Thyroid drainage tube

CN224404082UActive Publication Date: 2026-06-26THE 96TH HOSPITAL OF THE JOINT SUPPORT FORCE OF THE CHINESE PEOPLES LIBERATION ARMY

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
THE 96TH HOSPITAL OF THE JOINT SUPPORT FORCE OF THE CHINESE PEOPLES LIBERATION ARMY
Filing Date
2025-06-09
Publication Date
2026-06-26

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Abstract

The utility model discloses a kind of thyroid drainage tubes, it is related to thyroid drainage tube technical field, including drainage tube main part, the drainage tube main part includes upper hose, the upper hose one end outer wall is equipped with the drainage hole that is evenly distributed, the other end of the upper hose is equipped with the connector compatible therewith, the inner wall of the connector is connected with the top outer wall of knob joint compatible therewith, the bottom of the knob joint is connected with the one end of lower hose compatible therewith, the other end outer wall of the lower hose is equipped with monitoring assembly.The thyroid drainage tube, by the upper hose surface being equipped with multiple drainage holes, can ensure that liquid can be absorbed into pipe from all aspects, when lower hose is blocked or drainage is not smooth, through the connector cooperation knob joint can replace new lower hose to restore its drainage function, when replacing lower hose, by rotating installation knob cooperation installation groove, it is convenient for medical staff to install monitoring assembly quickly and recycle.
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Description

Technical Field

[0001] This utility model relates to the technical field of thyroid drainage tubes, specifically a thyroid drainage tube. Background Technology

[0002] Due to the rich blood supply and special location of the thyroid gland, continuous negative pressure drainage is essential after surgery. Placing a drainage tube can reduce blood and fluid accumulation in the surgical area, monitor bleeding, and prevent tracheal compression. However, if drainage is improper, it can lead to blood and fluid accumulation in mild cases, and respiratory distress and suffocation in severe cases, which is detrimental to the patient's postoperative recovery. The existing thyroid drainage tubes have the anterior end directly inserted into the opening for drainage. This is a common clinical situation where blood clots can block the drainage hole when drainage is obstructed. Therefore, there is an urgent need for a new type of thyroid drainage tube.

[0003] Currently, existing thyroid drainage tubes cannot ensure that fluid is absorbed into the tube from all angles, and they cannot obtain real-time and accurate data on the flow rate and volume of the drainage fluid, nor can they quickly identify problems such as tube blockage. Utility Model Content

[0004] The purpose of this invention is to provide a thyroid drainage tube to solve the problems mentioned in the background art, such as the inability of existing thyroid drainage tubes to ensure that fluid can be absorbed into the tube from all directions, the inability of existing thyroid drainage tubes to obtain real-time and accurate data on the flow rate and volume of the drainage fluid, and the inability to quickly identify the blockage status of the drainage tube.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a thyroid drainage tube, comprising a drainage tube body, the drainage tube body including an upper tube, one end of the upper tube having evenly distributed drainage holes on its outer wall, the other end of the upper tube being provided with a matching connector, the inner wall of the connector being connected to the top outer wall of a matching knob connector, the bottom of the knob connector being connected to one end of a matching lower tube, the lower tube being connected and fixed to the upper tube by the knob connector and the matching connector, the other end of the lower tube being provided with a monitoring component, the monitoring component including a monitoring box.

[0006] Preferably, one side of the monitoring box is connected to a corresponding fixing block, and the other side of the fixing block is provided with evenly distributed installation knobs. One side of the monitoring box is provided with an installation groove that matches the installation knobs. The monitoring box is connected and fixed to the lower hose through the installation groove, where the installation knobs cooperate with the fixing block. One inner wall of the monitoring box is provided with symmetrically distributed flow sensors, which are located inside the monitoring box.

[0007] Preferably, a display screen adapted to the monitoring box is provided on the opposite side of the monitoring box, the display screen is located inside the monitoring box, and an evenly distributed adjustment button is provided below the display screen. An emergency call button is provided below the adjustment button, and a buzzer is provided below the emergency call button. The buzzer is located inside the monitoring box.

[0008] Preferably, the other side of the monitoring box is provided with a matching elastic buckle, which is connected and fixed to the monitoring box by a fastening bolt. The other side of the monitoring box is provided with a power interface, and the other end of the lower hose is connected to the inlet of the negative pressure drainage ball.

[0009] Preferably, the negative pressure drainage ball is connected and fixed to the lower flexible tube by a connecting pipe, and one end of the flexible connecting strip is connected to the outer wall of the outlet of the negative pressure drainage ball.

[0010] Preferably, the other end of the flexible connecting strip is connected to the outer wall of a sealing plug, and the sealing plug is disposed on the inner wall of the outlet of the negative pressure drainage ball.

[0011] Preferably, the outer wall of the negative pressure drainage ball is provided with uniformly distributed graduated grooves.

