CN116337923B - Refractory material product heat-resistant and earthquake-resistant detection device and method with recovery function - Google Patents

Abstract

The invention discloses a refractory material product heat and shock resistance detection device with a recovery function and a method thereof, belonging to the technical field of heat and shock resistance detection devices.

Description

Refractory material product heat-resistant and earthquake-resistant detection device and method with recovery function

Technical Field

The invention relates to a heat and shock resistant detection device, in particular to a heat and shock resistant detection device for refractory material products with a recovery function, and also relates to a detection method for the heat and shock resistant detection device, in particular to a detection method for the heat and shock resistant detection device for refractory material products with a recovery function, belonging to the technical field of heat and shock resistant detection devices.

Background

In the prior art, in the process of carrying out the heat-resistant and shock-resistant detection device on refractory material products, the detection of shock absorption is carried out by placing the material products on a platform and then continuously shaking, for example, the shock resistance detection device has the application number of CN202210599286.4 and comprises: the object placing device comprises an object placing device, an object placing device and an object placing device, wherein the object placing device comprises a fixed plate and a movable plate, one end of the movable plate can be rotationally arranged on the fixed plate around a first steering direction, and the movable plate is used for supporting an acoustic wave imager; the clamping mechanism is arranged on the movable plate and used for clamping the acoustic wave imager; and the test mechanism comprises a swinging component and a vibration component, the swinging component is connected with the fixed plate, the swinging component can drive the object to move reciprocally along the second direction, the vibration component is used for driving the movable plate to rotate along the first direction relative to the fixed plate, and the movable plate can simulate a complex vibration environment under the combination superposition of two movement modes, so that a more accurate simulation use environment can be provided for the acoustic wave imager placed on the movable plate, and the detection precision of the detection device can be improved.

Although the function of simulating the environment can be performed on the transverse direction and the longitudinal direction in the prior art, the operation is relatively complex in the concrete vibration operation, the adjustment control of the mode that the vibration is firstly up and down vibration and then is adjusted to horizontal vibration is troublesome, and the unqualified vibration of the refractory material product cannot be conveniently recovered and high-temperature detection is performed, so that the heat-resistant and earthquake-resistant detection device and method for the refractory material product with the recovery function are designed to solve the problems.

Disclosure of Invention

The invention mainly aims to provide a refractory material product heat-resistant anti-vibration detection device with a recovery function and a refractory material product heat-resistant anti-vibration detection method, wherein a refractory material product to be detected is placed into a placing bin assembly, then a heater in the placing bin assembly is started to heat the placing bin assembly so as to detect high temperature resistance, a movable gear assembly is started to enable a special-shaped wheel to move on the inner side of a U-shaped limiting groove, meanwhile, the movable gear assembly is started to move along the L-shaped limiting groove assembly, the movable gear assembly moves to drive a first bevel gear assembly to move, the first bevel gear assembly drives a telescopic rod assembly to rotate, the telescopic rod assembly rotates to drive a second bevel gear assembly to move, the special-shaped wheel is driven to rotate through the second bevel gear assembly, so that the placing bin assembly is impacted, the placing bin assembly is matched with an elastic three-dimensional auxiliary frame assembly to generate continuous vibration, the refractory material product in the placing bin assembly is subjected to anti-vibration detection, after detection is finished, the turnover assembly can be directly started to directly transfer a belt assembly to a waste recovery conveying assembly, and qualified products can be taken out, and therefore the high-temperature resistant anti-vibration environment is well controlled, and vibration is conveniently and intensively and rapidly controlled.

The aim of the invention can be achieved by adopting the following technical scheme:

the utility model provides a refractory material goods heat and shock resistance detection device with retrieve function, including the side fixed plate, the side bottom integrated into one piece that is located the side fixed plate has the side slat, the tip that is located the side slat is equipped with waste recovery conveyer belt subassembly with the bottom of side fixed plate, the outer middle part department that is located the side fixed plate is equipped with the upset subassembly, this upset subassembly output portion installs the three-dimensional auxiliary frame subassembly of elasticity, the storehouse subassembly is placed in the output of this three-dimensional auxiliary frame subassembly of elasticity, the U type spacing groove is installed along the outer wall of placing the storehouse subassembly in the outer middle part of placing the storehouse subassembly, be located the inboard below department of side fixed plate and be equipped with the support frame subassembly, L type spacing spout subassembly is installed to the inboard of this support frame subassembly, and be equipped with adjustable slide frame subassembly in the inboard of this L type spacing spout subassembly, and be equipped with the removal gear assembly with L type spacing spout subassembly mutually supporting in the inboard of this adjustable slide frame subassembly, the vertical lift electric pole is installed at the top of adjustable slide frame subassembly, T type frame is installed at the top of this vertical lift electric pole, be equipped with the profile wheel with the mutually supporting with the storehouse subassembly on this T type frame, and the output portion of placing the storehouse subassembly is equipped with the profile wheel, and the output portion of the first bevel gear assembly is equipped with the bevel gear assembly, the second bevel gear assembly is equipped with the bevel gear assembly, the bevel gear assembly is equipped with the bevel gear assembly.

