CN114136111A - Furnace temperature detector position adjustment device - Google Patents

Abstract

A position adjusting device for a kiln temperature detector belongs to the technical field of kilns. Comprises a bottom plate; the temperature detector mounting seat up-down displacement adjusting mechanism is arranged on one side of the base plate facing upwards; the left-right displacement adjusting mechanism of the temperature detector mounting seat is connected with the up-down displacement adjusting mechanism of the temperature detector mounting seat in a vertically displaced manner; the temperature detector mounting seat support is connected with the temperature detector mounting seat left-right displacement adjusting mechanism in a left-right displacement manner; and the temperature detector mounting seat is fixed on the temperature detector mounting seat bracket. Interference of kiln watchmen on the furnace to the observation of the hearth condition through the observation hole is eliminated; the accurate position effect of the temperature detector mounting seat and the temperature detector is guaranteed; and good guarantee conditions are provided for meeting the process requirements of the hearth temperature.

Description

Position adjusting device for kiln temperature detector

Technical Field

The invention belongs to the technical field of kilns, and particularly relates to a position adjusting device for a kiln temperature detector.

Background

The aforementioned kiln mainly refers to an industrial kiln, and typical examples in an industrial kiln system are electronic kilns, so-called electronic kilns are named according to their names for firing (also called "sintering") electronic products and materials thereof, such as electronic powder, electronic components, silicon nitride, aluminum nitride, silicon carbide, lithium battery positive electrode materials, ceramics, fluorescent powder, rare earth materials, magnetic materials, and the like, so that the electronic kilns play an indispensable important role in the production of high-end electronic products and are not found in published chinese patent documents, such as: CN208059547U (lithium battery material sintering roller furnace), CN210802019U (a kiln), CN111351347A (a double-layer roller furnace) and CN229416082U (atmosphere protection furnace L-shaped flue device). Typical documents of the latter are disclosed in, for example, CN105783517A (furnace structure of battery material sintering furnace), CN204934610U (furnace heating device of MIN sintering furnace), CN210533032U (wide furnace high temperature sintering furnace), CN110425878A (new high temperature sintering furnace), and CN110425886A (high temperature sintering furnace of electronic products), and the like.

As known in the art, in both roller bed furnaces and pusher furnaces, a product to be fired is usually introduced from a material inlet serving as a preheating section, sequentially passes through a temperature raising section, a constant temperature section, a temperature lowering section and a cooling section, and finally is discharged from a material outlet, wherein the temperature raising section and the constant temperature section can also be conventionally called as a high temperature section, the quality of the product can be directly influenced by the quality of the temperature monitoring and controlling effect of the high temperature section, and particularly, if the temperature monitoring of the high temperature section is inaccurate, the product can be defective or even scrapped seriously. The thermocouple is installed in the high temperature section of the kiln, which is a conventional technical means in the industry, but on one hand, the structure of the kiln is complicated, and the cost (also called manufacturing cost) is increased, and on the other hand, the routine inspection and maintenance (including adjustment, replacement and the like) of the thermocouple is troublesome, so that the workload of equipment management and maintenance personnel is increased. The way of detecting the temperature inside the furnace by means of a closed and transparent observation hole which allows the conditions inside the furnace to be observed and is directly formed on the furnace body is not a desirable technical means to eliminate the thermocouple, and there are mainly two known ways: firstly, a kiln attendant holds a thermal radiation thermometer by hand, aligns the thermal radiation thermometer according to the interval time required by the process, closes an observation hole for measuring temperature, and makes a corresponding record; and secondly, arranging a kiln temperature detection device at a position corresponding to the observation hole. The first of the two methods cannot continuously and accurately acquire the dynamic temperature change in the hearth, and is also easily influenced by factors such as experience, responsibility and the like of kiln watchmen to a certain extent, so that the method cannot be well accepted by people. The second of the two modes can be accompanied with the furnace body and can be permanently corresponding to the observation window, and particularly, the dynamic change condition of the temperature of the hearth can be obtained by utilizing heat radiation uninterruptedly in real time, so that the method is accepted by the industry. However, the kiln temperature detection device in the prior art still has the following disadvantages in the actual use process: because the bracket supported and fixed on the terrace is right opposite to the observation hole in the initial configuration, when a kiln keeper looks through the observation hole to observe and observe the condition in the hearth, such as taking a push plate furnace as an example, whether the condition that the burning plate carries the product to travel is normal or not is needed to be observed, and also such as taking a roller furnace as an example, whether the running condition of the sagger and the product contained therein is normal or not is observed, and the like, so that the observation hole is shielded by the kiln temperature detection device to generate interference influence on the front surface observation, the interference influence can also be generated even if the observation is carried out through the observation hole on the side surface of the kiln, and the side observation effect is relatively poor. If the kiln temperature detector and the bracket are formed into a structure capable of being adjusted up and down through the detector mounting seat, the interference effect can be eliminated, but the prior art teaching of the prior art and the prior art are not shown in the prior art and the prior art.

