CN212102935U - Constant temperature quenching system of medical suture needle - Google Patents

Abstract

The utility model belongs to medical supplies processing equipment field, concretely relates to constant temperature quenching system of medical sewing needle, its characterized in that includes electrical apparatus case, resistance furnace, cooling bath and cooling tube, the cooling tube is the annular structure, in its left part immerses the cooling bath, the right part is located outside the cooling bath, set up circulating pump and radiator on the right part of cooling tube, set up first temperature sensor in the resistance furnace, set up second temperature sensor in the cooling bath, electrical apparatus case is connected with first temperature sensor, second temperature sensor, circulating pump and radiator electricity respectively. The utility model discloses there are two advantages: firstly, the temperature of the cooling liquid can be kept stable, and the quenching quality temperature of the medical suture needle is further ensured; secondly, can carry out the circulation to the coolant liquid and use, resources are saved.

Description

Constant temperature quenching system of medical suture needle

Technical Field

The utility model belongs to medical supplies processing equipment field, concretely relates to constant temperature quenching system of medical suture needle.

Background

Quenching is an important processing step of the medical suture needle, generally, a resistance furnace is adopted to heat the medical suture needle, then the heated medical suture needle is placed into a cooling tank to be cooled, the existing cooling tank is difficult to reach a constant temperature state, the temperature rise of cooling liquid is easy to cause heat treatment performance change, so that the quenching quality of the medical suture needle is unstable, and the cooling liquid cannot be recycled, so that the problems of low quenching efficiency and resource waste are easily caused.

SUMMERY OF THE UTILITY MODEL

In order to make up the defects of the prior art, the utility model provides a technical scheme of a constant temperature quenching system of a medical suture needle.

The constant-temperature quenching system for the medical suture needle is characterized by comprising an electrical box, a resistance furnace, a cooling tank and a cooling pipeline, wherein the cooling pipeline is of an annular structure, the left part of the cooling pipeline is immersed in the cooling tank, the right part of the cooling pipeline is positioned outside the cooling tank, a circulating pump and a radiator are arranged on the right part of the cooling pipeline, a first temperature sensor is arranged in the resistance furnace, a second temperature sensor is arranged in the cooling tank, and the electrical box is respectively and electrically connected with the first temperature sensor, the second temperature sensor, the circulating pump and the radiator.

The constant-temperature quenching system for the medical suture needle is characterized in that a solid-state relay and a first temperature controller are arranged in an electric appliance box, the solid-state relay is electrically connected with a resistance furnace and the first temperature controller respectively, and the first temperature controller is electrically connected with a first temperature sensor.

The constant-temperature quenching system for the medical suture needle is characterized in that a second temperature controller is arranged in an electric appliance box, and the second temperature controller is electrically connected with a second temperature sensor, a circulating pump and a radiator respectively.

The constant-temperature quenching system for the medical suture needle is characterized in that a plurality of cooling branch pipes are arranged at the left part of a cooling pipeline.

The constant-temperature quenching system for the medical suture needle is characterized in that the radiator comprises a shell, a radiating frame and an axial flow fan are oppositely arranged in the shell, the right end of the cooling pipeline penetrates through the shell, and the part, located in the shell, of the cooling pipeline is fixedly matched with the radiating frame.

The constant-temperature quenching system for the medical suture needle is characterized in that the part of the cooling pipeline, which is positioned in the shell, is S-shaped and meanders from top to bottom to form a folding structure.

Compared with the prior art, the utility model discloses there are two advantages: firstly, the temperature of the cooling liquid can be kept stable, and the quenching quality temperature of the medical suture needle is further ensured; secondly, can carry out the circulation to the coolant liquid and use, resources are saved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the circuit structure of the present invention;

fig. 3 is a schematic view of the heat sink structure of the present invention.

In the figure: the electric appliance box comprises an electric appliance box 1, a resistance furnace 2, a cooling tank 3, a cooling pipeline 4, a cooling branch pipe 400, a circulating pump 5, a radiator 6, a shell 600, a radiating frame 601, an axial flow fan 602, a first temperature sensor 7, a second temperature sensor 8, a solid state relay 9, a first temperature controller 10 and a second temperature controller 11.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in the figure, a constant temperature quenching system of medical suture needle, including electrical apparatus case 1, resistance furnace 2, cooling bath 3 and cooling tube 4, cooling tube 4 is cyclic annular structure, its left part is soaked in cooling bath 3, the right part is located outside cooling bath 3, set up circulating pump 5 and radiator 6 on cooling tube 4's the right part, set up first temperature sensor 7 in the resistance furnace 2, set up second temperature sensor 8 in the cooling bath 3, electrical apparatus case 1 is connected with first temperature sensor 7, second temperature sensor 8, circulating pump 5 and 6 electricity of radiator respectively.

