CN114469534B

CN114469534B - Post-blood-test disinfection treatment equipment for infants in hematology department

Info

Publication number: CN114469534B
Application number: CN202210034212.6A
Authority: CN
Inventors: 吴桂凤
Original assignee: Nanjing Nanyu Health Industry Technology Research Institute Co ltd
Current assignee: Nanjing Nanyu Health Industry Technology Research Institute Co ltd
Priority date: 2022-01-13
Filing date: 2022-01-13
Publication date: 2023-08-01
Anticipated expiration: 2042-01-13
Also published as: CN114469534A

Abstract

The invention relates to disinfection treatment equipment, in particular to disinfection treatment equipment for infants in hematology after blood test. Mainly provides a disinfection treatment device for the infant after blood test in the hematology department, which is used for limiting the arms of the infant and preventing the operation from being affected. An apparatus for disinfecting and treating the blood of a baby in the hematology department after blood test, comprising: the device comprises a shell, a placing ring, a fixing mechanism and a positioning mechanism, wherein the placing ring is arranged at the bottom of the inner wall of the shell, the fixing mechanism is arranged on the placing ring, and one side of the shell is connected with the positioning mechanism. The fixing mechanism and the positioning mechanism are arranged to drive the gear ring to limit the arms of the infants, so that the infants are prevented from overacting to influence the operation, and basic functions are realized; through setting up trigger mechanism, drive the automatic rotation of ring gear and carry out spacingly to the arm, need not the manual operation.

Description

Post-blood-test disinfection treatment equipment for infants in hematology department

Technical Field

The invention relates to disinfection treatment equipment, in particular to disinfection treatment equipment for infants in hematology after blood test.

Background

The cotton ball is fixed on a stick, and after blood test or injection is carried out on a baby or infant with smaller age, the cotton ball is needed to be used for disinfecting and stopping bleeding at a needle hole, so that most of the infant can cry after blood test or injection, parents can hardly restore the emotion of the child to calm in a short time, and time delay is caused for later disinfection, so that the injection effect is affected.

Therefore, the device for disinfecting and treating the post-blood-test infants in the hematology department needs to be designed for limiting the arms of the infants, preventing the operations from being affected and automatically disinfecting.

Disclosure of Invention

In order to solve the defects that when a cotton swab is taken for a gram to disinfect and stop bleeding on a needle hole, an infant cannot calm quickly, and the post disinfection is delayed in time to influence the injection effect, the technical problem to be solved is that: provides a disinfection treatment device for automatically disinfecting after blood examination of a blood family infant, which limits the arms of the infant and prevents the operation from being affected.

The technical scheme of the invention is as follows: the utility model provides a disinfection treatment facility after blood branch of academic or vocational study infant tests blood, includes the shell, places circle, fixed establishment and positioning mechanism, and shell inner wall bottom is equipped with places the circle, places to enclose and is equipped with fixed establishment, and shell one side is connected with positioning mechanism.

As a preferable technical scheme of the invention, the fixing mechanism comprises a first bearing seat, a first gear, a gear ring and a first spring, wherein the first bearing seat is symmetrically arranged on one side of the inner wall of the shell, the first gear is rotationally connected between the first bearing seats, the gear ring is arranged on the placing ring in an embedded sliding manner, and the first spring is connected between the gear ring and the placing ring.

As a preferable technical scheme of the invention, the positioning mechanism comprises a guide plate, a positioning plate and second springs, wherein one side of the inner wall of the shell is provided with the guide plate, the guide plate is connected with the positioning plate in a sliding manner, and 3 second springs are connected between the positioning plate and the guide plate.

As a preferable technical scheme of the invention, the invention further comprises a triggering mechanism, wherein the triggering mechanism comprises a lower pressing plate, a third spring, a first rack, a second gear and a transmission component, the lower pressing plate is arranged on the placing ring in a sliding manner, the first rack is arranged at the bottom of the lower pressing plate, the third spring is connected between the first rack and the bottom of the inner wall of the shell, the second gear is symmetrically and rotatably arranged at the middle side of the bottom of the inner wall of the shell through a one-way clutch, the second gears are meshed with each other, and the transmission component is connected between the rotating shaft of the second gear at one side and the rotating shaft of the first gear.