Disclosure of Invention

The invention aims to provide a kiln temperature detector position adjusting device which is beneficial to temporarily avoiding shielding of an observation hole according to needs, avoiding interference influence of kiln watchmen on observation of the state of a hearth, conveniently adjusting a temperature detector mounting seat up and down and left and right to ensure the position accuracy effect of the temperature detector mounting seat, and uninterruptedly feeding temperature information measured in a heat radiation mode back to an electric control device in real time to provide good guarantee conditions for meeting the process requirements of the hearth temperature, and has the advantages of convenience in operation and simple structure so as to embody ideal economy.

The task of the invention is accomplished by the following, a position adjusting device of a kiln temperature detector, which comprises a bottom plate; the temperature detector mounting seat up-down displacement adjusting mechanism is arranged on one upward side of the bottom plate; the left-right displacement adjusting mechanism of the temperature detector mounting seat is connected with the up-down displacement adjusting mechanism of the temperature detector mounting seat in a vertically displaced manner; the temperature detector mounting seat bracket is connected with the temperature detector mounting seat left-right displacement adjusting mechanism in a left-right displacement manner; and the temperature detector mounting seat is fixed on the temperature detector mounting seat bracket.

In a specific embodiment of the invention, a top plate connecting plate is fixed on the bottom plate and positioned at the right side of the temperature detector mounting seat up-down displacement adjusting mechanism, and the upper part of the temperature detector mounting seat up-down displacement adjusting mechanism is fixed with the upper part of the left side surface of the top plate connecting plate; the temperature detector mounting seat left-right displacement adjusting mechanism and the temperature detector mounting seat support connected with the temperature detector mounting seat left side of the temperature detector mounting seat up-down displacement adjusting mechanism are connected with the temperature detector mounting seat up-down displacement adjusting mechanism in a mode of moving up and down; and the upper part of the temperature detector mounting seat is provided with a temperature detector mounting hole.

In another specific embodiment of the present invention, the vertical displacement adjusting mechanism of the temperature detector mounting base includes a vertical displacement screw of the vertical displacement plate, a top plate, and a pair of vertical displacement guide rods of the vertical displacement plate, a lower portion of the vertical displacement screw of the vertical displacement plate is formed with a screw lower pivot support head which is rotatably supported on the bottom plate by a screw lower pivot support head support base, an upper portion of the vertical displacement screw of the vertical displacement plate extends above the top plate and is rotatably supported on an upper pivot support base by an upper pivot support base which is fixed to an upward side of the top plate, a top portion of the vertical displacement screw of the vertical displacement plate extends above the upper pivot support base and is fixed with an adjusting knob, a right side of the top plate is fixed to an upper portion of a left side of the top plate connecting plate, and a pair of vertical displacement guide rods of the vertical displacement plate respectively correspond to front and rear sides of the vertical displacement screw of the vertical displacement plate and are fixed to an adjusting knob The lower ends of the pair of vertical moving plate vertical moving guide rods are fixed with the bottom plate, and the upper ends of the pair of vertical moving plate vertical moving guide rods extend to the upper part of the top plate and are limited on the top plate; the temperature detector mounting seat left and right displacement adjusting mechanism and the temperature detector mounting seat bracket connected with the temperature detector mounting seat left side of the longitudinal moving plate up and down displacement screw rod are connected with the longitudinal moving plate up and down displacement screw rod in a moving manner; and temperature detector fixing screw holes are formed in the upper part of the temperature detector mounting seat and around the temperature detector mounting hole at intervals.

In still another embodiment of the present invention, a pair of up-down displacement guide fixing screw holes are formed on the bottom plate and at positions corresponding to lower ends of the pair of up-down displacement guide plates, and a guide fixing screw head is formed at each of lower ends of the pair of up-down displacement guide plates, the guide fixing screw head being screw-fixed to the up-down displacement guide fixing screw holes; a top plate screw rod abdicating hole is arranged on the top plate and at the position corresponding to the vertical displacement screw rod of the longitudinal moving plate, and a pair of guide rod passing holes are arranged at the position corresponding to the vertical displacement guide rods of the longitudinal moving plate; the upper part of the vertical moving plate vertical displacement screw rod extends to the upper part of the top plate through the top plate screw rod abdicating hole; the upper ends of the up-and-down displacement guide rods of the pair of longitudinal moving plates extend to the upper part of the top plate through the guide rod through holes and are respectively formed into a guide rod limiting thread head, and a guide rod limiting thread head nut used for limiting the upper ends of the up-and-down displacement guide rods of the pair of longitudinal moving plates to the upper part of the top plate is arranged on the guide rod limiting thread heads in a matching mode; the upper pivoting bearing block is fixed with the top plate through an upper pivoting bearing block fixing screw.