Preferably, the waste recycling conveyor belt assembly comprises a conveyor belt, an end roller and a conveyor motor, wherein the end roller is arranged at the bottom of the inner side of the side fixing plate and the outer end part of the side strip plate through a bearing, the conveyor belt is sleeved outside the end roller, and the conveyor motor of the driving end roller is arranged at the outer end part of the side strip plate;

the turnover assembly comprises a turnover motor and an inner side wall rotating rod, the turnover motor is arranged in the middle of the outer side of the side fixing plate, the inner side wall rotating rod is arranged at the output end of the turnover motor in a penetrating mode through the side fixing plate, and the elastic three-dimensional auxiliary frame assembly is arranged at the inner end portion of the inner side wall rotating rod.

Preferably, the elastic three-dimensional auxiliary frame component comprises a horizontal sliding bar, a first buffer adjusting cylinder, a vertical sliding bar, a second buffer adjusting cylinder, a second buffer adjusting bar, an end vertical plate, a third buffer adjusting cylinder, a first inner spring, a third buffer adjusting bar, an inner moving sliding block and a second inner spring, wherein the horizontal sliding bar is arranged above and below the inner wall of the side fixing plate, the inner side of the horizontal sliding bar is provided with an inner side sliding bar capable of sliding inside the horizontal sliding bar, the outer end part of the inner side sliding bar is provided with the vertical sliding bar, the two ends of the horizontal sliding bar are provided with end vertical plates, the inner middle part of the end vertical plate is provided with the first buffer adjusting cylinder, the inner end part of the first buffer adjusting cylinder is provided with a third inner spring, the outer end part of the third inner spring is provided with the first buffer adjusting rod, the inner top of the third buffer adjusting cylinder is provided with the first inner spring, the bottom of the first inner spring is provided with the third buffer adjusting rod, the inner end part of the second buffer adjusting cylinder is provided with the second buffer adjusting rod, and the second buffer adjusting cylinder is provided with the inner end part of the second buffer adjusting rod.

Preferably, place the storehouse subassembly and including placing storehouse, top cap and handle, be located the outer tip of second buffering regulation pole and install and place the storehouse, should place the top in storehouse and articulate there is the top cap, be located the inner wall of placing the storehouse and be equipped with electric heater, be located the top middle part department of top cap and install handle.

Preferably, the support frame component comprises a T-shaped end frame and a bottom strip, the T-shaped end frame is arranged below the inner wall of the side fixing plate, the bottom strip is arranged in the middle of the inner bottom of the T-shaped end frame, and the L-shaped limiting chute component is arranged on the inner sides of the T-shaped end frame and the bottom strip;

the L-shaped limiting sliding groove assembly comprises an L-shaped sliding rail, an L-shaped rack and a side L-shaped strip groove, wherein the L-shaped sliding rail is arranged on the inner wall of the T-shaped end frame and the inner wall of the bottom strip, the L-shaped rack is arranged on the inner side of the L-shaped sliding rail, the side L-shaped strip groove is formed in the outer side of the L-shaped sliding rail, and the adjustable sliding frame assembly is arranged on the inner side of the side L-shaped strip groove.

Preferably, the adjustable sliding frame assembly comprises an angle adjusting motor, a limiting moving sliding block, a U-shaped top frame and an end plate, wherein the limiting moving sliding block sliding along the side L-shaped strip groove is arranged on the inner side of the side L-shaped strip groove, the angle adjusting motor is installed at the middle part of the inner side of the limiting moving sliding block, the U-shaped top frame is installed at the output end of the angle adjusting motor, the end plate is installed at the top part of the side of the U-shaped top frame, and the vertical lifting electric rod is installed at the top middle part of the U-shaped top frame.

Preferably, the movable gear assembly comprises an end movable motor and a movable gear, the output end of the end movable motor penetrates through the U-shaped top frame to be provided with the movable gear, the movable gear is meshed with the L-shaped rack, the movable gear is driven by the end movable motor to adjust the U-shaped top frame to move through the start end movable motor, and accordingly the special-shaped wheels are adjusted to move to achieve the impact treatment on the placement bin.

Preferably, the first bevel gear assembly comprises a movable gear and a second bevel gear, the first bevel gear is arranged at the output end of the end movable motor, the second bevel gear is meshed with the outer side of the first bevel gear, and the telescopic rod assembly is arranged at the top middle part of the second bevel gear.

