CN116372767B - Dust protected titanium alloy orthopedics apparatus sander - Google Patents

Abstract

The application provides a dust-proof titanium alloy orthopedic instrument sander applied to the field of instrument sanding, in the sanding process, small particle dust is transferred into an interception net frame through a suction pipe, meanwhile suction wind force drives the interception net frame to shake, so that an internal follow-up cleaning ball is driven to randomly move in the interception net frame, the dust adsorbed and blocked on the inner surface of the interception net frame can be scraped by virtue of the impact between the follow-up cleaning ball and an inner wall piece of the interception net frame and the subsequent sliding off, the scraped dust falls into a dust collecting drawer along a hose, the dust adsorbed and blocked inside the interception net frame can be swayed and cleaned, the possibility of secondary adsorption and interception of the dust is reduced, and the dust adsorbed and blocked tightly can be taken away by virtue of the glue cleaning ball when the follow-up cleaning ball is in impact contact with the inner wall of the interception net frame, so that the adsorption and interception net frame can be further cleaned.

Description

Dust protected titanium alloy orthopedics apparatus sander

Technical Field

The application relates to the field of instrument polishing, in particular to a dust-proof titanium alloy orthopedic instrument polisher.

Background

The medical titanium alloy is used as a novel alloy and is also a carrier material, and is widely applied to the relevant fields of limb implantation, alternative functional materials, dentistry, medical instruments and the like, wherein titanium and titanium alloy have high strength, good chemical stability and biocompatibility, no toxicity and low elastic modulus, are further matched with human bones, and have elastic capacity and shape recovery function of memory alloy, and the titanium and titanium alloy is used as a preferable material of an orthopedic implant restoration, but before medical implantation, a polisher is needed to be used for polishing treatment.

When the existing sander is used, the combination of the closed cover type structure and the suction structure is used for dustproof treatment, so that the influence of the diffusion of the dust generated in the sanding process on the sanding environment is avoided, however, the cover type structure can interfere with the switching treatment of the sanding angle, the suction operation can enable the surface of the dust screen to be blocked by the suction of the sucked dust, the follow-up suction operation is not convenient to continue, and therefore the cleaning and dredging of the surface of the dust screen can be realized by virtue of the scraping plate, but the dust and the dust after cleaning and dredging can still remain in the dust collecting equipment, the surface blocked to the dust screen can be adsorbed again under the suction effect, and the suction smoothness of the dust screen is influenced.

Therefore, the dust-proof titanium alloy orthopedic instrument sander is provided, and the dust adhered to the surface of the dust screen are cleaned and restrained by the action force in the suction process, so that the possibility of secondary suction interception is reduced.

Disclosure of Invention

The application aims to improve the prior dust-proof titanium alloy orthopedic instrument polisher, compared with the prior art, the dust-proof titanium alloy orthopedic instrument polisher comprises a polishing platform, a polishing bracket is arranged at the top of the polishing platform, a debris collecting box positioned in front of the polishing bracket is arranged at the top of the polishing platform, a dust-proof box is arranged at the bottom of the polishing platform, a suction fan is arranged on the inner wall of one side of the dust-proof box, a rubber ring is connected to the inner top wall of the dust-proof box, the bottom of the rubber ring is connected with an interception net frame with a hollow interior, the interception net frame is positioned at one side of the suction fan, a follow-up cleaning ball is placed in the interception net frame, a suction pipe positioned at the inner side of the rubber ring is connected to the top of the dust-proof box in a penetrating manner, the top end of the suction pipe extends to a position close to the top inside the debris collecting box, the bottom wall slidable mounting of dust prevention box has the album dirt drawer, the bottom of interception frame is connected with the tail end and extends to the inside hose of album dirt drawer, in polishing process, the small granule piece dust shifts to the interception frame through the suction tube in, suction wind-force drives the interception frame simultaneously and rocks, and then drive inside follow-up clearance ball at the inside random motion of interception frame, striking with interception frame inner wall spare and later landing with the help of follow-up clearance ball, can strike off the piece dust that adsorbs the jam at interception frame inner surface, the piece dust after striking drops inside album dirt drawer along the hose, shake the clearance to the piece dust of interception frame inside absorption interception state, and reduce its secondary absorption interception possibility.