As a preferred technical scheme of the invention, the sterilization mechanism further comprises a sterilization mechanism, wherein the sterilization mechanism comprises a second rack, a guide block, a first fixed rod, a fourth spring, an injection cylinder, an injection rod, a fifth spring, a first reel, a second reel, a torsion spring and a hydraulic pump, wherein one side of the inner wall of the shell is provided with the guide block, the guide block is provided with the first fixed rod in a sliding mode, the fourth spring is connected between the first fixed rod and the top of the guide block, the lower part of the first fixed rod is connected with the second rack, the second rack is matched with the second gear, one side of the first fixed rod is connected with the injection cylinder, the injection rod is arranged on the injection cylinder in a sliding mode, the fifth spring is connected between the injection rod and the top of the injection cylinder, the first reel is rotatably arranged on the inner wall of the middle part of the shell, the torsion spring is connected between the inner side of the second reel and the shell, the hydraulic pump is connected with the injection tube is arranged on one side of the inner wall of the shell, and the injection tube bypasses the first reel and the second reel and is connected on the first fixed rod.

As a preferable technical scheme of the invention, the novel anti-theft lock comprises a locking mechanism, wherein the locking mechanism comprises a first wedge block, a first sliding rail, a sixth spring, a guide rod and a fixing frame, the two sides of the inner wall of the upper part of the shell are respectively provided with the first sliding rail, the guide rod is arranged in the first sliding rail in a sliding manner, the sixth spring is connected between the outer side of the guide rod and the first sliding rail, the first wedge block is connected on the guide rod in a sliding manner, one side of the inner wall of the shell is connected with the fixing frame, and the fixing frame is matched with the first wedge block.

As a preferred technical scheme of the cotton feeding mechanism, the cotton feeding mechanism comprises a second sliding rail, a connecting rod, a material frame, a pressing plate, a seventh spring, a sliding rod, a cotton sucking block, an eighth spring, a third rack, a fourth gear, a second fixing rod and a ninth spring, wherein the two sides of the inner wall of the shell are connected with the second sliding rail, the connecting rod is connected between the second sliding rails in a sliding mode, the material frame is connected to the top of the connecting rod, the pressing plate is arranged on the material frame in a sliding mode, the seventh spring is connected between the pressing plate and the top of the material frame, the sliding rod is connected to the bottom of the connecting rod, the ninth spring is connected between the bottom of the sliding rod and the connecting rod, the cotton sucking block is arranged on the sliding rod in a sliding mode, a plurality of cotton sheets are placed between the cotton sucking block and the sliding rod, the eighth spring is connected to one side of the inner wall of the shell, the other side of the inner wall of the shell is connected with the second fixing rod in a sliding mode, one side of the second fixing rod is connected with the fourth gear in a rotating mode, and the connecting shaft of the fourth gear is connected with the cotton sucking block.

As a preferable technical scheme of the invention, the gear ring is made of plastic material.

The invention has the beneficial effects that: the fixing mechanism and the positioning mechanism are arranged to drive the gear ring to limit the arms of the infants, so that the infants are prevented from overacting to influence the operation, and basic functions are realized; the trigger mechanism is arranged to drive the gear ring to automatically rotate to limit the arm, so that the operation of a human hand is not needed; the arm of the infant is automatically disinfected by arranging the disinfecting mechanism and the clamping mechanism, so that the operation is simple; by arranging the cotton feeding mechanism, the cotton sheets are driven to automatically fall on the arms of infants, and automatic disinfection treatment is realized.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional perspective view of the present invention.

Fig. 3 is a schematic perspective view of a first part of the present invention.

Fig. 4 is a schematic perspective view of a second part of the present invention.

Fig. 5 is a schematic perspective view of a third portion of the present invention.

Fig. 6 is a schematic perspective view of a fourth part of the present invention.

Fig. 7 is a schematic perspective view of a fifth part of the present invention.

