CN114593926B - High-temperature-resistant performance detection device and method for special equipment - Google Patents

Abstract

The high temperature resistance detection device comprises a high temperature resistance detection device body with a kiln cylinder (1) and a transverse support (10), a heating box (5) arranged between the kiln cylinder (1) and the transverse support (10), and a burner device arranged between the heating box (5) and the high temperature resistance detection device body, wherein the high temperature resistance detection device body is used for realizing the high temperature interval setting of the high temperature resistance detection of the special equipment, and the burner device is used for realizing the heating treatment of heating liquid in the heating box (5), and the heating box (5) is used for realizing the peripheral surrounding heating treatment of the special equipment, so that the high temperature resistance detection effect of the special equipment is improved.

Description

High-temperature-resistant performance detection device and method for special equipment

Technical Field

The invention relates to a high-temperature-resistant performance detection device and a high-temperature-resistant performance detection method, in particular to a high-temperature-resistant performance detection device and a high-temperature-resistant performance detection method for special equipment.

Background

The special equipment is a special motor vehicle in a boiler, a pressure container (containing a gas cylinder and the same below), a pressure pipeline, an elevator, a hoisting machine, a passenger ropeway, a large-scale recreation facility and a field (factory) with high-temperature resistance detection needs to be carried out on the special equipment in order to ensure the use safety of the special equipment, so the high-temperature resistance detection device for the special equipment is an important detection device, in the existing high-temperature resistance detection device and method for the special equipment, the special equipment is heated by a burner in a case, the heating area of the burner is limited, the temperature gradient of the high-temperature environment of the special equipment is increased, and the high-temperature resistance detection effect of the special equipment is influenced,

Based on technical books provided by the applicant at 2022, 1 and 28 days and having the function of solving the practical technical problems in the working process, similar patent documents are obtained through retrieval, wherein the patent numbers are as follows: the application technical proposal of the invention is made by ZL202120708710.5 and the prior technical problems, technical characteristics and technical effects in the background technology.

Disclosure of Invention

The invention discloses a high temperature resistance detecting device for special equipment,

the invention discloses a high-temperature resistance detection method for special equipment.

In order to overcome the technical defects, the invention aims to provide a high-temperature-resistant performance detection device and a high-temperature-resistant performance detection method for special equipment, thereby improving the effect of high-temperature-resistant performance detection of the special equipment

In order to achieve the above purpose, the invention adopts the following technical scheme: the high temperature resistance detection device for the special equipment comprises a high temperature resistance detection device body with a kiln cylinder and a transverse support, a heating box arranged between the kiln cylinder and the transverse support, and a burner device arranged between the heating box and the high temperature resistance detection device body.

Due to the design of the high temperature resistance detection device body, the heating box and the burner device, the high temperature interval setting of the high temperature resistance detection of the special equipment is realized through the high temperature resistance detection device body, the heating liquid in the heating box is heated through the burner device, and the peripheral surrounding heating treatment of the special equipment is realized through the heating box, so that the high temperature resistance detection effect of the special equipment is improved.

The invention designs a high temperature resistance detection device body, a heating box and a burner device which are mutually connected in a mode of carrying out peripheral surrounding heating treatment on special equipment.

The invention designs a heating box, a high temperature resistance detection device body and a burner device which are mutually connected in a mode of heating a vertical cylinder group arranged on the periphery of special equipment.

The invention designs a high-temperature resistance detection device body which is provided with a sealing cover, a first torsion spring, a first stay cord and a temperature sensor.

The burner device is designed to comprise a burner support, a middle burner and a side burner.

The technical effects of the five technical schemes are as follows: the heating box is used for detecting radiation type heating of the high-temperature zone, so that the consistency of the temperature value of the high-temperature zone is ensured.

The invention designs a high-temperature-resistant performance detection device which also comprises a first accessory device, wherein the first accessory device is arranged on the high-temperature-resistant performance detection device body and comprises a pressing plate, a second torsion spring, a second stay rope, a telescopic cylinder and a tension sensor.

The invention also comprises a second accessory device which is arranged on the high temperature resistance detection device body and is arranged as a camera.

The invention also comprises a third accessory device which is arranged on the high-temperature resistance detection device body and is arranged as a crane device.

The technical effects of the three technical schemes are as follows: the integrated installation of other components is realized, and the technical effect of the invention is expanded.

The invention designs a kiln, wherein a burner support, a transverse support, a heating box, a sealing cover, a telescopic cylinder and a crane device are respectively arranged on the kiln, a middle burner and a side burner are respectively arranged on the burner support, a pressing plate is arranged on the transverse support, a first torsion spring and a first pull rope are respectively arranged between the sealing cover and the kiln, a temperature sensor and a camera are respectively arranged on the sealing cover, a second torsion spring is arranged between the pressing plate and the transverse support, a second pull rope is arranged between the pressing plate and the telescopic cylinder, and a tension sensor is arranged on the second pull rope.

The technical effects of the above technical scheme are as follows: the basic technical scheme of the invention is formed by a kiln tube, a burner nozzle bracket, a middle burner nozzle, a side burner nozzle, a heating box, a transverse bracket, a sealing cover, a first torsion spring, a first stay cord, a temperature sensor, a camera, a pressing plate, a second torsion spring, a second stay cord, a telescopic cylinder, a tension sensor and a crane device, and the technical problem of the invention is solved.

The invention designs that the heating box is arranged to comprise a box part, a first vertical tube part, a second vertical tube part, a third vertical tube part, a fourth vertical tube part, an injection tube part and a sealing cover part, wherein a first side surface part of the upper end surface of the box part is arranged to be connected with the first vertical tube part, a second side surface part of the upper end surface of the box part is arranged to be connected with the second vertical tube part, a third side surface part of the upper end surface of the box part is arranged to be connected with the third vertical tube part, a fourth side surface part of the upper end surface of the box part is arranged to be connected with the fourth vertical tube part, an upper end port part of the outer side surface of the first vertical tube part is arranged to be connected with an inner end part of the injection tube part, an outer side surface part of the first vertical tube part, an outer side surface part of the second vertical tube part, an outer side surface part of the third vertical tube part and an outer side surface of the fourth vertical tube part are respectively arranged to be connected with the kiln, an upper end surface part of the box part is arranged to be connected with the third vertical tube part, an upper end surface of the box part is arranged to be connected with the third vertical tube part, a vertical tube part is arranged to be connected with the first vertical tube part, a vertical tube part is arranged to be connected with a vertical tube part, a vertical tube part is arranged to be connected to a vertical tube part, an outer box part is arranged to be connected to a vertical tube part, an upper end part, and a box part is arranged to be connected to a vertical tube part, and a box part is arranged to be connected to a vertical kiln.

The technical effects of the above technical scheme are as follows: the corrugated board of the box part realizes concave bottom surface radiation type heating, and the concave side surface radiation type heating is realized through the first vertical barrel part, the second vertical barrel part, the third vertical barrel part and the fourth vertical barrel part, so that encircling heating treatment is performed on special equipment.

The kiln tube is arranged to comprise a tube part, an outer handle part and an outer support seat part, a vent hole body is arranged at the lower part of one side surface of the tube part, a first through hole body is arranged at the middle part of one side surface of the tube part, a second through hole body is arranged at the upper part of one side surface of the tube part, a third through hole body is arranged at the middle part of the other side surface of the tube part, one lower part of the tube part is arranged to be connected with the outer handle part, one middle part of one side surface of the tube part is arranged to be connected with the outer support seat part, the lower end port part of the tube part is arranged to be connected with a burner nozzle support, the lower part of the inner wall of the tube part is arranged to be connected with a heating box and a transverse support, a first lug seat is arranged at the upper part of the inner wall of the tube part, the first lug seat is arranged to be connected with a sealing cover through a pin shaft, the first lug seat is arranged to be connected with a first torsion spring, the upper end port part of the tube part is arranged to be connected with a crane device, the outer handle part is arranged to be connected with the first through a telescopic cylinder, the outer handle part is arranged to be connected with the first through a rectangular through hole body, the upper end port body is arranged to be connected with the outer handle body, the upper end part is arranged to be connected with the first lug hole body, the upper part is arranged to be connected with the first lug body, the upper end is arranged to be connected with the first torsion spring, the first through hole body, the upper part is arranged to be connected with the first, the first through the wire body, the upper body is connected to the device, and the device is connected with the device.

The technical effects of the above technical scheme are as follows: the high-temperature interval setting of the well type cylinder is realized.

