CN204914563U - Sensor elements bonding device - Google Patents

Abstract

The utility model provides a sensor elements bonding device, include: sucking disc and heating power supply, set gradually electric heater and gluing agent mould in the casing inner chamber of sucking disc, electric heater contacts with the upper end of gluing agent mould, electric heater is connected with the heating power supply electricity, the casing lower extreme of sucking disc has the opening, the lower extreme of gluing agent mould has the mould groove, and the opening in mould groove corresponds with the opening of casing lower extreme, the mould groove for hold the gluing agent of stationary sensor component, electric heater for according to heating power supply, the gluing agent of heated mold inslot. After having realized that gluing agent solidification is stereotyped, on a plurality of spare parts of same type to paste the shape of sensor elements's gluing agent the same, the configuration data who detects the spare part of the same type that obtains through sensor elements is reliable, has improved the accuracy of the configuration data analysis of spare part.

Description

Sensor element adhering device

Technical field

The utility model relates to field of sensing technologies, particularly relates to a kind of sensor element adhering device.

Background technology

For the parts be applied in the fields such as field of aerospace, automotive field and building field, need to use the sensor elements such as resistance strain gage sensor, piezoelectric patches sensor and fiber-optic grating sensor to gather the structured data of parts.In order to realize the detection of the structured data of parts, usually need sensor element to be fixed on parts to be measured, thus the structured data of parts to be measured can be passed to terminal by sensor element, terminal is analyzed structured data.

In prior art, adhesive is adopted to be carried out encapsulating by sensor element and be bonded on parts to be measured.The mode that usual employing is manual bonding, spreads upon adhesive on the whole upper surface of sensor element, is then attached on parts to be measured by the sensor element being coated with adhesive; Again parts are put into the firing equipments such as curing oven, adhesive is meeting solidifying and setting under certain high temperature, thus sensor element carries out encapsulating and is bonded on parts to be measured by adhesive.

But, because sensor element has been pressed on parts to be measured by the adhesive after sizing, the shape of the adhesive after sizing affects the stressing conditions between sensor element and parts to be measured, thus the detection of sensor element to the structured data of parts can be had influence on, had influence on the transmission of sensor element to structured data simultaneously.In prior art, the shape of the adhesive after the sizing obtained by manual bonding mode is individual irregularly shaped, when carrying out the detection of structured data to the parts to be measured of multiple same type, after adhesive solidifying and setting, the shape of the adhesive of the stickup sensor element on multiple parts can not be identical.Thus the structured data of the parts of the same type obtained by prior art unreliable, the accuracy that the structured data that have impact on parts is analyzed.

Utility model content

The utility model provides a kind of sensor element adhering device, shape in order to the adhesive after solving the sizing that obtained by manual bonding mode in prior art is irregularly shaped, when carrying out the detection of structured data to the parts to be measured of multiple same type, after the fixing sizing of adhesive, the shape of the adhesive of the stickup sensor element on multiple parts can not be identical, thus the structured data of the parts of the same type obtained unreliable, the problem of the accuracy that the structured data that have impact on parts is analyzed.

The utility model provides a kind of sensor element adhering device, comprising:

Sucker and heating power supply;

Be disposed with electric heater and adhesive mould in the housing cavity of described sucker, described electric heater contacts with the upper end of described adhesive mould; Described electric heater is electrically connected with described heating power supply;

The housing lower end of described sucker has opening; The lower end of described adhesive mould has mold slots, and the opening of described mold slots is corresponding with the opening of described housing lower end;

Described mold slots, for holding the adhesive of fixation of sensor element;

Described electric heater, for according to described heating power supply, heats the adhesive in described mold slots.

In sensor element adhering device as above, also comprise: vavuum pump and transmission channel;

Run through in described transmission channel and have vacuum line and wire, the housing upper end of described sucker has the first connecting pipeline; The cross-sectional width of described transmission channel coordinates with the cross-sectional width of described first connecting pipeline; Described first connecting pipeline is connected with one end of described transmission channel;

One end of described vacuum line extends in the housing cavity of described sucker through described first connecting pipeline; The other end of described vacuum line is connected with described vavuum pump;

One end of described wire is connected with described electric heater through described first connecting pipeline, and the other end of described wire is connected with described heating power supply.

