CN219597460U

CN219597460U - Cleaning and drying device for suture needle production

Info

Publication number: CN219597460U
Application number: CN202320225205.4U
Authority: CN
Inventors: 陆峰; 刘佳澄
Original assignee: Nantong Holycon Medical Devices Co ltd
Current assignee: Nantong Holycon Medical Devices Co ltd
Priority date: 2023-02-16
Filing date: 2023-02-16
Publication date: 2023-08-29
Anticipated expiration: 2033-02-16

Abstract

The utility model provides a cleaning and drying device for production of suture needles, which relates to the technical field of production of suture needles and comprises a base component and a heating component, wherein a water bearing carrier component assembled by bolts is arranged above one side of the base component, the outer side of the water bearing carrier component is provided with a heating component which is installed, a spray washing mechanism assembled by bolts is arranged above the other side of the base component, and the heating component comprises a side cylinder; the utility model mainly utilizes the upper side air cylinders arranged at two sides of the tank body of the water bearing and carrying component, the output ends of the side air cylinders are driven by the output power of the side air cylinders to enable the connecting plates to lift and move, when the drying is needed, the heating rings at the inner ends of the connecting plates are attached to the bearing plate, so that the effect of real-time attaching heat conduction is achieved, the heating rings have a certain height, and when the fan accelerates the air flow, the sewing needle cannot be blown away from the drying position in the process, thereby improving the drying speed and reducing the loss of electric energy.

Description

Cleaning and drying device for suture needle production

Technical Field

The utility model relates to the technical field of suture needle production, in particular to a cleaning and drying device for suture needle production.

Background

The suture needle is a suture needle for hospitals; the medical suture needle is mainly used for surgical suture, is mostly made of stainless steel wires by drilling or grooving at the tail of the needle, and has polished appearance and electrolytic treatment, and is quite smooth; the production process of the suture needle is very complex, which belongs to the fine perforation of high-tech products and even uses the laser perforation technology.

When the existing cleaning and drying device is used, after the suture needle is cleaned, the water on the surface is blown to dry by wind or heating so as to achieve the effect of cleaning and drying, as disclosed in application number CN202220091461.4, the cleaning and drying device for producing the medical suture needle comprises a substrate, wherein the upper surface of the substrate is provided with two groups of position adjusting components which are respectively positioned on two sides of the upper surface of the substrate, and the upper ends of the two groups of position adjusting components are respectively provided with a discharging component; however, in the above-mentioned technique, the electric heater is far away from the cleaning table surface, which causes waste of heat during drying, so the present utility model proposes a cleaning and drying device for producing suture needles to solve the problems in the prior art.

Disclosure of Invention

According to the cleaning and drying device for production of the suture needle, the upper side air cylinders are arranged on two sides of the pool body of the water bearing object carrying component, the output ends of the side air cylinders are driven by the output power of the side air cylinders to enable the connecting plates to lift and move, when the suture needle is required to be dried, the heating rings at the inner ends of the connecting plates are attached to the bearing disc to achieve the effect of real-time attaching heat conduction, the heating rings have a certain height, and when the fan accelerates air flow, the suture needle cannot be blown away from a drying position in the process, so that the drying speed is improved, and the loss of electric energy is reduced.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the cleaning and drying device for production of the suture needle comprises a base component and a heating component, wherein a water bearing carrier component assembled by bolts is arranged above one side of the base component, the heating component is arranged on the outer side of the water bearing carrier component, and a spray washing mechanism assembled by bolts is arranged above the other side of the base component;

the heating component comprises a side air cylinder, a connecting plate and a heating ring, wherein the side air cylinder is arranged at the outer side of the water bearing and carrying component, the output end of the side air cylinder is connected with the connecting plate, and the heating ring is arranged at the inner side of the connecting plate.

As a preferable implementation mode of the utility model, the side air cylinders and the connecting plate are symmetrically distributed on the central line of the heating ring, and the heating ring is in a three-ring structure.

As a preferred embodiment of the utility model, the base component comprises a table column, a table plate and a pipe sleeve piece, the table plate is arranged on the top side of the table column, one end of the table plate is provided with the pipe sleeve piece sleeved with the water bearing component, the water bearing component comprises a bolt base, a pool body, a first valve block, a disinfection cabin, a water outlet, an assembly disk, a bearing bracket and a bearing disk, and the bolt base is arranged above one side of the table plate.