Further, the internally mounted of interception net frame has soft magnetic stripe, and the internally mounted of dust prevention box has the electromagnetic plate about interception net frame symmetrical arrangement, and the inside of electromagnetic plate is equipped with the ventilation hole, and suction fan is located the electromagnetic plate and keeps away from one side of interception net frame, has magnetism and inhale the exclusive action between electromagnetic plate and the soft magnetic stripe.

Further, the support top of polishing installs No. two flexible cylinders, and No. two flexible cylinders's output is connected with flexible cylinder No. one, and No. one flexible cylinder and No. two flexible cylinders arrange perpendicularly, and No. one flexible cylinder's output is connected with the support, and the inside through connection of support has the polisher.

Further, the filter frame that the tail end extended to the inside of piece collection box is installed at the top of piece collection box, and filters the below that the frame is located the polisher, and the top of support is connected with the blast pipe that is located polisher one side, and the tail end of blast pipe towards the bottom of polisher.

Further, the surface of the follow-up cleaning ball is provided with anti-skid patterns, and the follow-up cleaning ball is made of light materials.

Further, the two electromagnetic plates are electrically connected, and the repulsive interaction between the two electromagnetic plates and the soft magnetic strip is larger than the sum of the gravity of the interception net frame and the follow-up cleaning ball.

Further, the height of the rubber ring is 0.1-0.3 times of the self height of the interception net frame, and the rubber ring is made of butyl rubber.

Optionally, the inside of follow-up clearance ball has placed the glue joint clearance ball, and glue joint clearance ball is made for TPR material, and glue joint clearance ball's surface coating has non-adhesive glue joint layer, and follow-up clearance ball's surface is equipped with the through-hole, and follow-up clearance ball's inner wall is connected with from the type ply.

Further, the follow-up cleaning ball is formed by splicing two semicircular plastic balls, the opposite surfaces of the two plastic balls are connected through the adsorption of the magnetic material, and the magnetic attraction force between the two plastic balls is greater than the gravity of the glue joint cleaning ball.

Further, the natural falling position of the glue joint cleaning ball in the initial state does not exceed the bottom end of the through hole, and the non-glue joint layer on the surface of the glue joint cleaning ball is made of water-soluble non-glue.

Compared with the prior art, the application has the advantages that:

(1) In the polishing process, small particle dust is transferred into the interception net frame through the suction pipe, meanwhile, suction wind power drives the interception net frame to shake, and then the inside follow-up cleaning ball is driven to randomly move in the interception net frame, so that the dust adsorbed and blocked on the inner surface of the interception net frame can be scraped by means of the collision of the follow-up cleaning ball and the inner wall part of the interception net frame and the later sliding down, the scraped dust falls into the dust collecting drawer along the hose, the dust adsorbed and blocked in the interception net frame is swayed and cleaned, and the possibility of secondary adsorption and interception of the dust is reduced.

(2) The electromagnetic plate intermittently started plays a role in supplementing shaking to the interception net frame so as to ensure shaking degree of the interception net frame, and further enable the follow-up cleaning ball to have enough impact effect to damage the adsorption and interception states of the chips and dust and the inside of the interception net frame.

(3) To adsorbing the comparatively inseparable piece dust of interception, when follow-up clearance ball motion to the inner wall of interception net frame, under inertial action, glue the clearance ball and extrude the inner wall contact of part and interception net frame, and then adsorb the inseparable piece dust of interception net frame inner wall and glue and take away, further clear up the piece dust of interception net frame inner wall absorption interception state, guarantee the mediation degree of interception net frame.