In sensor element adhering device as above, described electric heater and described adhesive die horizontal are fixedly installed in the housing cavity of described sucker;

The shell inner surface of described electric heater and described sucker has gap;

The second connecting pipeline is fixedly installed between described adhesive mould and the shell inner surface of described sucker;

There is gap the housing lower end of described adhesive mould and described sucker.

In sensor element adhering device as above, in described vacuum line, be provided with valve;

Described transmission channel is provided with control box, and described control box is connected with described valve;

Described control box is for controlling the switch of described valve.

In sensor element adhering device as above, also comprise: temperature controller;

Described temperature controller is electrically connected with described heating power supply;

Be provided with interconnective heating plate and thermocouple in described electric heater, described heating plate is electrically connected with described heating power supply by described wire, and described thermocouple is electrically connected with described temperature controller by described wire;

The temperature information of the described heating plate that described temperature controller returns according to described thermocouple, controls the frequency of supply of described heating power supply.

In sensor element adhering device as above, also comprise: timer;

Described timer is electrically connected with described heating power supply;

Described timer, for calculating the working time of described heating power supply.

In sensor element adhering device as above, also comprise: operation cabinet;

Described vavuum pump, described heating power supply, described timer and described temperature controller are fixedly installed in described operation cabinet.

In sensor element adhering device as above, the outer surface of described operation cabinet is fixedly installed guidance panel;

Described guidance panel is provided with heating power supply switch, vacuum pump switch and timer switch;

Described heating power supply switch is electrically connected with described heating power supply, and described vacuum pump switch is electrically connected with described vavuum pump, and described timer switch is electrically connected with described timer.

In sensor element adhering device as above, the housing of described sucker adopts silica gel to prepare, and described adhesive mould adopts silica gel to prepare.

Technique effect of the present utility model is: provide a kind of sensor element adhering device, comprising: sucker and heating power supply; Be disposed with electric heater and adhesive mould in the housing cavity of sucker, electric heater contacts with the upper end of adhesive mould; Electric heater is electrically connected with heating power supply; The housing lower end of sucker has opening; The lower end of adhesive mould has mold slots, and the opening of mold slots is corresponding with the opening of housing lower end; Mold slots, for holding the adhesive of fixation of sensor element; Electric heater, for according to heating power supply, the adhesive in heating mould groove.Thus heating power supply is powered to electric heater, after electric heater converts electrical energy into heat energy, be supplied to the adhesive in the mold slots of adhesive mould, adhesive is a kind of thermosetting adhesive, thus adhesive can solidify to form the shape of mold slots, and sensor element is pasted onto on parts to be measured by adhesive; After adhesive solidifying and setting, the shape of the adhesive of the stickup sensor element on multiple parts of same type is identical, the structured data being detected the parts of the same type obtained by sensor element is reliable, the accuracy that the structured data that improve parts is analyzed.

Accompanying drawing explanation

The structural representation of the sensor element adhering device that Fig. 1 provides for the utility model embodiment one;

The cross-sectional view of the sucker of the sensor element adhering device that Fig. 2 provides for the utility model embodiment one;

The operating diagram of the sucker of the sensor element adhering device that Fig. 3 provides for the utility model embodiment one;

The structural representation of the sensor element adhering device that Fig. 4 provides for the utility model embodiment two;

The cross-sectional view of the sucker of the sensor element adhering device that Fig. 5 provides for the utility model embodiment two;

The operating diagram of the sucker of the sensor element adhering device that Fig. 6 provides for the utility model embodiment two.

Reference numeral:

1-sucker 2-heating power supply 3-housing 4-electric heater

5-adhesive mould 6-mold slots 7-sensor element 8-adhesive

9-parts 10-vavuum pump 11-transmission channel 12-first connecting pipeline

13-second connecting pipeline 14-control box 15-temperature controller 16-timer

17-operates cabinet

Detailed description of the invention

For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

The structural representation of the sensor element adhering device that Fig. 1 provides for the utility model embodiment one, the cross-sectional view of the sucker of the sensor element adhering device that Fig. 2 provides for the utility model embodiment one, the operating diagram of the sucker of the sensor element adhering device that Fig. 3 provides for the utility model embodiment one, as shown in Figure 1, Figure 2 and Figure 3, the sensor element adhering device of the present embodiment, comprising:

Sucker 1 and heating power supply 2;

Be disposed with electric heater 4 and adhesive mould 5 in housing 3 inner chamber of sucker 1, electric heater 4 contacts with the upper end of adhesive mould 5; Electric heater 4 is electrically connected with heating power supply 2;

Housing 3 lower end of sucker 1 has opening; The lower end of adhesive mould 5 has mold slots 6, and the opening of mold slots 6 is corresponding with the opening of housing 3 lower end;

Mold slots 6, for holding the adhesive 8 of fixation of sensor element 7;

Electric heater 4, for according to heating power supply 2, the adhesive 8 in heating mould groove 6.

