CN207624659U - Portable ion source - Google Patents

Abstract

The utility model provides a kind of portable ion source, and the portable ion source includes：There is interconnected first passage and second channel, the angle between the first passage and second channel to be not zero in ontology；Discharge electrode is arranged in the exit of the second channel, and does not stop the outlet；One end of first gas pipeline is connected to the entrance of the first passage, and the other end is connected to second gas pipeline；Heater element is for heating the first gas pipeline；Radiating element is arranged in the outside of the heater element；Fan promotes air to flow, to purge the radiating element.The utility model has many advantages, such as to have a wide range of application, work efficiency is high.

Description

Portable ion source

Technical field

The utility model is related to ion source, more particularly to portable ion source.

Background technology

Ion source is to make neutral atom or molecular ionization, and therefrom draw the device of ion beam current.Currently, ion source due to When ionization of sample (be subject to mass spectrometric partical beam position), partical beam position is fixed in mass spectrograph, the two Position needs close, alignment to place, therefore, significantly limited in mass spectral analysis ion source, sample position, be unfavorable for sample Product are placed.Such analytical technology mainly has following deficiency：

1. close holding movable platform operates to limit the placement position of ion source, sample compared with being limited to, not clever enough It is living；When location of mobile station is calibrated, mobile station support, calibration are needed, hand-held calibration is not supported, limits working efficiency；

2. existing ion source uses discharge end mode of heating, limits sealing sleeve pipe and need to use heat safe insulation material Material, the general heat transfer coefficient of such material is relatively low, causes existing ion source to there is a problem of that discharge end time cool time is long, causes to use The family unnecessary time waits for, and reduces working efficiency.

Utility model content

For the deficiency for solving in above-mentioned prior art, the utility model provides one kind and has a wide range of application, work effect The high portable ion source of rate.

The purpose of this utility model is achieved through the following technical solutions：

A kind of portable ion source, the portable ion source include：

Ontology, the ontology is interior, and there is interconnected first passage and second channel, the first passage and second to lead to Angle between road is not zero；

Discharge electrode, the discharge electrode are arranged in the exit of the second channel, and do not stop the outlet；

One end of first gas pipeline, the first gas pipeline is connected to the entrance of the first passage, other end connection Second gas pipeline；

Heater element, the heater element is for heating the first gas pipeline；

Radiating element, the radiating element are arranged in the outside of the heater element；

Fan, the fan promote air to flow, to purge the radiating element.

According to above-mentioned portable ion source, it is preferable that the angle is 90 degree.

According to above-mentioned portable ion source, in order to improve the safety of application, optionally, the portable ion source into One step includes：

Shell, the shell have air intlet and air outlet slit, the first gas pipeline, heater element and radiator Part is in the shell；Shell is fixed on the lower part of ontology；The fan is arranged in face of the air outlet slit；

Shell, the ontology are fixed on the housing, and one end of the first conducting wire connects the discharge electrode, the other end from It is stretched out at the first position of shell；One end of second conducting wire connects the heater element, and the other end is from the second place of shell It stretches out.

According to above-mentioned portable ion source, in order to improve the cooling-down effect of first gas pipeline, it is preferable that the heat dissipation Device is arranged in face of the air outlet slit.

According to above-mentioned portable ion source, in order to reduce the interference of ion source, it is preferable that the second gas pipeline Shell is stretched out in one end from the second place.

According to above-mentioned portable ion source, for the ease of carrying, optionally, the portable ion source is further wrapped It includes：

Handle, the handle are fixed on the lower part of the shell, and the left side in the shell.

According to above-mentioned portable ion source, for the ease of the circulation of air, it is preferable that the air intlet is arranged in institute It states on the shell of lower portion thereof.

According to above-mentioned portable ion source, in order to improve security performance, optionally, the portable ion source is further Including：

Insulation crust, the insulation crust are fixed on the outside of the discharge electrode, and with outlet.

According to above-mentioned portable ion source, in order to improve the efficiency of heating surface and cooling-down effect, it is preferable that the radiating element Using cooling fin, the heater element uses resistance wire, the first gas pipeline to use metal tube.