As a preferred implementation mode of the utility model, a tank body is arranged on the top side of the bolt base, a first valve block is arranged at one end of the tank body, a disinfection cabin is connected to the output end of the first valve block, an assembly disc assembled by bolts is arranged on the inner bottom side of the tank body, a bearing frame is arranged on the top side of the assembly disc, and a bearing disc is arranged on the top side of the bearing frame.

As a preferred embodiment of the present utility model, the spray washing mechanism includes a bolt bracket, a transverse top plate, a second valve block, a side pipe, a water inlet pipe, a telescopic pipe, a connecting strip, a rotary nozzle, a pneumatic telescopic boom, an electric rotary seat and a fan blade group, wherein the bolt bracket is arranged above the other side of the platen, the transverse top plate is arranged on one side above the bolt bracket, the second valve block is arranged on the top side of the transverse top plate, the side pipe is arranged on the top side of the second valve block, and the water inlet pipe is arranged at one end of the side pipe.

As a preferred embodiment of the present utility model, a telescopic tube is disposed below the transverse top plate, a connecting strip for mounting a pneumatic telescopic boom is disposed below the telescopic tube, a rotary nozzle is disposed below the connecting strip, an electric rotating seat is disposed on the inner side of the connecting strip, and an output end of the electric rotating seat is connected with a fan blade group.

The beneficial effects of the utility model are as follows:

the utility model mainly utilizes the upper side air cylinders arranged at two sides of the tank body of the water bearing and carrying component, the output ends of the side air cylinders are driven by the output power of the side air cylinders to enable the connecting plates to lift and move, when the drying is needed, the heating rings at the inner ends of the connecting plates are attached to the bearing plate, so that the effect of real-time attaching heat conduction is achieved, the heating rings have a certain height, and when the fan accelerates the air flow, the sewing needle cannot be blown away from the drying position in the process, thereby improving the drying speed and reducing the loss of electric energy.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic side view of the present utility model;

FIG. 3 is a schematic perspective view of a water-bearing carrier assembly according to the present utility model;

fig. 4 is a schematic perspective view of a spray washing mechanism according to the present utility model.

Wherein: 1. a base assembly; 101. a table column; 102. a platen; 103. a tube sleeve piece; 2. a water bearing carrier assembly; 201. a bolt base; 202. a cell body; 203. a first valve block; 204. a disinfection cabin; 205. a water outlet; 206. a mounting plate; 207. a bearing bracket; 208. a carrying tray; 3. a heating member; 301. a side cylinder; 302. a connecting plate; 303. a heating ring; 4. a spray washing mechanism; 401. a bolt bracket; 402. a transverse top plate; 403. a second valve block; 404. a side pipe; 405. a water inlet pipe; 406. a telescopic tube; 407. connecting strip pieces; 408. a rotary nozzle; 409. a pneumatically telescoping boom; 4010. an electric rotating seat; 4011. a fan blade assembly.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to fig. 1-4, this embodiment provides a cleaning and drying device for production of suture needles, which comprises a base component 1 and a heating component 3, wherein a water-bearing carrier component 2 assembled by bolts is arranged above one side of the base component 1, the heating component 3 is arranged at the outer side of the water-bearing carrier component 2, and a spray washing mechanism 4 assembled by bolts is arranged above the other side of the base component 1;

the heating component 3 comprises a side air cylinder 301, a connecting plate 302 and a heating ring 303, wherein the side air cylinder 301 is arranged on the outer side of the water-bearing carrier assembly 2, the output end of the side air cylinder 301 is connected with the connecting plate 302, and the heating ring 303 is arranged on the inner side of the connecting plate 302.

The side cylinders 301 and the connecting plate 302 are symmetrically distributed along the central line of the heating ring 303, and the heating ring 303 is in a three-ring structure.

In this embodiment, after cleaning is completed, the output end of the side cylinder 301 is driven to operate by using the output power of the side cylinder 301, so that the output end of the side cylinder 301 drives the heating ring 303 to attach to the carrying tray 208 by the connecting plate 302, and the carrying tray 208 is heated by using the heating ring 303 to generate high temperature.

