CN221234396U - Pathological specimen transfer device for operating room - Google Patents

Abstract

The utility model relates to the field of surgical supplies in medical treatment, in particular to a pathological specimen transfer device for an operating room, which comprises a box body, a storage rack unit and a temperature control unit, wherein the storage rack unit and the temperature control unit are respectively arranged in the box body, the box body is internally divided into an upper chamber and a lower chamber, the upper chamber and the lower chamber are separated by a transverse plate, the storage rack unit and a temperature control channel are arranged in the upper chamber, a refrigerating module is arranged in the lower chamber, the storage rack unit comprises a partition plate and a sealing tank which is stored between the partition plate, the sealing tank is provided with an openable sealing cover, a vacuum pump is further arranged in the lower chamber, a vacuum pipe interface is arranged at the bottom of the sealing tank, a vacuum pipe of the vacuum pump is connected to the vacuum pipe interface of each sealing tank, and a pressure release valve is arranged on the sealing cover. The device utilizes vacuum seal and temperature control to store the sample in the sealed tank respectively for transportation, is favorable for preserving the integrity of the sample, avoids cross infection of the sample and the outside, avoids monitoring data deviation caused by infection, and improves the detection accuracy.

Description

Pathological specimen transfer device for operating room

Technical Field

The utility model relates to the field of medical surgical supplies, in particular to a pathological specimen transfer device for an operating room.

Background

The transport of the pathological specimens cut off in the operating room is very important to ensure the integrity and accuracy of the specimens. The following is a general pathological specimen transport procedure:

1. Sample collection: when an operation is performed in an operating room, a doctor can cut corresponding tissues or organs as required to serve as pathological specimens. Specimens are typically placed in specialized containers and provided with labels to identify patient information, specimen type, date of surgery, and the like.

2. And (3) sample packaging: after collection, the specimen will be placed in a suitable container and packaged with the corresponding application form and associated document. During the packaging process, the tightness of the specimen is ensured to prevent the specimen from spilling or being contaminated.

3. Specimen transfer: specimens are typically taken care of by specialized nurses or assistants to be sent from the operating room to the pathology laboratory.

4. Registration and recording: once the specimen arrives at the pathology laboratory, the staff will register the specimen and record the corresponding information, such as the time of receipt, the person sending the test, the type of specimen, etc. This information will be used for subsequent processing and tracking.

5. Sample treatment: the staff in pathology laboratory can carry out corresponding treatment such as fixing, slicing, etc. according to specimen type. These steps are intended to preserve the structure and tissue of the specimen for subsequent histological examination and pathological diagnosis. Corresponding operating specifications and safeguards are to be followed in handling and transporting the specimen to ensure the safety of the staff and sterility of the specimen. For example, medical personnel should wear gloves, masks, and other personal protective equipment to prevent cross-infection and exposure to hazardous materials.

6. Histological examination: after processing, the specimen will be sent to a histological examination department for microscopic observation and analysis. The histological examination results will serve as the basis for pathology reporting to assist the physician in making accurate diagnostic and therapeutic decisions.

During the whole transportation process, the safety, the integrity and the traceability of the specimen are ensured. Tissue specimens of uterus, ovaries and related diseases are often required to be preserved under refrigerated conditions. Specimens are typically stored in refrigerators at about 4 degrees celsius to retard tissue spoilage and maintain the structural integrity of the specimen. In the existing process of transferring and preserving the samples, factors which seriously influence the quality of the microbial samples include unsuitable temperature, poor transfer tightness, leakage of damaged samples of containers caused by poor stability of a preservation device, and the like; at present, a microorganism specimen is often put into a foam box with an ice bag and ice cubes and other devices for storage and transportation, however, the storage mode cannot know the temperature in real time, the quality of the specimen cannot be ensured, the specimen is not completely sealed, the specimen detection result is easily affected if long-distance transportation is carried out, and the risk of infection is easily caused to transportation medical staff if the infection problem exists.

The patent with the application number 202310372304X (publication number CN 116331632A) discloses a transfer and storage device of a clinical laboratory microorganism clinical specimen dual-temperature system, which comprises a box body, a storage rack unit, a temperature control unit, a damping unit and an early warning unit, wherein the storage rack unit, the temperature control unit, the damping unit and the early warning unit are respectively arranged in the box body; according to the device, the top plate is pressed down by external force, so that the acting force of the spring in the bottom plate on the test tube can be enhanced, the test tube can be firmly fixed between the bottom plate slotted hole and the pressing plate, and the stability effect is improved; the temperature in the cavity detected by the temperature sensor controls the hot air and the cold air to flow into the ventilation pipe at the side of the cavity; the device can be used at both high and low temperatures in daily life, can be used for placing two samples corresponding to proper temperatures, enhances the storage integrity of the corresponding samples, and improves the detection accuracy.

