CN109267901B - Operation window structure for infant incubator - Google Patents

Abstract

The invention relates to an operation window structure for an infant incubator, which comprises an operation window assembly and an operation window hasp assembly which are matched with each other; wherein the operating window assembly comprises: the operation window base is arranged on the box cover of the infant incubator; an operation window cover plate, which is covered with the operation window base; forming a storage space between the operation window base and the operation window cover plate; the operation window shaft pin is arranged in the storage space, and the operation window is rotationally connected with the operation window shaft pin; the operation window anti-collision pad is arranged in the storage space. The operation window structure for the infant incubator has the following advantages compared with the prior art: the flat operation window cover plate is embedded with an operation window anti-collision pad, so that the buffering process after the door is opened is almost mute. The slope of the hasp switch and the O-shaped rubber ring sleeved in the groove of the hasp switch play a main role in silencing.

Description

Operation window structure for infant incubator

Technical Field

The present invention relates to medical care apparatus, and in particular to an operating window structure for an infant incubator.

Background

The infant incubator is mainly used for providing a proper temperature and humidity culture and treatment environment for low-weight infants, sick and weak infants and premature infants, and is used for constant temperature culture, body temperature recovery, transfusion, oxygen therapy, rescue, hospitalization observation and the like. The locking structure of the window door of the operation window of the infant incubator is very important for the safety of infants. In nurse's operation, both convenient operation when opening and shutting the operation window, still need to be quiet enough for the baby to have good treatment environment in the warm case. Both its reliability in terms of safety and its simplicity in construction and operation should be considered to reduce production costs and make the operation simpler.

The operation window structure of the traditional infant incubator almost depends on the elasticity of torsion springs to open the door, and two operation window bases are required to be installed to install the flat operation window, so that the structure is complex and inconvenient to detach.

At present, all warm boxes in the market are not mute enough when opening and closing an operation window or quite mute when operating, but have complicated structures and high cost. The installation is not easy, and the assembly efficiency is low. Because the structure is more complicated, dirt is easy to be collected and the cleaning is inconvenient.

Disclosure of Invention

In view of the drawbacks of the prior art, an object of the present invention is to provide an operation window structure for an infant incubator, which solves the above-mentioned technical problems.

In order to solve the technical problems, the operation window structure for the infant incubator comprises an operation window assembly and an operation window hasp assembly which are matched with each other; wherein the method comprises the steps of

The operating window assembly includes:

the operation window base is arranged on the box cover of the infant incubator;

an operation window cover plate, which is covered with the operation window base;

forming a storage space between the operation window base and the operation window cover plate;

the operation window shaft pin is arranged in the storage space, and the operation window is rotationally connected with the operation window shaft pin;

the operation window anti-collision pad is arranged in the storage space.

The number of the operation window crash pads is multiple.

The included angle between the axial direction of the operating window shaft pin and the vertical direction is 5-15 degrees.

The operation window fixing seat is arranged on the cover of the infant incubator, and the operation window fixing seat and the operation window base are fixed on the cover of the infant incubator through screws.

The operating window fastener assembly includes:

the hasp switch is rotatably arranged on the box cover of the infant incubator;

a snap spring pin disposed at the snap switch;

the hasp spring is sleeved outside the hasp spring pin.

A slope is arranged on the working surface of the hasp switch.

A groove is formed in one end of the hasp switch, and an O-shaped ring is embedded in the groove.

A cover plate of the hasp fixing seat is arranged on a box cover of the infant incubator, and the hasp fixing seat is fixed on the cover plate of the hasp fixing seat through screws.

Two hasp seats which are oppositely arranged are arranged on the hasp fixing seat; a hasp rotating shaft is arranged in the hasp switch in a penetrating way, and two ends of the hasp rotating shaft are respectively connected with the hasp seats on two sides.

The operation window structure for the infant incubator has the following advantages compared with the prior art:

1) The flat operation window cover plate is embedded with an operation window anti-collision pad, so that the buffering process after the door is opened is almost mute.

2) The slope of the hasp switch and the O-shaped rubber ring sleeved in the groove of the hasp switch play a main role in silencing.

3) The hasp fixing seat cover plate is added, so that possible scratch of infants is avoided, the places where dirt is collected such as screws at fixing positions are effectively reduced, cleaning is facilitated, and attractiveness is improved.

4) The application of the torsion spring is canceled, and the two operation window bases are combined into one, so that the structure is simplified, the installation is easy, and the cleaning is convenient.

5) The included angle between the operating window shaft pin and the vertical direction is increased by 5-15 degrees when the operating window shaft pin is installed, so that the operating window shaft pin can achieve the effect of opening the door by utilizing the downward gravity of the flat operating window after the elastic force of the sealing ring acts.