The invention designs that the transverse bracket comprises a frame part, a supporting rod part, a positioning plate part, a second lug part and a second lug part, wherein the middle part of a side beam of the frame part is respectively connected with the end head of the supporting rod part, one side part of the upper end surface of the frame part is connected with the positioning plate part, the first corner part of the other side surface of the upper end surface of the frame part is connected with the second lug part, the second corner part of the other side surface of the upper end surface of the frame part is connected with the second lug part, the end head of the side beam of the frame part is connected with a kiln cylinder, the outer side part of the side beam of the frame part and the lower end surface part of the supporting rod part are respectively connected with the pressing plate through a pin shaft, the second lug part and the second lug part are respectively connected with a second torsion spring, the supporting rod part is arranged as a rod-shaped body, the supporting rod part is arranged at intervals along the transverse center line of the frame part, the positioning plate part is arranged as a rectangular body, and the second lug part is arranged as a double lug part.

The technical effects of the above technical scheme are as follows: realizing the positioning and supporting arrangement of the built-in frame.

The invention provides that the cover is provided with a rectangular block-shaped body, one side surface part of the cover is connected with the kiln cylinder through a pin shaft, one side surface part of the cover is connected with the first torsion spring, the upper end part of the other side surface of the cover is connected with the first pull rope, one side part of the inner end surface part of the cover is connected with the camera, and the other side part of the inner end surface part of the cover is connected with the temperature sensor.

The invention designs that the first torsion spring is arranged as a torsion spring and is connected with a pin shaft sleeve between the sealing cover and the kiln cylinder, one end of the first torsion spring is arranged to be connected with the kiln cylinder in a contact way, and the other end of the first torsion spring is arranged to be connected with the sealing cover in a contact way.

The invention designs that the first pull rope is arranged as a steel wire rope and is connected with the kiln tube in a penetrating way, the inner end head of the first pull rope is connected with the sealing cover, and the outer end head of the first pull rope is connected with the kiln tube.

The technical effects of the three technical schemes are as follows: the sealing cover is opened and closed.

The invention provides that the housing of the temperature sensor is arranged to be coupled to the cover and that the output interface of the temperature sensor is arranged to be coupled to the computer.

The technical effects of the above technical scheme are as follows: the on-line measurement setting of the detection temperature is realized.

The invention designs that the burner nozzle bracket comprises a bottom plate part, a column part, a sliding sleeve part and a tightening screw part, wherein the peripheral part of the upper end face of the bottom plate part is connected with the lower end face of the column part, the column part is connected with the sliding sleeve part in a penetrating way, the tightening screw part is connected with the sliding sleeve part in a threaded way, the inner end of the tightening screw part is connected with the column part in a contact way, the peripheral side part of the bottom plate part is connected with a kiln cylinder, the middle part of the upper end face of the bottom plate part is connected with the middle burner nozzle, the side part of the sliding sleeve part is connected with the side burner nozzle, the bottom plate part is a sheet-shaped body with a leak-through hole body, the column part is a rod-shaped body, the sliding sleeve part is a tubular body, and the tightening screw part is a hexagon bolt.

The invention designs that the middle burner and the side burner are respectively arranged as natural gas burner, the shell of the middle burner and the shell of the side burner are respectively connected with the burner bracket, the middle burner and the side burner are arranged and distributed up and down with the heating box, and the input interface of the middle burner and the input interface of the side burner are respectively connected with the natural gas source pipe.

The technical effects of the two technical schemes are as follows: the step type flame heating arrangement is realized, and the temperature rising efficiency of the heating liquid of the heating box is increased.

The invention designs that the pressing plate is a rectangular block body with a leakage hole body, the end face part of the lower end of the pressing plate is connected with the transverse bracket through a pin shaft, and the end face part of the upper end of the pressing plate is connected with the second stay cord.

The invention designs that the second torsion spring is arranged as a torsion spring and is connected with a pin shaft sleeve between the pressing and binding plate and the transverse bracket, one end of the second torsion spring is arranged to be connected with the transverse bracket in a contact way, and the other end of the second torsion spring is arranged to be connected with the pressing and binding plate in a contact way.

The invention designs that the second pull rope is arranged as a steel wire rope and is connected with the kiln tube in a penetrating way, the inner end of the second pull rope is connected with the pressing plate, the outer end of the second pull rope is connected with the telescopic cylinder, and the second pull rope is provided with a pull force sensor.

The invention designs that the telescopic cylinder is a two-section telescopic cylinder, the hydraulic port part of the telescopic cylinder is connected with the hydraulic device, the outer shell part of the telescopic cylinder is connected with the kiln cylinder, the telescopic part of the telescopic cylinder is connected with the second pull rope, and the output interface part of the pressure sensor in the hydraulic device on the telescopic cylinder is connected with the computer.

The invention designs that the end head of the tension sensor is connected with the second stay cord, and the output interface part of the tension sensor is connected with a computer.

The technical effects of the five technical schemes are as follows: the pressure-resistant extrusion detection setting of the special equipment in a high-temperature state is realized, and the high-temperature resistance detection project of the special equipment is perfected.

The invention designs that the shell of the camera is connected with the sealing cover and the output interface of the camera is connected with the computer.

The technical effects of the above technical scheme are as follows: the imaging setting of the high temperature resistance detection state of the special equipment is realized.

The invention designs that the crane device comprises a supporting beam part and a crane, wherein the vertical end of the supporting beam part is connected with the guide rail of the crane, the transverse end of the supporting beam part is connected with the kiln cylinder, the supporting beam part is an L-shaped rod-shaped body, the crane is a single-beam crane with double guide rails and three-jaw hooks, and four supporting beam parts are arranged on the guide rail of the crane.

The technical effects of the above technical scheme are as follows: the special equipment lifting, carrying and setting is realized.

The invention designs that the kiln cylinder, the transverse bracket, the sealing cover, the first torsion spring, the first stay rope and the temperature sensor are distributed in a built-in heating way, the side burner and the heating box are distributed in a built-in image signal pickup way, the kiln cylinder, the transverse bracket, the sealing cover, the first torsion spring, the first stay rope, the temperature sensor, the middle burner, the side burner and the heating box are distributed in a folding and pressing way, the second torsion spring, the second stay rope, the telescopic cylinder and the tension sensor are distributed in a folding and pressing way, the kiln cylinder, the transverse bracket, the sealing cover, the first torsion spring, the first stay rope, the temperature sensor, the middle burner, the side burner and the heating box are distributed in a port hoisting way, the central line of a kiln cylinder, the central line of a burner nozzle support, the central line of a middle burner nozzle, the central line of a heating box, the central line of a transverse support and the central line of a sealing cover are arranged on the same straight line, the side burner nozzles are arranged and distributed at intervals along the periphery of the heating box, a supporting beam part, a box part, a first vertical cylinder part, a second vertical cylinder part, a third vertical cylinder part, a fourth vertical cylinder part, an injection pipe part, a frame part and a bottom plate part are respectively connected with the cylinder part, the box part is correspondingly distributed with a supporting rod part, the first vertical cylinder part, the second vertical cylinder part, the third vertical cylinder part and the fourth vertical cylinder part are respectively correspondingly distributed with the frame part, and the injection pipe part is connected with a third through hole body.

The invention designs a high temperature resistance detection method for special equipment, which comprises the following steps: the high temperature section setting of the high temperature resistance detection of the special equipment is realized by the high temperature resistance detection device body, the heating liquid in the heating box is heated by the burner device, and the peripheral surrounding heating treatment of the special equipment is realized by the heating box.

The technical effects of the above technical scheme are as follows: the fork heating part of the heating box is arranged, so that the high temperature resistance detection of special equipment is realized in the fork heating part of the heating box, and the influence of the temperature gradient is eliminated.

