially inserted into the two round bottom bearings 253, one end of which is connected with the round bottom motor 251 in a driving way, and the other end of which is fixed in the center of the bottom of the slant round bottom 223, thereby driving the slant round bottom 223 to rotate. The distance between the first rail edge 231 and the second rail edge 232 of the straight rail 23 is larger than the outer diameter of the needle cylinder and smaller than the shortest dimension of the needle cylinder hanging lug so as to be convenient for hanging the needle cylinder.

The utility model discloses a theory of operation of pre-filled catheter flusher cylinder material loading machine is, the motor drive action wheel 131 of pre-filled catheter flusher cylinder transport mechanism 10, thereby drive the year material section up-motion of closed hold-in range 12, the transmission strip 121 of hold-in range 12 takes over the splendid attire cylinder in flourishing feed bin 11, and the cylinder follows transmission strip 121 up to convey to the summit department of the hold-in range 12 that first follower 132a supported, resume parallel transfer again to the summit of the hold-in range 12 that second follower 132b supported, then down pour in the cask 22 of pre-filled catheter flusher cylinder centrifugal device 20. The inclined round bottom 223 in the barrel 22 is driven by the round bottom motor 251 to rotate around the center of the round bottom, so as to drive the needle cylinder in the barrel 22 to rotate at high speed, and the needle cylinder is thrown to the edge of the barrel 22 due to the centrifugal force. Due to the slit 224, the barrel body of the syringe is thrown out of the barrel 22, and the syringe is hung by the slit 224. And the lower half barrel 222 is driven by the barrel motor 241 to rotate, and the syringes are hung on the narrow slits 224 and are continuously conveyed to the straight rails 23, so that the disordered syringes in the storage bin 11 are orderly arranged on the straight rails 23.

Claims

1. A pre-filled catheter flusher syringe conveying mechanism is characterized by comprising:

the storage bin is used for storing a plurality of syringes;

2. A pre-filled catheter flusher syringe delivery mechanism as set forth in claim 1, wherein said feed unit has:

3. A pre-filled catheter flusher syringe transfer mechanism as set forth in claim 2,

a driving wheel of the transmission wheel assembly is arranged at the bottom of the synchronous belt closed ring, and a driven wheel of the transmission wheel assembly is arranged at the top of the synchronous belt closed ring; the driven wheel includes an at least first driven wheel and an at least second driven wheel, first driven wheel sets up the top of hold-in range closed loop and with the action wheel is on same plumb line, the second driven wheel sets up the top of hold-in range closed loop and with one section distance in first driven wheel interval and lie in same horizontal plane.

4. A pre-filled catheter flusher syringe delivery mechanism as set forth in claim 3 wherein said feed unit further includes a sizing frame;

5. A pre-filled catheter flusher syringe transfer mechanism as set forth in claim 4 wherein said inverted L-shaped outer frame plate has:

6. A pre-filled catheter flusher syringe transfer mechanism as set forth in claim 5,

7. A pre-filled catheter flusher syringe conveying mechanism according to claim 5, wherein the inverted L-shaped outer frame plate further includes two long and two short shaping strips fixed to the shaping side plates near the outer long and short edges and perpendicular to the edges of the inner surface of the synchronous belt loading section, and the upper stabilizing plate sandwich the synchronous belt loading section from the inner and outer sides to maintain the conveying direction of the synchronous belt loading section.

8. A pre-filled catheter flusher syringe delivery mechanism as set forth in claim 1 wherein said pre-filled catheter flusher syringe delivery mechanism includes a base for securing and supporting said L-shaped inverted feed unit.

9. A pre-filled catheter flusher syringe transfer mechanism as set forth in claim 2 wherein said pre-filled catheter flusher syringe transfer mechanism includes a motor drivingly connected to said drive wheel of said drive wheel assembly.