CN107631810A - A kind of pump housing bearing shell oil resistance thermometer - Google Patents

Abstract

A kind of pump housing bearing shell oil resistance thermometer, including temperature-sensing probe, tetrafluoro wire, the first stainless steel sleeve pipe and the second stainless steel sleeve pipe；The temperature-sensing probe is welded in one end of the tetrafluoro wire, the end of the tetrafluoro wire is configured with insulated column, the interface of the insulated column and the tetrafluoro wire is sealed by epoxy sealing glue, the core of the tetrafluoro wire is passed by the hollow inside of the insulated column, and the temperature-sensing probe is directly welded together by core with the insulated column；First stainless steel sleeve pipe is the cylindrical shape of one end closing, first stainless steel sleeve pipe is placed on the temperature-sensing probe, the side wall melting welding of first stainless steel sleeve pipe is on the tetrafluoro wire, and the bottom melting welding of first stainless steel sleeve pipe is on the temperature-sensing probe.

Description

A kind of pump housing bearing shell oil resistance thermometer

Technical field

The present invention relates to a kind of pump housing bearing shell oil resistance thermometer.

Background technology

No. 1 of field gulf nuclear power station and No. 2 units respectively have five main feed pumps, and the pump housing free end of every feed pump is at least matched somebody with somebody 9 bearing shell thermometers are equipped with, the equal integral replacing thermometer because of thermometer lead permeability of fuel recycle, is safeguarded into ninety-nine times out of a hundred This is higher.

Simultaneously because although the probe segment of bearing bush temperature meter configures in oil but because the influence of working environment, it allows so Bear larger torsion, once and thermometer lead permeability, except need change thermometer in addition to, be also easily damaged monitoring client Or cause firing accident.

The content of the invention

To overcome prior art problem, the present invention provides a kind of pump housing bearing shell oil resistance thermometer.

A kind of pump housing bearing shell oil resistance thermometer,

Including temperature-sensing probe, tetrafluoro wire, the first stainless steel sleeve pipe and the second stainless steel sleeve pipe；

The temperature-sensing probe is welded in one end of the tetrafluoro wire, and the end of the tetrafluoro wire is configured with insulated column, The interface of the insulated column and the tetrafluoro wire is sealed by epoxy sealing glue, and the core of the tetrafluoro wire passes through described The hollow inside of insulated column is passed, and the temperature-sensing probe is directly welded together by core with the insulated column；

First stainless steel sleeve pipe is the cylindrical shape of one end closing, and first stainless steel sleeve pipe is placed on the temperature-sensitive and visited On head, on the tetrafluoro wire, the bottom of first stainless steel sleeve pipe is melted for the side wall melting welding of first stainless steel sleeve pipe It is welded on the temperature-sensing probe；

Second stainless steel sleeve pipe is the cylindrical shape of one end closing, and the side wall of second stainless steel sleeve pipe is longer than described The side wall of first stainless steel sleeve pipe, second stainless steel sleeve pipe is placed in first stainless steel sleeve pipe, positioned at the tetrafluoro The side wall of second stainless steel sleeve pipe protrudes from the part of first stainless steel sleeve pipe and bends inwards and be pressed to institute on wire State on tetrafluoro wire, pass through height between the part to bend inwards of the side wall of second stainless steel sleeve pipe and the tetrafluoro wire Warm glue sealing.

Preferably, the other end of the tetrafluoro wire is data exit, and the exit is cased with stainless steel sleeve, institute The part for stating stainless steel sleeve and the tetrafluoro conductive contact bends inwards and is pressed on the tetrafluoro wire, the stainless steel sleeve Sealed between the part that bends inwards of cylinder and the tetrafluoro wire by high-temp glue, the core of the tetrafluoro wire positioned at it is described not Become rusty in steel bushing, the full high-temperature seal adhesive of filling in the stainless steel sleeve.

Preferably, the temperature-sensing probe is pt100.

Preferably, the part to bend inwards of the side wall of second stainless steel sleeve pipe and stainless steel sleeve bend inwards Part pass through hydraulic locking machine clamp shaping.

Preferably, the part to bend inwards of the side wall of second stainless steel sleeve pipe and stainless steel sleeve bend inwards Part and the tetrafluoro wire between be each equipped with being filled the Thin Elastic cotton of high-temperature seal adhesive.

Preferably, the tetrafluoro wire includes screen layer.

