CN111297310A - Chamber mirror camera lens removes atomizing processing apparatus - Google Patents

Abstract

The invention provides a de-atomization processing device for a cavity mirror lens, which comprises a shell, a power-on switch, a heating part, a temperature-adjusting integrated circuit device, a battery pack and a disposable sterile endoscope protective sleeve, wherein the disposable sterile endoscope protective sleeve is positioned in the heating part and extends out of the heating part; the device adopts the mode that the heating part is matched with the disposable sterile endoscope protective sleeve, the atomized laparoscope lens is placed into the disposable sterile endoscope protective sleeve, the disposable sterile endoscope protective sleeve is heated by the heating part, and the laparoscope lens is heated, so that the de-atomization of the laparoscope lens is realized, the operation is simple and convenient, the damage to the lens is reduced, the times of the lens entering and exiting the abdominal cavity are reduced, and the operation efficiency is improved; and the temperature of the heating part can be adjusted and controlled according to actual requirements through the arrangement of the temperature adjusting integrated circuit device, so that the time and efficiency for removing the atomization of the laparoscope lens are ensured.

Description

Chamber mirror camera lens removes atomizing processing apparatus

Technical Field

The invention relates to the technical field of de-atomization of a cavity mirror lens, in particular to a de-atomization processing device of the cavity mirror lens.

Background

The laparoscopic surgery has many advantages of less trauma, fast postoperative recovery, less pain of patients, medical nursing resource saving and the like compared with the laparotomy, is widely applied to the surgical operation, has a clear visual field which is the premise of smoothly developing the surgery, can shorten the surgery time, reduce the injury in the surgery, but has a temperature difference between the external environment of the human body and the abdominal cavity of the human body, the temperature of the laparoscopic is usually lower than that in the abdominal cavity, after the laparoscopic enters the abdominal cavity, because the temperature in the abdominal cavity is higher, a layer of fog is easily formed on the surface of a lens after the colder laparoscopic is preheated, the lens is blurred, the visual field is influenced, and the lens is atomized due to frequent use of carbon dioxide filled in the surgery process, a high-frequency electric knife (electric shovel) and the like, the definition of a laparoscopic display is influenced, the fogging of the lens in the laparoscopic surgery is a common problem of bother diagnosis and treatment work, and the, at present, the common treatment methods in clinic include preheating of hot saline, wiping of the surface of a lens by an iodophor cotton ball, use of a lens anti-fogging agent and the like, but the saline temperature is not easy to control, the definition of the lens can be damaged by gauze friction, the lens can be damaged, and the lens can be damaged.

Disclosure of Invention

In order to overcome the following problems in the prior art, the existing laparoscopic de-atomization method adopts hot saline water for preheating, an iodophor cotton ball for wiping the surface of a lens, a lens anti-atomization agent for use and the like, which can damage the lens, influence the operation process, increase the operation risk and reduce the operation efficiency; the invention provides a de-atomization processing device for a cavity mirror lens, which is characterized in that: the disposable endoscope protection sleeve is positioned in the heating part and extends out of the heating part; the disposable sterile endoscope protective sleeve is detachably connected in a sealing manner.

On this basis, aseptic endoscope protective sheath of disposable includes crashproof silica gel and receives the heat, crashproof silica gel is located the one end that receives the heat for reduce the vibrations that receive the heat, receive the inside that the heat is located the part that generates heat to extend the outside of the part that generates heat, receive the heat including receiving the heat pipe and receiving the heat pipe connecting piece, receive the heat pipe and be inside hollow structure, receive the heat pipe connecting piece and be located the one end that receives the heat pipe, form sterile environment with receiving the heat pipe cooperation, receive the inside that the heat pipe is located the part that generates heat to extend the outside of the part that generates heat, receive the heat pipe connecting piece and be located the one end that the heat part that generates heat was kept away from to.

On the basis, the disposable sterile endoscope protective sleeve is integrally formed by a high-temperature-resistant PC material.

