CN205228574U - Object dynamic monitoring device based on air pressure sensing - Google Patents

Abstract

The utility model discloses an object dynamic monitoring device based on air pressure sensing, including hard shell, baroceptor and signal collector, be equipped with soft pipeline in the hard shell, soft pipeline is equipped with and is used for placing the central through hole of waiting to monitor the object, is equipped with inclosed atmospheric pressure space between the outer wall of soft pipeline and hard shell's the inner wall, and the air pressure sensing of atmospheric pressure space through the trachea baroceptor outer with arranging soft pipeline in holds and is connected, and the signal output part of baroceptor and the signal input part who arranges soft pipeline signal collector outward in are connected. The utility model discloses an air pressure sensing principle converts the motion state of object into the signal of telecommunication, can handled effectual atmospheric pressure data and calculated volume, displacement and the velocity information of the object in the current central through hole that gets into soft pipeline according to conventional method by signal collector, and the user of being convenient for monitors the motion state of object real -time, directly perceivedly, is convenient for use and promote.

Description

A kind of object dynamic monitor based on air pressure induction

Technical field

The utility model relates to a kind of object dynamic monitor, particularly relates to a kind of object dynamic monitor based on air pressure induction.

Background technology

In production or life, need sometimes to detect the motion state of object.Such as: the transmission of each fluid-like state, semi liquid state (as food processing), solid-state average object on streamline, robotization cubing, flow detection etc. in the robotization unit interval, the parameter such as speed, displacement, volume of the inspected object needing robotization batch real-time.Object dynamic monitor is exactly the device for monitoring some object moving state.The monitoring device that current major part is similar, generally all needs by by sensor, the mode be directly installed on object realizes dynamic monitoring, such as: accelerometer.Thisly sensor must be directly installed on detection mode on object there is awkward problem in some specific environment for use.

Utility model content

The purpose of this utility model is just to provide a kind of object dynamic monitor based on air pressure induction being convenient to apply to solve the problem.

The utility model is achieved through the following technical solutions above-mentioned purpose:

A kind of object dynamic monitor based on air pressure induction, comprise hard shell, baroceptor and signal picker, soft pipeline is provided with in described hard shell, described soft pipeline is provided with the central through hole for placing object to be monitored, airtight air pressure space is provided with between the outer wall of described soft pipeline and the inwall of described hard shell, described air pressure space is connected by the air pressure induction end of tracheae with the described baroceptor be placed in outside described soft pipeline, the signal output part of described baroceptor is connected with the signal input part of the described signal picker be placed in outside described soft pipeline.

During use, can first calibration object enter soft pipeline before atmospheric pressure value be 0, and object is maximal value by the atmospheric pressure value of soft pipeline completely.Object enters in the central through hole of soft pipeline, in the process of entering, object can extrude the inwall of soft pipeline and make it be out of shape, this deflection passes to baroceptor by air pressure space and tracheae, the information of air pressure change is converted to electric signal transmission to signal picker by baroceptor, the signal of signal picker also can be transferred to processor as single-chip microcomputer, thus the object realizing Real-Time Monitoring., in use procedure, user adjusts the air pressure size in air pressure space by air pump and vacuum pump, with the object monitoring requirements of satisfied different square section volume size.

Preferably, the radial section of the central through hole of described soft pipeline is circular.

For the ease of application, described hard shell is provided with handle, and described baroceptor and described signal picker are all placed in the inner chamber of described handle.

Particularly, described hard shell is plastic casing, and described soft pipeline is rubber tubing, and described tracheae is rubber tube.

The beneficial effects of the utility model are:

The utility model adopts air pressure principle of induction that the motion state of object is converted to electric signal, also can be calculated according to a conventional method when the volume advancing into the object in the central through hole of soft pipeline, displacement and speed data by the effective barometric information of signal picker process, be convenient to user in real time, the motion state of monitoring object intuitively, be convenient to application and promote.

Accompanying drawing explanation

Fig. 1 is the sectional structure schematic diagram of the main perspective degree of the object dynamic monitor based on air pressure induction described in the utility model;

Fig. 2 is the right view of the object dynamic monitor based on air pressure induction described in the utility model.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As depicted in figs. 1 and 2, object dynamic monitor based on air pressure induction described in the utility model comprises hard shell 1, baroceptor 7 and signal picker 6, soft pipeline 3 is provided with in hard shell 1, soft pipeline 3 is provided with the central through hole 4 for placing object to be monitored, the radial section of central through hole 4 is circular, airtight air pressure space 2 is provided with between the outer wall of soft pipeline 3 and the inwall of hard shell 1, air pressure space 2 is connected by the air pressure induction end of tracheae 9 with the baroceptor 7 be placed in outside soft pipeline 3, the signal output part of baroceptor 7 is connected with the signal input part of the signal picker 6 be placed in outside soft pipeline 3, hard shell 1 is provided with handle 8, and baroceptor 7 and signal picker 6 are all placed in the inner chamber of handle 8, hard shell 1 is plastic casing, and soft pipeline 3 is rubber tubing, and tracheae 9 is rubber tube.

Also show in Fig. 1 be placed in handle 8 inner chamber in and for for baroceptor 7 and signal picker 6 power supply battery 5.

As shown in Figure 1, during use, object to be monitored enters in the central through hole 4 of soft pipeline 3, in the process of entering, object to be monitored can extrude the inwall of soft pipeline 3 and make it be out of shape, this deflection passes to baroceptor 7 by air pressure space 2 and tracheae 9, the information of air pressure change is converted to electric signal transmission to signal picker 6 by baroceptor 7, process effective barometric information by signal picker 6 and calculate the volume when advancing into the object to be monitored in the central through hole 4 of soft pipeline 3 according to a conventional method, displacement and speed data, thus realize the object of Real-Time Monitoring.This device can also be used as complementary medicine, zoology, Mature Audiences etc., such as monitoring volume when male genital is made love, displacement and velocity variations situation.

Above-described embodiment is preferred embodiment of the present utility model; it is not the restriction to technical solutions of the utility model; as long as without the technical scheme that creative work can realize on the basis of above-described embodiment, all should be considered as falling within the scope of the rights protection of the utility model patent.

Claims (4)

1. the object dynamic monitor based on air pressure induction, it is characterized in that: comprise hard shell, baroceptor and signal picker, soft pipeline is provided with in described hard shell, described soft pipeline is provided with the central through hole for placing object to be monitored, airtight air pressure space is provided with between the outer wall of described soft pipeline and the inwall of described hard shell, described air pressure space is connected by the air pressure induction end of tracheae with the described baroceptor be placed in outside described soft pipeline, the signal output part of described baroceptor is connected with the signal input part of the described signal picker be placed in outside described soft pipeline.

2. the object dynamic monitor based on air pressure induction according to claim 1, is characterized in that: the radial section of the central through hole of described soft pipeline is for circular.

3. the object dynamic monitor based on air pressure induction according to claim 1, it is characterized in that: described hard shell is provided with handle, described baroceptor and described signal picker are all placed in the inner chamber of described handle.

4. the object dynamic monitor based on air pressure induction according to claim 1,2 or 3, it is characterized in that: described hard shell is plastic casing, described soft pipeline is rubber tubing, and described tracheae is rubber tube.