Drawings

FIG. 1 is a schematic view of the structure of an operation window for an infant incubator according to the present invention;

FIG. 2 is a schematic diagram showing a structure of an operation window for an infant incubator according to the present invention;

FIG. 3 is an exploded view of the operation window assembly of the operation window structure for the infant incubator of the present invention;

FIG. 4 is an exploded view of the operation window structure operation window buckle assembly for the infant incubator of the present invention;

FIG. 5 is a schematic view showing the structure of the operation window structure buckle switch for the infant incubator of the present invention.

The invention is used for the operation window structure of the infant incubator and the reference numerals in the attached drawings are:

1-Flat operating window 2-operating window fixing base 3-operating window base

4-operation window crash pad 5-operation window shaft pin 6-operation window cover plate

7-hasp seat 8-O-shaped rubber ring 9-hasp fixing seat

10-hasp fixed seat cover plate 11-hasp switch 12-hasp rotating shaft

13-hasp spring 14-hasp spring pin 15-operation window assembly

16-operating window fastener assembly 17-plexiglass housing cover

Detailed Description

The operation window structure for infant incubator of the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, the operation window structure for infant incubator of the present invention includes an operation window assembly 15 and an operation window buckle assembly 16 which are matched with each other.

The operation window assembly 15 comprises an operation window fixing seat 2, an operation window base 3, an operation window cover plate 6, an operation window anti-collision pad 4, an operation window shaft pin 5 and a flat operation window 1. The operation window fixing seat 2 and the operation window base 3 are fixed on the organic cover through two screws, then the installation flat operation window 1 is connected through the operation window pin shaft 5, and finally the operation window cover plate 6 is fixed on the operation window base 3 in a buckling mode.

The included angle between the operating window shaft pin 5 and the vertical direction is increased by 5-15 degrees when the operating window shaft pin is installed, so that the operating window shaft pin can achieve the effect of opening the door by utilizing the downward gravity of the flat operating window 1 after the elastic force of the sealing ring acts.

The operation window anti-collision pad 4 is embedded on the flat operation window cover plate 6, so that the buffering process after the door is opened is almost mute.

Principle analysis: when the operation window assembly 15 is closed, the operation window assembly 15 is stably in the locked state by the locking action of the buckle switch 11 in the operation window buckle assembly 16. When the operation window hasp assembly 16 is unlocked, namely, the flat operation window 1 is separated from the limitation of the hasp switch 11 by pressing the hasp switch 11, and is sprung by the elasticity of the sealing ring and is opened outwards in a proper direction under the action of the gravity of the flat operation window 1, when the flat operation window 1 is opened to an angle, the flat operation window 1 is collided with the operation window anti-collision pad 4 embedded on the operation window base 3, and the flat operation window 1 is stopped and maintained in a door opening state under the almost silent condition. When the door is closed, the flat operating window 1 can be buckled into the flat operating window along the slope of the buckle switch 11 under the action of external force. After the snap-in, the snap-in switch 11 will snap back under the action of the snap-in spring 13 and this part will be resolved in detail in the operating window snap-in assembly 16 so that its force on the flat operating window 1 when the door is closed will have been reset and locked against secondary impact when the force has not been removed.

The operation window hasp assembly 16 is composed of a hasp seat 7; an O-shaped rubber ring 8; a hasp fixing seat 9; a hasp fixing seat cover plate 10; a buckle switch 11; a snap-fit spindle 12; the snap spring 13 and the snap spring pin 14.

When in installation, the hasp spring 13 is sleeved on the hasp spring pin 14 and then is arranged in a hole at the lower part of the hasp switch 11, the O-shaped rubber ring 8 is sleeved in a groove of the hasp switch 11, and the hasp switch 11 is connected with the two hasp bases 7 through the hasp rotating shaft 12. The two hasp bases 7 and the hasp fixing base 9 are fixed on the organic glass case cover 17 through four screws in a knocking mode.

The snap switch 11 and the O-shaped rubber ring 8 sleeved in the groove of the snap switch 11 play a main role in silencing.