On this basis, the part that generates heat includes heater block, temperature probe, insulation material and fixed cover constitution, the temperature probe is located inside the heater block, the insulation material parcel is at the surface of heater block, fixed cover is located insulation material's surface, heater block, temperature probe are connected with the integrated circuit device electricity that adjusts the temperature.

On this basis, the heater block includes electrical heating stick and heating member, the electrical heating stick is located the inside of heating member to run through the inside and outside of heating member, the electrical heating stick is connected with the integrated circuit device electricity that adjusts the temperature, the heating member is inside hollow U type structure.

On the basis, the temperature regulating integrated circuit device comprises an integrated circuit board, a regulating element and a lead, wherein the regulating element is fixedly installed on the integrated circuit board, and the integrated circuit board is electrically connected with the power-on switch, the temperature measuring rod and the electric heating rod through the lead.

On the basis, the temperature control device also comprises a temperature display lamp, wherein the temperature display lamp is positioned on the outer surface of the shell and is electrically connected with the temperature regulating integrated circuit device.

On this basis, the casing includes casing and base, go up the casing lock in the top of base, the circular telegram switch is located the upper surface of casing, the temperature display lamp is located the surface of casing, the group battery is located inside the base to run through the inside and outside of base.

On the basis, the charger is further included, the charger is in plug-in type detachable fixed connection with the battery pack, and the battery pack is a rechargeable battery.

On this basis, still include protective housing, protective housing covers the surface at casing (the protective housing includes protection epitheca, protection base and upper and lower cover hasp, the outside at the epitheca is established to the protection epitheca cover, the outside at the base is established to the protection base cover, protection epitheca, protection base can dismantle the connection through upper and lower cover hasp.

Compared with the prior art, the invention has the beneficial effects that:

1. this device adopts the part that generates heat and the aseptic endoscope protective sheath complex mode of disposable, put into the aseptic endoscope protective sheath of disposable with atomizing peritoneoscope camera lens, heat the aseptic endoscope protective sheath of disposable through the part that generates heat, realize the heating to the peritoneoscope camera lens, thereby realize going atomizing of peritoneoscope camera lens, easy operation is convenient, the damage to the peritoneoscope camera lens has been reduced, and reduce camera lens business turn over abdominal cavity number of times, very big improvement the efficiency of operation, the operation has been reduced because the risk of camera lens infection, the security of operation has been improved.

2. The temperature of the heating part can be adjusted, controlled and displayed according to actual requirements by the temperature adjusting integrated circuit device and the temperature display lamp, so that the time and efficiency for removing the atomization of the laparoscope lens are ensured.

3. The disposable sterile endoscope protective sleeve of the device adopts a mode of matching the anti-collision silica gel and the heated piece, the atomized laparoscope lens is placed in the heated piece, the anti-collision silica gel reduces the vibration of the heated piece when the heated piece is placed, the safety of the lens is protected, the heated piece adopts a mode of matching the heated tube and the heated tube connecting piece, or the heated piece is integrally formed by one-time injection molding of a high-temperature resistant PC material, a sterile environment is formed inside, and the risk of laparoscope lens infection is reduced.

4. This device parts that generate heat adopt heater block, temperature probe, insulation material and fixed cover complex mode, guaranteed the efficiency of heating and the thermal isolation of external environment, improved the availability factor and the convenience of device to the heater block adopts inside hollow U type structure, and aseptic endoscope protective sheath of disposable is located the inside of heater block, has guaranteed the homogeneity and the stability of heating, avoids the unbalanced influence peritoneoscope camera lens to remove the atomizing effect of local heating temperature, has guaranteed that the camera lens removes atomizing efficiency.