Marked in the figure as: 1-housing, 2-placing ring, 3-fixing mechanism, 30-first bearing seat, 31-first gear, 32-gear ring, 33-first spring, 4-positioning mechanism, 40-guide plate, 41-positioning plate, 42-second spring, 5-triggering mechanism, 50-lower press plate, 51-third spring, 52-first rack, 53-second gear, 54-transmission component, 6-sterilizing mechanism, 60-second rack, 61-guide block, 62-first fixed rod, 63-fourth spring, 64-syringe, 65-injection rod, 66-fifth spring, 67-first reel, 68-second reel, 69-torsion spring, 610-hydraulic pump, 7-clamping mechanism, 70-first wedge block, 71-first slide rail, 72-sixth spring, 73-guide rod, 74-fixing frame, 8-upper cotton feeding mechanism, 80-second slide rail, 81-connecting rod, 82-material frame, 83-pressing plate, 84-seventh spring, 85-slide rod, 86-suction block, 88-fourth reel, 68-second rack, 88-third spring, and 810-ninth spring.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but does not limit the scope of protection and the application of the invention.

Example 1

The utility model provides a disinfection treatment facility behind blood branch of academic or vocational study infant blood test, as shown in fig. 1 through 3, including shell 1, place circle 2, fixed establishment 3 and positioning mechanism 4, shell 1 inner wall bottom front side is equipped with places circle 2, places and is equipped with fixed establishment 3 on circle 2, and shell 1 right side is connected with positioning mechanism 4.

The fixing mechanism 3 comprises a first bearing seat 30, a first gear 31, a gear ring 32 and a first spring 33, wherein the first bearing seat 30 is symmetrically arranged on the left side of the inner wall of the shell 1, the first gear 31 is rotationally connected between the first bearing seats 30, the gear ring 32 is arranged on the front portion of the placing ring 2 in an embedded sliding manner, and the first spring 33 is connected between the gear ring 32 and the placing ring 2.

The positioning mechanism 4 comprises a guide plate 40, a positioning plate 41 and second springs 42, the front side of the inner wall of the shell 1 is provided with the guide plate 40, the guide plate 40 is connected with the positioning plate 41 in a sliding manner, and 3 second springs 42 are connected between the positioning plate 41 and the left side of the guide plate 40.

Can put infant's arm on placing circle 2 through shell 1, rotate first gear 31 and drive the ring gear 32 upwards rotate the cooperation and place circle 2 and carry out spacing to the arm, first spring 33 is compressed, when ring gear 32 rotates and locating plate 41 contact, locating plate 41 moves to the right side and drives second spring 42 and be compressed, wait that ring gear 32 rotates to suitable position, stop rotating ring gear 32, second spring 42 resets and drives locating plate 41 and move leftwards and block ring gear 32, so alright fixing infant's arm, the disinfection operation finishes, manual removal with locating plate 41 right side no longer blocks ring gear 32, second spring 42 is compressed, first spring 33 resets and drives ring gear 32 rotation reset and no longer carries out spacing to the arm simultaneously.

Example 2

On the basis of embodiment 1, as shown in fig. 4 and 5, the device further comprises a triggering mechanism 5, the triggering mechanism 5 comprises a lower pressing plate 50, a third spring 51, a first rack 52, a second gear 53 and a transmission component 54, the lower pressing plate 50 is slidably arranged at the rear part of the placement ring 2, the first rack 52 is arranged at the bottom of the lower pressing plate 50, the third spring 51 is connected between the first rack 52 and the bottom of the inner wall of the shell 1, the second gear 53 is symmetrically and rotatably arranged on the middle side of the bottom of the inner wall of the shell 1 through a one-way clutch, the second gears 53 are meshed with each other, and the transmission component 54 is connected between the rotating shaft of the left second gear 53 and the rotating shaft of the first gear 31.

When the arm is positioned on the placing ring 2, the lower pressing plate 50 is driven by gravity to move downwards to drive the first rack 52 to move downwards to contact with the second gear 53, the third spring 51 is compressed, the second gear 53 rotates to drive the first gear 31 to rotate through the transmission component 54, so that hands are not required to rotate, the arm leaves the placing ring 2 after sterilization, no force is applied to the lower pressing plate 50, the third spring 51 resets, the lower pressing plate 50 is driven by the first rack 52 to move upwards to reset, and at the moment, the second gear 53 is driven by the one-way clutch and does not drive the transmission component 54 to move.