In still another embodiment of the present invention, the temperature detector mounting seat left-right displacement adjusting mechanism includes a mounting bracket left-right displacement screw, a longitudinal moving plate, and a pair of mounting bracket left-right displacement guide rods, a longitudinal moving plate nut is fixed below the right side of the longitudinal moving plate and at a position corresponding to the longitudinal moving plate up-down displacement screw, the longitudinal moving plate nut is in threaded engagement with the longitudinal moving plate up-down displacement screw, a pair of longitudinal moving plate guide holes are opened at the right side of the longitudinal moving plate and at a position corresponding to the pair of longitudinal moving plate up-down displacement guide rods, the pair of longitudinal moving plate guide holes are in sliding engagement with the pair of longitudinal moving plate up-down displacement guide rods, a left support plate is fixed at the left side of the longitudinal moving plate, and a right support plate is fixed at the middle and at a position located at the left side of the longitudinal moving plate up-down displacement screw, the left support plate and the right support plate are parallel to each other left and right, the left end of the left and right displacement screw rod of the mounting bracket extends to the left side of the left support plate and is rotatably supported on the left bearing seat through a left bearing, the left end part of the left and right displacement screw rod of the mounting bracket extends to the left side of the left bearing seat and is fixed with an adjusting knob, the left bearing seat is fixed with the left side surface of the left supporting plate, a screw rotating supporting head is formed at the right end of the left and right displacement screws of the mounting bracket, the screw rod rotates the supporting head to be matched with the pivoting support of the supporting head in a pivoting way, the pivoting support of the supporting head is fixed with the left side surface of the right supporting plate, a pair of left and right displacement guide rods of the mounting bracket are respectively positioned at the front and the rear sides of the left and right displacement screw rods of the mounting bracket, the left ends of the left and right displacement guide rods of the pair of mounting brackets extend to the left side of the left support plate and are limited on the left support plate, and the right ends of the left and right displacement guide rods of the pair of mounting brackets are fixed with the right support plate; the temperature detector mounting seat support and the temperature detector mounting seat are connected with the mounting support through a left-right displacement screw rod.

In still another specific embodiment of the present invention, a mounting bracket left and right displacement screw abdicating hole is formed on the left support plate at a position corresponding to the mounting bracket left and right displacement screw, a pair of guide rod passing holes are formed at positions corresponding to the pair of mounting bracket left and right displacement guide rods, a pair of left and right displacement guide rod right screw head fixing screw holes are formed on the right support plate and also at positions corresponding to the pair of mounting bracket left and right displacement guide rods, left ends of the mounting bracket left and right displacement screw rods extend to the left side of the left support plate through the mounting bracket left and right displacement screw abdicating holes, left ends of the pair of mounting bracket left and right displacement guide rods pass through the pair of guide rod passing holes and form a mounting bracket left and right displacement guide rod left screw head, and a left screw head limiting hole for limiting the left ends of the pair of mounting bracket left and right displacement guide rods on the left support plate is formed on the mounting bracket left and right displacement guide rod left screw head The right ends of the left and right displacement guide rods of the pair of mounting brackets form right thread heads of the left and right displacement guide rods of the mounting brackets, and the right thread heads of the left and right displacement guide rods of the pair of mounting brackets are in threaded fit with the right thread head fixing threaded holes of the left and right displacement guide rods.

In a more specific embodiment of the present invention, the left bearing seat is fixed to the left side surface of the left support plate by a set of left bearing seat fixing screws distributed at intervals.

In a further specific embodiment of the present invention, the thermodetector mount bracket comprises a mount bracket left and right displacement plate, a mount bracket left and right displacement plate linkage nut and a thermodetector mount bracket support plate, a mount bracket left and right displacement plate screw abdicating hole for hollowing the mount bracket left and right displacement plate onto the mount bracket left and right displacement screw is opened at the lower part of the mount bracket left and right displacement plate and at the position corresponding to the mount bracket left and right displacement screw, a pair of slide holes is opened at the mount bracket left and right displacement plate and at the position corresponding to the pair of mount bracket left and right displacement guide rods, the pair of slide holes are in sliding fit with the pair of mount bracket left and right displacement guide rods, the mount bracket left and right displacement plate linkage nut is in threaded fit with the mount bracket left and right displacement screw, and the left side of the mount bracket left and right displacement plate linkage nut is fixed with the right side surface of the mount bracket left and right displacement plate, the supporting plate of the temperature detector mounting seat is fixed with the upper parts of the left and right displacement plates of the mounting bracket; the temperature detector mounting seat is fixed on the temperature detector mounting seat supporting plate.