Drawings

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

fig. 2 is a schematic structural view of a heat generating component according to embodiment 1 of the present invention;

FIG. 3 is a schematic structural diagram of a temperature-regulating IC device according to embodiment 1 of the present invention;

FIG. 4 is a schematic view of a disposable sterile endoscope protective sheath according to embodiment 1 of the present invention;

FIG. 5 is a schematic structural diagram of a protective casing according to embodiment 1 of the present invention;

FIG. 6 is a schematic view of a disposable sterile endoscope protective sheath according to embodiment 2 of the present invention;

in the figure: 1. the endoscope comprises a shell, 11, an upper shell, 12, a base, 2, an energizing switch, 3, a heat-generating component, 31, a heating component, 311, an electric heating rod, 312, a heating component, 32, a temperature measuring rod, 33, a heat insulation material, 34, a fixing sleeve, 4, a temperature adjusting integrated circuit device, 41, an integrated circuit board, 42, an adjusting and controlling element, 43, a lead, 5, a battery pack, 6, a disposable sterile endoscope protective sleeve, 61, anti-collision silica gel, 62, a heated component, 621, a heated tube, 622, a heated tube connecting piece, 7, a temperature display lamp, 8, a charger, 9, a protective shell, 91, a protective upper shell, 92, a protective base, 93 and upper and lower sleeve locking buckles.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

As shown in fig. 1 to 5, the present invention schematically shows a device for de-fogging a cavity mirror lens.

The invention discloses a de-atomization processing device for a cavity mirror lens, which comprises a shell 1, a power-on switch 2, a heating part 3, a temperature adjusting integrated circuit device 4, a battery pack 5 and a disposable sterile endoscope protective sleeve 6, wherein the power-on switch 2 is positioned on the shell 1, the power-on switch 2 is electrically connected with the temperature adjusting integrated circuit device 4 and the battery pack 5, the heating part 3, the temperature adjusting integrated circuit device 4 and the battery pack 5 are positioned inside the shell 1, the temperature adjusting integrated circuit device 4 is electrically connected with the heating part 3, the disposable sterile endoscope protective sleeve 6 is positioned inside the heating part 3, the atomized cavity mirror lens is positioned inside the disposable sterile endoscope protective sleeve 6, the power-on switch 2 is used for controlling the connection of the heating part 3 and the battery pack 5, the temperature adjusting integrated circuit device 4 is used for controlling the temperature of the heating part 3, the heating component 3 is communicated with the battery pack 5 to heat, and heats the disposable sterile endoscope protective sleeve 6, so that the laparoscope lens is heated, and accordingly, the laparoscope lens is de-atomized, the operation is simple and convenient, the lens is prevented from being damaged in the traditional mode, the service life of the lens is prolonged, the times of the lens entering and exiting the abdominal cavity are reduced, the operation efficiency is greatly improved, the risk of the operation caused by lens infection is reduced, and the operation safety is improved; the shell 1 is a hollow structure and is used for supporting and accommodating various components, a heating component 3 is installed in the shell, the heating component 3 is composed of a heating component 31, a temperature measuring rod 32, a heat insulating material 33 and a fixing sleeve 34, as shown in fig. 2, the temperature measuring rod 32 is located in the heating component 31 and is used for measuring the temperature of the heating component 31, the heat insulating material 33 is wrapped on the outer surface of the heating component 31 and is used for insulating the heating component 31, the heating efficiency of the heating component 31 is guaranteed, thermal isolation between the heating component 31 and the surrounding environment is achieved, the safety of the device is guaranteed, the fixing sleeve 34 is located on the outer surface of the heat insulating material 33 and is used for supporting the heating component 31, and the heating component 31 and the temperature measuring rod 32 are electrically connected with; the heating component 31 is of a U-shaped structure with a hollow interior, and comprises an electric heating rod 311 and a heating component 312, wherein the electric heating rod 311 is positioned in the heating component 312 and penetrates through the inside and the outside of the heating component 311, the electric heating rod 311 is electrically connected with the temperature-adjusting integrated circuit device 4 to realize the electric heating of the heating component 312, the electric heating rod 311 is positioned at two sides of the inside of the heating component 312, so that the uniformity of the heating component 312 is ensured, the heating component 312 is of a U-shaped structure with a hollow interior, and the disposable sterile endoscope protective sleeve 6 is placed in the heating component, so that the multi-direction heating of the disposable sterile endoscope protective sleeve 6 is realized, the uniformity and the stability of the heating of the disposable sterile endoscope protective sleeve 6 are ensured, the effect of the defogging of the laparoscope lens is prevented from being; the disposable sterile endoscope protective sleeve 6 is inserted into the heating element 312 and extends out of the heating element 312, the disposable sterile endoscope protective sleeve 6 comprises an anti-collision silica gel 61 and a heating element 62, as shown in fig. 4, the anti-collision silica gel 61 is positioned at the bottom of the heating element 62, the anti-collision silica gel 61 is in contact with the bottom of the inner side of the heating element 312 and is used for reducing the vibration of the heating element 62 placed into the heating element 312 and ensuring the safety of the laparoscope lens, the heating element 62 comprises a heating tube 621 and a heating tube connecting piece 622, the heating tube 621 is of an internal hollow structure, the heating tube connecting piece 622 is positioned at one end of the heating tube 621 and is detachably and hermetically connected with the heating tube 621, so that the atomized laparoscope lens can be placed conveniently, the heating tube 621 and the heating tube connecting piece 622 are matched in the interior to form a sterile environment, and the cleanliness, the safety of the operation is improved; the heated tube 621 is located inside the heating element 312 and extends out of the heating element 312, and the heated tube connector 622 is located at one end of the heated tube 621 far away from the heating element 312, so that the heated element 62 can be conveniently taken and placed, and the use convenience of the device is improved; the temperature adjusting integrated circuit device 4 is used for controlling the temperature of the heating component 3, the temperature adjusting integrated circuit device 4 is electrically connected with the electric heating rod 311 and the temperature measuring rod 32 in the heating component 3, the working state of the electric heating rod 311 is controlled by the temperature measuring rod 32 detecting the value of the temperature in the heating component 312, when the temperature measuring rod 32 detects that the heating component 312 reaches the set temperature, the temperature adjusting integrated circuit device 4 disconnects the electric heating rod 311 from the battery pack 5, the electric heating rod 311 stops working, when the temperature measuring rod 32 detects that the heating component 312 is lower than the set temperature, the temperature adjusting integrated circuit device 4 controls the electric heating rod 311 to be connected with the battery pack 5, the electric heating rod 311 starts working, thereby the heating temperature of the heating component 3 can be adjusted and controlled, the heating reliability and stability are ensured, the time and the efficiency for removing the mist of the laparoscope lens are ensured, in the embodiment, the set temperature is preferably adjustable within the range of 0-, the temperature-adjusting integrated circuit device 4 comprises an integrated circuit board 41, an adjusting and controlling element 42 and a conducting wire 43, as shown in fig. 3, the adjusting and controlling element 42 is fixedly installed on the integrated circuit board 41, and the adjusting and controlling element 42 is electrically connected with the power-on switch 2, the temperature measuring rod 32 and the electric heating rod 311 through the conducting wire 43, so that the working reliability of the heat generating component 3 is ensured.

