CN116889387A

CN116889387A - Mobile electronic sphygmomanometer and assembling method

Info

Publication number: CN116889387A
Application number: CN202310818383.2A
Authority: CN
Inventors: 万勇; 李君武; 唐玉春
Original assignee: Dongguan First Test Technology Co ltd
Current assignee: Dongguan First Test Technology Co ltd
Priority date: 2023-07-04
Filing date: 2023-07-04
Publication date: 2023-10-17
Anticipated expiration: 2043-07-04
Also published as: CN116889387B

Abstract

The invention relates to the field of sphygmomanometers, in particular to a mobile electronic sphygmomanometer and an assembling method thereof, wherein the mobile electronic sphygmomanometer comprises a host, an assembling sliding block and a cloth cover; the one side of host computer is equipped with the operation face, the another side is equipped with the assembly spout, the one end of assembly spout is equipped with the assembly interface, the assembly slider includes assembly end and link, the assembly end is equipped with the assembly joint, the assembly slider is used for assembling on the assembly spout and makes assembly joint and assembly interface cooperation be connected, the assembly joint is connected with the pipeline, the pipeline is connected with the cloth cover, install the air pump in the host computer, the air pump is equipped with pipeline and assembly interface connection, the air pump is used for the cloth cover air feed through the assembly interface. The invention solves the problem of high assembly difficulty of the traditional mobile electronic sphygmomanometer. The chute is adopted for assembly, the assembly is convenient, the structural accuracy is high, and the production efficiency is improved.

Description

Mobile electronic sphygmomanometer and assembling method

Technical Field

The invention relates to the field of sphygmomanometers, in particular to a mobile electronic sphygmomanometer and an assembling method thereof.

Background

Blood pressure is one of the important physiological parameters for measuring the physical condition of a person, and is also an important criterion for determining whether a person suffers from symptoms of hypertension. Along with the improvement of the living standard and the aggravation of the aging of people, the incidence of hypertension is also on the rising trend. Compared with the traditional mechanical sphygmomanometer, the household electronic sphygmomanometer is simpler to operate, and can automatically finish the blood pressure measurement at home by a user, so that the household electronic sphygmomanometer is more popular.

The electronic sphygmomanometer has three forms, namely an arm type, a wrist type and a mobile type, and is gradually widely used along with the improvement of the living standard of people; the existing mobile sphygmomanometer is mainly used for home blood pressure measurement. The existing mobile sphygmomanometer is connected through an air pipe in the production process, automatic assembly is difficult to achieve in the assembly process, the assembly difficulty is high, the assembly procedures are more, the structural cost is high, and the production efficiency is low.

Disclosure of Invention

In order to solve the problems, the invention provides a portable electronic sphygmomanometer which solves the problem that the assembly difficulty of the conventional portable electronic sphygmomanometer is high. The mobile electronic sphygmomanometer adopts the chute assembly, is convenient to assemble, has high structural precision and improves the production efficiency.

The technical scheme adopted by the invention is as follows: a mobile electronic sphygmomanometer comprises a host, an assembly sliding block and a cloth cover; the one side of host computer is equipped with the operation face, the another side is equipped with the assembly spout, the one end of assembly spout is equipped with the assembly interface, the assembly slider includes assembly end and link, the assembly end is equipped with the assembly joint, the assembly slider is used for assembling on the assembly spout and makes assembly joint and assembly interface cooperation be connected, the assembly joint is connected with the pipeline, the pipeline is connected with the cloth cover, install the air pump in the host computer, the air pump is equipped with pipeline and assembly interface connection, the air pump is used for the cloth cover air feed through the assembly interface.

The further improvement to above-mentioned scheme does, the operation face is equipped with display panel and operating button, host computer internally mounted has control module and power module, power module is connected with the control module electricity, control module is connected with display panel, operating button and air pump electricity.

The improvement of the scheme is that the assembling chute is a T-shaped chute, the assembling end is a T-shaped block, and the T-shaped chute is assembled with the T-shaped block in a matching way.

The improvement of the scheme is that the assembling chute is provided with an assembling plane, the assembling interface is arranged on the assembling plane, a sealing groove is formed in the periphery of the assembling plane, the assembling end is arranged on the periphery of the assembling joint, and a sealing convex edge is arranged on the periphery of the assembling end and is used for being matched with the sealing groove.