Compared with prior art, the utility model have the advantage that for：

1. having widened flexibility and the application range of ion source operation：

By the way of arranging hand holding handle using bottom rear, safe and reliable, comfortable handhold functional is realized, it can be real The great flexibility of existing ion source operation range, you can position correction, and hand-holdable calibration are carried out by mobile station, it is quickly high Effect is motor-driven convenient.

2. improving the cooling velocity of first gas pipeline, cooling time is reduced, to considerably improve work effect Rate.

Description of the drawings

With reference to attached drawing, the disclosure of the utility model will be easier to understand.Skilled addressee readily understands that It is：These attached drawings are used only for illustrating the technical solution of the utility model, and are not intended to the protection to the utility model Range is construed as limiting.In figure：

Fig. 1 is the structure diagram according to the portable ion source of the utility model embodiment；

Fig. 2 is the partial structurtes schematic diagram according to the portable ion source of the utility model embodiment.

Specific implementation mode

Fig. 1-2 and following description describe the optional embodiments of the utility model how to instruct those skilled in the art Implement and reproduce the utility model.In order to instruct technical solutions of the utility model, some conventional aspects are simplified or have been omitted.This Field technology personnel should be appreciated that modification from these embodiments or replacement will be in the scope of the utility model.This field Technical staff should be appreciated that following characteristics can be combined in various ways to form multiple modifications of the utility model.As a result, originally Utility model is not limited to following optional embodiments, and is only limited by the claims and their equivalents.

Embodiment 1：

Fig. 1-2 schematically illustrates the structure diagram of the portable ion source of the utility model embodiment 1, such as Fig. 1-2 Shown, the portable ion source includes：

Ontology 19, has interconnected first passage 10 and second channel 11 in the ontology, the first passage and Angle between second channel is not zero, such as 90 degree；

Discharge electrode 13, the discharge electrode are arranged in the exit of the second channel, and do not stop the outlet； Such as, positive and negative metal electrode is separately positioned on the upper and lower sides in the exit of the second channel, to by electrode discharge ionization from Export the gas of outflow；

First gas pipeline 18, such as quick heating and the fast metal tube that cools down, one end of the first gas pipeline are connected to institute The entrance of first passage is stated, the other end is connected to second gas pipeline 2；

Heater element 19 such as uses resistance wire, and the heater element is for heating the first gas pipeline；

Radiating element 20, such as the radiated rib of metal material, the radiating element is arranged in the outside of the heater element；

Fan 9, the fan promote air to flow, to purge the radiating element.

In order to improve the safety of application, optionally, the portable ion source further comprises：

Shell 8, the shell have air intlet 5 and air outlet slit, the first gas pipeline, heater element and heat dissipation Device is in the shell；Shell is fixed on the lower part of ontology 16；The fan 9 is arranged in face of the air outlet slit, such as sets It sets at the air outlet slit of shell；

Shell 14, the ontology are fixed on the housing, and one end of the first conducting wire 1 connects the discharge electrode, another End is stretched out from the first position of shell；One end of second conducting wire 3 connects the heater element, second of the other end from shell Place is set to stretch out；

Insulation crust 21, the insulation crust are fixed on the outside of the discharge electrode, and with the outlet 12 separately set.

According to above-mentioned portable ion source, for the ease of carrying, optionally, the portable ion source is further wrapped It includes：

Handle 4, the handle are fixed on the lower part of the shell, and the left side in the shell.

According to the working method of above-mentioned portable ion source, the working method includes the following steps：

(A1) fan 9 is closed, and first gas pipeline 18 is heated by heater element 19, to heat from second gas pipeline 1 Gas into first gas pipeline 18；

(A2) gas after heating passes sequentially through first passage 10 and second channel 11, and ontology 16 is discharged；

(A3) in ontology or the gas of discharge ontology is ionized, plasma is formed；

(A4) heater element 19 is stopped, and fan 9 is opened, and air purges radiating element 20, to reduce first gas The temperature of pipeline.