(4) The setting of release paper layer then makes glue joint clearance ball and follow-up clearance ball's inner wall can not take place to glue joint, and then guarantees glue joint clearance ball at the inside active state of follow-up clearance ball.

(5) When the glue joint cleaning ball deforms under the action of self gravity, the tail end of the drop of the glue joint cleaning ball does not exceed the through hole, and then when the follow-up cleaning ball is in a static state, the inside glue joint cleaning ball is not adhered to the inner wall of the interception net frame, so that the movement resistance of the follow-up cleaning ball is reduced

Drawings

FIG. 1 is a schematic view of the working state of the present application;

FIG. 2 is a schematic cross-sectional view of a dust box and polishing platform of the present application;

FIG. 3 is a view showing the construction of the inner mounting structure of the dust box of the present application;

FIG. 4 is a cross-sectional view of the dust box of the present application;

FIG. 5 is a schematic view of the overall appearance of the present application;

FIG. 6 is an enlarged view of the application at A of FIG. 5;

FIG. 7 is a side cross-sectional view of the present application;

FIG. 8 is a schematic view of the installation of the follow-up cleaning ball, glue cleaning ball, through hole and release paper layer of the present application;

FIG. 9 is a schematic view showing the working state of the follow-up cleaning ball and the cementing cleaning ball according to the present application;

fig. 10 is a schematic diagram showing the comparison of the cementing cleaning ball of the present application before and after cleaning.

The reference numerals in the figures illustrate:

1. polishing the platform; 2. polishing the bracket; 21. a grinding machine; 22. an air supply pipe; 23. a first telescopic cylinder; 24. a second telescopic cylinder; 3. a filter frame; 4. a debris collection box; 5. a dust-proof box; 51. intercepting a net frame; 52. an electromagnetic plate; 53. a dust collection drawer; 54. follow-up cleaning balls; 541. cementing cleaning balls; 542. a through hole; 543. a release paper layer; 55. a rubber ring; 6. a suction tube; 7. and a suction fan.

Detailed Description

The technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present application are included in the protection scope of the present application.

Example 1:

the application provides a dust-proof titanium alloy orthopedic instrument sander, referring to fig. 1-4, which comprises a sanding platform 1, wherein a sanding bracket 2 is arranged at the top of the sanding platform 1, a dust collecting box 4 positioned in front of the sanding bracket 2 is arranged at the top of the sanding platform 1, a dust collecting box 5 is arranged at the bottom of the sanding platform 1, a suction fan 7 is arranged on the inner wall of one side of the dust collecting box 5, a rubber ring 55 is connected to the inner top wall of the dust collecting box 5, a hollow interception net frame 51 is connected to the bottom of the rubber ring 55, the interception net frame 51 is positioned at one side of the suction fan 7, a follow-up cleaning ball 54 is arranged in the interception net frame 51, a suction pipe 6 positioned at the inner side of the rubber ring 55 is connected to the top of the dust collecting box 5 in a penetrating manner, the top end of the suction pipe 6 extends to a position close to the top inside the dust collecting box 4, a dust collecting drawer 53 is slidably arranged on the bottom wall of the dust collecting box 5, and a hose with the tail end extending to the inside the dust collecting drawer 53 is connected to the bottom of the interception net frame 51.

Specifically, in the polishing process, through the suction effect that suction fan 7 during operation produced, make originally float in the interior space of top of piece collection box 4 in the small granule piece dust shifts to interception frame 51 through suction tube 6, in this process, suction wind-force drives the interception frame 51 through rubber circle 55 and dust-proof box 5 swing joint rocks, and then drive inside follow-up clearance ball 54 at the inside random motion of interception frame 51, striking interception frame 51 inner wall with the help of follow-up clearance ball 54, and then strike off the piece dust that adsorbs the jam at interception frame 51 internal surface, the piece dust after striking slides along interception frame 51 inner wall and rolls to hose department, finally drop to inside the dust collection drawer 53 along the hose, shake the clearance to the piece dust of interception frame 51 inside absorption interception state, and reduce its secondary absorption interception possibility.