The invention designs the method which comprises the following steps: the middle burner is arranged on the bottom plate part, the side burner is arranged on the sliding sleeve part, the tightening screw part rotates on the sliding sleeve part, the inner end head of the tightening screw part is separated from the upright post part, the height of the sliding sleeve part on the upright post part is adjusted, the flame of the side burner acts on the side surface part of the box part, the tightening screw part rotates in the opposite direction on the sliding sleeve part, the inner end head of the tightening screw part acts on the upright post part, the sealing cover is in a transverse state under the action of the first torsion spring, the pressing plate is in a vertical state under the action of the second torsion spring, the sealing cover part rotates on the injection pipe part, the sealing cover part is separated from the injection pipe part, heated oil is injected into the box part, the first upright barrel part, the second upright barrel part, the third upright barrel part and the fourth upright barrel part through the injection pipe part, the sealing cover part rotates in the opposite direction on the injection pipe part, the sealing cover part is arranged on the injection pipe part, when the high temperature resistance of special equipment is detected, the special equipment is lifted by the crane, a pulling force is applied to the first pull rope, the first pull rope moves in the outer handle part and the second through hole body, a rotating acting force is applied to the sealing cover to overcome the elastic energy storage of the first torsion spring, the sealing cover is in a vertical state, the crane is connected with the special equipment by the crane, the special equipment is lowered in the cylinder part, the special equipment is placed on the supporting rod part, the three-jaw lifting hook of the crane is separated from the special equipment, the pulling force applied to the first pull rope is eliminated, the sealing cover is in a transverse state under the elastic energy storage effect of the first torsion spring, the middle burner and the side burner are in a burning state, the box part, the first vertical cylinder part and the second vertical cylinder part, the method comprises the steps of heating heated oil in a third vertical cylinder part and a fourth vertical cylinder part, forming a high-temperature interval in the cylinder part between a sealing cover and a box part, picking up the temperature value of the high-temperature interval by a temperature sensor, detecting the high-temperature resistance of special equipment when the temperature value of the high-temperature interval reaches a temperature specified value detected by the high-temperature resistance, observing the detection condition of the special equipment by a camera, when the special equipment needs to be detected in a high-temperature state in a compression mode, extending a telescopic cylinder to drive a second stay rope to move in a first through hole body through a hydraulic device, overcoming the elastic energy storage of a second torsion spring, enabling a pressing plate to transversely rotate on the second lug part and the second lug part, enabling the special equipment to be positioned between a pressing plate and a positioning plate part, picking up a compression deformation value signal by a tension sensor and a pressure sensor in the hydraulic device positioned on the telescopic cylinder, enabling an intermediate nozzle and a side surface to be in a vertical claw-type state after the high-temperature resistance detection of the special equipment is completed or after the special equipment needs to be detected in a high-temperature state in a compression mode, enabling the intermediate nozzle and the special equipment to be in a vertical combustion state to be in a vertical state through the telescopic cylinder to be connected with the elastic claw part, lifting the special equipment to a vertical claw, and the special crane is in a vertical telescopic cylinder is in a vertical state, and the special lifting claw is in a vertical state.

In this technical scheme, the heating box is a basic component, and is an essential technical feature of the present invention, and the design of the technical features of the kiln barrel, the burner tip support, the middle burner tip, the side burner tip, the cross support, the sealing cover, the first torsion spring, the first pull rope, the temperature sensor, the camera, the pressing plate, the second torsion spring, the second pull rope, the telescopic cylinder, the tension sensor and the crane device, which are the functional components, is a feature for realizing other technical effects of the present invention, and the barrel, the outer handle part, the outer support seat part, the vent hole body, the first through hole body, the second through hole body, the third through hole body, the bottom plate part, the column part, the sliding sleeve part, the tightening screw part, the frame part, the support rod part, the positioning plate part, the second ear part, the box part, the first vertical barrel part, the second vertical barrel part, the third vertical barrel part, the fourth vertical barrel part, the injection pipe part, the sealing cover part, the support beam part and the crane, is a technical feature conforming to the patent law and implementation rules thereof.

In the technical scheme, the high temperature resistance detection device body, the heating box and the burner device for carrying out peripheral surrounding heating treatment on the special equipment are important technical characteristics, and the high temperature resistance detection device and the high temperature resistance detection method for the special equipment are novel, creative and practical in the technical field of the high temperature resistance detection device and the high temperature resistance detection method for the special equipment, and the terms in the technical scheme can be explained and understood by using patent documents in the technical field.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Figure 1 is a schematic view of the present invention,

figure 2 is a schematic diagram of the connection between the heating box 5 and the cross frame 10,

kiln cylinder-1, burner holder-2, middle burner-3, side burner-4, heating box-5, cross holder-10, cover-6, first torsion spring-7, first pull cord-8, temperature sensor-9, camera-90, pressing plate-91, second torsion spring-92, second pull cord-93, telescopic cylinder-94, tension sensor-95, crane apparatus-96, cylinder-11, outer handle-12, outer support seat-16, vent-hole body-13, first through-hole body-14, second through-hole body-15, third through-hole body-17, bottom plate-21, column-22, sliding sleeve-23, tightening screw-24, frame-101, support bar-102, positioning plate-103, second ear-seat-104, second ear-seat-105, box-51, first vertical cylinder-52, second vertical cylinder-53, third vertical cylinder-54, fourth vertical cylinder-55, injection tube-56, cover-57, crane-962, and crane-1.

Detailed Description

Terms such as "having," "including," and "comprising," as used herein, are to be construed as not being accompanied by the presence or addition of one or more other elements or combinations thereof, in accordance with the censoring guidelines.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In addition, the technical features of the various embodiments of the present invention described below may be combined with each other as long as they do not interfere with each other, and, unless otherwise specified, the equipment and materials used in the examples below are commercially available, unless otherwise specified, with reference to the purchased product specifications or according to methods conventional in the art.

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Fig. 1 is a first embodiment of the present invention, specifically describing the present embodiment with reference to the accompanying drawings, and includes a kiln cylinder 1, a burner support 2, a middle burner 3, a side burner 4, a heating box 5, a cross support 10, a cover 6, a first torsion spring 7, a first pull rope 8, a temperature sensor 9, a camera 90, a pressure plate 91, a second torsion spring 92, a second pull rope 93, a telescopic cylinder 94, a tension sensor 95, and a crane device 96, wherein the burner support 2, the cross support 10, the heating box 5, the cover 6, the telescopic cylinder 94, and the crane device 96 are respectively disposed on the kiln cylinder 1, the middle burner 3 and the side burner 4 are respectively disposed on the burner support 2, the pressing plate 91 is disposed on the cross support 10, the first torsion spring 7 and the first pull rope 8 are respectively disposed between the cover 6 and the kiln cylinder 1, the temperature sensor 9 and the camera 90 are respectively disposed on the cover 6, the second torsion spring 92 is disposed between the pressing plate 91 and the support 10, and the second tension spring 92 is disposed between the second tension spring 92 and the second tension spring 93 is disposed on the telescopic cylinder 94.

In the present embodiment, the kiln cylinder 1 is provided to include a cylinder portion 11, an outer handle portion 12 and an outer support seat portion 16, and is provided with a vent hole body 13 at one of side lower portions of the cylinder portion 11, a first through hole body 14 at one of side intermediate portions of the cylinder portion 11 and a second through hole body 15 at one of side upper portions of the cylinder portion 11, a third through hole body 17 at the other of side intermediate portions of the cylinder portion 11 and one of side lower portions of the cylinder portion 11 is provided to be coupled with the outer handle portion 12, one of side intermediate portions of the cylinder portion 11 is provided to be coupled with the outer support seat portion 16 and a lower end port portion of the cylinder portion 11 is provided to be coupled with the burner tip bracket 2, an inner wall lower portion of the cylinder portion 11 is provided to be coupled with the heating box 5 and the cross bracket 10 and a first ear seat is provided at an inner wall upper portion of the cylinder portion 11, the first ear seat of the tube portion 11 is provided to be coupled with the cover 6 by a pin and the first ear seat of the tube portion 11 is provided to be coupled with the first torsion spring 7 in contact, the upper end port portion of the tube portion 11 is provided to be coupled with the crane device 96 and the outer handle portion 12 is provided to be coupled with the first draw cord 8, the outer support seat portion 16 is provided to be coupled with the telescopic cylinder 94 and the first through hole body 14 is provided to be coupled with the second draw cord 93, the second through hole body 15 is provided to be coupled with the first draw cord 8 and the third through hole body 17 is provided to be coupled with the heating box 5, the tube portion 11 is provided to be a rectangular tubular body and the outer handle portion 12 is provided to be a U-shaped rod body, the inner end of the outer handle portion 12 is provided to be coupled with the tube portion 11 and the outer support seat portion 16 is provided to be a block body having a groove body at an outer end face portion, the groove body of the outer support seat portion 16 is provided to be coupled with the telescopic cylinder 94 and the vent hole body 13, the first through hole body 14, the second through hole body 15 and the third through hole body 17 are respectively provided with circular hole bodies, and the vent hole bodies 13 are arranged and distributed along the peripheral line of the cylinder 11.