Present invention simultaneously provides a kind of preparation method of pump housing bearing shell oil resistance thermometer,

S1：Temperature-sensing probe is welded in one end of tetrafluoro wire：The end configuration insulated column of the tetrafluoro wire, by tetrafluoro The core of wire penetrates the inner hollow of insulated column and drawn from the end of insulated column, then by the insulated column and the tetrafluoro The interface of lead body is sealed by epoxy sealing glue, then the temperature-sensing probe is directly melted by core with the insulated column It is welded together, solder joint and the exit that junction is core on insulated column；

S2：First stainless steel sleeve pipe is configured on the temperature-sensing probe：First stainless steel sleeve pipe is closed for one end Cylindrical shape, first first stainless steel sleeve pipe bottom instill high temperature melting solder flux, it is then that the first stainless steel sleeve pipe is rapid It is placed on the temperature-sensing probe, makes the bottom melting welding of first stainless steel sleeve pipe on the temperature-sensing probe, then by described The side wall melting welding of one stainless steel sleeve pipe is on the tetrafluoro wire；

S3：Second stainless steel sleeve pipe is configured in first stainless steel sleeve pipe：Second stainless steel sleeve pipe is one The cylindrical shape that end seal is closed, the side wall of second stainless steel sleeve pipe are longer than the side wall of first stainless steel sleeve pipe；First described The side wall of second stainless steel sleeve pipe protrudes from and fills high-temperature seal adhesive on the inwall of the part of first stainless steel sleeve pipe, then Second stainless steel sleeve pipe is placed in first stainless steel sleeve pipe, clamped by hydraulic locking machine positioned at described second not Rust steel sleeve protrudes from the sidewall sections of first stainless steel sleeve pipe, it is bent inwards and is pressed on the tetrafluoro wire.

Preferably, the method for the other end of the making tetrafluoro wire is included：

S4：Configure the data exit of the tetrafluoro wire：The other end of the tetrafluoro wire is data exit, is first existed Fill high-temperature seal adhesive on the inwall of the part of stainless steel sleeve and the tetrafluoro conductive contact, by the stainless steel sleeve jacket casing in The other end of the tetrafluoro wire, clamped by hydraulic locking machine positioned at the stainless steel sleeve and the tetrafluoro conductive contact Part, it is bent inwards and be pressed on the tetrafluoro wire, then tense core and draw core, in the stainless steel sleeve The interior full high-temperature seal adhesive of filling.

Preferably, the temperature-sensing probe is pt100.

Preferably, the part to bend inwards of the side wall of second stainless steel sleeve pipe and stainless steel sleeve bend inwards Part and the tetrafluoro wire between be each equipped with being filled the Thin Elastic cotton of high-temperature seal adhesive.

Beneficial effects of the present invention：

Pump housing bearing shell oil resistance thermometer provided by the invention uses two layers of anti-leakage structure, temperature-sensing probe, insulated column and line Core combines together, permeability is also prevented from addition to saving space, while the first stainless steel sleeve pipe and temperature-sensing probe are welding in into one Rise and greatly reinforced its intensity, while the first stainless steel sleeve pipe and tetrafluoro lead are welded together and strengthen the overall strong of inside Degree；The second outside stainless steel sleeve pipe has good antiseep effect, together using cramping and by way of high-temp glue sealing When had the buffering to torsion of circumferencial direction concurrently, prevent it from dropping, even if oil penetrates into the first stainless steel sleeve pipe, but due to it Internal first stainless steel sleeve pipe melting welding does not have gap, and therefore tetrafluoro lead will not permeability；

And in the other end of tetrafluoro lead, i.e. data exit, while stainless steel sleeve pipe is also configured with, again by cramping And the mode of sealant sealing, even if there is oil to penetrate into tetrafluoro lead in extreme circumstances, also can in the output end of data Oil, which is got lodged in tetrafluoro lead, to ooze out.

Brief description of the drawings

Fig. 1 is the structural representation of the pump housing bearing shell oil resistance thermometer of the present invention.

Embodiment

As shown in figure 1, a kind of pump housing bearing shell oil resistance thermometer, including temperature-sensing probe 1, tetrafluoro wire 2, the first stainless steel sleeve The stainless steel sleeve pipe 4 of pipe 3 and second；

The temperature-sensing probe 1 is welded in one end of the tetrafluoro wire 2, and the end of the tetrafluoro wire 2 is configured with insulation Post 5, the interface of the insulated column 5 and the tetrafluoro wire 2 are sealed by epoxy sealing glue, the core of the tetrafluoro wire 2 Passed by the hollow inside of the insulated column 5, the temperature-sensing probe 1 is directly existed by core with the insulated column melting welding 5 Together；The present invention is in fact by temperature-sensing probe 1 and insulated column melting welding to show that mutual relation draws lead 5, only there is individual solder joint centre.So temperature-sensing probe 1 and insulated column melting welding 5 are merged, prevent the oil in feed pump from oozing Enter into tetrafluoro lead 2.