The disinfection mechanism 6 comprises a second rack 60, a guide block 61, a first fixed rod 62, a fourth spring 63, a syringe 64, a syringe rod 65, a fifth spring 66, a first winding wheel 67, a second winding wheel 68, a torsion spring 69 and a hydraulic pump 610, wherein the left side of the inner wall of the shell 1 is provided with the guide block 61, the guide block 61 is provided with the first fixed rod 62 in a sliding manner, the fourth spring 63 is connected between the first fixed rod 62 and the top of the guide block 61, the lower part of the first fixed rod 62 is connected with the second rack 60, the second rack 60 is matched with the second gear 53, the upper part of the first fixed rod 62 is connected with the syringe barrel 64, the syringe barrel 64 is provided with the syringe rod 65 in a sliding manner, the syringe rod 65 penetrates through the shell 1, the syringe rod 65 and the top of the syringe barrel 64 are connected with the fifth spring 66, the rear side of the inner wall of the upper part of the shell 1 is rotatably provided with the first winding wheel 67, the rear side of the inner wall of the middle part of the shell 1 is rotatably provided with the second winding wheel 68, the torsion spring 69 is connected between the inner side of the second winding wheel 68 and the shell 1, the rear side of the inner side of the shell 1 is provided with the second winding wheel 610, the rear side of the inner wall of the shell 1 is connected with the second winding wheel 610, the first winding wheel is connected with the second winding wheel 610 and the first winding wheel is connected with the first winding wheel 67.

The second gear 53 rotates to drive the second rack 60 to move downwards, the second rack 60 moves downwards to drive the first fixing rod 62 to move downwards, the fourth spring 63 is compressed, the first fixing rod 62 moves downwards to drive the injection tube 64 to move downwards, the injection tube 64 drives the first winding wheel 67 and the second winding wheel 68 to rotate through the injection tube, the second winding wheel 68 rotates to drive the torsion spring 69 to deform, the hydraulic pump 610 is started, the hydraulic pump 610 pumps injection into the injection tube 64, the hydraulic pump 610 stops operating, then the injection rod 65 is manually pushed to move downwards to apply pressure to the injection, the injection is sprayed to infants, at the moment, the fifth spring 66 is compressed, after disinfection is finished, the injection rod 65 is stopped to be pushed, the fifth spring 66 resets to drive the injection rod 65 to move upwards to reset, meanwhile, the second gear 53 stops rotating, the second rack 60 is not stressed, the fourth spring 63 resets to drive the injection tube 64 to move upwards through the first fixing rod 62, and the injection tube is not stressed to drive the torsion spring 69 to reset.

Example 3

On the basis of embodiment 2, as shown in fig. 6 and 7, the device further comprises a clamping mechanism 7, the clamping mechanism 7 comprises a first wedge block 70, a first sliding rail 71, a sixth spring 72, a guide rod 73 and a fixing frame 74, the left side and the right side of the inner wall of the upper portion of the shell 1 are respectively provided with the first sliding rail 71, the guide rod 73 is respectively arranged in the first sliding rail 71 in a sliding manner, the sixth spring 72 is connected between the outer side of the guide rod 73 and the first sliding rail 71, the first wedge block 70 is connected on the guide rod 73 in a sliding manner, an elastic piece is connected between the first wedge block 70 and the guide rod 73, the right side of the inner wall of the shell 1 is connected with the fixing frame 74, and the fixing frame 74 is matched with the first wedge block 70.

The first wedge block 70 clamps the injection rod 65 in the initial state, the injection tube 64 moves downwards to drive the upper part of the injection rod 65 to move downwards, the injection rod 65 does not move, the fifth spring 66 is stretched, after the fifth spring 66 is stretched to the greatest extent, the injection tube 64 continues to move downwards, the first wedge block 70 is driven to move downwards through the fifth spring 66, the elastic piece is compressed, after the first wedge block 70 moves downwards to be in contact with the fixing frame 74, the first wedge block 70 and the guide rod 73 move outwards to not clamp the injection rod 65 any more, at the moment, the sixth spring 72 is compressed, meanwhile, the fifth spring 66 is reset to drive the injection rod 65 to move downwards to complete disinfection, the injection rod 65 does not apply force to the first wedge block 70 any more, the sixth spring 72 and the elastic piece are reset to drive the first wedge block 70 and the guide rod 73 to reset, after the disinfection is completed, the injection rod 65 is driven to move upwards to drive the injection rod 65 to contact with the first wedge block 70 again, the first wedge block 70 and the guide rod 73 are driven to move outwards to compress the sixth spring 72, and when the injection rod 65 moves upwards to not apply force to the first wedge block 70 any more, and the reset spring 72 is driven to clamp the guide rod 73 to move inwards.