The base component 1 comprises a table column 101, a table plate 102 and a pipe sleeve sheet 103, the table plate 102 is arranged on the top side of the table column 101, the pipe sleeve sheet 103 sleeved with the water bearing component 2 is arranged at one end of the table plate 102, the water bearing component 2 comprises a bolt base 201, a tank body 202, a first valve block 203, a disinfection cabin 204, a water outlet 205, a mounting plate 206, a bearing frame 207 and a bearing plate 208, and the bolt base 201 is arranged above one side of the table plate 102.

In this embodiment, the water body after cleaning falls into the tank 202 through the weep holes of the carrying tray 208, and the bottom of the tank 202 is of an inclined-surface structure, so that the chemical after cleaning is discharged into the disinfection cabin 204 through the first valve block 203 at one end of the tank 202, and is discharged out of the apparatus through the water outlet 205 after being treated by the disinfection cabin 204.

The top side of the bolt base 201 is provided with a tank body 202, one end of the tank body 202 is provided with a first valve block 203, the output end of the first valve block 203 is connected with a disinfection cabin 204, the lower side of the disinfection cabin 204 is provided with an assembly disc 206 assembled by bolts, the top side of the assembly disc 206 is provided with a bearing frame 207, and the top side of the bearing frame 207 is provided with a bearing disc 208.

In this embodiment, the water-bearing carrier assembly 2 is assembled by the columns 101 and the platens 102 provided on the base assembly 1, the sewing needles to be cleaned and dried are placed on the carrier plate 208, the carrier plate 208 is connected to the assembly plate 206 by the bearing frame 207, and the assembly plate 206 is connected to the inner bottom side of the tank 202.

The spray washing mechanism 4 comprises a bolt bracket 401, a transverse top plate 402, a second valve block 403, a side pipe 404, a water inlet pipe 405, a telescopic pipe 406, a connecting strip 407, a rotary nozzle 408, a pneumatic telescopic boom 409, an electric rotary seat 4010 and a fan blade group 4011, wherein the bolt bracket 401 is arranged above the other side of the bedplate 102, the transverse top plate 402 is arranged on one side above the bolt bracket 401, the second valve block 403 is arranged on the top side of the transverse top plate 402, the side pipe 404 is arranged on the top side of the second valve block 403, and the water inlet pipe 405 is arranged at one end of the side pipe 404.

In this embodiment, the chemical to be cleaned is then fed through the water inlet pipe 405, so that the cleaning agent of the water inlet pipe 405 enters the side pipe 404, then enters the output end of the transverse top plate 402 through the side pipe 404 and the opened second valve block 403, and after the water inlet pipe 405 enters the telescopic pipe 406, the chemical is effectively rotated through the rotating nozzle 408, so that the chemical is sprayed onto the carrier plate 208 through the rotating nozzle 408.

The telescopic pipe 406 is arranged below the transverse top plate 402, the connecting strip piece 407 for installing the pneumatic telescopic boom 409 is arranged below the telescopic pipe 406, the rotary nozzle 408 is arranged below the connecting strip piece 407, the electric rotating seat 4010 is arranged on the inner side of the connecting strip piece 407, and the output end of the electric rotating seat 4010 is connected with the fan blade group 4011.

In this embodiment, the pneumatic telescopic boom 409 is started to output power to drive the connecting strip 407 connected to the output end of the pneumatic telescopic boom 409 to rise to a suitable height, and the output power of the electric rotating seat 4010 is used to drive the output end of the electric rotating seat 4010 to operate, so that the output end of the electric rotating seat 4010 drives the fan blade group 4011 to generate wind power, and the wind power is matched with the heated state, so that the sewing needle on the bearing disc 208 performs rapid drying treatment.