The temperature-sensing probe that the present invention uses is pt100, pt100 two leads in need, therefore the tetrafluoro selected draws Core in line is two, and the tetrafluoro wire includes screen layer, from two insulated columns 5.

First stainless steel sleeve pipe 3 is the cylindrical shape of one end closing, and first stainless steel sleeve pipe 3 is placed on the temperature-sensitive On probe 1, the melting welding of side wall 6 of first stainless steel sleeve pipe 3 on the tetrafluoro wire 2, first stainless steel sleeve pipe 3 The melting welding of bottom 7 is on the temperature-sensing probe 1；It is integrated in this way, foring the first stainless steel sleeve pipe 3 with tetrafluoro lead 2, interface Using melting welding, therefore no gap does not just have 2 spaces that oil penetrates into tetrafluoro lead yet, while strengthen overall intensity, makes Temperature-sensing probe 1 is not easy because mechanical damage drops out.

Second stainless steel sleeve pipe 4 is the cylindrical shape of one end closing, and the side wall of second stainless steel sleeve pipe 4 is longer than institute The side wall of the first stainless steel sleeve pipe is stated, second stainless steel sleeve pipe 4 is placed in first stainless steel sleeve pipe 3, positioned at described The side wall of second stainless steel sleeve pipe 4 protrudes from the part 8 of first stainless steel sleeve pipe 3 and bent inwards on tetrafluoro wire 2 It is pressed on the tetrafluoro wire 2, the part 8 to bend inwards and the tetrafluoro of the side wall of second stainless steel sleeve pipe 4 are led Sealed between line 2 by high-temp glue 9.

The other end of the tetrafluoro wire 2 is data exit, and the exit is cased with stainless steel sleeve 10, described stainless Steel bushing 10 bends inwards with the part 11 that the tetrafluoro wire 2 contacts and is pressed on the tetrafluoro wire 2, the stainless steel sleeve Sealed between the parts 11 that bend inwards of cylinder 10 and the tetrafluoro wire 2 by high-temp glue 12, the core 14 of the tetrafluoro wire 2 In the stainless steel sleeve 10, the full high-temperature seal adhesive 13 of filling in the stainless steel sleeve 10.

The part that the part 8 to bend inwards of the side wall of second stainless steel sleeve pipe 4 and stainless steel sleeve bend inwards 11 clamp shaping by hydraulic locking machine.The tetrafluoro lead 2 is compressed thus by bending inwards, at the same it is close by fluid sealant Envelope, makes the second stainless steel sleeve pipe 4 of temperature-sensing probe side have stronger sealing, while make second not using sealant sealing Rust steel sleeve 4 has axial toughness, prevents mechanical fatigue from causing loosening.Simultaneously tetrafluoro lead 2 the other end also by corresponding Mode sealed so that even if temperature-sensing probe side permeability in extreme circumstances, oil can also be trapped in tetrafluoro lead 2, Data output end it will not ooze out again.

Meanwhile the part 8 to bend inwards of the side wall of second stainless steel sleeve pipe 4 and stainless steel sleeve 10 bend inwards Part 11 and the tetrafluoro wire 2 between may be configured with the Thin Elastic cotton for being filled high-temperature seal adhesive, enter one by Thin Elastic cotton Step strengthens the toughness of circumferencial direction.