The cotton feeding mechanism 8 comprises a second sliding rail 80, a connecting rod 81, a material frame 82, a pressing plate 83, a seventh spring 84, a sliding rod 85, a cotton sucking block 86, an eighth spring 87, a third rack 88, a fourth gear 89, a second fixing rod 810 and a ninth spring 811, wherein the left side and the right side of the inner wall of the rear portion of the shell 1 are respectively connected with the second sliding rail 80, the connecting rod 81 is connected between the second sliding rails 80, the top of the connecting rod 81 is connected with the material frame 82, the pressing plate 83 is arranged on the material frame 82 in a sliding manner, a seventh spring 84 is connected between the pressing plate 83 and the top of the material frame 82, the bottom of the connecting rod 81 is connected with the sliding rod 85, a ninth spring 811 is connected between the bottom of the sliding rod 85 and the connecting rod 81, the cotton sucking block 86 is arranged on the sliding rod 85, a plurality of cotton sheets are placed between the material frame 82 and the pressing plate 83, the eighth spring 87 is connected between the front side of the cotton sucking block 86 and the sliding rod 85, the front side of the inner wall of the shell 1 is provided with the third rack 88, the second fixing rod is connected with the second fixing rod 89 in a sliding manner, the front side of the fourth gear 810 is connected with the fourth gear 89, and the fourth gear is connected with the cotton sucking block 89.

After the cotton sheets are put in, the pressing plate 83 moves upwards to drive the seventh spring 84 to be stretched, the cotton sucking block 86 can absorb the bottommost cotton sheets, after disinfection, an operator can push the second fixing rod 810 to move forwards to drive the upper part of the cotton sucking block to move forwards, when the connecting rod 81 moves to the condition that the cotton sucking block cannot move forwards continuously, the second fixing rod 810 continues to move forwards to drive the eighth spring 87 to be compressed through the cotton sucking block 86, when the cotton sucking block 86 moves to the extreme, the fourth gear 89 is in contact with the third rack 88, a worker can push the second fixing rod 810 to drive the fourth gear 89 to rotate, under the guiding effect of the third rack 88, the fourth gear 89 moves downwards to drive the sliding rod 85 to move downwards through the cotton sucking block 86, the ninth spring 811 is compressed, so that the cotton sucking block 86 moves downwards to drive the cotton sheets to the disinfected arms to recover, the healed wounds are matched, the second fixing rod 810 stops being pushed, the eighth spring 87 resets to drive the cotton sucking block 86 to move backwards, the fourth gear 89 does not contact with the third rack 88, and the ninth spring 811 resets to drive the sliding rod 85 and the upper part to move upwards to drive the cotton sucking block 86 to move backwards, and then the second fixing rod 810 is reset to be sucked and reset to the cotton sheets manually.

The embodiments described above are intended to provide those skilled in the art with a full range of modifications and variations to the embodiments described above without departing from the inventive concept thereof, and therefore the scope of the invention is not limited by the embodiments described above, but is to be accorded the broadest scope consistent with the innovative features recited in the claims.

Claims

1. The utility model provides a disinfection treatment facility after blood branch of academic or vocational study infant is proved blood which characterized in that includes: the device comprises a shell (1), a placing ring (2), a fixing mechanism (3) and a positioning mechanism (4), wherein the placing ring (2) is arranged at the bottom of the inner wall of the shell (1), the fixing mechanism (3) is arranged on the placing ring (2), and one side of the shell (1) is connected with the positioning mechanism (4); the fixing mechanism (3) comprises: the novel gear rack comprises a first bearing seat (30), a first gear (31), a gear ring (32) and a first spring (33), wherein the first bearing seat (30) is symmetrically arranged on one side of the inner wall of a shell (1), the first gear (31) is rotationally connected between the first bearing seats (30), the gear ring (32) is arranged on a placing ring (2) in an embedded sliding manner, and the first spring (33) is connected between the gear ring (32) and the placing ring (2); the positioning mechanism (4) comprises: the device comprises a guide plate (40), a positioning plate (41) and second springs (42), wherein the guide plate (40) is arranged on one side of the inner wall of the shell (1), the positioning plate (41) is connected onto the guide plate (40) in a sliding mode, and 3 second springs (42) are connected between the positioning plate (41) and the guide plate (40); the device also comprises a triggering mechanism (5), wherein the triggering mechanism (5) comprises: holding down plate (50), third spring (51), first rack (52), second gear (53) and drive assembly (54), place and be equipped with holding down plate (50) on circle (2) slidingtype, holding down plate (50) bottom is equipped with first rack (52), be connected with third spring (51) between first rack (52) and shell (1) inner wall bottom, shell (1) inner wall bottom downside is equipped with second gear (53) through one-way clutch symmetry rotation, second gear (53) intermesh, be connected with drive assembly (54) between the axis of rotation of one side second gear (53) and the axis of rotation of first gear (31).