Through kiln section of thick bamboo 1, the support tie point to burner tip support 2, cross-bracing frame 10, heating cabinet 5, closing cap 6, first torsion spring 7, first stay cord 8, second stay cord 93, telescopic cylinder 94 and hoist device 96, by barrel part 11, realized being connected with burner tip support 2, realized being connected with cross-bracing frame 10, realized being connected with closing cap 6, realized being connected with first torsion spring 7, realized being connected with hoist device 96, realized being connected with first stay cord 8 by outer handle part 12 and second through-hole body 15, realized being connected with second stay cord 93 by first through-hole body 14, realized being connected with telescopic cylinder 94 by outer support seat part 16, realized being connected with heating cabinet 5 by barrel part 11 and third through-hole body 17, realized carrying out emission treatment to flue gas in barrel part 11 by vent body 13, its technical purpose lies in: for use as support carriers for burner holders 2, cross-holders 10, closure caps 6, telescoping cylinders 94 and crane means 96.

In the present embodiment, the burner tip holder 2 is provided to include the bottom plate portion 21, the column portion 22, the sliding sleeve portion 23, and the jack screw portion 24, and the upper end face peripheral portion of the bottom plate portion 21 is provided to be coupled with the lower end face portion of the column portion 22, the column portion 22 is provided to be coupled with the sliding sleeve portion 23 in a penetrating manner, and the jack screw portion 24 is provided to be coupled with the sliding sleeve portion 23 in a threading manner, the inner end of the jack screw portion 24 is provided to be coupled with the column portion 22 in contact with and the peripheral side face portion of the bottom plate portion 21 is provided to be coupled with the kiln cylinder 1, the upper end face intermediate portion of the bottom plate portion 21 is provided to be coupled with the intermediate burner tip 3, and the side face portion of the sliding sleeve portion 23 is provided to be coupled with the side burner tip 4, the bottom plate portion 21 is provided to be a sheet-like body having a leak hole body, and the column portion 22 is provided to be a rod-like body, the sliding sleeve portion 23 is provided to be a tubular body, and the jack screw portion 24 is provided to be a hexagonal bolt.

Through burner support 2, formed the support tie point to kiln section of thick bamboo 1, middle burner 3 and side burner 4, realized being connected with kiln section of thick bamboo 1 by bottom plate portion 21, realized being connected with middle burner 3, realized being connected with side burner 4 by slip cap portion 23, realized highly adjusting the processing to slip cap portion 23 by stand portion 22 and tight screw rod portion 24 in top, its technical aim is: for acting as a support carrier for the middle burner 3 and the side burner 4.

In the present embodiment, the middle burner 3 and the side burner 4 are respectively provided as natural gas burners and the housings of the middle burner 3 and the side burner 4 are respectively provided to be coupled with the burner holder 2, the middle burner 3 and the side burner 4 are provided to be arranged in a top-bottom arrangement with the heating box 5 and the input port of the middle burner 3 and the input port of the side burner 4 are respectively provided to be coupled with the natural gas source pipe.

Through middle burner 3 and side burner 4, formed the support tie point to burner support 2, by middle burner 3 and side burner 4, realized being connected with burner support 2, its technical aim is: for heating the heating box 5.

In the present embodiment, the cross frame 10 is provided to include the frame portion 101, the support rod portion 102, the positioning plate portion 103, the second ear portion 104 and the second ear portion 105, and the side beam middle portion of the frame portion 101 is provided to be coupled with the tip of the support rod portion 102, respectively, one of the upper end faces of the frame portion 101 is provided to be coupled with the positioning plate portion 103, and the other of the upper end faces of the frame portion 101 is provided to be coupled with the second ear portion 104, the other of the upper end faces of the frame portion 101 is provided to be coupled with the second ear portion 105, and the tip of the side beam of the frame portion 101 is provided to be coupled with the kiln drum 1, the heating boxes 5 are provided to the outer side face portion of the side beam of the frame portion 101 and the lower end face portion of the support rod portion 102, respectively, the second ear portion 104 and the second ear portion 105 are provided to be coupled with the pressure-binding plate 91 by the pin shafts, respectively, the second ear portion 104 and the second ear portion 105 are provided to be coupled with the second torsion spring 92 in contact, and the frame portion 101 is provided to be a groined frame body, the support rod portion 102 is provided to be coupled with the rectangular-shaped frame body, the support rod portion 102 is provided to be arranged in a bar-shaped form, and the two-shaped ear portions 102 are arranged at intervals along the second side of the support rod portion 101, and the two-shaped ear portions are arranged at intervals along the side of the support rod portion 101, and the side.

Through the horizontal support 10, the support tie point to kiln section of thick bamboo 1, heating cabinet 5, pressure prick board 91 and second torsion spring 92 has been formed, by frame part 101, realized being connected with kiln section of thick bamboo 1, by frame part 101 and bracing piece portion 102, realized being connected with heating cabinet 5, by two ear seat portions 104 and second ear seat portion 105, realized being connected with pressure prick board 91, realized being connected with second torsion spring 92, by locating plate portion 103, realized carrying out positioning process to special equipment, its technical purpose is: for supporting special equipment.

In the present embodiment, the heating tank 5 is provided to include the tank portion 51, the first shaft portion 52, the second shaft portion 53, the third shaft portion 54, the fourth shaft portion 55, the injection pipe portion 56, and the cap portion 57, and the upper end face first side portion of the tank portion 51 is provided to be coupled to the first shaft portion 52, the upper end face second side portion of the tank portion 51 is provided to be coupled to the second shaft portion 53 and the upper end face third side portion of the tank portion 51 is provided to be coupled to the third shaft portion 54, the upper end face fourth side portion of the tank portion 51 is provided to be coupled to the fourth shaft portion 55 and the outer side upper portion of the first shaft portion 52 is provided to be coupled to the inner end port portion of the injection pipe portion 56, the outer end port portion of the injection pipe portion 56 is provided to be coupled to the cap portion 57 in a screw-type manner, and the outer side portion of the tank portion 51, the outer side portion of the first shaft portion 52, the outer side portion of the second shaft portion 53, the outer side portion of the third shaft portion 54, and the outer side portion of the fourth shaft portion 55 are provided to be coupled to the shaft kiln 1, respectively, the injection pipe portion 56 is provided in a penetrating manner with the kiln cylinder 1, the upper end face portion of the box portion 51 is provided in a contacting manner with the cross frame 10 and the first, second, third and fourth shaft portions 52, 53, 54 and 55 are provided in a penetrating manner with the cross frame 10, respectively, the box portion 51 is provided in a conical box-like body having a corrugated plate at the upper end face portion and the lower end face portion of the box portion 51 is provided in a distribution corresponding to the middle burner 3, the side face portion of the box portion 51 is provided in a distribution corresponding to the side burner 4 and the first, second, third and fourth shaft portions 52, 53, 54 and 55 are provided in a flat box-like body, respectively, the box portion 51 is provided in a distribution corresponding to the first, second and third shaft portions 52, 53, the third and fourth vertical tube portions 54 and 55 are distributed in communication and the injection tube portion 56 is provided as a circular cylindrical body, and the cap portion 57 is provided as a concave cap.

The heating box 5 forms a supporting connection point for the kiln cylinder 1 and the cross frame 10, and the box 51, the first vertical cylinder 52, the second vertical cylinder 53, the third vertical cylinder 54, the fourth vertical cylinder 55 and the injection pipe 56 are connected to the kiln cylinder 1, and the box 51, the first vertical cylinder 52, the second vertical cylinder 53, the third vertical cylinder 54 and the fourth vertical cylinder 55 are connected to the cross frame 10, and the sealing cover 57 seals the injection pipe 56, so that the technical purpose is that: for use as a means for heat treating specialty equipment.

In the present embodiment, the cover 6 is provided as a rectangular block-shaped body and one of the side face portions of the cover 6 is provided to be coupled with the kiln cylinder 1 by a pin, one of the side face portions of the cover 6 is provided to be coupled with the first torsion spring 7 and the other of the side face upper end portions of the cover 6 is provided to be coupled with the first draw string 8, one of the side portions of the inner end face portion of the cover 6 is provided to be coupled with the camera 90 and the other of the side portions of the inner end face portion of the cover 6 is provided to be coupled with the temperature sensor 9.