Preferably, the telescopic rod assembly comprises an outer adjusting rotary drum, an inner telescopic rotary rod and an inner side wall lifting strip, the outer adjusting rotary drum is arranged at the top middle part of the second bevel gear, the inner side of the outer adjusting rotary drum is provided with the inner telescopic rotary rod, the outer side of the inner telescopic rotary rod is provided with the inner side wall lifting strip matched with the outer adjusting rotary drum, and the outer adjusting rotary drum is fixed with the end plate through a bearing;

the second bevel gear assembly comprises a fourth bevel gear and a third bevel gear, the fourth bevel gear is arranged at the top of the inner telescopic rotating rod, the third bevel gear is meshed with the outer side of the fourth bevel gear, and the middle part of the outer side of the third bevel gear penetrates through the T-shaped frame through the connecting rotating rod to be provided with a special-shaped wheel.

The detection method of the heat-resistant and shock-resistant detection device for the refractory material product with the recovery function comprises the following steps of:

step one: placing refractory material products to be detected into the placing bin assembly, and then starting a heater positioned in the placing bin assembly to heat the placing bin assembly so as to detect the high temperature resistance;

step two: the special-shaped wheel of the special-shaped wheel moves on the inner side of the U-shaped limiting groove by starting the movable gear assembly, and meanwhile, the movable gear assembly is started to move along the L-shaped limiting chute assembly, and meanwhile, the movement of the movable gear assembly drives the first bevel gear assembly to move;

step three: the telescopic rod assembly is driven to rotate through the first bevel gear assembly, the second bevel gear assembly is driven to move through the rotation of the telescopic rod assembly, and the special-shaped wheel is driven to rotate through the second bevel gear assembly, so that the impact on the placement bin assembly is realized;

step four: make place the three-dimensional auxiliary frame subassembly of storehouse subassembly cooperation elasticity and produce continuous vibrations to be located and place the refractory material goods in the storehouse subassembly and carry out the antidetonation and detect, then can directly start the upset subassembly and directly pour out the inferior product at waste recovery conveyer belt subassembly transmission to damage after the detection, then can take out to classify to qualified product.

The beneficial technical effects of the invention are as follows:

according to the refractory material product heat-resistant and shock-resistant detection device and method with the recovery function, refractory material products to be detected are placed into the placement bin assembly, then the heater in the placement bin assembly is started to heat the placement bin assembly so as to detect shock resistance, the special-shaped wheels of the placement bin assembly move on the inner side of the U-shaped limiting groove through the starting of the moving gear assembly, meanwhile, the moving gear assembly moves along the L-shaped limiting groove assembly, the first bevel gear assembly is driven to move through the movement of the moving gear assembly, the telescopic rod assembly is driven to rotate through the first bevel gear assembly, the second bevel gear assembly is driven to move through the rotation of the telescopic rod assembly, the special-shaped wheels are driven to rotate through the second bevel gear assembly, so that shock of the placement bin assembly is achieved, the placement bin assembly is matched with the elastic three-dimensional auxiliary frame assembly to generate continuous shock, shock resistance detection is conducted on the refractory material products in the placement bin assembly, after detection is completed, the poor products can be directly poured into the waste recovery conveying belt assembly through the starting of the turning assembly, and qualified products can be taken out to conduct automatic shock resistance detection, and automatic shock resistance detection is achieved, and the high-temperature shock resistance is well controlled, and the shock resistance environment is convenient and convenient to control is achieved.

Drawings

FIG. 1 is a schematic perspective view of a first view of the apparatus in its entirety of a preferred embodiment of a refractory product heat and shock resistance detection apparatus and method with recycling function according to the present invention.

FIG. 2 is a schematic perspective view of a second view of the entire apparatus according to a preferred embodiment of the apparatus and method for detecting thermal shock resistance of a refractory product with recycling function according to the present invention.

FIG. 3 is a schematic perspective view of a third perspective view of the apparatus according to a preferred embodiment of the apparatus and method for detecting thermal shock resistance of refractory products with recycling function according to the present invention.

FIG. 4 is a schematic perspective view of a fourth perspective view of the apparatus according to a preferred embodiment of the apparatus and method for detecting thermal shock resistance of a refractory product with recycling function according to the present invention.

FIG. 5 is a schematic perspective view of a fifth perspective view of the apparatus in its entirety of a preferred embodiment of the apparatus and method for detecting thermal shock resistance of a refractory article with recycling function according to the present invention.

Fig. 6 is an enlarged view of the structure at b in fig. 2 according to the present invention.

Fig. 7 is an enlarged view of the structure at a in fig. 2 according to the present invention.

FIG. 8 is a schematic view showing the structure of an elastic member of a preferred embodiment of the apparatus and method for detecting heat and shock resistance of a refractory product with recycling function according to the present invention.