Although the patent solves the problem that the temperature of the sample storage and transportation cannot be controlled in the technical problem, the technical problem that the sample is not completely sealed and cross infection is easy to occur is not solved.

Disclosure of utility model

In order to solve the technical problems, the utility model aims to provide a pathological specimen transfer device for an operating room, which forms a sealed state of a specimen in a specimen box in the transportation process and solves the problem that the specimen and a transporter are easy to cross-infect.

In order to achieve the above object, the technical scheme of the present utility model is as follows:

The pathological specimen transfer device for the operating room comprises a box body, a storage rack unit and a temperature control unit, wherein the storage rack unit and the temperature control unit are respectively arranged in the box body, the temperature control unit comprises a temperature control channel which is arranged in the box body and can be communicated with the storage rack unit, and a refrigerating module connected with the temperature control channel;

The inner part of the box body is divided into an upper cavity and a lower cavity, the upper cavity and the lower cavity are separated by a transverse plate, the storage rack unit and the temperature control channel are arranged in the upper cavity, the refrigerating module is arranged in the lower cavity, the storage rack unit comprises a baffle plate and a sealing tank which is stored between the baffle plates, the sealing tank is provided with an openable sealing cover,

A vacuum pump is further arranged in the lower cavity, a vacuum tube channel is arranged on the transverse plate, a vacuum tube interface is arranged at the bottom of each sealing tank, a vacuum tube of the vacuum pump penetrates through the vacuum tube channel to be connected to the vacuum tube interface of each sealing tank, and a pressure relief valve is arranged on the sealing cover.

Further, the transverse plate and the partition plate are divided into an upper plate layer, a shock-absorbing layer and a lower plate layer, and the shock-absorbing layer is arranged between the upper plate layer and the lower plate layer.

Further, the temperature control channel comprises a vent pipe which is communicated with the upper cavity and the lower cavity and can be communicated with the position corresponding to the sealing tank in a distributed mode, a plurality of micro fans arranged in the vent pipe, and a wind guide pipe group arranged in the vent pipe and located between the two partition boards.

Further, the refrigeration module comprises a semiconductor refrigeration piece arranged in the lower cavity of the box body and a second micro fan arranged at one side of the semiconductor refrigeration piece; the refrigerating module is connected with the air guide pipe group through a control valve.

Further, a heat dissipation window is arranged on the outer wall of the box body corresponding to the mounting position of the semiconductor refrigerating sheet, and a heat dissipation fan is mounted on the heat dissipation window.

Further, an adjusting window is arranged on the outer wall of the box body at the corresponding position of the vacuum pump, and a switch of the vacuum pump extends out of the adjusting window.

Further, the box body is provided with an openable box cover, the top of the box cover is provided with an armrest, a PLC controller for controlling the refrigerating module and a power supply electrically connected with the vacuum pump, the PLC controller and the cooling fan are further arranged in the lower cavity in the box body, and the power switch is arranged on the outer wall of the side face of the box body.

Further, two-dimensional codes are arranged on each sealing cover, small programs are connected in the two-dimensional codes, and specimen information is recorded in the small programs.

The beneficial effect that above design compares with prior art is:

(1) The device utilizes vacuum seal to store the sample in the seal pot respectively for transportation, is favorable for preserving the integrality of the sample, avoids cross infection of the sample and the outside, avoids monitoring data deviation caused by infection, and improves detection accuracy. Can also effectively protect the carrier and avoid cross infection of the infected specimens.

(2) The device utilizes the temperature control unit to realize the control of specimen transportation temperature, is suitable for transportation uterus, ovary and relevant disease tissue specimen storage, controls the temperature of the seal pot through low temperature maintenance, combines vacuum seal, fully protects the integrity of the specimen, strengthens the integrity of corresponding specimen storage by the design, and improves the detection accuracy.

(3) Through the design of upper and lower floor, a plurality of baffles for the sample stores can be separated according to the category, joins in marriage the information that the two-dimensional code shows each sample, avoids a plurality of samples to deposit and the condition of taking by mistake, can also track the information of sample in real time, and the shock attenuation design of baffle avoids the sample to be bumped the condition in the transportation and appears.