Through closing cap 6, formed the support tie point to kiln section of thick bamboo 1, first torsion spring 7, first stay cord 8, temperature sensor 9 and camera 90, realized being connected with kiln section of thick bamboo 1 by closing cap 6, realized being connected with first torsion spring 7, realized being connected with first stay cord 8, realized being connected with temperature sensor 9, realized being connected with camera 90, its technical aim is: for use as one of the components for sealing the kiln cylinder 1.

In the present embodiment, the first torsion spring 7 is provided as a torsion spring and the first torsion spring 7 is provided in a pin-fit coupling with the shaft between the cover 6 and the kiln cylinder 1, one end of the first torsion spring 7 is provided in a contact coupling with the kiln cylinder 1 and the other end of the first torsion spring 7 is provided in a contact coupling with the cover 6.

Through first torsion spring 7, formed the support tie point to kiln section of thick bamboo 1 and closing cap 6, realized being connected with kiln section of thick bamboo 1 by first torsion spring 7, realized being connected with closing cap 6, its technical aim is: and a second component for sealing the kiln cylinder 1.

In the present embodiment, the first pull rope 8 is provided as a wire rope and the first pull rope 8 is provided to be coupled with the kiln cylinder 1 in a penetrating manner, the inner end of the first pull rope 8 is provided to be coupled with the cover 6 and the outer end of the first pull rope 8 is provided to be coupled with the kiln cylinder 1.

Through first stay cord 8, formed the support tie point to kiln section of thick bamboo 1 and closing cap 6, realized being connected with kiln section of thick bamboo 1 by first stay cord 8, realized being connected with closing cap 6, its technical aim is: and a third member for sealing the kiln cylinder 1.

In the present embodiment, the housing of the temperature sensor 9 is provided to be coupled with the cover 6 and the output interface of the temperature sensor 9 is provided to be coupled with a computer.

Through temperature sensor 9, formed the support tie point to closing cap 6, realized by temperature sensor 9 with closing cap 6's connection, its technical object is: for picking up as a means for picking up the internal temperature signal of the kiln cylinder 1.

In the present embodiment, the housing of the camera 90 is provided to be coupled with the cover 6 and the output interface of the camera 90 is provided to be coupled with a computer.

Through camera 90, formed the support tie point to closing cap 6, realized by camera 90 with closing cap 6's connection, its technical aim is: for picking up the image signal inside the kiln cylinder 1.

In the present embodiment, the crimp plate 91 is provided as a rectangular block body having a leak hole body and a lower end face portion of the crimp plate 91 is provided to be coupled with the cross bracket 10 by a pin, and an upper end face portion of the crimp plate 91 is provided to be coupled with the second draw string 93.

Through the pressing plate 91, the supporting connection point to the transverse support 10 and the second stay cord 93 is formed, and by the pressing plate 91, the connection with the transverse support 10 is realized, the connection with the second stay cord 93 is realized, and its technical purpose is: for use as one of the components for compression testing of specialty equipment.

In the present embodiment, the second torsion spring 92 is provided as a torsion spring and the second torsion spring 92 is provided to be coupled with a pin bushing between the crimp plate 91 and the cross frame 10, one end of the second torsion spring 92 is provided to be coupled with the cross frame 10 in contact and the other end of the second torsion spring 92 is provided to be coupled with the crimp plate 91 in contact.

Through the second torsion spring 92, the supporting connection point to the transverse bracket 10 and the pressing plate 91 is formed, the connection with the transverse bracket 10 is realized by the second torsion spring 92, the connection with the pressing plate 91 is realized, and the technical aim is that: and the second component is used as a component for performing compression test on special equipment.

In the present embodiment, the second pull rope 93 is provided as a wire rope and the second pull rope 93 is provided to be coupled with the kiln cylinder 1 in a penetrating manner, an inner end of the second pull rope 93 is provided to be coupled with the pressing plate 91 and an outer end of the second pull rope 93 is provided to be coupled with the telescopic cylinder 94, and a pull force sensor 95 is provided on the second pull rope 93.

Through the second stay cord 93, formed the support tie point to kiln section of thick bamboo 1, pressure prick board 91, flexible jar 94 and tension sensor 95, by the second stay cord 93, realized being connected with kiln section of thick bamboo 1, realized being connected with pressure prick board 91, realized being connected with flexible jar 94, realized being connected with tension sensor 95, its technical aim is: and a third component for performing compression test on special equipment.

In the present embodiment, the telescopic cylinder 94 is provided as a two-section telescopic cylinder and the hydraulic port portion of the telescopic cylinder 94 is provided to be coupled with the hydraulic device, the housing portion of the telescopic cylinder 94 is provided to be coupled with the kiln cylinder 1 and the telescopic portion of the telescopic cylinder 94 is provided to be coupled with the second draw string 93, and the output port portion of the pressure sensor in the hydraulic device located on the telescopic cylinder 94 is provided to be coupled with the computer.

Through telescopic cylinder 94, formed the support tie point to kiln section of thick bamboo 1 and second stay cord 93, realized being connected with kiln section of thick bamboo 1 by telescopic cylinder 94, realized being connected with second stay cord 93, its technical aim is: and IV, a component used for performing compression test on special equipment.

In the present embodiment, the tip of the tension sensor 95 is provided to be coupled with the second pulling rope 93 and the output interface portion of the tension sensor 95 is provided to be coupled with a computer.

Through the tension sensor 95, a supporting connection point for the second pull rope 93 is formed, and the tension sensor 95 realizes the connection with the second pull rope 93, and the technical purpose is that: fifth, the device is used as a component for performing compression test on special equipment.

In the present embodiment, the crane device 96 is provided to include the support beam portion 961 and the traveling crane 962, and the vertical end of the support beam portion 961 is provided to be coupled with the rail of the traveling crane 962, the lateral end of the support beam portion 961 is provided to be coupled with the kiln drum 1, and the support beam portion 961 is provided as an L-shaped rod-like body, the traveling crane 962 is provided as a single beam crane having a double rail and a three-jaw hook, and four support beam portions 961 are provided on the rail of the traveling crane 962.

The crane device 96 forms a supporting connection point for the kiln tube 1, and the crane device 96 realizes the connection with the kiln tube 1, and the technical purpose is as follows: the hoisting device is used as a part for hoisting special equipment.

In this embodiment, the kiln cylinder 1, the cross frame 10, the cover 6, the first torsion spring 7, the first pulling rope 8, and the temperature sensor 9 are arranged with the middle burner 3, the side burner 4, and the heating box 5 in such a manner as to be heated internally and the kiln cylinder 1, the cross frame 10, the cover 6, the first torsion spring 7, the first pulling rope 8, the temperature sensor 9, the middle burner 3, the side burner 4, and the heating box 5 are arranged with the camera 90 in such a manner as to pick up an image signal internally, the kiln cylinder 1, the cross frame 10, the cover 6, the first torsion spring 7, the first pulling rope 8, the temperature sensor 9, the middle burner 3, the side burner 4, and the heating box 5 are arranged with the bundling plate 91, the second torsion spring 92, the second pulling rope 93, the telescopic cylinder 94, and the tension sensor 95 in such a manner as to be compressed internally and the kiln cylinder 1, the cross frame 10, the cover 6, the first torsion spring 7, the first pulling rope 8, the temperature sensor 9, the middle burner 3, the side burner 4, and the box 5 are arranged with the crane 96 in such a manner as to be connected to the port, the center line of the kiln cylinder 1, the center line of the burner holder 2, the center line of the middle burner 3, the center line of the heating box 5, the center line of the cross holder 10 and the center line of the cover 6 are arranged on the same straight line, the side burner 4 is arranged to be arranged at intervals along the periphery of the heating box 5, the support beam portion 961, the box portion 51, the first vertical tube portion 52, the second vertical tube portion 53, the third vertical tube portion 54, the fourth vertical tube portion 55, the injection tube portion 56, the frame portion 101 and the bottom plate portion 21 are respectively arranged to be connected with the tube portion 11, the box portion 51 is arranged to be distributed corresponding to the support rod portion 102, the first vertical tube portion 52, the second vertical tube portion 53, the third and fourth vertical tube portions 54 and 55 are respectively provided so as to be distributed corresponding to the frame portion 101, and the injection tube portion 56 is provided so as to be coupled with the third through-hole body 17.

The invention will be further described with reference to the following examples, which are intended to illustrate the invention and not to limit it further.