In the present embodiment, concrete, sensor element adhering device comprises sucker 1 and heating power supply 2, further comprises electric heater 4 and adhesive mould 5.Sucker 1 has housing 3, and electric heater 4 and adhesive mould 5 are from top to bottom successively set in housing 3 inner chamber of sucker 1, and electric heater 4 contacts with each other with the upper end of adhesive mould 5.Heating power supply 2 is electrically connected with electric heater 4, thus heating power supply 2 is powered to electric heater 4, makes electric heater 4 convert electrical energy into heat energy and be supplied to the adhesive mould 5 be in contact with it.An opening has been offered in housing 3 lower end of sucker 1, and the lower end of adhesive mould 5 is provided with a mold slots 6, the aperture position of mold slots 6 is corresponding with the aperture position of housing 3 lower end, makes it possible to mold slots 6, add adhesive 8 from the opening part of housing 3 lower end.

The adhesive 8 held in mold slots 6 is for fixation of sensor element 7, this adhesive 8 is adhesives of a kind of hot setting structure, can curing molding at the temperature of 60 degrees Celsius to 350 degrees Celsius, it has high tenacity, high strength, high resistance to feature of waiting so long, and is structural adhesive bonding material important during high temperature resistant load-carrying construction part manufactures.Because adhesive mould 5 receives the heat energy of electric heater 4, heat energy can pass to the adhesive 8 in mold slots 6, and at a certain temperature, adhesive 8 curing molding, can be pasted onto sensor element 7 on parts 9 to be measured.The present embodiment, for the particular type of adhesive 8, does not limit.

The shape of the mold slots 6 of adhesive mould 5 lower end in the present embodiment, set according to the type of sensor element 7 and shape, the present embodiment does not limit this.If sensor element 7 is resistance strain gages, then mold slots 6 is set to rectangular shallow groove; If sensor element 7 is piezoelectric patches, then mold slots 6 is set to circular shallow grooves; If sensor element 7 is sensor elements of fiber grating type, then mold slots 6 is set to elongated rectangular shape shallow grooves.

The course of work of the sensor element adhering device that the present embodiment provides is as follows.Sensor element 7 is placed on parts 9 to be measured, in mold slots 6, adds appropriate adhesive 8, near sensor element 7, the adhesive 8 in mold slots 6 is contacted with sensor element 7 in sucker 1; Open heating power supply 2, heating power supply 2 is powered to the electric heater 4 be connected electrically, and electric heater 4 converts electrical energy into heat energy; Further, heat energy is passed to adhesive mould 5 by electric heater 4, and heat energy is passed to the adhesive 8 in mold slots 6 by adhesive mould 5 again; Adhesive 8 at a certain temperature can curing molding.After some time, adhesive 8 is with the shape of mold slots 6, and close heating power supply 2, be separated with parts 9 to be measured by sucker 1, sensor element 7 is pasted onto on parts 9 to be measured with the shape of mold slots 6 by adhesive 8.Thus can start the testing process of sensor element 7, sensor element 7 transmits the structured data of parts 9 to be measured to terminal.

The sensor element adhering device that the present embodiment provides can be adopted, the parts 9 to be measured sensor element 7 being pasted onto same type carry out the collection of structured data.In this process, the shape of mold slots 6 is unified, and the type of sensor element 7 is unified.