Drawings

FIG. 1 is a schematic top view of the case of the present utility model in an open state;

Fig. 2 is a schematic front view of the open state of the case of the present utility model.

Detailed Description

In order that the manner in which the utility model is attained, as well as the features and advantages thereof, will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof.

The pathological specimen transfer device for the operating room, as shown in fig. 1 and 2, comprises a box body 1, a storage rack unit and a temperature control unit, wherein the storage rack unit and the temperature control unit are respectively arranged inside the box body 1, the temperature control unit comprises a temperature control channel which is arranged inside the box body and can be communicated with the storage rack unit, and a refrigerating module connected with the temperature control channel.

The inside of the box body 1 is divided into an upper cavity and a lower cavity, the upper cavity and the lower cavity are separated by a diaphragm 2, a storage rack unit and a temperature control channel 7 are arranged in the upper cavity, a refrigerating module 3 is arranged in the lower cavity, the storage rack unit comprises a partition board 4 and a sealing tank 5 stored between the partition boards 4, the sealing tank 5 is provided with an openable sealing cover, the diaphragm 2 and the partition board 4 are divided into an upper board layer, a damping layer and a lower board layer, and the damping layer is arranged between the upper board layer and the lower board layer. The box body can be made of light plastic, and the inner partition plate and the transverse plate can also be made of heat insulation materials, so that the loss of cold air is prevented.

A vacuum pump 6 is also arranged in the lower chamber, a vacuum pipe channel is arranged on the transverse plate 2, a vacuum pipe interface is arranged at the bottom of the sealing tanks 5, a vacuum pipe 61 of the vacuum pump 6 passes through the vacuum pipe channel to be connected to the vacuum pipe interface of each sealing tank 5, and a pressure release valve is arranged on the sealing cover.

The temperature control channel 7 comprises a vent pipe which is communicated with the upper cavity and the lower cavity and can be communicated with the position corresponding to the sealing tank 5 in a distributed manner, a plurality of micro fans arranged in the vent pipe, and a wind guide pipe group arranged in the vent pipe and positioned between the two partition boards, which are in the prior art and are shown in detail in the figure.

The refrigerating module 3 comprises a semiconductor refrigerating sheet 30 arranged in the lower cavity of the box body 1 and a second micro fan arranged at one side of the semiconductor refrigerating sheet 30; the refrigerating module 3 is connected with the air guide pipe group through a control valve. The outer wall of the box body 1 corresponding to the installation position of the semiconductor refrigerating sheet 30 is provided with a heat dissipation window, and a heat dissipation fan 31 is installed on the heat dissipation window.

An adjusting window is arranged on the outer wall of the box body at the corresponding position of the vacuum pump 6, and a switch of the vacuum pump 6 extends out of the adjusting window. After the specimen is put into the sealed tank 5, the sealed cover is covered, the pressure release valve is closed, the switch of the vacuum pump 6 is directly arranged, the switch is a knob type, the rotating angle determines the magnitude of vacuum negative pressure, the vacuum pump 6 is operated when being regulated to proper vacuum, the specimen is sealed and preserved in the transportation process, the vacuum can also avoid the fungal reproduction, double protection with refrigeration is realized, and long-distance transportation is also free of problems.

The box 1 is provided with an openable box cover 7, the top of the box cover 7 is provided with an armrest, a PLC (programmable logic controller) 8 for controlling a refrigerating module and a power supply electrically connected with a vacuum pump 6, the PLC 8, a cooling fan 31 and the refrigerating module 3 are arranged in a lower cavity of the box 1, a power supply switch is arranged on the outer wall of the side face of the box, each sealing cover is provided with a two-dimension code, a small program or a hospital background is inscribed in the two-dimension code, specimen information is recorded in the small program or the hospital background, and the public number of the hospital can be queried for self report information. These are commercially available products and are not described in detail herein. The power supply is rechargeable, and a charging port is reserved on the box body.

The use principle is that after a specimen is placed in a sealed tank and a sealing cover is covered, a tank cover is covered, a power switch is started, a PLC (programmable logic controller) 8 automatically operates, a refrigerating module 3 is opened, a refrigerating program is started to control the temperature in the tank body, a vacuum pump switch is opened again, the sealed tank is subjected to vacuum pumping protection, the inside of the tank body is kept at the temperature of 4 ℃ under the condition of sufficient power supply, and the sealed tank is kept in a vacuum state. When the specimen needs to be taken out, the power supply and the vacuum pump are turned off, the pressure relief valve is opened for pressure relief, and then the sealing cover is opened for taking the specimen.