According to the technical scheme, the assembly sliding groove is provided with a first guide surface on one side close to an assembly plane, a second guide surface is arranged on one side of an assembly end, and the first guide surface and the second guide surface are matched to guide and align an assembly joint and an assembly joint.

The technical scheme is further improved in that the first guide surface is provided with a close-fitting groove, the second guide surface is provided with a close-fitting block, and the close-fitting groove is used for being matched with the close-fitting block to fixedly clamp the assembly end in the assembly sliding groove.

The improvement of the scheme is that the tight-fit block is an assembly buckle and has opening and closing elasticity, the two sides of the host are provided with the jacking grooves, and one ends of the jacking grooves are communicated to the assembly grooves.

The improvement of the scheme is that the assembly connector comprises an assembly hole and a sealing inner lip arranged in the assembly hole, wherein a silica gel sealing sleeve is arranged on the outer diameter of the assembly connector and is conical, and the silica gel sealing sleeve is used for being inserted into the assembly hole and is in sealing butt joint with the sealing inner lip.

The scheme is further improved in that two hinge parts are symmetrically arranged on two sides of the connecting end, the hinge parts are hinged with semicircular rings, one ends of the semicircular rings are provided with the connecting parts, arm rings are formed through the connecting parts, and the cloth is sleeved in the arm rings.

The assembling method for the electronic sphygmomanometer comprises the steps of assembling a cloth sleeve on a connecting end, communicating a pipeline with the cloth sleeve, sliding the assembling end into an assembling chute, sealing and connecting an assembling joint with an assembling interface, and fixedly connecting the connecting end with one side of a shell of a host through a screw to complete the assembly of the electronic sphygmomanometer.

The beneficial effects of the invention are as follows:

compared with the existing electronic sphygmomanometer, the electronic sphygmomanometer is characterized in that the assembly sliding groove is formed in the main machine of the electronic sphygmomanometer, the assembly sliding block is slidably arranged in the assembly groove through the assembly end, and the assembly connector and the assembly interface are assembled in a matched mode after assembly, so that airtight butt joint is formed, the electronic sphygmomanometer is directly connected with the assembly interface through the assembly connector in the assembly process of the electronic sphygmomanometer, the air pump and the cloth sleeve are connected in a ventilation mode without connecting an air pipe in addition, structural assembly is convenient, assembly procedures are reduced, production efficiency is improved, and production cost is saved. The problem of current portable electronic sphygmomanometer assembly degree of difficulty high, the assembly is connected to the needs trachea, assembly process is more, and structural cost is higher, and production efficiency is lower is solved. The chute is adopted for assembly, the assembly is convenient, the structural accuracy is high, and the production efficiency is improved.

The assembling method of the electronic sphygmomanometer comprises the steps of assembling a cloth sleeve on a connecting end, communicating a pipeline with the cloth sleeve, sliding the assembling end into an assembling chute, sealing and connecting an assembling joint with an assembling interface, and fixedly connecting the connecting end with one side of a shell of a host computer through a screw to complete the assembling of the electronic sphygmomanometer. The whole assembly process is simple and convenient, the main machine is independently assembled, the assembly sliding block and the cloth sleeve are independently assembled, and the assembly sliding block and the assembly sliding groove on the main machine are assembled in a sliding assembly mode after the assembly, so that the assembly is convenient, the assembly procedure is reduced, the production efficiency is improved, and the production cost is saved.

Drawings

FIG. 1 is a schematic perspective view of a mobile electronic blood pressure monitor of the present invention;

FIG. 2 is an exploded view of the mobile electronic blood pressure monitor of FIG. 1;

FIG. 3 is an exploded view of the mobile electronic blood pressure monitor of FIG. 1 from another perspective;

FIG. 4 is a schematic side view of the mobile electronic blood pressure monitor of FIG. 1;

FIG. 5 is a cross-sectional view of A-A of FIG. 4;

FIG. 6 is an enlarged schematic view of FIG. 5A;

fig. 7 is a schematic perspective view of another embodiment of the mobile electronic sphygmomanometer of the present invention.