As a further embodiment, the endoscope lens de-atomization treatment device further comprises a temperature display lamp 7, the temperature display lamp 7 is positioned on the outer surface of the shell 1 and is used for displaying the working state of the heating component 3 as shown in figure 1, the temperature display lamp 7 is positioned at one side where the disposable sterile endoscope protective sleeve 6 is installed so as to be convenient for observing the working state of the heating component 3, the temperature display lamp 7 is electrically connected with the temperature adjusting integrated circuit device 4, when the temperature is lower than a set temperature by a certain value, the temperature display lamp 7 displays red, the temperature adjusting integrated circuit device 4 controls the heating component 3 to be connected with the battery pack 5 to start working, when the temperature reaches the set temperature, the temperature display lamp 7 displays green, the atomized laparoscope lens is inserted into the disposable sterile endoscope protective sleeve for 5-8 seconds so that the lens atomization phenomenon is eliminated, the efficiency of the laparoscope lens for de-atomizing is ensured.

As a further embodiment, the endoscope lens de-atomization processing device further includes a charger 8, as shown in fig. 1, the charger 8 and the battery pack 5 are in a plug-in type detachable fixed connection, and are used for charging the battery pack 5, so that the battery pack 5 can be recycled, and the use efficiency of the battery pack 5 is improved.