A high temperature resistance detection method for special equipment comprises the following steps: the middle burner 3 is mounted on the bottom plate 21, the side burner 4 is mounted on the sliding sleeve 23, the tightening screw 24 is rotated on the sliding sleeve 23, the inner end of the tightening screw 24 is separated from the column 22, the height of the sliding sleeve 23 on the column 22 is adjusted, the flame of the side burner 4 is acted on the side surface of the tank 51, the tightening screw 24 is rotated in the opposite direction on the sliding sleeve 23, the inner end of the tightening screw 24 is acted on the column 22, the cover 6 is in a transverse state under the action of the first torsion spring 7, the pressing plate 91 is in a vertical state under the action of the second torsion spring 92, the cover 57 is rotated on the injection pipe 56, the cover 57 is separated from the injection pipe 56, the heated oil is injected into the tank 51, the first vertical pipe 52, the second vertical pipe 53, the third vertical pipe 54 and the fourth vertical pipe 55 through the injection pipe 56, the cover 57 rotates in the opposite direction on the injection pipe 56, the cover 57 is installed on the injection pipe 56, when the high temperature resistance of special equipment is detected, the special equipment is lifted by the crane 962, the first pull rope 8 is pulled, the first pull rope 8 moves in the outer handle 12 and the second through hole 15, the rotating force is applied to the cover 6, the elastic energy storage of the first torsion spring 7 is overcome, the cover 6 is in a vertical state, the three-jaw lifting hook of the crane 962 is connected with the special equipment by the crane 962, the special equipment is lowered in the barrel 11, the special equipment is placed on the supporting rod 102, the three-jaw lifting hook of the crane 962 is separated from the special equipment, the pulling force applied to the first pull rope 8 is eliminated, under the elastic energy storage effect of the first torsion spring 7, the sealing cover 6 is in a transverse state, the middle burner 3 and the side burner 4 are in a combustion state, heated oil in the box part 51, the first vertical cylinder part 52, the second vertical cylinder part 53, the third vertical cylinder part 54 and the fourth vertical cylinder part 55 is heated, a high-temperature zone is formed in the cavity of the cylinder part 11 between the sealing cover 6 and the box part 51, a temperature value in the high-temperature zone is picked up by the temperature sensor 9, when the temperature value in the high-temperature zone reaches a temperature specified value for high-temperature resistance detection, the high-temperature resistance detection is carried out on special equipment, the detection condition of the special equipment is observed by the camera 90, when the special equipment is required to be subjected to compression detection in the high-temperature state, the telescopic cylinder 94 is driven to move in the first through hole body 14 through the extension movement of the telescopic cylinder 94, the elastic energy storage of the second torsion spring 92 is overcome, the pressing plate 91 is transversely rotated on the second lug part 104 and the second lug part 105, the special equipment is positioned between the pressing plate 91 and the positioning plate part 103, after the special equipment is pressed and deformed, the pressure sensor 95 and the pressure sensor in the hydraulic device positioned on the telescopic cylinder 94 pick up the compression deformation value signal of the special equipment, after the high temperature resistance detection of the special equipment is finished or after the compression detection of the special equipment is finished in a high temperature state, the middle burner 3 and the side burner 4 are positioned in a flameout state, the telescopic cylinder 94 is positioned in a contracted state, the pressing plate 91 is positioned in a vertical state under the elastic energy storage effect of the second torsion spring 92, the sealing cover 6 is positioned in a vertical state, the three-jaw hook of the crane device 96 is connected with the special equipment through the crane device 96, the special equipment is lifted in the cylinder part 11, the special equipment is taken out of the cylinder 11.

In the second embodiment of the present invention, the high temperature resistance detecting device body, the heating box 5 and the burner device are connected to each other in such a manner that the peripheral surrounding temperature raising treatment is performed on the special equipment.

In this embodiment, the heating box 5 is connected to the high temperature resistance detecting device body and the burner device so as to heat the column group placed around the special equipment.

In this embodiment, the high temperature resistance detection device body is further provided with a cover 6, a first torsion spring 7, a first pull cord 8, and a temperature sensor 9.

In the present embodiment, the burner apparatus is configured to include a burner tip holder 2, a middle burner tip 3, and a side burner tip 4.

In the present embodiment, a first accessory device is further included and provided on the high temperature resistance detecting device body, the first accessory device being provided to include a pressing plate 91, a second torsion spring 92, a second pulling rope 93, a telescopic cylinder 94, and a tension sensor 95.

In the present embodiment, a second accessory device is further included and is provided on the high temperature resistance performance detecting device body, the second accessory device being provided as the camera 90.

In the present embodiment, a third accessory device is further included and provided on the high temperature resistance performance detecting device body, the third accessory device being provided as the crane device 96.

The second embodiment of the present invention is based on the first embodiment,

a second embodiment of the invention comprises the steps of: the high temperature section setting of the high temperature resistance detection of the special equipment is realized by the high temperature resistance detection device body, the heating liquid in the heating box 5 is heated by the burner device, and the peripheral surrounding heating treatment of the special equipment is realized by the heating box 5.

The second embodiment of the present invention is based on the first embodiment.

The invention has the following characteristics:

1. due to the design of the high temperature resistance detection device body, the heating box 5 and the burner device, the high temperature interval setting of the high temperature resistance detection of the special equipment is realized through the high temperature resistance detection device body, the heating liquid in the heating box 5 is heated through the burner device, and the peripheral surrounding heating treatment of the special equipment is realized through the heating box 5, so that the high temperature resistance detection effect of the special equipment is improved.

2. Due to the design of the kiln cylinder 1, the transverse support 10, the sealing cover 6, the first torsion spring 7, the first pull rope 8 and the temperature sensor 9, the vertical high-temperature interval setting is realized.

3. Due to the design of the burner support 2, the middle burner 3 and the side burner 4, the heating box 5 is heated in a three-dimensional way.

4. Due to the design of the pressing plate 91, the second torsion spring 92, the second pull rope 93, the telescopic cylinder 94 and the tension sensor 95, the pressure-resistant extrusion detection setting of special equipment is realized.

5. Due to the design of the camera 90, the image observation of the detection state of the special equipment is realized.

6. Due to the design of the crane device 96, the special equipment is lifted and carried.

7. Because the structure shape is designed to limit the numerical range, the numerical range is the technical characteristic in the technical scheme of the invention, and the technical characteristic of the numerical range is not calculated through a formula or obtained through limited tests, and the tests show that the technical characteristic of the numerical range has good technical effect.

8. Because the technical characteristics of the invention are designed, the experiment shows that the performance indexes of the invention are at least 1.7 times of the existing performance indexes under the independent and mutually aggregated functions of the technical characteristics, and the invention has good market value through evaluation.

Other technical features of the body of the high temperature resistance detecting device, the heating box 5 and the burner device, which are connected with the peripheral surrounding heating treatment of the special equipment, are one of the embodiments of the present invention, and the technical features of the above embodiments may be arbitrarily combined, so that in order to meet the requirements of patent laws, patent implementation details and examination guidelines, all possible combinations of the technical features of the above embodiments will not be described.

The above embodiment is only one implementation form of the high temperature resistance detection device and method for special equipment provided by the invention, and other modifications of the scheme provided by the invention, such as adding or reducing components or steps in the device or using the device in other technical fields close to the invention, are all within the protection scope of the invention.

Claims (17)

1. A high temperature resistance performance detection device for special equipment, characterized by: comprises a high temperature resistance detection device body with a kiln tube (1) and a transverse support (10), a heating box (5) arranged between the kiln tube (1) and the transverse support (10), and a burner device arranged between the heating box (5) and the high temperature resistance detection device body,

the high temperature resistance detection device body is arranged to further comprise a sealing cover (6), a first torsion spring (7), a first stay cord (8) and a temperature sensor (9),

the burner device is arranged to comprise a burner support (2), a middle burner (3) and a side burner (4),

the device also comprises a first accessory device which is arranged on the high temperature resistance detection device body, the first accessory device comprises a pressing plate (91), a second torsion spring (92), a second stay cord (93), a telescopic cylinder (94) and a tension sensor (95),