Reference numerals illustrate: the main unit 1, the operation surface 11, the display panel 111, the operation button 112, the assembly chute 12, the assembly plane 121, the seal groove 122, the first guide surface 123, the close-fitting groove 124, the assembly interface 13, the assembly hole 131, the seal inner lip 132, the assembly slider 2, the assembly end 21, the seal flange 211, the second guide surface 212, the close-fitting block 213, the connection end 22, the hinge part 221, the semicircular ring 222, the connection part 223, the assembly joint 23, the floating module 231, the floating panel 2311, the floating groove 2312, the floating end 232, the floating clamping groove 2321, the floating spring 2322, the silica gel sealing sleeve 233, and the cloth cover 3.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 7, in one embodiment of the present invention, a mobile electronic blood pressure monitor is provided, which includes a main unit 1, an assembly slider 2, and a cloth cover 3; the one side of host computer 1 is equipped with operation face 11, another side is equipped with assembly spout 12, the one end of assembly spout 12 is equipped with assembly interface 13, assembly slider 2 includes assembly end 21 and link 22, assembly end 21 is equipped with assembly joint 23, assembly slider 2 is used for assembling on assembly spout 12 and makes assembly joint 23 and assembly interface 13 cooperation be connected, assembly joint 23 is connected with the pipeline, the pipeline is connected with cloth cover 3, install the air pump in the host computer 1, the air pump is equipped with the pipeline and is connected with assembly interface 13, the air pump is used for cloth cover 3 air feed through assembly interface 13. In this embodiment, the fitting chute 12 is slidably fitted with the fitting end 21, so that the fitting joint 23 is hermetically connected with the fitting interface 13 after the fitting, and the air can be stably supplied to the cloth cover 3 during the air supply process of the air pump.

The operation surface 11 is provided with a display panel 111 and an operation button 112, a control module and a power module are installed in the host 1, the power module is electrically connected with the control module, the control module is electrically connected with the display panel 111, the operation button 112 and the air pump, in this embodiment, the control module and the power module are used for power supply and measurement control of the electronic sphygmomanometer, the display panel 111 is used for displaying measured data, and the operation button 112 is used for operation control.

The assembly spout 12 is the T type groove, the assembly end 21 is the T type piece, T type groove and T type piece cooperation equipment, in this embodiment, adopted the slip assembly structure of T font, structure convenient assembling, it is convenient to put in place, stability after the slip fit is good.

The assembly chute 12 is provided with an assembly plane 121, the assembly interface 13 is arranged on the assembly plane 121, a sealing groove 122 is arranged on the periphery of the assembly plane 121, a sealing convex edge 211 is arranged on the periphery of the assembly end 21, which is positioned on the assembly joint 23, and the sealing convex edge 211 is used for being matched with the sealing groove 122; the assembly plane 121 is used for setting the assembly interface 13, so that assembly and butt joint are facilitated, and the end face of the assembly end 21 is conveniently limited. Further, the arrangement of the sealing groove 122 and the sealing convex edge 211 can seal the outer circumferences of the assembly joint 23 and the assembly interface 13, so that the sealing effect is improved.

The assembly joint 23 is provided with a floating module 231, the floating module 231 comprises a floating panel 2311 arranged at the assembly end 21, a floating groove 2312 is formed in the floating panel 2311, the assembly joint 23 is provided with a floating end 232, the floating end 232 is provided with a floating clamping groove 2321, the floating clamping groove 2321 is clamped in the floating groove 2312, and the floating clamping groove 2321 can move in the floating groove 2312. In this embodiment, the diameter of the floating slot 2312 is larger than the size of the floating end 232 in the floating slot 2321, so that the floating end 232 can move in the floating slot 2312 through the floating slot 2321, and the fitting 23 has a certain moving gap during the butt-joint assembly. In a further embodiment, a floating spring 2322 is disposed on a side of the floating end 232 near the floating slot 2321, a floating gap is formed between the floating spring 2322 and the pressing end, and the floating spring 2322 is used for providing an elastic force to the movable gap, so as to facilitate the resetting of the fitting 23. The accuracy of the fit between the fitting 23 and the fitting interface 13 is improved. The method is suitable for automatic assembly.