[0012] Compared with the prior art, the beneficial effects of this utility model are:

[0013] 1. This thyroid drainage tube has multiple drainage holes on the surface of the upper tube, which ensures that fluid can be absorbed into the tube from all directions. If the lower tube is blocked or drainage is not smooth, the lower tube can be replaced with a new one through the connector and knob joint to restore its drainage function and reduce the chance of bacterial growth and reproduction. When replacing the lower tube, the installation knob can be turned in conjunction with the installation slot to facilitate medical staff to quickly install the monitoring component for reuse, avoiding complicated installation steps. The flow sensor can obtain the flow rate and flow data of the drainage fluid in real time and accurately. Its symmetrical distribution design can monitor different positions of the lower tube and quickly identify the blockage of the drainage tube.

[0014] 2. This thyroid drainage tube allows for setting the normal flow range according to the patient's specific condition via an adjustment button, improving the targeting of monitoring. The display screen can intuitively show and record the flow rate and total volume of the drainage fluid, helping medical staff to keep abreast of the drainage situation. When the flow exceeds the normal range, an alarm will sound via a buzzer to remind medical staff to handle the situation promptly and avoid delaying treatment. The power interface, in conjunction with its internal battery, ensures the continuous and stable operation of the monitoring mechanism, eliminating the limitation of power outlets and improving the flexibility and convenience of using this monitoring component. Attached Figure Description

[0015] Figure 1This is a schematic diagram of the overall three-dimensional structure of this utility model;

[0016] Figure 2 This is a three-dimensional structural diagram of the drainage tube of this utility model;

[0017] Figure 3 This is a three-dimensional structural diagram of the monitoring component of this utility model;

[0018] Figure 4 This is a partial three-dimensional structural diagram of the present invention.

[0019] In the diagram: 1. Drainage tube body; 2. Monitoring component; 3. Negative pressure drainage ball; 4. Connecting tube; 5. Flexible connecting strip; 6. Sealing plug; 7. Graduation groove;

[0020] 101. Upper hose; 102. Drainage hole; 103. Connector; 104. Knob connector; 105. Lower hose;

[0021] 201. Monitoring box; 202. Fixing block; 203. Mounting knob; 204. Mounting slot; 205. Flow sensor; 206. Display screen; 207. Adjustment button; 208. Emergency call button; 209. Buzzer; 210. Elastic buckle; 211. Fastening bolt; 212. Power interface. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0023] Please see Figure 1-4This utility model provides a technical solution: a thyroid drainage tube, including a drainage tube body 1, the drainage tube body 1 including an upper flexible tube 101, one end of the upper flexible tube 101 having evenly distributed drainage holes 102 on its outer wall, the other end of the upper flexible tube 101 being provided with a matching connector 103, the inner wall of the connector 103 being connected to the top outer wall of a matching knob connector 104, the bottom of the knob connector 104 being connected to one end of a matching lower flexible tube 105, the lower flexible tube 105... 5. A knob connector 104 is used to connect and fix the upper hose 101 to the connector 103. A monitoring component 2 is provided on the outer wall of the other end of the lower hose 105. The monitoring component 2 includes a monitoring housing 201. One side of the monitoring housing 201 is connected to one side of a matching fixing block 202. The other side of the fixing block 202 is provided with evenly distributed installation knobs 203. One side of the monitoring housing 201 is provided with an installation groove 204 that matches the installation knobs 203. The monitoring housing 201 is connected to the upper hose 101. The installation knob 203, installed in the installation slot 204, is connected and fixed to the lower hose 105 with the fixing block 202. Flow sensors 205 are symmetrically distributed on the inner wall of one side of the monitoring box 201. The flow sensors 205 are located inside the monitoring box 201. Multiple drainage holes 102 are provided on the surface of the upper hose 101 to ensure that liquid can be absorbed into the tube from all directions. If the lower hose 105 is blocked or drainage is poor, a new lower hose 105 can be replaced through the connector 103 and the knob connector 104 to restore its drainage function and reduce the chance of bacterial growth and reproduction. When replacing the lower hose 105, the installation knob 203 is rotated in conjunction with the installation slot 204 to facilitate quick installation of the monitoring component 2 for repeated use by medical staff, avoiding complicated installation steps. The flow sensors 205 can obtain the flow rate and flow data of the drainage fluid in real time and accurately. Their symmetrical distribution design can monitor different positions of the lower hose 105 and quickly identify the blockage status of the drainage tube.