The present embodiment, by providing a kind of sensor element adhering device, comprising: sucker 1 and heating power supply 2; From top to bottom be disposed with the electric heater 4 and adhesive mould 5 that contact with each other in housing 3 inner chamber of sucker 1, electric heater 4 is electrically connected with heating power supply 2, and the electric energy that heating power supply 2 provides can be converted to heat energy and be supplied to adhesive mould 5 by motor heat device; Housing 3 lower end of sucker 1 has opening, the lower end of adhesive mould 5 has mold slots 6, the opening of mold slots 6 is corresponding with the opening of housing 3 lower end, adhesive 8 is contained in mold slots 6, thus the heat energy of adhesive mould 5 is passed to adhesive 8 by mold slots 6, adhesive 8 can remove fixation of sensor element 7 by curing molding.Thus the heat energy solidification that adhesive 8 can provide according to electrical heating, form the shape of mold slots 6; And sensor element 7 is pasted onto on parts 9 to be measured by adhesive 8; After adhesive 8 solidifying and setting, the shape of the adhesive 8 of the stickup sensor element 7 on multiple parts 9 of same type is identical, the structured data being detected the parts 9 of the same type obtained by the sensor element 7 of same type is reliable, the accuracy that the structured data that improve parts 9 is analyzed.Meanwhile, sensor element 7 is fixed on the comparatively complicated parts 9 of shape by the sensor element adhering device that the present embodiment can be adopted to provide; Do not need as prior art, adopt other large-scale firing equipments to heat the parts 9 being stained with adhesive 8, saved heat energy yet.

The structural representation of the sensor element adhering device that Fig. 4 provides for the utility model embodiment two, the cross-sectional view of the sucker of the sensor element adhering device that Fig. 5 provides for the utility model embodiment two, the operating diagram of the sucker of the sensor element adhering device that Fig. 6 provides for the utility model embodiment two, as shown in Figure 4, Figure 5 and Figure 6, on the basis of embodiment one, the sensor element adhering device of the present embodiment, also comprises: vavuum pump 10 and transmission channel 11;

Run through in transmission channel 11 and have vacuum line and wire, housing 3 upper end of sucker 1 has the first connecting pipeline 12; The cross-sectional width of transmission channel 11 coordinates with the cross-sectional width of the first connecting pipeline 12; First connecting pipeline 12 is connected with one end of transmission channel 11;

One end of vacuum line extends in housing 3 inner chamber of sucker 1 through the first connecting pipeline 12; The other end of vacuum line is connected with vavuum pump 10;

One end of wire is connected with electric heater 4 through the first connecting pipeline 12, and the other end of wire is connected with heating power supply 2.

Electric heater 4 and adhesive mould 5 level are fixedly installed in housing 3 inner chamber of sucker 1;

Electric heater 4 has gap with housing 3 inner surface of sucker 1;

The second connecting pipeline 13 is fixedly installed between housing 3 inner surface of adhesive mould 5 and sucker 1;

Adhesive mould 5 has gap with housing 3 lower end of sucker 1.

In the present embodiment, concrete, sensor element adhering device also comprises vavuum pump 10 and transmission channel 11.Vacuum line and wire has been run through in transmission channel 11.Housing 3 upper end of sucker 1 has the first connecting pipeline 12, first connecting pipeline 12 and is communicated with housing 3 inner chamber of sucker 1; Further, the cross-sectional width of the first connecting pipeline 12 coordinates with the cross-sectional width of transmission channel 11, and the first connecting pipeline 12 can be connected with one end of transmission channel 11.One end of vacuum line have passed through the first connecting pipeline 12, and extend in housing 3 inner chamber of sucker 1, and the other end of vacuum line is connected with vavuum pump 10, the other end of transmission channel 11 is closed simultaneously, thus vavuum pump 10 can extract the air of housing 3 inner chamber of sucker 1 by vacuum line and the first connecting pipeline 12.One end of wire in transmission channel 11 have passed through the first connecting pipeline 12, be electrically connected with electric heater 4, and the other end that the other end of wire passes transmission channel 11 is electrically connected with heating power supply 2, thus heating power supply 2 is powered to electric heater 4 by wire.

Further, electric heater 4 and adhesive mould 5 level are from top to bottom fixedly installed in housing 3 inner chamber of sucker 1, and the sidewall of electric heater 4 and adhesive mould 5 is fixedly connected with the inner chamber of housing 3; Between housing 3 inner surface of adhesive mould 5 and sucker 1, be fixedly installed the second connecting pipeline 13 that at least one pair of is oppositely arranged; Further, the central axis of electric heater 4 and the central axes of adhesive mould 5, the cross-sectional length of electric heater 4 is less than the cross-sectional length of adhesive mould 5, thus electric heater 4 has gap with housing 3 inner surface of sucker 1; Thus housing 3 inner chamber of sucker 1 is communicated with between the second connecting pipeline 13.