FIG. 9 is a schematic perspective view showing a first view angle of a combination of an elastic component, a placing bin component and a vibration adjusting component according to a preferred embodiment of the device and the method for detecting heat resistance and vibration resistance of a refractory material product with a recovery function.

FIG. 10 is a schematic perspective view showing a second view angle of the combination of the elastic component, the placing bin component and the vibration adjusting component according to a preferred embodiment of the device and the method for detecting heat resistance and vibration resistance of refractory products with recycling function.

Fig. 11 is an enlarged view of the structure at c of fig. 9 in accordance with the present invention.

FIG. 12 is a side cross-sectional view of a movable toothed disc assembly of a preferred embodiment of a refractory article thermal shock resistance detection apparatus and method with recovery according to the present invention.

FIG. 13 is a schematic view of an angle adjustment lay down of a movable toothed disc assembly according to a preferred embodiment of the apparatus and method for detecting thermal shock resistance of refractory products with recycling function according to the present invention.

In the figure: 1. the side fixing plate, 2, the turnover motor, 3, the conveyor belt, 4, the side strip plate, 5, the end vertical plate, 6, the horizontal sliding strip, 7, the vertical sliding strip, 8, the top cover, 9, the placement bin, 10, the U-shaped limit groove, 11, the holding handle, 12, the middle connecting plate, 13, the movable adjusting motor, 14, the T-shaped end frame, 15, the bottom fixing plate, 16, the end roller, 17, the inner telescopic rotating rod, 18, the outer adjusting rotating cylinder, 19, the L-shaped sliding rail, 20, the L-shaped rack, 21, the side L-shaped strip groove, 22, the vertical lifting electric rod, 23, the U-shaped top frame, 24, the movable gear, 25, the end plate, 26, the angle adjusting motor, 27, the end vertical strip plate, 28, the end movable motor, 29, the first bevel gear, 30, the second bevel gear, 31, the first buffer adjusting rod, 32, the first buffer adjusting cylinder, 33, the second buffer adjusting cylinder, 34, the second buffer adjusting rod, 35, the inner sliding block, 36, the third buffer adjusting cylinder, 37, the third buffer adjusting cylinder, 38, the third buffer adjusting rod, the third inner spring, 39, the third inner spring, 40, the inner spring, the third conical gear, the inner conical gear, the fourth conical gear, the special-shaped conical gear, the inner side limiting frame, the fourth conical gear, the special-shaped conical gear, 43, the special-shaped conical gear, and the special-shaped inner rotating frame, and the special-shaped conical frame.

Description of the embodiments

In order to make the technical solution of the present invention more clear and obvious to those skilled in the art, the present invention will be described in further detail with reference to examples and drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-13, the refractory material product heat and shock resistant detection device with recovery function provided in this embodiment includes a side fixing plate 1, a side strip plate 4 is integrally formed at the side bottom of the side fixing plate 1, a waste recovery conveyor belt assembly is arranged at the end of the side strip plate 4 and the bottom end of the side fixing plate 1, a turnover assembly is arranged at the middle outer part of the side fixing plate 1, a vertical lifting electric rod 22 is installed at the output part of the turnover assembly, a storage bin assembly is installed at the output end of the vertical lifting electric rod 22, a U-shaped limit groove 10 is installed at the middle outer part of the storage bin assembly along the outer wall of the storage bin assembly, a support frame assembly is arranged at the lower part of the inner side of the side fixing plate 1, an L-shaped limit chute assembly is installed at the inner side of the support frame assembly, an adjustable sliding frame assembly is arranged at the inner side of the L-shaped limit chute assembly, a movable gear assembly is arranged at the inner side of the adjustable sliding frame assembly, a vertical lifting electric rod 22 is installed at the top of the adjustable sliding frame assembly, a T-shaped frame 46 is installed at the top of the vertical lifting electric rod 22, a bevel gear assembly is arranged at the top of the T-shaped gear assembly, a special-shaped bevel gear assembly is arranged at the top of the output wheel assembly is arranged at the top of the output end of the adjustable sliding frame assembly, a special-shaped bevel gear assembly is provided with a special-shaped bevel gear assembly 42, and a special bevel gear assembly is arranged at the top of the output part of the output assembly, and the special-shaped bevel gear assembly is provided with a special bevel gear assembly 42.