2. A post-test disinfection treatment apparatus as claimed in claim 1, further comprising a disinfection mechanism (6), said disinfection mechanism (6) comprising: the second rack (60), the guide block (61), the first dead lever (62), the fourth spring (63), the injection cylinder (64), the injection rod (65), the fifth spring (66), the first reel (67), the second reel (68), the torsion spring (69) and the hydraulic pump (610), guide block (61) are arranged on one side of the inner wall of the shell (1), first dead lever (62) is arranged on the guide block (61) in a sliding manner, fourth spring (63) is connected between the first dead lever (62) and the top of the guide block (61), the second rack (60) is connected to the lower portion of the first dead lever (62), the second rack (60) is matched with the second gear (53), the injection cylinder (64) is connected to one side of the first dead lever (62), the injection cylinder (64) is provided with the injection rod (65) in a sliding manner, the fifth spring (66) is connected between the injection rod (65) and the top of the injection cylinder (64), the first reel (67) is rotatably arranged on the inner wall of the upper portion of the shell (1), the second reel (68) is rotatably arranged on the inner wall of the middle portion of the shell (1), the second reel (68) is connected to the inner wall of the shell (69), the hydraulic pump (610) is connected to one side of the injection cylinder (610), the injection tube is connected to the first fixed rod (62) by bypassing the first reel (67) and the second reel (68).

3. A post-test disinfection treatment device for a hematology child according to claim 2, further comprising a detent mechanism (7), wherein the detent mechanism (7) comprises: the novel anti-collision device comprises a first wedge block (70), a first sliding rail (71), a sixth spring (72), guide rods (73) and a fixing frame (74), wherein the first sliding rail (71) is arranged on two sides of the inner wall of the upper portion of a shell (1), the guide rods (73) are arranged in the first sliding rail (71) in a sliding mode, the sixth spring (72) is connected between the outer side of each guide rod (73) and the first sliding rail (71), the first wedge block (70) is connected to the guide rods (73) in a sliding mode, the fixing frame (74) is connected to one side of the inner wall of the shell (1), and the fixing frame (74) is matched with the first wedge block (70).

4. A post-test disinfection treatment apparatus for a blood department infant as claimed in claim 3, further comprising an upper cotton mechanism (8), wherein the upper cotton mechanism (8) comprises: the second slide rail (80), the connecting rod (81), the material frame (82), the material pressing plate (83), the seventh spring (84), the slide bar (85), inhale cotton piece (86), eighth spring (87), third rack (88), fourth gear (89), second dead lever (810) and ninth spring (811), shell (1) inner wall both sides all are connected with second slide rail (80), sliding connection has connecting rod (81) between second slide rail (80), connecting rod (81) top is connected with material frame (82), sliding connection is equipped with material pressing plate (83) on material frame (82), be connected with seventh spring (84) between material pressing plate (83) and material frame (82) top, connecting rod (81) bottom sliding connection has slide bar (85), be connected with ninth spring (811) between slide bar (85) bottom and connecting rod (81), a plurality of cotton pieces have been placed between material frame (82) and the material pressing plate (83), be connected with shell (86) and eighth spring (87) between material frame (85), shell (1) inner wall (88) side is fixed in a sliding connection, one side of the second fixing rod (810) is rotatably connected with a fourth gear (89), and a connecting shaft of the fourth gear (89) is connected with the cotton suction block (86).

5. A post-clinical laboratory blood test disinfection apparatus according to claim 1, wherein: the gear ring (32) is made of plastic.