Housing 3 sidewall of sucker 1 extends the horizontal plane at the place, lower end of adhesive mould 5, forms groove; Meanwhile, housing 3 inner chamber of the second connecting pipeline 13 conducting sucker 1 and groove.That is, adhesive mould 5 has gap with housing 3 lower end of sucker 1.Thus, be communicated with between the groove of housing 3 inner chamber of vacuum line, the first connecting pipeline 12, sucker 1, the second connecting pipeline 13 and housing 3 lower end.

The present embodiment, for the particular type of adhesive 8, does not limit.

The shape of the mold slots 6 of adhesive mould 5 lower end in the present embodiment, set according to the type of sensor element 7 and shape, the present embodiment does not limit this.

The course of work of the sensor element adhering device that the present embodiment provides is as follows.Sensor element 7 is placed on parts 9 to be measured, appropriate adhesive 8 is added in mold slots 6, near sensor element 7, the adhesive 8 in mold slots 6 is contacted with sensor element 7 sucker 1, fit in the lower end of sucker 1 and the surface of parts 9 to be measured simultaneously.Open vavuum pump 10, thus vavuum pump 10 is by vacuum line and the first connecting pipeline 12, extracts the air in housing 3 inner chamber of sucker 1; Meanwhile, be also be communicated with between the groove due to housing 3 inner chamber of sucker 1, the second connecting pipeline 13 and housing 3 lower end, thus the air in the groove of housing 3 lower end also extract by vavuum pump 10; After vavuum pump 10 has worked certain hour, the air of housing 3 lower end of sucker 1 has all extracted by vavuum pump 10, thus the lower end of sucker 1 and parts 9 adhesive to be measured are firmly, simultaneously, in order to prevent sucker 1 from dropping from parts 9 to be measured, vavuum pump 10 needs to work always.Then, open heating power supply 2, heating power supply 2 is powered to the electric heater 4 be connected electrically by the wire in transmission channel 11, and electric heater 4 converts electrical energy into heat energy; Further, heat energy is passed to adhesive mould 5 by electric heater 4, and heat energy is passed to the adhesive 8 in mold slots 6 by adhesive mould 5 again; Adhesive 8 at a certain temperature can curing molding.After some time, adhesive 8, with the shape of mold slots 6, is closed heating power supply 2 and vavuum pump 10, be separated by sucker 1, thus sensor element 7 is pasted onto on parts 9 to be measured with the shape of mold slots 6 by adhesive 8 with parts 9 to be measured.Thus can start the testing process of sensor element 7, sensor element 7 transmits the structured data of parts 9 to be measured to terminal.

The present embodiment, on the basis of embodiment one, further comprises vavuum pump 10 and transmission channel 11, is provided with vacuum line and wire in transmission channel 11; First connecting pipeline 12 of housing 3 upper end of sucker 1 is connected with vavuum pump 10 by vacuum line; Further, be fixedly installed the second connecting pipeline 13 between adhesive mould 5 and housing 3 inner surface of sucker 1, housing 3 inner chamber of sucker 1 is communicated with the second connecting pipeline 13, and adhesive mould 5 has gap with housing 3 lower end of sucker 1.Thus the air extraction in the groove of housing 3 lower end can be fallen by housing 3 inner chamber of vacuum line, the first connecting pipeline 12, sucker 1 and the second connecting pipeline 13 by vavuum pump 10, lower end and parts 9 adhesive to be measured of sucker 1 are firm; When making the adhesive 8 in electric heater 4 heating mould groove 6 afterwards, between sucker 1 and sensor element 7, parts 9 to be measured, relative movement can not be there is.Adhesive 8 can remove fixation of sensor element 7 by curing molding.Thus the heat energy solidification that adhesive 8 can provide according to electrical heating, form the shape of mold slots 6; And sensor element 7 is pasted onto on parts 9 to be measured by adhesive 8; After adhesive 8 solidifying and setting, the shape of the adhesive 8 of the stickup sensor element 7 on multiple parts 9 of same type is identical, the structured data being detected the parts 9 of the same type obtained by the sensor element 7 of same type is reliable, the accuracy that the structured data that improve parts 9 is analyzed.Meanwhile, sensor element 7 is fixed on the comparatively complicated parts 9 of shape by the sensor element adhering device that the present embodiment can be adopted to provide; Do not need as prior art, adopt other large-scale firing equipments to heat the parts 9 being stained with adhesive 8, saved heat energy yet.