Placing the refractory material goods that will detect into the inside of placing the storehouse subassembly, then start the heater that is located the storehouse subassembly of placing and carry out heating treatment to place the storehouse subassembly and carry out the detection of high temperature resistant, and through starting the removal gear assembly, make its special-shaped wheel 42 remove in the inboard of U type spacing groove 10, remove along the spacing spout subassembly of L type through starting the removal gear assembly simultaneously, the motion of removal gear assembly can drive first bevel gear subassembly motion, it is rotatory to drive the telescopic link subassembly through first bevel gear subassembly, it moves to drive second bevel gear subassembly through the rotation of telescopic link subassembly, rotate through second bevel gear subassembly drive special-shaped wheel 42, thereby realize placing the striking of storehouse subassembly, make place the storehouse subassembly cooperation elasticity three-dimensional auxiliary frame subassembly and produce continuous vibrations, thereby carry out the detection of antidetonation to the refractory material goods that is located the storehouse subassembly of placing, then can directly start the upset subassembly and directly fall out in waste recovery conveyer belt subassembly transmission after the detection, then can take out and categorize to qualified product, therefore, the integration detection of concentrated high temperature resistant, the fine and shock-resistant, the function of carrying out on the level is convenient and quick and easy to shake down is realized in addition.

In this embodiment, the scrap recycling conveyor assembly includes a conveyor belt 3, an end roller 16 and a conveyor motor, the end roller 16 is mounted by bearings at the inner bottom of the side fixing plate 1 and at the outer end of the side strip plate 4, the conveyor belt 3 is sleeved outside the end roller 16, and the conveyor motor of the drive end roller 16 is mounted at the outer end of the side strip plate 4.

By activating the drive end cylinder 16 of the conveyor motor, the conveyor belt 3 is driven by the movement of the end cylinder 16 to carry out the process of transporting the refractory product.

In this embodiment, the turnover assembly includes a turnover motor 2 and an inner side wall rotating rod 40, the turnover motor 2 is installed at the middle part of the outer side of the side fixing plate 1, the inner side wall rotating rod 40 is installed at the output end of the turnover motor 2 penetrating through the side fixing plate 1, and the elastic stereoscopic auxiliary frame assembly is installed at the inner end part of the inner side wall rotating rod 40.

The inner side wall rotating rod 40 is driven by the starting turnover motor 2 to drive the elastic three-dimensional auxiliary frame assembly to turn over, so that refractory material products in the elastic three-dimensional auxiliary frame assembly can be conveniently poured out onto the conveyor belt 3 to realize the recycling and conveying function.

In this embodiment, the elastic stereoscopic auxiliary frame assembly includes a horizontal sliding bar 6, a first buffer adjusting bar 31, a first buffer adjusting cylinder 32, a vertical sliding bar 7, a second buffer adjusting cylinder 33, a second buffer adjusting bar 34, an end vertical plate 5, a third buffer adjusting cylinder 36, a first inner spring 38, a third buffer adjusting bar 37, an inner moving slide 35 and a second inner spring 39, the horizontal sliding bar 6 is installed above and below the inner wall of the side fixing plate 1, the inner side of the horizontal sliding bar 6 is provided with an inner side wall sliding bar which can slide inside the horizontal sliding bar 6, the outer end of the inner side wall sliding bar is provided with a vertical sliding bar 7, the two ends of the horizontal sliding bar 6 are provided with end vertical plates 5, the inner end part of the end vertical sliding bar 5 is provided with a first buffer adjusting cylinder 32, the outer end part of the first buffer adjusting cylinder 32 is provided with a third inner spring 38, the outer end part of the first buffer adjusting cylinder 31 is provided with a vertical sliding bar 7, the inner end part of the third buffer adjusting cylinder 36 is provided with a third buffer adjusting rod 36, the inner end part of the second buffer adjusting cylinder 37 is provided with a second buffer adjusting rod 37, the inner end part of the second buffer adjusting cylinder 33 is provided with a second buffer adjusting rod 37, and the inner end part of the third buffer adjusting cylinder is provided with a second buffer adjusting rod 35 is provided with a second inner end part of the buffer adjusting rod 35.

Through setting up second buffering regulation pole 34, second internal spring 39, first internal spring 38, third buffering regulation pole 37, interior movable slide 35, first buffering regulation pole 31 and third internal spring's setting can realize good vibrations function in the space when placing the storehouse subassembly and receive the striking to supplementary vibrations detection that carries out.

In this embodiment, place the storehouse subassembly and including placing storehouse 9, top cap 8 and holding handle 11, be located the outer tip of second buffering regulation pole 34 and install and place storehouse 9, should place the top in storehouse 9 and articulate there is top cap 8, be located the inner wall of placing storehouse 9 and be equipped with electric heater, be located top middle part department that top cap 8 installs holding handle 11.

Through placing the refractory material goods that need detect in the inside of placing storehouse 9, then will place storehouse 9 and carry out sealing treatment through top cap 8, will place storehouse 9 and open through setting up handle 11 can be convenient.

In this embodiment, the support frame assembly includes a T-shaped end frame 14 and a bottom bar 41, the T-shaped end frame 14 is installed below the inner wall of the side fixing plate 1, the bottom bar 41 is installed at the middle part of the inner side bottom of the T-shaped end frame 14, and the L-shaped limit chute assembly is installed inside the T-shaped end frame 14 and the bottom bar 41.