Present invention simultaneously provides a kind of preparation method of pump housing bearing shell oil resistance thermometer：

S1：Temperature-sensing probe 1 is welded in one end of tetrafluoro wire 2：The end configuration insulated column 5 of the tetrafluoro wire 2, will The core of tetrafluoro wire 2 penetrates the inner hollow of insulated column 5 and drawn from the end of insulated column 5, then by the insulated column 5 with The interface of the body of tetrafluoro wire 2 is sealed by epoxy sealing glue, then by the temperature-sensing probe 1 by core directly and institute State insulated column 5 to be welded together, solder joint and the exit that junction is core on insulated column 5；

S2：First stainless steel sleeve pipe 3 is configured on the temperature-sensing probe 1：First stainless steel sleeve pipe 3 is an end seal The cylindrical shape closed, high temperature melting solder flux first is instilled in the bottom of first stainless steel sleeve pipe 3, then by the first stainless steel sleeve pipe 3 It is placed on rapidly on the temperature-sensing probe 1, makes the bottom melting welding of first stainless steel sleeve pipe 3 on the temperature-sensing probe 1, then will The side wall melting welding of first stainless steel sleeve pipe 3 is on the tetrafluoro wire 2；

S3：Second stainless steel sleeve pipe 4 is configured in first stainless steel sleeve pipe 3：Second stainless steel sleeve pipe 4 is The cylindrical shape of one end closing, the side wall of second stainless steel sleeve pipe 4 are longer than the side wall of first stainless steel sleeve pipe 3；First exist The side wall of second stainless steel sleeve pipe 4 protrudes from and fills elevated-temperature seal on the inwall of the part 8 of first stainless steel sleeve pipe 3 Glue 9, then second stainless steel sleeve pipe 4 is placed in first stainless steel sleeve pipe 3, is clamped and be located at by hydraulic locking machine Second stainless steel sleeve pipe 4 protrudes from the sidewall sections 8 of first stainless steel sleeve pipe 3, it is bent inwards and is pressed to institute State on tetrafluoro wire 2.

In the other end of the tetrafluoro wire：

S4：Configure the data exit of the tetrafluoro wire 2：The other end of the tetrafluoro wire 2 is data exit, first High-temperature seal adhesive 12 is filled on the inwall for the part that stainless steel sleeve 10 contacts with the tetrafluoro wire 2, by the stainless steel Sleeve 10 is placed on the other end of the tetrafluoro wire 2, by hydraulic locking machine clamp positioned at the stainless steel sleeve 10 with it is described The part 11 that tetrafluoro wire 2 contacts, makes it bend inwards and is pressed on the tetrafluoro wire 2, then tenses core 14 and draws Core, the full high-temperature seal adhesive 13 of filling in the stainless steel sleeve 10.

Above configure the part 8 to bend inwards of the side wall of second stainless steel sleeve pipe 4 and stainless steel sleeve 10 to When the part 11 of inner bending is with the tetrafluoro wire 2, the Thin Elastic cotton for being filled high-temperature seal adhesive can be configured between them, So increase toughness and sealing effectiveness further can preferably be reached by elastic fluid.

Embodiment described above is only that the preferred embodiment of the present invention is described, not to the model of the present invention Enclose and be defined, on the premise of design spirit of the present invention is not departed from, technical side of the those of ordinary skill in the art to the present invention The various modifications and improvement that case is made, it all should fall into the protection domain of claims of the present invention determination.

Claims (10)

1. A kind of 1. pump housing bearing shell oil resistance thermometer, it is characterised in that：

   Including temperature-sensing probe, tetrafluoro wire, the first stainless steel sleeve pipe and the second stainless steel sleeve pipe；

   The temperature-sensing probe is welded in one end of the tetrafluoro wire, and the end of the tetrafluoro wire is configured with insulated column, described The interface of insulated column and the tetrafluoro wire is sealed by epoxy sealing glue, and the core of the tetrafluoro wire passes through the insulation The hollow inside of post is passed, and the temperature-sensing probe is directly welded together by core with the insulated column；

   First stainless steel sleeve pipe is the cylindrical shape of one end closing, and first stainless steel sleeve pipe is placed on the temperature-sensing probe On, the side wall melting welding of first stainless steel sleeve pipe is on the tetrafluoro wire, the bottom melting welding of first stainless steel sleeve pipe In on the temperature-sensing probe；

   Second stainless steel sleeve pipe is the cylindrical shape of one end closing, and the side wall of second stainless steel sleeve pipe is longer than described first The side wall of stainless steel sleeve pipe, second stainless steel sleeve pipe are placed in first stainless steel sleeve pipe, positioned at the tetrafluoro wire The part that the side wall of upper second stainless steel sleeve pipe protrudes from first stainless steel sleeve pipe bends inwards and is pressed to described four On fluorine wire, pass through high-temp glue between the part to bend inwards of the side wall of second stainless steel sleeve pipe and the tetrafluoro wire Sealing.
2. 2. pump housing bearing shell oil resistance thermometer according to claim 1, it is characterised in that：