Further, on the basis of above-described embodiment, as shown in Figure 4, the sensor element adhering device that the present embodiment two provides, is provided with valve in vacuum line;

Transmission channel 11 is provided with control box 14, control box 14 is connected with valve;

Control box 14 is for the switch of by-pass valve control.

In the present embodiment, concrete, a valve is set in vacuum line; And in transmission channel 11, being fixedly installed a control box 14, controller is connected with valve, and control box 14 has switch, can gas flowing in the closedown of by-pass valve control and vacuum line.

Present embodiment by arranging valve in vacuum line, and arranges the control box 14 be connected with valve in transmission channel 11, thus can be controlled the gas flowing in vacuum line by control box 14.

Further, on the basis of above-described embodiment, as shown in Figure 4, the sensor element adhering device that the present embodiment two provides, also comprises: temperature controller 15;

Temperature controller 15 is electrically connected with heating power supply 2;

Be provided with interconnective heating plate and thermocouple in electric heater 4, heating plate is electrically connected with heating power supply 2 by wire, and thermocouple is electrically connected with temperature controller 15 by wire;

The temperature information of the heating plate that temperature controller 15 returns according to thermocouple, controls the frequency of supply of heating power supply 2.

Also comprise: timer 16; Timer 16 is electrically connected with heating power supply 2; Timer 16, for calculating the working time of heating power supply 2.

In the present embodiment, concrete, arrange a temperature controller 15 and a timer 16, temperature controller 15, timer 16 are electrically connected with heating power supply 2 respectively.Be provided with interconnective heating plate and thermocouple in electric heater 4, heating plate is electrically connected with heating power supply 2 by the wire in transmission channel 11, and thermocouple is electrically connected with temperature controller 15 by the wire in transmission channel 11.Heating power supply 2 is powered to the heating plate in electric heater 4; Timer 16 sets the working time of heating power supply 2, thus controls the power-on time of heating power supply 2 to the heating plate in electric heater 4; Thermocouple can gather the temperature information of heating plate, temperature information is sent to temperature controller 15; Temperature controller 15 according to temperature information, the frequency of supply of controller heating power supply 2.

The course of work of the sensor element adhering device that the present embodiment mode provides is as follows.Open vavuum pump 10, after the lower end of sucker 1 and parts 9 adhesive to be measured firmly, timer 16 sets the working time, then open heating power supply 2, heating power supply 2 carries out work according to the working time that timer 16 sets.In the course of work of sensor element adhering device, the temperature information of the acquisition heating plate that thermocouple is real-time, and temperature information is passed to temperature controller 15; Temperature controller 15, according to temperature information, controls the frequency of supply of heating power supply 2, and then controls the temperature of heating plate, makes the temperature of heating plate can be suitable for the solidification of adhesive 8.

Present embodiment is by providing temperature controller 15 and timer 16, and temperature controller 15 and timer 16 are electrically connected with heating power supply 2 respectively; Thus heating power supply 2 carries out work according to the working time of setting on timer 16.Heating plate in electric heater 4 is electrically connected with heating power supply 2 by wire, and the thermocouple in electric heater 4 is electrically connected with temperature controller 15 by wire; Thus the temperature information of heating plate that temperature controller 15 can return according to thermocouple, control the frequency of supply of heating power supply 2, and then make the temperature of heating plate can be suitable for the solidification of adhesive 8.

Further, on the basis of above-described embodiment, as shown in Figure 4, the sensor element adhering device that the present embodiment two provides, also comprises: operation cabinet 17;

Vavuum pump 10, heating power supply 2, timer 16 and temperature controller 15 are fixedly installed in operation cabinet 17.

The outer surface of operation cabinet 17 is fixedly installed guidance panel;

Guidance panel is provided with heating power supply switch, vacuum pump switch and timer switch;

Heating power supply switch is electrically connected with heating power supply 2, and vacuum pump switch is electrically connected with vavuum pump 10, and timer switch is electrically connected with timer 16.

In the present embodiment, concrete, vavuum pump 10, heating power supply 2, timer 16 and temperature controller 15 can be fixedly installed in an operation cabinet 17.And a guidance panel is fixedly installed on the outer surface of operation cabinet 17, guidance panel arranges heating power supply 2 switch be electrically connected with heating power supply 2, the vacuum pump switch be electrically connected with vavuum pump 10, the timer switch be electrically connected with timer 16.Can according to the opening and closing of heating power supply 2 switch control rule heating power supply 2, according to the opening and closing of vavuum pump 10 on-off controller vavuum pump 10, according to the opening and closing of timer switch control timer 16.