As a further embodiment, the battery pack 5 is a rechargeable lithium battery and can continuously work for six hours when being fully charged, so that the use convenience and the reliability of the endoscope lens de-atomization treatment device are ensured.

As a further example, the housing 1 includes an upper housing 11 and a base 12, as shown in fig. 1, the upper housing 11 is fastened above the base 12 to facilitate the installation of the internal power switch 2, the heat generating component 3, the temperature adjusting ic device 4, and the battery pack 5, the power switch 2 is located on the upper surface of the upper housing 11, the temperature display lamp 7 is located on the outer surface of the upper housing 11, the heat generating component 3 and the temperature adjusting ic device 4 are located inside the upper housing 11, and the battery pack 5 is located inside the base 12 and penetrates inside and outside the base 12 to facilitate charging.

As a further embodiment, a chamber mirror camera lens removes atomizing processing apparatus still includes charger 8 and still includes protective housing 9, protective housing 9 covers the surface at casing 1, protective housing 9 includes protection epitheca 91, protection base 92 and upper and lower cover hasp 93, as shown in fig. 5, protection epitheca 91 cover is established in the outside of epitheca 11, protection base 92 cover is established in the outside of base 12, protection epitheca 91, protection base 92 can dismantle the connection through upper and lower cover hasp 93 to the realization is to casing 1's protection, has guaranteed chamber mirror camera lens and has removed atomizing processing apparatus's stability.

The working principle is as follows:

the power-on switch 2 is turned on, the battery pack 5 is connected with the heating component 3 through the temperature regulating integrated circuit device 4, the heating component 3 generates heat to a set temperature, the temperature display lamp 7 displays green, and the atomized laparoscope lens is inserted into the disposable sterile endoscope protective sleeve for 5-8 seconds, so that the lens atomization phenomenon is eliminated.

The device adopts the mode that the heating part 3 is matched with the disposable sterile endoscope protective sleeve 6, the atomized laparoscope lens is placed into the disposable sterile endoscope protective sleeve 6, the disposable sterile endoscope protective sleeve 6 is heated through the heating part 3, and the laparoscopic lens is heated, so that the de-atomization of the laparoscopic lens is realized, the operation is simple and convenient, the damage of the lens is reduced, the times of the lens entering and exiting the abdominal cavity can be reduced, and the operation efficiency is greatly improved; the temperature of the heating component 3 can be adjusted, controlled and displayed according to actual requirements through the arrangement of the temperature adjusting integrated circuit device 4 and the temperature display lamp 7, so that the time and efficiency for removing the atomization of the laparoscope lens are ensured; meanwhile, the disposable sterile endoscope protective sleeve 6 adopts a mode that the collision-proof silica gel 61 is matched with the heated part 62, the atomized laparoscopic lens is placed in the heated part 62, the collision-proof silica gel 61 reduces the vibration of the heated part 62 during placement, the safety of the lens is protected, and the risk of lens infection is reduced due to the sterile environment in the heated part 62; the part 3 that generates heat simultaneously adopts inside hollow U type structure, and aseptic endoscope protective sheath 6 of disposable is located the inside of the part 3 that generates heat, has guaranteed the homogeneity and the stability of heating, avoids the unbalanced effect that influences the camera lens and remove atomizing of local heating temperature, has guaranteed that the peritoneoscope camera lens removes atomizing efficiency.

Example 2

The difference with embodiment 1 is that the disposable sterile endoscope protective sleeve 6 is integrally formed by injection molding of a high-temperature-resistant PC material, the structure is simple, the processing is convenient, and the use convenience of the laparoscopic lens de-atomization treatment device is improved.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a chamber mirror camera lens removes atomizing processing apparatus which characterized in that: the multifunctional temperature-regulating endoscope comprises a shell (1), a power-on switch (2), a heating component (3), a temperature-regulating integrated circuit device (4), a battery pack (5) and a disposable sterile endoscope protective sleeve (6), wherein the power-on switch (2) is positioned on the shell (1), the power-on switch (2) is electrically connected with the temperature-regulating integrated circuit device (4), the battery pack (5) and the heating component (3) in sequence, the heating component (3), the temperature-regulating integrated circuit device (4) and the battery pack (5) are positioned inside the shell (1), the heating component (3) is of a U-shaped structure, and the disposable sterile endoscope protective sleeve (6) is positioned inside the heating component (3) and extends out of the heating component (3); the disposable sterile endoscope protective sleeve is detachably connected in a sealing manner.