In this embodiment, the L-shaped limiting chute assembly includes an L-shaped slide rail 19, an L-shaped rack 20 and a side L-shaped bar slot 21, the L-shaped slide rail 19 is mounted on the inner wall of the T-shaped end frame 14 and the bottom bar 41, the L-shaped rack 20 is disposed on the inner side of the L-shaped slide rail 19, the side L-shaped bar slot 21 is disposed on the outer side of the L-shaped slide rail 19, and the adjustable carriage assembly is disposed on the inner side of the side L-shaped bar slot 21.

The functions of guiding, limiting and assisting in moving the adjustable sliding frame assembly are achieved by the aid of the L-shaped sliding rail 19, the L-shaped rack 20 and the side L-shaped rack grooves 21.

In this embodiment, the adjustable carriage assembly includes angle adjusting motor 26, spacing removal slider 45, U type roof-rack 23 and end plate 25, is located the inboard of side L type bar groove 21 and is equipped with along the gliding spacing removal slider 45 of side L type bar groove 21, and angle adjusting motor 26 is installed to the inboard middle part department of this spacing removal slider 45, and U type roof-rack 23 is installed to the output of this angle adjusting motor 26, and end plate 25 is installed to the side top department that is located U type roof-rack 23, and vertical lift electric pole 22 is installed to the top middle part department of this U type roof-rack 23.

The limiting moving sliding block 45 can move along the side L-shaped strip groove 21, and meanwhile, the angle adjusting motor 26 can be started to drive the U-shaped top frame 23 to rotate, so that the limiting moving sliding block 45 is suitable for lifting and limiting the side L-shaped strip groove 21 in the vertical direction.

In this embodiment, the moving gear assembly includes an end moving motor 28 and a moving gear 24, the output end of the end moving motor 28 penetrates through the U-shaped top frame 23 to install the moving gear 24, the moving gear 24 is meshed with the L-shaped rack 20, and the moving gear 24 is driven by the end moving motor 28 to adjust the U-shaped top frame 23 to move, so that the special-shaped wheel 42 is adjusted to move to achieve the impact treatment on the placing bin 9.

The movable gear 24 is driven by the starting end movable motor 28, and the movable gear 24 can move on the L-shaped slide rail 19, so that the special-shaped wheel 42 is driven to move.

In the present embodiment, the first bevel gear assembly includes a moving gear 24 and a second bevel gear 30, a first bevel gear 29 is installed at an output end of the end moving motor 28, the second bevel gear 30 is engaged with an outer side of the first bevel gear 29, and a telescopic rod assembly is installed at a top middle portion of the second bevel gear 30.

The first bevel gear 29 can be driven to move through the starting end moving motor 28, the second bevel gear 30 is driven to rotate through the first bevel gear 29, and the telescopic rod assembly is driven to rotate through the second bevel gear 30 to realize the transmission function.

In this embodiment, the telescopic rod assembly includes an outer adjusting drum 18, an inner telescopic rotating rod 17 and an inner side wall lifting bar, the outer adjusting drum 18 is mounted at the top middle part of the second bevel gear 30, the inner side of the outer adjusting drum 18 is provided with the inner telescopic rotating rod 17, the outer side of the inner telescopic rotating rod 17 is provided with the inner side wall lifting bar matched with the outer adjusting drum 18, and the outer adjusting drum 18 is fixed with the end plate 25 through a bearing.

The outer adjusting drum 18 is driven to move through the rotation of the second bevel gear 30, the inner telescopic rotating rod 17 is driven to rotate through the outer adjusting drum 18, and the second bevel gear assembly is driven to rotate through the inner telescopic rotating rod 17.

In the present embodiment, the second bevel gear unit includes a fourth bevel gear 44 and a third bevel gear 43, the fourth bevel gear 44 is mounted at the top of the inner telescopic rotating rod 17, the third bevel gear 43 is engaged with the outer side of the fourth bevel gear 44, and the profile wheel 42 is mounted at the middle of the outer side of the third bevel gear 43 through the T-shaped frame 46 by a connecting rotating rod.

The fourth bevel gear 44 is driven to move through the rotation of the inner telescopic rotating rod 17, the third bevel gear 43 is driven through the fourth bevel gear 44, and the special-shaped wheel 42 is regulated to rotate through the third bevel gear 43 to impact the placing bin 9 to generate vibration.

The above is merely a further embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art will be able to apply equivalents and modifications according to the technical solution and the concept of the present invention within the scope of the present invention disclosed in the present invention.