The working principle of the cleaning and drying device for the production of the suture needle is as follows: the water-bearing carrier assembly 2 is assembled through the table column 101 and the table plate 102 which are arranged on the base assembly 1, suture needles which need to be cleaned and dried are placed on the bearing disc 208, the bearing disc 208 is connected to the assembling disc 206 through the bearing frame 207, the assembling disc 206 is connected to the inner bottom side of the tank body 202, then the medicament which needs to be cleaned is input through the water inlet pipe 405, so that the cleaning agent of the water inlet pipe 405 enters the side pipe 404, then enters the output end of the transverse top plate 402 through the side pipe 404 and the opened second valve block 403, after the water inlet pipe 405 enters the telescopic pipe 406, the medicament is effectively rotated through the rotary nozzle 408, the medicament is sprayed onto the bearing disc 208 through the rotary nozzle 408, the cleaned water body falls into the tank body 202 through the leak hole of the bearing disc 208, the bottom of the tank body 202 is of an inclined-shaped structure, therefore, the agent after cleaning is discharged into the disinfection cabin 204 through the first valve block 203 at one end of the tank 202, and is discharged out of the equipment through the water outlet 205 after being processed by the disinfection cabin 204, after cleaning is finished, the output end of the side air cylinder 301 is driven to operate by using the output power of the side air cylinder 301, the output end of the side air cylinder 301 is driven by the connecting plate 302 to drive the heating ring 303 to be attached to the bearing plate 208, the bearing plate 208 is heated by using the heating ring 303 to generate high temperature, then the pneumatic telescopic boom 409 is started to output power to drive the connecting strip 407 connected with the output end of the pneumatic telescopic boom 409 to rise to a proper height, the output end of the electric rotary seat 4010 is driven to operate by using the output power of the electric rotary seat 4010, so that the output end of the electric rotary seat 4010 drives the fan blade group 4011 to generate wind power, and the wind power is matched with the heated state, and the sewing needle on the bearing plate 208 is subjected to rapid drying treatment.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a cleaning and drying device of sewing needle production, includes base subassembly (1) and heating element (3), its characterized in that: a water bearing object assembly (2) assembled by bolts is arranged above one side of the base assembly (1), an installed heating component (3) is arranged on the outer side of the water bearing object assembly (2), and a spray washing mechanism (4) assembled by bolts is arranged above the other side of the base assembly (1);

the heating component (3) comprises a side air cylinder (301), a connecting plate (302) and a heating ring (303), wherein the side air cylinder (301) is arranged on the outer side of the water bearing carrier assembly (2), the output end of the side air cylinder (301) is connected with the connecting plate (302), and the heating ring (303) is arranged on the inner side of the connecting plate (302).

2. The cleaning and drying device for producing suture needles according to claim 1, wherein: the side air cylinders (301) and the connecting plate (302) are symmetrically distributed along the central line of the heating ring (303), and the heating ring (303) is of a three-ring structure.

3. The cleaning and drying device for producing suture needles according to claim 1, wherein: the base assembly (1) comprises a table column (101), a table plate (102) and a pipe sleeve piece (103), the table plate (102) is arranged on the top side of the table column (101), the pipe sleeve piece (103) sleeved with the water bearing object assembly (2) is arranged at one end of the table plate (102), the water bearing object assembly (2) comprises a bolt base (201), a pool body (202), a first valve block (203), a disinfection cabin (204), a water outlet (205), an assembly disc (206), a bearing frame (207) and a bearing disc (208), and the bolt base (201) is arranged above one side of the table plate (102).

4. A cleaning and drying device for needle production according to claim 3, wherein: the top side of bolt base (201) is provided with cell body (202), just the one end of cell body (202) is provided with first valve piece (203), the output of first valve piece (203) is connected with disinfection cabin (204), just the below of disinfection cabin (204) is provided with, the interior bottom side of cell body (202) is provided with bolt assembly's assembly dish (206), just the top side of assembly dish (206) is provided with bearing bracket (207), the top side of bearing bracket (207) is provided with bears dish (208).

5. A cleaning and drying device for needle production according to claim 3, wherein: the spray washing mechanism (4) comprises a bolt bracket (401), a transverse top plate (402), a second valve block (403), a side pipe (404), a water inlet pipe (405), a telescopic pipe (406), a connecting strip piece (407), a rotary nozzle (408), a pneumatic telescopic boom (409), an electric rotating seat (4010) and a fan blade group (4011), wherein the bolt bracket (401) is arranged above the other side of the bedplate (102), the transverse top plate (402) is arranged on one side above the bolt bracket (401), the second valve block (403) is arranged on the top side of the transverse top plate (402), the side pipe (404) is arranged on the top side of the second valve block (403), and the water inlet pipe (405) is arranged at one end of the side pipe (404).

6. The cleaning and drying device for producing suture needles according to claim 5, wherein: the telescopic pipe is characterized in that a telescopic pipe (406) is arranged below the transverse top plate (402), a connecting strip (407) for installing a pneumatic telescopic boom (409) is arranged below the telescopic pipe (406), a rotary nozzle (408) is arranged below the connecting strip (407), an electric rotating seat (4010) is arranged on the inner side of the connecting strip (407), and the output end of the electric rotating seat (4010) is connected with a fan blade group (4011).