Principle analysis: when the door needs to be opened, external force acts on the hasp switch 11, the hasp rotating shaft 12 serves as a fulcrum to enable the angle between the downwards pressing of the hasp switch 11 and the organic glass case cover 17 to be smaller, and at the moment, the hasp switch 11 is in a tilted state to enable the flat operation window 1 to be separated from the limitation of the hasp switch 11, so that the door opening effect is achieved. When the door is closed, the flat operation window 1 can be gradually buckled along the slope of the hasp switch 11, the hasp switch 11 is tilted again under the action of the flat operation window 1 in the buckling process, the hasp spring 13 is extruded under the action of the hasp spring pin 14 and the organic glass box cover 17 and stores elastic potential energy, after the flat operation window 1 is buckled, the elastic potential energy of the hasp spring 13 is released so that the hasp switch 11 rebounds to an initial position and locks the flat operation window 1, and the O-shaped rubber ring 8 sleeved in the groove of the hasp switch 11 can collide with the organic glass box cover 17 in advance to make the rebound process almost mute.

The structure refers to the operation window hasp assembly of a certain D-shaped heating box, but the operation window hasp assembly of the certain D-shaped heating box has the defects: the snap switch 11 has a striking phenomenon with the flat operation window 1 when closing the door, and makes a strong noise. On the basis of the novel multifunctional electric heating box, the size of the hasp switch 11 is changed from 3 of a certain D-shaped heating box to 1.5, so that the novel multifunctional electric heating box achieves reasonable matching relation, hard impact is not generated on all parts, the hasp fixing seat cover plate 10 is additionally arranged, possible scratch of infants is avoided, the places where dirt is collected are effectively reduced, such as screws at fixing positions, cleaning is facilitated, and attractiveness is achieved.

The hasp switch of the same type of products on the market at present has the phenomenon of striking with a flat plate operation window when the door is closed, and strong noise is produced. The technical proposal of the invention improves the snap switch, the size of which is changed from 3 to 1.5 in the figure, so that the snap switch achieves reasonable matching relation, and all parts can not generate hard impact.

The noise test data of the product according to the technical scheme of the invention and the same type of product on the current market are shown in table 1 (the environmental background noise is 39 db):

the invention is that	1	2	3	4	5	6	7	8	9	10	Average of
												Door opening	60.5	48.7	51	50.1	50.6	49.3	60.6	51	49.7	49.9	52.14
Door closing	68	66.6	68.2	67.9	70.2	69.4	70.7	70.7	70.2	65.5	68.74

Prior Art	1	2	3	4	5	6	7	8	9	10	Average of
												Door opening	71.1	71.5	71.5	70.4	71.1	71.1	71.7	71.7	69.4	66.1	70.56
Door closing	91.4	91.9	92.2	92.2	92.4	92.0	91.7	92.2	91.6	92.2	91.98

Compared with the same type of products in the current market, the door opening and closing noise of the product of the technical scheme of the invention is greatly improved (about 20db lower).

While the preferred embodiments of the present invention have been illustrated and described, the present invention is not limited to the embodiments, and various equivalent modifications and substitutions can be made by one skilled in the art without departing from the spirit of the present invention, and these equivalent modifications and substitutions are intended to be included in the scope of the present invention as defined in the appended claims.

Claims (6)

1. The operation window structure for the infant incubator is characterized by comprising an operation window assembly and an operation window hasp assembly which are matched with each other; wherein the method comprises the steps of

The operating window assembly includes:

the operation window base is arranged on the box cover of the infant incubator;

an operation window cover plate, which is covered with the operation window base;

forming a storage space between the operation window base and the operation window cover plate;

the operation window shaft pin is arranged in the storage space, and the operation window is rotationally connected with the operation window shaft pin;

the operation window anti-collision pad is arranged in the storage space;

the operating window fastener assembly includes:

the hasp switch is rotatably arranged on the box cover of the infant incubator;

a snap spring pin disposed at the snap switch;

the hasp spring is sleeved outside the hasp spring pin;

a slope is arranged on the working surface of the hasp switch;

a groove is formed in one end of the hasp switch, and an O-shaped ring is embedded in the groove.

2. The operation window structure for infant incubator according to claim 1, wherein the number of the operation window crash pads is plural.

3. The operation window structure for infant incubator according to claim 1, wherein an angle between an axial direction of the operation window shaft pin and a vertical direction is 5 ° to 15 °.

4. The operation window structure for infant incubator according to claim 1, wherein an operation window fixing seat is provided on a housing of the infant incubator, and the operation window fixing seat and the operation window base are fixed on the housing of the infant incubator by screws.

5. The operation window structure for infant incubator according to claim 1, wherein a buckle fixing seat cover plate is provided on a case cover of the infant incubator, and a buckle fixing seat is fixed on the buckle fixing seat cover plate by a screw.

6. The operation window structure for infant incubator according to claim 5, wherein two oppositely arranged buckle seats are provided on the buckle fixing seat; a hasp rotating shaft is arranged in the hasp switch in a penetrating way, and two ends of the hasp rotating shaft are respectively connected with the hasp seats on two sides.