2. The de-atomization processing device of the endoscope lens as recited in claim 1, wherein: the disposable sterile endoscope protective sleeve (6) comprises anti-collision silica gel (61) and a heated piece (62), the anti-collision silica gel (61) is positioned at one end of the heated piece (62), for reducing vibrations of a heat receiving member (62), said heat receiving member (62) being located inside a heat generating component (3), and extends outside the heat generating component (3), the heat receiving component (62) comprising a heat receiving tube (621) and a heat receiving tube connector (622), the heated tube (621) is of a hollow structure, the heated tube connector (622) is positioned at one end of the heated tube (621), forming a sterile environment in cooperation with a heated tube (621), said heated tube (621) being located inside a heat generating component (3), and extends outside the heat generating component (3), the heated tube connector (622) being located at an end of the heated tube (621) remote from the heat generating component (3).

3. The de-atomization processing device of the endoscope lens as recited in claim 1, wherein: the disposable sterile endoscope protective sleeve (6) is integrally formed by a high-temperature-resistant PC material.

4. The de-atomization processing device of the endoscope lens as recited in claim 1, wherein: the heating part (3) comprises a heating part (31), a temperature measuring rod (32), an insulating material (33) and a fixing sleeve (34), the temperature measuring rod (32) is arranged inside the heating part (31), the insulating material (33) is wrapped on the outer surface of the heating part (31), the fixing sleeve (34) is arranged on the outer surface of the insulating material (33), and the heating part (31), the temperature measuring rod (32) and the temperature regulating integrated circuit device (4) are electrically connected.

5. The de-atomization processing device of the endoscope lens as recited in claim 4, wherein: the heating member (31) includes electrical heating rod (311) and heating member (312), electrical heating rod (311) are located the inside of heating member (312) to run through the inside and outside of heating member (312), electrical heating rod (311) are connected with temperature regulation integrated circuit device (4) electricity, heating member (312) are inside hollow U type structure.

6. The de-atomization processing device of the endoscope lens as recited in claim 5, wherein: the temperature regulating integrated circuit device (4) comprises an integrated circuit board (41), a regulating element (42) and a lead (43), wherein the regulating element (42) is fixedly installed on the integrated circuit board (41), and the integrated circuit board (41) is electrically connected with the power-on switch (2), the temperature measuring rod (32) and the electric heating rod (311) through the lead (43).

7. The de-atomization processing device of the endoscope lens as recited in claim 1, wherein: the temperature control device is characterized by further comprising a temperature display lamp (7), wherein the temperature display lamp (7) is located on the outer surface of the shell (1), and the temperature display lamp (6) is electrically connected with the temperature adjusting integrated circuit device (4).

8. The de-atomization processing device of the endoscope lens as recited in claim 7, wherein: casing (1) includes casing (11) and base (12), go up casing (11) lock in the top of base (12), circular telegram switch (2) are located the upper surface of casing (11), temperature display lamp (7) are located the surface of casing (11), group battery (5) are located inside base (12) to run through the inside and outside of base (12).

9. The de-atomization processing device of the endoscope lens as recited in claim 1, wherein: still include charger (8), charger (8) and group battery (5) are plug-in type can dismantle fixed connection, group battery (5) are rechargeable battery.

10. The de-atomization processing device of the endoscope lens as recited in claim 7, wherein: still include protecting sheathing (9), protecting sheathing (9) cover is at the surface of casing (1), protecting sheathing (9) are including protection epitheca (91), protection base (92) and upper and lower cover hasp (93), the outside at epitheca (11) is established to protection epitheca (91) cover, the outside at base (12) is established to protection base (92) cover, protection epitheca (91), protection base (92) can dismantle the connection through upper and lower cover hasp (93).

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