The inside of interception net frame 51 installs soft magnetic stripe, and the internally mounted of dust-proof box 5 has electromagnetic plate 52 about interception net frame 51 symmetrical arrangement, and the inside of electromagnetic plate 52 is equipped with the ventilation hole, and suction fan 7 is located the one side that electromagnetic plate 52 kept away from interception net frame 51, has the magnetism and inhales the repulsive interaction between electromagnetic plate 52 and the soft magnetic stripe.

Specifically, to supplement the problem of insufficient shaking amplitude of the interception net frame 51 caused by insufficient suction wind force, the electromagnetic plate 52 is started, and the intermittently started electromagnetic plate 52 has a supplementary shaking effect on the interception net frame 51 so as to ensure the shaking degree of the interception net frame 51, so that the follow-up cleaning ball 54 has a sufficient impact vector effect, and the adsorption interception state of the chips, dust and the inside of the interception net frame 51 is damaged.

Referring to fig. 5-7, a second telescopic cylinder 24 is installed at the top of the polishing support 2, an output end of the second telescopic cylinder 24 is connected with a first telescopic cylinder 23, the first telescopic cylinder 23 and the second telescopic cylinder 24 are vertically arranged, an output end of the first telescopic cylinder 23 is connected with a support, and a polishing machine 21 is connected inside the support in a penetrating manner.

Specifically, the second telescopic cylinder 24 is matched with the first telescopic cylinder 23, so that the polishing position of the polishing machine 21 can be adjusted, and further the requirement of different polishing positions caused by different sizes of titanium alloy orthopedic instruments can be met.

The top of piece collection box 4 installs the tail end and extends to the inside filtration frame 3 of piece collection box 4, and filtration frame 3 is located the below of polisher 21, and the top of support is connected with the blast pipe 22 that is located polisher 21 one side, and the tail end of blast pipe 22 is towards the bottom of polisher 21.

Specifically, the filter frame 3 is used for intercepting the dust and the dust with larger particles in the polishing process, and the small-particle dust and the dust with small dead weight can be smoothly sucked and transferred into the dust-proof box 5 while the filtering treatment is realized.

The surface of the follow-up cleaning ball 54 is provided with anti-skid patterns, and the follow-up cleaning ball 54 is made of light materials.

Specifically, the follow-up cleaning ball 54 made of a light material has a small gravity, so that when the interception net frame 51 shakes, the follow-up cleaning ball can randomly diffuse and move in the interception net frame 51 in time, and in the process of sliding down after contacting with the inner wall of the interception net frame 51, the dust and the dust in an adsorption interception state can be scraped by means of anti-skid patterns on the surface.

The two electromagnetic plates 52 are electrically connected, and the repulsive action between the two electromagnetic plates 52 and the soft magnetic strips is larger than the sum of the gravity of the interception net frame 51 and the follow-up cleaning ball 54.

Specifically, the electromagnetic plates 52 are in a spaced starting state, when one group of electromagnetic plates 52 is started, the other group of electromagnetic plates 52 is in a closing state, and in this state, the repulsive interaction between the electromagnetic plates 52 and the interception net frame 51 can overcome the action of gravity and combine with the suction action, so that the shaking amplitude of the interception net frame 51 is increased.

The height of the rubber ring 55 is 0.1-0.3 times of the self height of the interception net frame 51, and the rubber ring 55 is made of butyl rubber.

Specifically, the rubber ring 55 has a certain height, so that a certain distance exists between the interception net frame 51 and the inner wall of the dust-proof box 5, and then in the shaking process of the interception net frame 51, the top end of the interception net frame 51 has a certain deformation space, and the shaking amplitude requirement is met.