As the utility model discloses an optimize structure: a solid-state relay 9 and a first temperature controller 10 are arranged in the electrical appliance box 1, the model of the solid-state relay 9 is SSR-3-S38040A, the solid-state relay 9 is electrically connected with the resistance furnace 2 and the first temperature controller 10 respectively, and the first temperature controller 10 is electrically connected with the first temperature sensor 7. Wherein, adopt solid state relay 9 control, the circuit is more stable.

As the utility model discloses an optimize structure: a second temperature controller 11 is arranged in the electrical appliance box 1, and the second temperature controller 11 is electrically connected with the second temperature sensor 8, the circulating pump 5 and the radiator 6 respectively.

As the utility model discloses an optimize structure: a plurality of cooling branch pipes 400 are provided at the left portion of the cooling duct 4.

As the utility model discloses an optimize structure: the radiator 6 comprises a casing 600, a heat dissipation frame 601 and an axial flow fan 602 are oppositely arranged in the casing 600, the right end of the cooling pipeline 4 penetrates through the casing 600, and the part of the cooling pipeline 4 located in the casing 600 is fixedly matched with the heat dissipation frame 601. Wherein, the axial flow fan 602 is electrically connected with the first temperature controller 11.

As the utility model discloses an optimize structure: the portion of the cooling duct 4 located in the casing 600 is formed in a folded structure by winding in an S-shape from top to bottom.

The utility model provides a resistance furnace 2, cooling bath 3, circulating pump 5, axial fan 602, first temperature sensor 7, second temperature sensor 8, solid state relay 9, first temperature controller 10, second temperature controller 11 are the well-known technique.

When in use, the solid-state relay 9 is connected with a 380V/50HZ/20A/AC power supply, and the two temperature controllers, the axial flow fan 602 and the circulating pump 5 are connected with a 220V/AC power supply. The work piece is heated through resistance furnace 2 earlier, then transfers the work piece to and cools off in cooling bath 3, takes away the heat through cooling tube 4, and the heat of rethread radiator 6 with cooling tube 4 is taken away, and the coolant liquid in cooling tube 4 just so can recycle.

In the aspect of temperature control: the first temperature sensor 7 detects the temperature of the resistance furnace 2, when the temperature exceeds a preset range, the first temperature controller 10 transmits a signal to the solid-state relay 9, and the solid-state relay 9 controls the resistance furnace 2 to adjust the temperature so as to keep the temperature within the preset range; the second temperature sensor 8 detects the temperature in the cooling tank 3, and when the temperature exceeds a preset range, the second temperature controller 11 adjusts the temperature of the cooling tank 3 by controlling the operation of the circulation pump 5 and the axial flow fan 602.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (6)

1. The utility model provides a constant temperature quenching system of medical sewing needle, its characterized in that includes electrical apparatus case (1), resistance furnace (2), cooling bath (3) and cooling tube (4), cooling tube (4) are cyclic annular structure, its left part is soaked in cooling bath (3), the right part is located outside cooling bath (3), set up circulating pump (5) and radiator (6) on the right part of cooling tube (4), set up first temperature sensor (7) in resistance furnace (2), set up second temperature sensor (8) in cooling bath (3), electrical apparatus case (1) is connected with first temperature sensor (7) respectively, second temperature sensor (8), circulating pump (5) and radiator (6) electricity.

2. The constant-temperature quenching system for the medical suture needle as claimed in claim 1, wherein a solid-state relay (9) and a first temperature controller (10) are arranged in the electrical box (1), the solid-state relay (9) is electrically connected with the resistance furnace (2) and the first temperature controller (10) respectively, and the first temperature controller (10) is electrically connected with the first temperature sensor (7).

3. The constant-temperature quenching system for the medical suture needle as claimed in claim 1, wherein a second temperature controller (11) is arranged in the electrical box (1), and the second temperature controller (11) is electrically connected with the second temperature sensor (8), the circulating pump (5) and the radiator (6) respectively.

4. The quenching system for medical suture needles according to any one of claims 1 to 3, wherein a plurality of cooling branch pipes (400) are provided at the left part of the cooling duct (4).

5. The constant temperature quenching system for the medical suture needle as claimed in any one of claims 1 to 3, wherein the heat sink (6) comprises a housing (600), a heat sink (601) and an axial flow fan (602) are oppositely arranged in the housing (600), the right end of the cooling pipeline (4) passes through the housing (600), and the part of the cooling pipeline (4) in the housing (600) is fixedly matched with the heat sink (601).

6. The quenching system for the medical suture needle as claimed in claim 5, wherein the cooling tube (4) is formed in a folded structure by winding the portion of the cooling tube in the housing (600) in an S-shape from top to bottom.

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