The device also comprises a second accessory device which is arranged on the body of the high temperature resistance detection device and is arranged as a camera (90),

a third accessory device is also included and is arranged on the body of the high temperature resistance detection device, the third accessory device is arranged as a crane device (96),

a burner support (2), a cross support (10), a heating box (5), a sealing cover (6), a telescopic cylinder (94) and a crane device (96) are respectively arranged on the kiln cylinder (1), a middle burner (3) and a side burner (4) are respectively arranged on the burner support (2), a pressing plate (91) is arranged on the cross support (10), a first torsion spring (7) and a first pull rope (8) are respectively arranged between the sealing cover (6) and the kiln cylinder (1), a temperature sensor (9) and a camera (90) are respectively arranged on the sealing cover (6), a second torsion spring (92) is arranged between the pressing plate (91) and the cross support (10), a second pull rope (93) is arranged between the pressing plate (91) and the telescopic cylinder (94), a pull sensor (95) is arranged on the second pull rope (93),

the heating box (5) is provided to include a box portion (51), a first vertical tube portion (52), a second vertical tube portion (53), a third vertical tube portion (54), a fourth vertical tube portion (55), an injection tube portion (56) and a capping portion (57), and an upper end face first side portion of the box portion (51) is provided to be coupled with the first vertical tube portion (52), an upper end face second side portion of the box portion (51) is provided to be coupled with the second vertical tube portion (53) and an upper end face third side portion of the box portion (51) is provided to be coupled with the third vertical tube portion (54), an upper end face fourth side portion of the box portion (51) is provided to be coupled with the fourth vertical tube portion (55) and an outer side face upper portion of the first vertical tube portion (52) is provided to be coupled with an inner end port portion of the injection tube portion (56), an outer side face portion of the injection tube portion (56) is provided to be screwed with the capping portion (57) and an outer side face of the box portion (51), an outer side face third side portion of the first vertical tube portion (52) is provided to be coupled with the third vertical tube portion (54), an outer side face of the second vertical tube portion (52) is provided to be coupled with the outer side face of the kiln (5), and an outer side face of the first vertical tube portion (52) is provided to be coupled with the outer side face of the kiln (5), and an outer side face of the kiln is provided to be coupled with the outer side face of the kiln (5, respectively, the second vertical tube part (53), the third vertical tube part (54) and the fourth vertical tube part (55) are respectively arranged to be connected with the transverse bracket (10) in a penetrating way, the box part (51) is arranged to be a conical box-shaped body with corrugated plates at the upper end face part, the lower end face part of the box part (51) is arranged to be distributed corresponding to the middle burner tip (3), the side face part of the box part (51) is arranged to be distributed corresponding to the side burner tip (4), the first vertical tube part (52), the second vertical tube part (53), the third vertical tube part (54) and the fourth vertical tube part (55) are respectively arranged to be flat box-shaped bodies, the box part (51) is arranged to be communicated with the first vertical tube part (52), the second vertical tube part (53), the third vertical tube part (54) and the fourth vertical tube part (55) and the injection tube part (56) are arranged to be circular cylinder bodies, the cover part (57) is arranged to be concave-shaped cover bodies,

The kiln cylinder (1) is provided with a cylinder part (11), an outer handle part (12) and an outer support seat part (16), a vent hole body (13) is arranged at the lower part of one side surface of the cylinder part (11), a first through hole body (14) is arranged at the middle part of one side surface of the cylinder part (11), a second through hole body (15) is arranged at the upper part of one side surface of the cylinder part (11), a third through hole body (17) is arranged at the middle part of the other side surface of the cylinder part (11), one lower part of the cylinder part (11) is connected with the outer handle part (12), one middle part of the side surface of the cylinder part (11) is connected with the outer support seat part (16), the lower end port part of the cylinder part (11) is connected with the burner nozzle bracket (2), the lower part of the inner wall of the cylinder part (11) is connected with the heating box (5) and the transverse bracket (10), the upper part of the inner wall of the cylinder part (11) is provided with a first lug seat, the first lug seat is connected with the first lug seat through the pin shaft (6), the first lug seat (11) is connected with the first lug seat (8) through the pin shaft (6) and the first lug seat (8) is connected with the first torsion spring (8) in contact with the upper end (8), the outer support seat (16) is arranged to be connected with the telescopic cylinder (94) and the first through hole body (14) is arranged to be connected with the second pull rope (93), the second through hole body (15) is arranged to be connected with the first pull rope (8) and the third through hole body (17) is arranged to be connected with the heating box (5), the cylinder part (11) is arranged to be a rectangular tubular body and the outer handle part (12) is arranged to be a U-shaped rod-shaped body, the inner end of the outer handle part (12) is arranged to be connected with the cylinder part (11) and the outer support seat (16) is arranged to be a block-shaped body with a groove body at the outer end face part, the groove body of the outer support seat (16) is arranged to be connected with the telescopic cylinder (94) and the vent hole body (13), the first through hole body (14), the second through hole body (15) and the third through hole body (17) are respectively arranged to be distributed along the peripheral line of the cylinder part (11),

The transverse bracket (10) is arranged to comprise a frame part (101), a support rod part (102), a positioning plate part (103), a second lug part (104) and a second lug part (105), wherein the middle part of a side beam of the frame part (101) is respectively connected with the end head of the support rod part (102), one side part of the upper end surface of the frame part (101) is connected with the positioning plate part (103) and the first corner part of the other side surface of the upper end surface of the frame part (101) is connected with the second lug part (104), the second corner part of the other side surface of the upper end surface of the frame part (101) is connected with the second lug part (105), the end head of the side beam of the frame part (101) is connected with the kiln cylinder (1), the heating box (5) is arranged on the outer side surface part of the side beam of the frame part (101) and the lower end surface part of the support rod part (102), the second lug part (104) and the second lug part (105) are respectively connected with the pressure plate (91) through pin shafts, the second lug part (104) and the second lug part (105) are respectively connected with the support rod-shaped part (102) in a contact mode, the two lug parts are arranged at intervals along the transverse direction of the support rod part (101), the positioning plate part (103) is provided as a rectangular block-shaped body and the second ear part (104) and the second ear part (105) are provided as double plate seats,

The burner nozzle holder (2) is provided to include a bottom plate portion (21), a column portion (22), a sliding sleeve portion (23) and a jack screw portion (24), and an upper end face peripheral portion of the bottom plate portion (21) is provided to be coupled to a lower end face portion of the column portion (22), the column portion (22) is provided to be coupled to the sliding sleeve portion (23) in a penetrating manner and the jack screw portion (24) is provided to be coupled to the sliding sleeve portion (23) in a threaded manner, an inner end of the jack screw portion (24) is provided to be coupled to the column portion (22) in a contact manner and a peripheral side portion of the bottom plate portion (21) is provided to be coupled to the kiln cylinder (1), an upper end face intermediate portion of the bottom plate portion (21) is provided to be coupled to the intermediate burner nozzle (3) and a side portion of the sliding sleeve portion (23) is provided to be coupled to the side burner nozzle (4), the bottom plate portion (21) is provided to be a sheet-like body having a leak hole body and the column portion (22) is provided to be a rod-like body, the sliding sleeve portion (23) is provided to be a tubular body and the jack screw portion (24) is provided to be a hexagonal bolt,

the middle burner (3) and the side burner (4) are respectively arranged as natural gas burner, the shell of the middle burner (3) and the shell of the side burner (4) are respectively connected with the burner support (2), the middle burner (3) and the side burner (4) are arranged and distributed up and down with the heating box (5), and the input interface of the middle burner (3) and the input interface of the side burner (4) are respectively connected with a natural gas source pipe.

2. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the high temperature resistance detection device body, the heating box (5) and the burner device are mutually connected in a mode of carrying out peripheral surrounding heating treatment on special equipment.

3. The high temperature resistance detection device for special equipment according to claim 2, characterized in that: the heating box (5) is connected with the high temperature resistance detection device body and the burner device in a heating mode by a vertical cylinder group arranged on the periphery of the special equipment.

4. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the sealing cover (6) is arranged into a rectangular block shape, one side surface part of the sealing cover (6) is connected with the kiln cylinder (1) through a pin shaft, one side surface part of the sealing cover (6) is connected with the first torsion spring (7), the upper end part of the other side surface of the sealing cover (6) is connected with the first pull rope (8), one side part of the inner end surface part of the sealing cover (6) is connected with the camera (90), and the other side part of the inner end surface part of the sealing cover (6) is connected with the temperature sensor (9).

5. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the first torsion spring (7) is arranged as a torsion spring, the first torsion spring (7) is arranged to be connected with a pin shaft sleeve arranged between the sealing cover (6) and the kiln cylinder (1), one end of the first torsion spring (7) is arranged to be connected with the kiln cylinder (1) in a contact mode, and the other end of the first torsion spring (7) is arranged to be connected with the sealing cover (6) in a contact mode.

6. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the first pull rope (8) is arranged as a steel wire rope, the first pull rope (8) is arranged to be connected with the kiln tube (1) in a penetrating mode, the inner end of the first pull rope (8) is arranged to be connected with the sealing cover (6), and the outer end of the first pull rope (8) is arranged to be connected with the kiln tube (1).

7. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the housing of the temperature sensor (9) is arranged to be coupled to the cover (6) and the output interface of the temperature sensor (9) is arranged to be coupled to a computer.

8. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the pressing plate (91) is a rectangular block with a leakage hole body, the lower end face part of the pressing plate (91) is connected with the transverse bracket (10) through a pin shaft, and the upper end face part of the pressing plate (91) is connected with the second stay cord (93).

9. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the second torsion spring (92) is arranged as a torsion spring, and the second torsion spring (92) is arranged to be connected with a pin sleeve between the pressing plate (91) and the transverse bracket (10), one end of the second torsion spring (92) is arranged to be connected with the transverse bracket (10) in a contact mode, and the other end of the second torsion spring (92) is arranged to be connected with the pressing plate (91) in a contact mode.

10. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the second pull rope (93) is arranged as a steel wire rope, the second pull rope (93) is connected with the kiln cylinder (1) in a penetrating mode, the inner end of the second pull rope (93) is connected with the pressing plate (91), the outer end of the second pull rope (93) is connected with the telescopic cylinder (94), and the second pull rope (93) is provided with a pull force sensor (95).

11. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the telescopic cylinder (94) is a two-section telescopic cylinder, the hydraulic port part of the telescopic cylinder (94) is connected with the hydraulic device, the outer shell part of the telescopic cylinder (94) is connected with the kiln cylinder (1), the telescopic part of the telescopic cylinder (94) is connected with the second pull rope (93), and the output port part of the pressure sensor in the hydraulic device on the telescopic cylinder (94) is connected with the computer.

12. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the end head of the tension sensor (95) is connected with the second stay cord (93) and the output interface part of the tension sensor (95) is connected with a computer.

13. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the housing of the camera (90) is arranged to be coupled to the cover (6) and the output interface of the camera (90) is arranged to be coupled to a computer.

14. The high temperature resistance detection device for special equipment according to claim 1, characterized in that: the crane device (96) is provided with a support beam part (961) and a crane (962), wherein the vertical end of the support beam part (961) is connected with the guide rail of the crane (962), the horizontal end of the support beam part (961) is connected with the kiln cylinder (1), the support beam part (961) is provided with an L-shaped rod-shaped body, the crane (962) is provided with a single-beam crane with a double guide rail and a three-jaw lifting hook, and the four support beam parts (961) are arranged on the guide rail of the crane (962).

15. The high temperature resistance detection apparatus for a special device according to any one of claims 1 to 14, characterized in that: kiln cylinder (1), cross bracket (10), closing cap (6), first torsion spring (7), first stay cord (8) and temperature sensor (9) are set up to distribute according to the mode of built-in heating with middle burner tip (3), side burner tip (4) and heating cabinet (5), and kiln cylinder (1), cross bracket (10), closing cap (6), first torsion spring (7), first stay cord (8), temperature sensor (9), middle burner tip (3), side burner tip (4) and heating cabinet (5) and camera (90) are set up to distribute according to the mode of built-in pickup image signal, kiln cylinder (1), cross bracket (10), closing cap (6), first torsion spring (7), first stay cord (8), temperature sensor (9), middle burner tip (3), side burner tip (4) and heating cabinet (5) are set up to distribute according to the mode of drawing in with pressure binding plate (91), second stay cord (93), telescopic cylinder (94) and tension sensor (95), and draw in tube (1), cross bracket (6), first torsion spring (7), first torsion spring (6), middle burner tip (9), first torsion spring (7), middle burner tip (3) and heating cabinet (5) are set up to distribute according to the mode of drawing in with built-in pickup image signal The side burner (4) and the heating box (5) are distributed with the crane device (96) in a port hoisting mode, the center line of the kiln cylinder (1), the center line of the burner support (2), the center line of the middle burner (3), the center line of the heating box (5), the center line of the transverse support (10) and the center line of the sealing cover (6) are arranged on the same straight line, the side burner (4) is distributed along the periphery of the heating box (5) at intervals, the supporting beam part (961), the box part (51), the first vertical cylinder part (52), the second vertical cylinder part (53), the third vertical cylinder part (54), the fourth vertical cylinder part (55), the injection pipe part (56), the frame part (101) and the bottom plate part (21) are respectively connected with the cylinder part (11), the box part (51) is correspondingly distributed with the supporting rod part (102), the first vertical cylinder part (52), the second vertical cylinder part (53), the third vertical cylinder part (54) and the fourth vertical cylinder part (55) are respectively arranged to be correspondingly distributed with the frame part (101) and the third through hole part (17) is arranged.

16. A high temperature resistance detection method for special equipment is characterized in that: the method comprises the following steps: the high temperature section setting of the high temperature resistance detection of the special equipment is realized by the high temperature resistance detection device body, the heating liquid in the heating box (5) is heated by the burner device, and the peripheral surrounding heating treatment of the special equipment is realized by the heating box (5).

17. The method for detecting high temperature resistance of special equipment according to claim 16, wherein the method comprises the following steps: the method comprises the following steps: the middle burner (3) is arranged on the bottom plate part (21), the side burner (4) is arranged on the sliding sleeve part (23), the pushing screw part (24) rotates on the sliding sleeve part (23), the inner end of the pushing screw part (24) is separated from the upright post part (22), the height of the sliding sleeve part (23) on the upright post part (22) is adjusted, the flame of the side burner (4) acts on the side part of the box part (51), the pushing screw part (24) rotates reversely on the sliding sleeve part (23), the inner end of the pushing screw part (24) acts on the upright post part (22), the sealing cover (6) is in a transverse state under the action of the first torsion spring (7), the pressing plate (91) is in a vertical state under the action of the second torsion spring (92), the sealing cover part (57) rotates on the injection pipe part (56), the sealing cover part (57) is separated from the injection pipe part (56), the heating pipe (56) rotates reversely on the first vertical pipe part (56), the second vertical pipe part (56) and the third vertical pipe part (56) in the opposite direction, the first vertical pipe (56) is arranged on the vertical pipe part (56), the third vertical pipe (56) is sealed and the third vertical pipe (56) is arranged in a special way, lifting special equipment through a crane (962), applying tension to a first pull rope (8), moving the first pull rope (8) in an outer handle part (12) and a second through hole body (15), applying rotation acting force to a sealing cover (6), overcoming elastic energy storage of a first torsion spring (7), enabling the sealing cover (6) to be in a vertical state, connecting a three-jaw lifting hook of the crane (962) with the special equipment through the crane (962), lowering the special equipment in a cylinder part (11), placing the special equipment on a supporting rod part (102), separating the three-jaw lifting hook of the crane (962) from the special equipment, eliminating the application of tension to the first pull rope (8), enabling a middle combustion nozzle (3) and a side combustion nozzle (4) to be in a combustion state under the elastic energy storage effect of the first torsion spring (7), enabling a high temperature sensing part (51) to be in a high temperature range between a high temperature sensing part (5) of a heating box and a high temperature sensing part (9) in a high temperature range of the heating box part, and a high temperature sensing part (55) can be formed when the high temperature sensing part is located between the high temperature sensing part and the high temperature sensing part of the heating box part (11, when the special equipment is required to be subjected to compression detection in a high temperature state, the detection condition of the special equipment is observed, the telescopic cylinder (94) is subjected to extension movement through the hydraulic device, the second stay rope (93) is driven to move in the first through hole body (14), elastic energy storage of the second torsion spring (92) is overcome, the compression plate (91) is transversely rotated on the second lug part (104) and the second lug part (105), the special equipment is positioned between the compression plate (91) and the positioning plate part (103), after the special equipment is subjected to compression deformation, the compression deformation value signal of the special equipment is picked up through the tension sensor (95) and the pressure sensor in the hydraulic device positioned on the telescopic cylinder (94), after the high temperature performance detection of the special equipment is finished or after the compression detection of the special equipment is finished in a high temperature state, the middle burner (3) and the side burner (4) are in a flameout state, the telescopic cylinder (94) is in a contracted state, the compression plate (91) is positioned under the elastic energy storage effect of the second torsion spring (92), the compression plate (91) is positioned in a vertical cover (6) is positioned in a lifting hook (96) in a lifting hook (11) from the special equipment, and the special equipment is positioned in a lifting hook (11) lifting hook (96) in a lifting hook lifting device.