Example 2:

referring to fig. 8 to 10, wherein the same or corresponding parts as in embodiment 1 are designated by the same reference numerals as in embodiment 1, only the differences from embodiment 1 are described below for the sake of brevity. This embodiment 2 is different from embodiment 1 in that: the inside of follow-up clearance ball 54 has placed the glue joint clearance ball 541, and glue joint clearance ball 541 is made for TPR material, and glue joint layer is glued to the non-stick to the surface coating of glue joint clearance ball 541, and the surface of follow-up clearance ball 54 is equipped with through-hole 542, and the inner wall of follow-up clearance ball 54 is connected with from ply 543.

Specifically, the adhesion effect of the non-adhesive bonding layer is smaller than the sum of the gravity of the follow-up cleaning ball 54 and the internal adhesive bonding cleaning ball 541, and in addition, the TPR material is a soft-adhesive-like material, and can be pulled and kneaded, and can quickly recover the original state, so that when the follow-up cleaning ball 54 impacts the inner wall of the interception net frame 51, the internal adhesive bonding cleaning ball 541 can contact with the inner wall of the interception net frame 51 through the extrusion part of the through hole 542 under the inertia effect;

aiming at the compact dust adsorption and interception, when the follow-up cleaning ball 54 moves to the inner wall of the interception net frame 51, the inner glue joint cleaning ball 541 is different from the light follow-up cleaning ball 54 in gravity, so that under the action of inertia, the glue joint cleaning ball 541 moves continuously and is extruded through the through hole 542, the extruded part is contacted with the inner wall of the interception net frame 51, the dust adsorption and interception of the inner wall of the interception net frame 51 is carried away, the dust adsorption and interception state of the inner wall of the interception net frame 51 is further cleaned, the dredging degree of the interception net frame 51 is ensured, and the glue joint cleaning ball 541 and the inner wall of the follow-up cleaning ball 54 are not caused by the arrangement of the release paper layer 543, so that the movable state of the glue joint cleaning ball 541 in the follow-up cleaning ball 54 is ensured.

The follow-up cleaning ball 54 is formed by splicing two semicircular plastic balls, and the opposite surfaces of the two plastic balls are connected through magnetic attraction materials in an adsorption mode, wherein the magnetic attraction force between the two plastic balls is larger than the gravity of the glue joint cleaning ball 541.

Specifically, when the glue joint cleaning ball 541 inside the follow-up cleaning ball 54 is cleaned later, the glue joint cleaning ball 541 with the dust and the chips adhered to the surface can be taken out by manually breaking off the two plastic balls, and in the use process of the glue joint cleaning ball 541, the magnetic attraction can ensure that the glue joint cleaning ball 541 cannot collide with the follow-up cleaning ball 54.

The natural falling position of the glue cleaning ball 541 in the initial state does not exceed the bottom end of the through hole 542, and the non-adhesive glue layer on the surface of the glue cleaning ball 541 is made of water-soluble non-adhesive glue.

Specifically, when the glue joint cleaning ball 541 deforms under the action of self gravity, the falling tail end of the glue joint cleaning ball 541 does not exceed the through hole 542, and when the follow-up cleaning ball 54 is in a static state, the internal glue joint cleaning ball 541 is not adhered to the inner wall of the interception net frame 51, so that the movement resistance of the follow-up cleaning ball 54 is reduced;

the use of the water-soluble non-adhesive glue can make the follow-up cleaning of the chip dust on the surface of the glue joint cleaning ball 541, only the removed glue joint cleaning ball 541 is put into water, and after the non-adhesive glue joint layer on the surface is subjected to water-soluble treatment, the glue joint cleaning ball is coated again, so that the glue joint use can be continued.

The foregoing is only a preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art, who is within the scope of the present application, should make equivalent substitutions or modifications according to the technical solution and the modified concept thereof, within the scope of the present application.