The side of assembly spout 12 near assembly plane 121 is provided with first guide surface 123, one side of assembly end 21 is equipped with second guide surface 212, first guide surface 123 and second guide surface 212 cooperation are used for with assembly joint 23 and assembly joint 23 direction counterpoint, in this embodiment, in the assembly process, lead when assembling through two guide surfaces slip, and then can be with assembly joint 23 and assembly interface 13 accurate counterpoint after assembling the assigned position.

In a further improvement, a close-fitting groove 124 is formed on the first guide surface 123, a close-fitting block 213 is formed on the second guide surface 212, and the close-fitting groove 124 is used for fixedly clamping the assembly end 21 in the assembly chute 12 by matching with the close-fitting block 213; the tight-fit block 213 is an assembly buckle and has an opening and closing elasticity, two sides of the host 1 are provided with a jacking groove, and one end of the jacking groove is communicated with the assembly groove; in this embodiment, after the assembly interface 13 and the assembly joint 23 are assembled in place, the structure is assembled and fixed under the action of the close-fitting block 213 and the close-fitting groove 124, and particularly, the structure is connected by adopting a buckle, so that a loosening phenomenon does not occur. In different embodiments, screw locking may be used, as may fixing. The jacking groove is used for inserting the jacking block to disassemble the assembly buckle.

Referring to fig. 6, the assembly interface 13 includes an assembly hole 131 and a sealing inner lip 132 disposed in the assembly hole 131, the outer diameter of the assembly joint 23 is provided with a silica gel sealing sleeve 233, the silica gel sealing sleeve 233 is tapered, the silica gel sealing sleeve 233 is inserted into the assembly hole 131 and is in sealing contact with the sealing inner lip 132, in this embodiment, the silica gel sealing sleeve 233 is adopted to be assembled by matching with the assembly hole 131, and a tapered structure is adopted, so that the assembly precision can be ensured, and meanwhile, the sealing inner lip 132 is matched with the outer diameter of the silica gel sealing sleeve 233 to seal, so that the tightness is increased.

Referring to fig. 7, two hinge parts 221 are symmetrically disposed at two sides of the connection end 22, two semicircular rings 222 are hinged to the hinge parts 221, one ends of the semicircular rings 222 are provided with connection parts 223, an arm ring is formed by the connection parts 223, and the cloth cover 3 is disposed in the arm ring. In this embodiment, the two sides of the connecting end 22 are hinged with the semicircular ring 222 through the hinge part 221, and an arm ring is formed, which is better and more accurate than the independent cloth cover 3, and the arm ring is provided with a hinge structure for fixing and measuring the blood pressure, and the hinge structure can be opened and closed at will according to the arm size, and only screws with different lengths are required to be arranged at the connecting position.

According to the invention, the assembly sliding groove 12 is arranged on the main machine 1 of the electronic sphygmomanometer, the assembly sliding block 2 is slidably arranged into the assembly groove through the assembly end 21, and the assembly joint 23 and the assembly interface 13 are assembled in a matched manner after assembly, so that airtight butt joint is formed, the electronic sphygmomanometer is directly connected with the assembly interface 13 through the assembly joint 23 in the assembly process of the electronic sphygmomanometer, the air pump and the cloth cover 3 are connected in a ventilation manner without connecting an air pipe in addition, the structure is convenient to assemble, the assembly procedure is reduced, the production efficiency is improved, and the production cost is saved. The problem of current portable electronic sphygmomanometer assembly degree of difficulty high, the assembly is connected to the needs trachea, assembly process is more, and structural cost is higher, and production efficiency is lower is solved. The chute is adopted for assembly, the assembly is convenient, the structural accuracy is high, and the production efficiency is improved.

The method for assembling the electronic sphygmomanometer comprises the steps of assembling the cloth cover 3 on the connecting end 22, communicating a pipeline with the cloth cover 3, sliding the assembling end 21 into the assembling chute 12, sealing the assembling joint 23 with the assembling interface 13, and fixedly connecting the connecting end 22 with one side of the shell of the host computer 1 through a screw to complete the assembly of the electronic sphygmomanometer. The whole assembly process is simple and convenient, the host computer 1 is independently assembled, the assembly sliding block 2 and the cloth cover 3 are independently assembled, the assembly sliding block 2 and the assembly sliding groove 12 on the host computer 1 are assembled in a sliding assembly mode after the assembly, the assembly is convenient, the assembly process is reduced, the production efficiency is improved, and the production cost is saved.