Further, on the basis of above-described embodiment, the sensor element adhering device that the present embodiment two provides, the housing 3 of sucker 1 adopts silica gel to prepare, and adhesive mould 5 adopts silica gel to prepare.

In the present embodiment, concrete, the housing 3 of sucker 1 adopts silica gel, and utilize the mode of injection moulding and obtain, the housing 3 of sucker 1 is formed in one.Meanwhile, adhesive mould 5 adopts silica gel, and utilize the mode of injection moulding and obtain, adhesive mould 5 is formed in one.

Housing 3 and the adhesive mould 5 of present embodiment by adopting silica gel to obtain sucker 1 respectively.Thus adhesive 8 can not be pasted on the housing 3 of adhesive mould 5 and sucker 1, after adhesive 8 curing molding in the mold slots 6 of adhesive mould 5, sensor element 7 only can be pasted onto on parts 9 to be measured by adhesive 8.

Last it is noted that above embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (9)

1. a sensor element adhering device, is characterized in that, comprising:

Sucker and heating power supply;

Be disposed with electric heater and adhesive mould in the housing cavity of described sucker, described electric heater contacts with the upper end of described adhesive mould; Described electric heater is electrically connected with described heating power supply;

The housing lower end of described sucker has opening; The lower end of described adhesive mould has mold slots, and the opening of described mold slots is corresponding with the opening of described housing lower end;

Described mold slots, for holding the adhesive of fixation of sensor element;

Described electric heater, for according to described heating power supply, heats the adhesive in described mold slots.

2. sensor element adhering device according to claim 1, is characterized in that, also comprise: vavuum pump and transmission channel;

Run through in described transmission channel and have vacuum line and wire, the housing upper end of described sucker has the first connecting pipeline; The cross-sectional width of described transmission channel coordinates with the cross-sectional width of described first connecting pipeline; Described first connecting pipeline is connected with one end of described transmission channel;

One end of described vacuum line extends in the housing cavity of described sucker through described first connecting pipeline; The other end of described vacuum line is connected with described vavuum pump;

One end of described wire is connected with described electric heater through described first connecting pipeline, and the other end of described wire is connected with described heating power supply.

3. sensor element adhering device according to claim 2, is characterized in that, described electric heater and described adhesive die horizontal are fixedly installed in the housing cavity of described sucker;

The shell inner surface of described electric heater and described sucker has gap;

The second connecting pipeline is fixedly installed between described adhesive mould and the shell inner surface of described sucker;

There is gap the housing lower end of described adhesive mould and described sucker.

4. sensor element adhering device according to claim 3, is characterized in that, is provided with valve in described vacuum line;

Described transmission channel is provided with control box, and described control box is connected with described valve;

Described control box is for controlling the switch of described valve.

5. sensor element adhering device according to claim 4, is characterized in that, also comprise: temperature controller;

Described temperature controller is electrically connected with described heating power supply;

Be provided with interconnective heating plate and thermocouple in described electric heater, described heating plate is electrically connected with described heating power supply by described wire, and described thermocouple is electrically connected with described temperature controller by described wire;

The temperature information of the described heating plate that described temperature controller returns according to described thermocouple, controls the frequency of supply of described heating power supply.

6. sensor element adhering device according to claim 5, is characterized in that, also comprise: timer;

Described timer is electrically connected with described heating power supply;

Described timer, for calculating the working time of described heating power supply.

7. sensor element adhering device according to claim 6, is characterized in that, also comprise: operation cabinet;

Described vavuum pump, described heating power supply, described timer and described temperature controller are fixedly installed in described operation cabinet.

8. sensor element adhering device according to claim 7, is characterized in that, the outer surface of described operation cabinet is fixedly installed guidance panel;

Described guidance panel is provided with heating power supply switch, vacuum pump switch and timer switch;

Described heating power supply switch is electrically connected with described heating power supply, and described vacuum pump switch is electrically connected with described vavuum pump, and described timer switch is electrically connected with described timer.

9. according to the arbitrary described sensor element adhering device of claim 1-8, it is characterized in that, the housing of described sucker adopts silica gel to prepare, and described adhesive mould adopts silica gel to prepare.