Claims (9)

1. Refractory material product heat-resistant and shock-resistant detection device with recovery function, and is characterized in that: the automatic lifting type bevel gear transmission device comprises a side fixing plate (1), wherein a side strip plate (4) is integrally formed at the side bottom of the side fixing plate (1), a waste recycling conveyor belt assembly is arranged at the end part of the side strip plate (4) and the bottom end part of the side fixing plate (1), a turnover assembly is arranged at the outer middle part of the side fixing plate (1), an elastic three-dimensional auxiliary frame assembly is installed at the output part of the turnover assembly, a placing bin assembly is installed at the output end of the elastic three-dimensional auxiliary frame assembly, a U-shaped limit groove (10) is installed at the outer middle part of the placing bin assembly along the outer wall of the placing bin assembly, a support frame assembly is arranged at the lower part of the inner side of the side fixing plate (1), an L-shaped limit chute assembly is installed at the inner side of the support frame assembly, an adjustable sliding frame assembly is arranged at the inner side of the L-shaped limit chute assembly, a movable gear assembly matched with the L-shaped limit chute assembly is arranged at the inner side of the adjustable sliding frame assembly, a vertical lifting electric rod (22) is installed at the top of the adjustable sliding frame assembly, a T-shaped frame (46) is installed at the top of the vertical lifting electric rod (22), a special-shaped bevel gear assembly is installed at the top of the T-shaped frame assembly, a special-shaped bevel gear assembly is matched with the first bevel gear assembly and a second bevel gear assembly is arranged at the output part of the special-shaped bevel gear assembly is provided with a second bevel gear assembly, and a telescopic assembly is arranged at the output part of the special-shaped bevel gear assembly (42;

the turnover assembly comprises a turnover motor (2) and an inner side wall rotating rod (40), the turnover motor (2) is arranged in the middle of the outer side of the side fixing plate (1), the inner side wall rotating rod (40) is arranged at the output end of the turnover motor (2) penetrating through the side fixing plate (1), and the elastic three-dimensional auxiliary frame assembly is arranged at the inner end part of the inner side wall rotating rod (40);

the L-shaped limiting sliding groove assembly comprises an L-shaped sliding rail (19), an L-shaped rack (20) and a side L-shaped groove (21), wherein the L-shaped sliding rail (19) is arranged on the inner wall of the T-shaped end frame (14) and the inner wall of the bottom bar (41), the L-shaped rack (20) is arranged on the inner side of the L-shaped sliding rail (19), the side L-shaped groove (21) is arranged on the outer side of the L-shaped sliding rail (19), and the adjustable sliding frame assembly is arranged on the inner side of the side L-shaped groove (21);

the adjustable sliding frame assembly comprises an angle adjusting motor (26), a limiting moving sliding block (45), a U-shaped top frame (23) and an end plate (25), wherein the limiting moving sliding block (45) sliding along the side L-shaped strip groove (21) is arranged on the inner side of the side L-shaped strip groove (21), the angle adjusting motor (26) is installed at the middle part of the inner side of the limiting moving sliding block (45), the U-shaped top frame (23) is installed at the output end of the angle adjusting motor (26), the end plate (25) is installed at the top part of the side of the U-shaped top frame (23), and the vertical lifting electric rod (22) is installed at the top middle part of the U-shaped top frame (23).

2. The refractory product heat and shock resistant detection device with recycling function according to claim 1, wherein: the waste recycling conveyor belt assembly comprises a conveyor belt (3), an end roller (16) and a conveyor motor, wherein the end roller (16) is arranged at the inner bottom of the side fixing plate (1) and the outer end part of the side slat (4) through a bearing, the conveyor belt (3) is sleeved outside the end roller (16), and the conveyor motor of the driving end roller (16) is arranged at the outer end part of the side slat (4).

3. The refractory product heat and shock resistance detection device with recycling function according to claim 2, wherein: the elastic three-dimensional auxiliary frame component comprises a horizontal sliding bar (6), a first buffer adjusting rod (31), a first buffer adjusting cylinder (32), a vertical sliding bar (7), a second buffer adjusting cylinder (33), a second buffer adjusting rod (34), an end vertical plate (5), a third buffer adjusting cylinder (36), a first inner spring (38), a third buffer adjusting rod (37), an inner moving sliding block (35) and a second inner spring (39), wherein the horizontal sliding bar (6) is arranged above and below the inner wall of the side fixing plate (1), the inner side of the horizontal sliding bar (6) is provided with an inner side wall sliding bar which can slide on the inner side of the horizontal sliding bar (6), the outer end part of the inner side wall sliding bar is provided with the vertical sliding bar (7), the two ends of the horizontal sliding bar (6) are provided with the end vertical plate (5), the first buffer adjusting cylinder (32) is arranged in the middle part of the end vertical plate (5), the inner end part of the first buffer adjusting cylinder (32) is provided with the third inner spring, the outer end part of the third inner spring is provided with the first buffer adjusting rod (31), the inner end part of the first buffer adjusting rod (31) is provided with the third inner spring (36) is arranged on the inner end part of the vertical sliding bar (36), the bottom of the first inner spring (38) is provided with a third buffer adjusting rod (37), the bottom of the third buffer adjusting rod (37) is provided with an inner moving sliding block (35), the outer end part of the inner moving sliding block (35) is provided with a second buffer adjusting cylinder (33), the inner end part of the second buffer adjusting cylinder (33) is provided with a second inner spring (39), the outer end part of the second inner spring (39) is provided with a second buffer adjusting rod (34), and the outer end part of the second buffer adjusting rod (34) is provided with a placing bin assembly.