The foregoing examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. A mobile electronic sphygmomanometer, characterized in that: comprises a host, an assembly sliding block and a cloth sleeve; the one side of host computer is equipped with the operation face, the another side is equipped with the assembly spout, the one end of assembly spout is equipped with the assembly interface, the assembly slider includes assembly end and link, the assembly end is equipped with the assembly joint, the assembly slider is used for assembling on the assembly spout and makes assembly joint and assembly interface cooperation be connected, the assembly joint is connected with the pipeline, the pipeline is connected with the cloth cover, install the air pump in the host computer, the air pump is equipped with pipeline and assembly interface connection, the air pump is used for the cloth cover air feed through the assembly interface.

2. The mobile electronic blood pressure meter of claim 1, wherein: the operation face is equipped with display panel and operating button, host computer internally mounted has control module and power module, power module is connected with the control module electricity, control module is connected with display panel, operating button and air pump electricity.

3. The mobile electronic blood pressure meter of claim 1, wherein: the assembly chute is a T-shaped chute, the assembly end is a T-shaped block, and the T-shaped chute is assembled with the T-shaped block in a matched manner.

4. The mobile electronic blood pressure meter of claim 1, wherein: the assembly sliding chute is provided with an assembly plane, the assembly interface is arranged on the assembly plane, the periphery of the assembly plane, which is positioned on the assembly plane, is provided with a sealing groove, the periphery of the assembly end, which is positioned on the assembly joint, is provided with a sealing convex edge, and the sealing convex edge is used for being matched with the sealing groove;

the assembly joint is provided with a floating module, the floating module comprises a floating panel arranged at an assembly end, a floating groove is formed in the floating panel, the assembly joint is provided with a floating end, the floating end is provided with a floating clamping groove, and the floating clamping groove is clamped in the floating groove and can move in the floating groove.

5. The mobile electronic blood pressure meter of claim 4, wherein: the assembly sliding chute is characterized in that a first guide surface is arranged on one side, close to the assembly plane, of the assembly sliding chute, a second guide surface is arranged on one side of the assembly end, and the first guide surface and the second guide surface are matched to guide and align the assembly joint and the assembly joint.

6. The mobile electronic blood pressure meter of claim 5, wherein: the first guide surface is provided with a close-fitting groove, the second guide surface is provided with a close-fitting block, and the close-fitting groove is used for being matched with the close-fitting block to fixedly clamp the assembly end in the assembly sliding groove.

7. The mobile electronic blood pressure meter of claim 6, wherein: the tight-fit block is an assembly buckle and has an opening and closing elastic force, two sides of the host are provided with jacking grooves, and one ends of the jacking grooves are communicated to the assembly grooves.

8. The mobile electronic blood pressure meter of claim 1, wherein: the assembly interface comprises an assembly hole and a sealing inner lip arranged in the assembly hole, wherein a silica gel sealing sleeve is arranged on the outer diameter of the assembly joint and is conical, and the silica gel sealing sleeve is used for being inserted into the assembly hole and in sealing butt joint with the sealing inner lip.

9. The mobile electronic blood pressure meter of claim 1, wherein: two sides of the connecting end are symmetrically provided with two hinging parts, two hinging parts are hinged with semicircular rings, one ends of the semicircular rings are provided with connecting parts, arm rings are formed through the connecting parts, and the cloth is sleeved in the arm rings.

10. An assembling method applied to the electronic sphygmomanometer according to any one of claims 1-9, characterized in that: the cloth sleeve is assembled on the connecting end, the pipeline is communicated with the cloth sleeve, the assembling end is installed in the assembling chute in a sliding mode, the assembling joint is connected with the assembling interface in a sealing mode, and the connecting end is fixedly connected with one side of the shell of the host through a screw to complete the assembly of the electronic sphygmomanometer.