Embodiment 2：

According to the portable ion source of the utility model embodiment 1 and its application examples of working method.

In the application examples, first gas pipeline 18 uses resistance wire using the good copper pipe of heat conductivility, heater element 19, Twist it is wound on the periphery of first gas pipeline 18；The radiating element 20 using metal material radiated rib and with the One gas pipeline 18 is thermally connected, while being arranged in face of the air outlet slit；The setting of fan 9 goes out in the radiating element 20 and air Between mouthful, and it is arranged in face of air outlet slit；One end of 2 and second conducting wire 3 of the second gas pipeline is from the shell 14 Shell is stretched out in the second place, has cavity in shell, for carrying ontology 16 and being fixedly connected with shell 8 and handle 4；First Shell 14 is stretched out in one end of conducting wire 1 from the first position different from the second position of shell 14；The setting of the air intlet 5 exists On the shell 8 of 4 lower part of the handle；Temperature-measuring part 15, such as temperature sensor, detection first gas pipeline 18 or heater element 19 Temperature, and the heating power of feedback control heater element 19；Second conducting wire 3 and first gas pipeline 2 are stuck in shell In card slot 6-7.

According to the working method of above-mentioned portable ion source, the working method includes the following steps：

(A1) fan is closed, and heater element electrified regulation, first gas pipeline heated by heater element, to which heating is from the Two gas pipelines enter the gas in first gas pipeline；

Temperature measuring device measured temperature, and according to target temperature go control heater element power so that in first pipe Gas temperature reaches target temperature；

(A2) gas after heating folds into second channel, ontology is finally discharged later by first passage；

(A3) in ontology or the gas of discharge ontology is ionized, plasma is formed；

(A4) heater element is stopped, and fan is opened, and air enters from air intlet in shell, purges radiating element, To rapidly reduce the temperature of first gas pipeline, the stand-by period is shortened, is improved work efficiency.

Claims (9)

1. a kind of portable ion source, it is characterised in that：The portable ion source includes：

Ontology, the ontology is interior to have interconnected first passage and second channel, between the first passage and second channel Angle be not zero；

Discharge electrode, the discharge electrode are arranged in the exit of the second channel, and do not stop the outlet；

One end of first gas pipeline, the first gas pipeline is connected to the entrance of the first passage, other end connection second Gas pipeline；

Heater element, the heater element is for heating the first gas pipeline；

Radiating element, the radiating element are arranged in the outside of the heater element；

Fan, the fan promote air to flow, to purge the radiating element.

2. portable ion source according to claim 1, it is characterised in that：The angle is 90 degree.

3. portable ion source according to claim 1, it is characterised in that：The portable ion source further comprises：

Shell, the shell has air intlet and air outlet slit, at the first gas pipeline, heater element and radiating element In in the shell；Shell is fixed on the lower part of ontology；The fan is arranged in face of the air outlet slit；

Shell, the ontology are fixed on the housing, and one end of the first conducting wire connects the discharge electrode, and the other end is from shell First position at stretch out；One end of second conducting wire connects the heater element, and the other end is stretched out from the second place of shell.

4. portable ion source according to claim 3, it is characterised in that：The radiating element is in face of the air outlet slit Setting.

5. portable ion source according to claim 3, it is characterised in that：One end of the second gas pipeline is from described Shell is stretched out in the second place.

6. portable ion source according to claim 3, it is characterised in that：The portable ion source further comprises：

Handle, the handle are fixed on the lower part of the shell, and the left side in the shell.

7. portable ion source according to claim 6, it is characterised in that：The air intlet is arranged under the handle On the shell in portion.

8. portable ion source according to claim 1, it is characterised in that：The portable ion source further comprises：

Insulation crust, the insulation crust are fixed on the outside of the discharge electrode, and with the outlet separately set.

9. portable ion source according to claim 1, it is characterised in that：The radiating element uses cooling fin, described Heater element uses resistance wire, the first gas pipeline to use metal tube.