4. The refractory product heat and shock resistance detection device with recycling function according to claim 3, wherein: place storehouse subassembly including placing storehouse (9), top cap (8) and holding handle (11), be located the outer tip of second buffering regulation pole (34) and install and place storehouse (9), the top of should placing storehouse (9) articulates there is top cap (8), is located the inner wall of placing storehouse (9) and is equipped with electric heater, is located top middle part department that top cap (8) installs holding handle (11).

5. The refractory product heat and shock resistance detection device with recycling function according to claim 4, wherein: the support frame assembly comprises a T-shaped end frame (14) and a bottom strip (41), the T-shaped end frame (14) is arranged below the inner wall of the side fixing plate (1), the bottom strip (41) is arranged in the middle of the inner side bottom of the T-shaped end frame (14), and the L-shaped limiting chute assembly is arranged on the inner sides of the T-shaped end frame (14) and the bottom strip (41).

6. The refractory product heat and shock resistance detection device with recycling function according to claim 5, wherein: the movable gear assembly comprises an end movable motor (28) and a movable gear (24), the movable gear (24) is arranged at the output end of the end movable motor (28) penetrating through the U-shaped top frame (23), the movable gear (24) is meshed with the L-shaped rack (20), the movable gear (24) is driven by the end movable motor (28) to adjust the U-shaped top frame (23) to move, and accordingly the special-shaped wheel (42) is adjusted to move to achieve impact treatment on the placement bin (9).

7. The refractory product heat and shock resistance detection device with recycling function according to claim 6, wherein: the first bevel gear assembly comprises a movable gear (24) and a second bevel gear (30), a first bevel gear (29) is arranged at the output end of the end movable motor (28), the second bevel gear (30) is meshed with the outer side of the first bevel gear (29), and a telescopic rod assembly is arranged at the top middle part of the second bevel gear (30).

8. The refractory product heat and shock resistance detection device with recycling function according to claim 7, wherein: the telescopic rod assembly comprises an outer adjusting rotary drum (18), an inner telescopic rotary rod (17) and an inner side wall lifting strip, the outer adjusting rotary drum (18) is arranged at the top middle part of the second bevel gear (30), the inner side of the outer adjusting rotary drum (18) is provided with the inner telescopic rotary rod (17), the outer side of the inner telescopic rotary rod (17) is provided with the inner side wall lifting strip which is mutually matched with the outer adjusting rotary drum (18), and the outer adjusting rotary drum (18) is fixed with the end plate (25) through a bearing;

the second bevel gear assembly comprises a fourth bevel gear (44) and a third bevel gear (43), the fourth bevel gear (44) is arranged at the top of the inner telescopic rotating rod (17), the third bevel gear (43) is meshed with the outer side of the fourth bevel gear (44), and a special-shaped wheel (42) is arranged at the middle part of the outer side of the third bevel gear (43) through a connecting rotating rod penetrating through the T-shaped frame (46).

9. The method for detecting the heat and shock resistant detection device for refractory products with recycling function according to claim 8, wherein the method comprises the following steps: the method comprises the following steps:

step one: placing refractory material products to be detected into the placing bin assembly, and then starting a heater positioned in the placing bin assembly to heat the placing bin assembly so as to detect the high temperature resistance;

step two: the special-shaped wheel (42) moves on the inner side of the U-shaped limiting groove (10) by starting the movable gear assembly, and meanwhile, the movable gear assembly moves along the L-shaped limiting chute assembly, and meanwhile, the movement of the movable gear assembly drives the first bevel gear assembly to move;

step three: the telescopic rod assembly is driven to rotate through the first bevel gear assembly, the second bevel gear assembly is driven to move through the rotation of the telescopic rod assembly, and the special-shaped wheel (42) is driven to rotate through the second bevel gear assembly, so that the impact on the placing bin assembly is realized;

step four: make place the three-dimensional auxiliary frame subassembly of storehouse subassembly cooperation elasticity and produce continuous vibrations to be located and place the refractory material goods in the storehouse subassembly and carry out the antidetonation and detect, then can directly start the upset subassembly and directly pour out the inferior product at waste recovery conveyer belt subassembly transmission to damage after the detection, then can take out to classify to qualified product.