In addition, the device can also be used in an operating room, a plurality of sealing tanks are arranged in the box body, soaking liquid (formalin, methanol or formaldehyde and the like) is injected into the sealing tanks, the extracted samples (a series of samples such as uterus, ovary and tissues stripped by related diseases, uterine cavity tissues and the like) are placed in the soaking liquid, the putrefaction or the variation at normal temperature is prevented, the vacuum device can be selectively started, the temperature control device can also be selectively started, and if the samples are transferred in a department in a home, the temperature and the vacuum device can not be started.

Or the storage rack unit is connected with the sealing tank and can be independently taken out from the box body, a lifting handle is additionally arranged at two sides of the storage rack unit, the transverse plate and the baffle are of an integral structure, the transverse plate, the baffle and the sealing tank in the upper cavity can be intensively lifted, the vacuum pipeline and the refrigerating line are pulled out, and the sample is independently moved, so that the sample can be quickly transferred in a hospital instead of the whole box body with larger volume. The method used is selected to be diversified.

The pathological specimen transfer device for the operating room provided by the utility model is described in detail above. The description of the specific embodiments is only intended to aid in understanding the method of the utility model and its core concept, and it should be understood that it will be apparent to those skilled in the art that various changes and modifications can be made herein without departing from the principles of the utility model, and such changes and modifications will fall within the scope of the appended claims.

Claims (8)

1. The pathological specimen transfer device for the operating room comprises a box body, a storage rack unit and a temperature control unit, wherein the storage rack unit and the temperature control unit are respectively arranged in the box body, the temperature control unit comprises a temperature control channel which is arranged in the box body and can be communicated with the storage rack unit, and a refrigerating module connected with the temperature control channel;

It is characterized in that the inner part of the box body is an upper cavity and a lower cavity, the upper cavity and the lower cavity are separated by a transverse plate, the storage rack unit and the temperature control channel are arranged in the upper cavity, the refrigerating module is arranged in the lower cavity, the storage rack unit comprises a baffle plate and a sealing tank which is stored between the baffle plates and is provided with an openable sealing cover,

A vacuum pump is further arranged in the lower cavity, a vacuum tube channel is arranged on the transverse plate, a vacuum tube interface is arranged at the bottom of each sealing tank, a vacuum tube of the vacuum pump penetrates through the vacuum tube channel to be connected to the vacuum tube interface of each sealing tank, and a pressure relief valve is arranged on the sealing cover.

2. The pathological specimen transfer device for an operating room according to claim 1, wherein: the diaphragm plate and the partition plate are divided into an upper plate layer, a shock absorption layer and a lower plate layer, and the shock absorption layer is arranged between the upper plate layer and the lower plate layer.

3. The pathological specimen transfer device for an operating room according to claim 1, wherein: the temperature control channel comprises a vent pipe which is communicated with the upper cavity and the lower cavity and can be communicated with the position corresponding to the sealing tank in a distributed mode, a plurality of micro fans arranged in the vent pipe, and a wind guide pipe group arranged in the vent pipe and located between the two partition boards.

4. A pathological specimen transfer device for an operating room according to claim 3, characterized in that: the refrigerating module comprises a semiconductor refrigerating sheet arranged in the lower cavity of the box body and a second micro fan arranged at one side of the semiconductor refrigerating sheet; the refrigerating module is connected with the air guide pipe group through a control valve.

5. The pathological specimen transfer device for an operating room according to claim 4, wherein: the outer wall of the box body corresponding to the mounting position of the semiconductor refrigerating sheet is provided with a heat dissipation window, and a heat dissipation fan is mounted on the heat dissipation window.

6. The pathological specimen transfer device for an operating room according to claim 1, wherein: an adjusting window is arranged on the outer wall of the box body at the corresponding position of the vacuum pump, and a switch of the vacuum pump extends out of the adjusting window.

7. The pathological specimen transfer device for an operating room according to claim 5, wherein: the box body is provided with an openable box cover, the top of the box cover is provided with an armrest, a PLC controller for controlling a refrigerating module and a power supply electrically connected with a vacuum pump, the PLC controller and a cooling fan are further arranged in a lower cavity in the box body, and a power switch is arranged on the outer wall of the side face of the box body.

8. The pathological specimen transfer device for an operating room according to claim 1, wherein: and each sealing cover is provided with a two-dimensional code, a small program is inscribed in the two-dimensional code, and specimen information is recorded in the small program.