[0024] A display screen 206 is provided on one side of the monitoring box 201, and the display screen 206 is located inside the monitoring box 201. Below the display screen 206 are evenly distributed adjustment buttons 207, below the adjustment buttons 207 is an emergency call button 208, and below the emergency call button 208 is a buzzer 209, also located inside the monitoring box 201. On the other side of the monitoring box 201 is a matching elastic buckle 210, which is fixed to the monitoring box 201 by fastening bolts 211. A power interface 212 is provided on the opposite side of the monitoring box 201. The other end of the lower hose 105 is connected to the inlet of the negative pressure drainage ball 3, and the negative pressure drainage ball 3 is fixed to the lower hose 105 by a connecting pipe 4. One end of a flexible connecting strip 5 is connected to the outer wall of the outlet of the negative pressure drainage ball 3, and the other end of the flexible connecting strip 5 is connected to the outer wall of a sealing plug 6. The sealing plug 6 is located on the inner wall of the outlet of the negative pressure drainage ball 3. The outer wall of the negative pressure drainage ball 3 has uniformly distributed scale grooves 7. The normal flow range can be set according to the patient's specific situation by adjusting the button 207, which improves the targeting of monitoring. The flow rate and total volume of the drainage fluid can be displayed and recorded intuitively through the display screen 206, which helps medical staff to grasp the drainage situation in a timely manner. When the flow exceeds the normal range, an alarm can be sounded through the buzzer 209 to remind medical staff to deal with it in time and avoid delaying the condition. The power interface 212, together with its internal battery, can ensure the continuous and stable operation of its monitoring mechanism, eliminating the limitation of the power socket and improving the flexibility and convenience of using the monitoring component 2.

[0025] Working principle: First, the upper tubing 101 has multiple drainage holes 102 on its surface, ensuring that liquid can be absorbed into the tube from all directions. If the lower tubing 105 is blocked or drainage is poor, the lower tubing 105 can be replaced with a new one using the connector 103 and the knob connector 104 to restore its drainage function and reduce the chance of bacterial growth and reproduction. When replacing the lower tubing 105, rotating the installation knob 203 in conjunction with the installation slot 204 facilitates quick installation of the monitoring component 2 for reuse by medical staff, avoiding complicated installation steps. The flow sensor 205 can obtain the flow rate and flow data of the drainage fluid in real time and accurately. Its symmetrical distribution design can monitor the lower tubing 105. Monitoring is performed at different locations to quickly identify the blockage of the drainage tube. The normal flow range can be set according to the patient's specific situation through the adjustment button 207, improving the targeting of monitoring. The display screen 206 can intuitively display and record the flow rate and total volume of the drainage fluid, helping medical staff to grasp the drainage situation in a timely manner. When the flow exceeds the normal range, an alarm can be sounded through the buzzer 209 to remind medical staff to deal with it in time and avoid delaying the condition. The power interface 212, together with its internal battery, can ensure the continuous and stable operation of its monitoring mechanism, eliminating the limitation of the power socket and improving the flexibility and convenience of using the monitoring component 2. This completes the operation procedure of a thyroid drainage tube.

[0026] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A thyroid drainage tube, characterized by, The device includes a drainage tube body (1), which includes an upper hose (101). One end of the upper hose (101) has drainage holes (102) evenly distributed on its outer wall. The other end of the upper hose (101) is provided with a matching connector (103). The inner wall of the connector (103) is connected to the top outer wall of a matching knob connector (104). The bottom of the knob connector (104) is connected to one end of a matching lower hose (105). The lower hose (105) is connected and fixed to the upper hose (101) by the knob connector (104) and the connector (103). The other end of the lower hose (105) is provided with a monitoring component (2), which includes a monitoring box (201).

2. A thyroid drainage tube according to claim 1, characterized in that: One side of the monitoring box (201) is connected to a matching fixing block (202), and the other side of the fixing block (202) is provided with evenly distributed installation knobs (203). One side of the monitoring box (201) is provided with an installation groove (204) that matches the installation knobs (203). The monitoring box (201) is connected and fixed to the lower hose (105) through the installation groove (204) with the installation knobs (203) cooperating with the fixing block (202). One side of the monitoring box (201) is provided with symmetrically distributed flow sensors (205), and the flow sensors (205) are located inside the monitoring box (201).

3. A thyroid drainage tube according to claim 1, characterized in that: A display screen (206) adapted to the monitoring box (201) is provided on the opposite side. The display screen (206) is located inside the monitoring box (201). Adjustment buttons (207) are evenly distributed below the display screen (206). An emergency call button (208) is located below the adjustment buttons (207). A buzzer (209) is located below the emergency call button (208). The buzzer (209) is located inside the monitoring box (201).

4. A thyroid drainage tube according to claim 1, characterized in that: On the other side of the monitoring box (201), there is a matching elastic buckle (210). The elastic buckle (210) is connected and fixed to the monitoring box (201) by setting a fastening bolt (211). On the opposite side of the monitoring box (201), there is a power interface (212). The other end of the lower hose (105) is connected to the liquid inlet of the negative pressure drainage ball (3).

5. A thyroid drainage tube according to claim 4, characterized in that: The negative pressure drainage ball (3) is connected and fixed to the lower hose (105) by setting a connecting pipe (4), and the outer wall of the outlet of the negative pressure drainage ball (3) is connected to one end of a flexible connecting strip (5).

6. A thyroid drainage tube according to claim 5, characterized in that: The other end of the flexible connecting strip (5) is connected to the outer wall of the sealing plug (6), and the sealing plug (6) is set on the inner wall of the outlet of the negative pressure drainage ball (3).

7. A thyroid drainage tube according to claim 4, characterized in that: The outer wall of the negative pressure drainage ball (3) is provided with uniformly distributed graduated grooves (7).