   The other end of the tetrafluoro wire is data exit, and the exit is cased with stainless steel sleeve, the stainless steel sleeve Bend inwards and be pressed on the tetrafluoro wire with the part of the tetrafluoro conductive contact, what the stainless steel sleeve bent inwards Being sealed between part and the tetrafluoro wire by high-temp glue, the core of the tetrafluoro wire is located in the stainless steel sleeve, The full high-temperature seal adhesive of filling in the stainless steel sleeve.
3. 3. pump housing bearing shell oil resistance thermometer according to claim 1, it is characterised in that：

   The temperature-sensing probe is pt100.
4. 4. pump housing bearing shell oil resistance thermometer according to claim 1, it is characterised in that：

   The part that the part to bend inwards of the side wall of second stainless steel sleeve pipe and stainless steel sleeve bend inwards passes through liquid Locking machine is pressed to clamp shaping.
5. 5. pump housing bearing shell oil resistance thermometer as claimed in any of claims 1 to 4, it is characterised in that：

   The part that the part to bend inwards of the side wall of second stainless steel sleeve pipe and stainless steel sleeve bend inwards with it is described It is each equipped with being filled the Thin Elastic cotton of high-temperature seal adhesive between tetrafluoro wire.
6. 6. pump housing bearing shell oil resistance thermometer as claimed in any of claims 1 to 4, it is characterised in that：

   The tetrafluoro wire includes screen layer.
7. A kind of 7. preparation method of pump housing bearing shell oil resistance thermometer, it is characterised in that：

   S1：Temperature-sensing probe is welded in one end of tetrafluoro wire：The end configuration insulated column of the tetrafluoro wire, by tetrafluoro wire Core penetrate the inner hollow of insulated column and drawn from the end of insulated column, then by the insulated column and the tetrafluoro wire The interface of body is sealed by epoxy sealing glue, then the temperature-sensing probe is directly welding in by core with the insulated column Together, solder joint and the exit that junction is core on insulated column；

   S2：First stainless steel sleeve pipe is configured on the temperature-sensing probe：First stainless steel sleeve pipe is the circle of one end closing Tubular, high temperature melting solder flux first is instilled in the bottom of first stainless steel sleeve pipe, is then placed on the first stainless steel sleeve pipe rapidly On the temperature-sensing probe, make the bottom melting welding of first stainless steel sleeve pipe on the temperature-sensing probe, then by described first not The side wall melting welding of rust steel sleeve is on the tetrafluoro wire；

   S3：Second stainless steel sleeve pipe is configured in first stainless steel sleeve pipe：Second stainless steel sleeve pipe is an end seal The cylindrical shape closed, the side wall of second stainless steel sleeve pipe are longer than the side wall of first stainless steel sleeve pipe；First described second The side wall of stainless steel sleeve pipe protrudes from and fills high-temperature seal adhesive on the inwall of the part of first stainless steel sleeve pipe, then by institute State the second stainless steel sleeve pipe to be placed in first stainless steel sleeve pipe, clamped by hydraulic locking machine and be located at second stainless steel Sleeve pipe protrudes from the sidewall sections of first stainless steel sleeve pipe, it is bent inwards and is pressed on the tetrafluoro wire.
8. 8. the preparation method of pump housing bearing shell oil resistance thermometer according to claim 7, it is characterised in that：

   The method for also including making the other end of the tetrafluoro wire：

   S4：Configure the data exit of the tetrafluoro wire：The other end of the tetrafluoro wire is data exit, first stainless Steel bushing on the inwall of the part of the tetrafluoro conductive contact with filling high-temperature seal adhesive, by the stainless steel sleeve jacket casing in described The other end of tetrafluoro wire, the portion positioned at the stainless steel sleeve with the tetrafluoro conductive contact is clamped by hydraulic locking machine Point, it is bent inwards and be pressed on the tetrafluoro wire, then tense core and draw core, in the stainless steel sleeve The full high-temperature seal adhesive of filling.
9. 9. the preparation method of pump housing bearing shell oil resistance thermometer according to claim 7, it is characterised in that：

   The temperature-sensing probe is pt100.
10. 10. the preparation method of the pump housing bearing shell oil resistance thermometer according to any one in claim 7 to 9, its feature exist In：

    The part that the part to bend inwards of the side wall of second stainless steel sleeve pipe and stainless steel sleeve bend inwards with it is described It is each equipped with being filled the Thin Elastic cotton of high-temperature seal adhesive between tetrafluoro wire.