Claims (7)

1. The utility model provides a dust-proof titanium alloy orthopedic instrument sander, includes polishing platform (1), its characterized in that, polishing support (2) is installed at the top of polishing platform (1), debris collection box (4) that are located polishing support (2) the place ahead are installed at the top of polishing platform (1), dust-proof box (5) are installed to the bottom of polishing platform (1), suction fan (7) are installed to one side inner wall of dust-proof box (5), the interior roof of dust-proof box (5) is connected with rubber circle (55), the bottom of rubber circle (55) is connected with inside hollow interception frame (51), and interception frame (51) are located one side of suction fan (7), follow-up cleaning ball (54) have been placed to the inside of interception frame (51), the top through connection of dust-proof box (5) has suction tube (6) that are located the rubber circle (55) inboard, and the top of suction tube (6) extends to the inside position that is close to the top in collection box (4), the diapire of dust-proof box (5) is sliding and is installed to the bottom wall of dust-proof box (5), the end is connected with dust-proof hose (53) inside hose (53);

the inside of the follow-up cleaning ball (54) is provided with a glue joint cleaning ball (541), the glue joint cleaning ball (541) is made of TPR material, the surface of the glue joint cleaning ball (541) is coated with a non-glue joint layer, the surface of the follow-up cleaning ball (54) is provided with a through hole (542), and the inner wall of the follow-up cleaning ball (54) is connected with a release paper layer (543);

the follow-up cleaning ball (54) is formed by splicing two semicircular plastic balls, the opposite surfaces of the two plastic balls are connected through magnetic attraction materials in an adsorption mode, and the magnetic attraction force between the two plastic balls is larger than the gravity of the glue joint cleaning ball (541);

the natural falling position of the glue joint cleaning ball (541) in the initial state does not exceed the bottom end of the through hole (542), and the non-adhesive glue joint layer on the surface of the glue joint cleaning ball (541) is made of water-soluble non-adhesive glue.

2. The dustproof titanium alloy orthopedic instrument sander according to claim 1, wherein a soft magnetic strip is installed in the interception net frame (51), an electromagnetic plate (52) symmetrically arranged relative to the interception net frame (51) is installed in the dustproof box (5), ventilation holes are formed in the electromagnetic plate (52), the suction fan (7) is located on one side, away from the interception net frame (51), of the electromagnetic plate (52), and a magnetic attraction repulsive interaction is achieved between the electromagnetic plate (52) and the soft magnetic strip.

3. The dustproof titanium alloy orthopedic instrument sander according to claim 1, wherein a second telescopic cylinder (24) is installed at the top of the sanding bracket (2), the output end of the second telescopic cylinder (24) is connected with a first telescopic cylinder (23), the first telescopic cylinder (23) is vertically arranged with the second telescopic cylinder (24), the output end of the first telescopic cylinder (23) is connected with a bracket, and a sander (21) is connected inside the bracket in a penetrating manner.

4. A dust protected titanium alloy orthopedic instrument sander according to claim 3, characterized in that the top of the debris collecting box (4) is provided with a filtering frame (3) with the tail end extending into the debris collecting box (4), the filtering frame (3) is located below the sander (21), the top of the bracket is connected with an air supply pipe (22) located on one side of the sander (21), and the tail end of the air supply pipe (22) faces the bottom of the sander (21).

5. The dust-proof titanium alloy orthopedic instrument sander according to claim 1, wherein the surface of the follow-up cleaning ball (54) is provided with anti-slip patterns, and the follow-up cleaning ball (54) is made of a light material.

6. The dust-proof titanium alloy orthopedic instrument sander according to claim 2, wherein two electromagnetic plates (52) are electrically connected, and the repulsive interaction between the two electromagnetic plates (52) and the soft magnetic stripe is greater than the sum of the gravity of the interception net frame (51) and the follow-up cleaning ball (54).

7. The dust-proof titanium alloy orthopedic instrument sander according to claim 1, wherein the height of the rubber ring (55) is 0.1-0.3 times the height of the interception net frame (51) and the rubber ring (55) is made of butyl rubber.