In a still more specific embodiment of the present invention, in a use state, a temperature detector is provided at a position corresponding to the temperature detector mounting hole, and the temperature detector is fixed to the temperature detector mounting seat by a temperature detector fixing screw at a position corresponding to the temperature detector fixing screw hole.

In yet another specific embodiment of the present invention, the temperature detector is a thermal radiation type temperature sensor, and the temperature information of the kiln temperature control area is fed back to the electric control equipment arranged at the electric control place in a wireless and/or wired mode without interruption.

One of the technical effects of the technical scheme provided by the invention is that the temperature detector mounting seat bracket and the temperature detector mounting seat can lift and/or move left and right as required by adjusting the temperature detector mounting seat up-and-down displacement adjusting mechanism and/or the temperature detector mounting seat left-and-right displacement adjusting mechanism in the using process, so that the shielding requirement of temporarily avoiding an observation hole is met, and the interference situation of kiln watchmen in observing the hearth condition by the aid of the observation hole can be effectively eliminated; secondly, the temperature detector mounting seat can be adjusted up and down together with the temperature detector in a use state, and can also be adjusted left and right to form a good two-coordinate relation, so that the position accuracy effect of the temperature detector mounting seat and the temperature detector can be guaranteed; thirdly, the temperature detector mounting seat can meet the mounting requirements of a temperature detector serving as a heat radiation type temperature sensor, and measured temperature information can be uninterruptedly fed back to the electrical control equipment in real time by the temperature detector, so that good guarantee conditions can be provided for the hearth temperature to meet the technological requirements; fourthly, the operation is convenient and the structure is simple, thereby showing ideal economy.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention.

Fig. 2 is a schematic view of the bottom plate, the vertical displacement adjustment mechanism of the temperature detector mounting base, the horizontal displacement adjustment mechanism of the temperature detector mounting base, the temperature detector mounting base bracket, and the temperature detector mounting base shown in fig. 1, as viewed from above.

Fig. 3 is a detailed configuration diagram of the vertical displacement adjustment mechanism of the temperature detector mounting base shown in fig. 1 and 2.

Fig. 4 is a schematic view illustrating an application of the present invention.

Detailed Description

In order to clearly understand the technical spirit and the advantages of the present invention, the applicant below describes in detail by way of example, but the description of the example is not intended to limit the technical scope of the present invention, and any equivalent changes made according to the present inventive concept, which are merely in form and not in material, should be considered as the technical scope of the present invention.

In the following description, all the concepts related to the directions or orientations of up, down, left, right, front and rear are based on the position state of fig. 1, and thus, it should not be understood as a particular limitation to the technical solution provided by the present invention.

Referring to fig. 1 to 3, a base plate 1 is shown; a temperature detector mounting seat up-down displacement adjusting mechanism 2 is shown, and the temperature detector mounting seat up-down displacement adjusting mechanism 2 is arranged on one side of the base plate 1 facing upwards; a temperature detector mounting seat left-right displacement adjusting mechanism 3 is shown, and the temperature detector mounting seat left-right displacement adjusting mechanism 3 is connected with the temperature detector mounting seat up-down displacement adjusting mechanism 2 in a vertically displaced manner; a temperature detector mounting base bracket 4 is shown, and the temperature detector mounting base bracket 4 is connected with the temperature detector mounting base left-right displacement adjusting mechanism 3 in a left-right displacement manner; a temperature detector mounting 5 is shown, which temperature detector mounting 5 is fixed to the aforementioned temperature detector mounting bracket 4.

A top plate connecting plate 11 having a substantially right-angled triangle shape is fixed to the bottom plate 1 and positioned on the right side of the vertical displacement adjusting mechanism 2 of the temperature detector mounting base, and the upper part of the vertical displacement adjusting mechanism 2 of the temperature detector mounting base is fixed to the upper part of the left side surface of the top plate connecting plate 11; the temperature detector mounting seat left-right displacement adjusting mechanism 3 and the temperature detector mounting seat bracket 4 connected thereto are connected to the temperature detector mounting seat up-down displacement adjusting mechanism 2 so as to move up and down at a position on the left side of the temperature detector mounting seat up-down displacement adjusting mechanism 2; a temperature detector mounting hole 51 (shown in fig. 1) is formed in an upper portion of the temperature detector mounting base 5.

Referring to fig. 3 in combination with fig. 1 and 2, the aforementioned temperature detector mounting seat up-down displacement adjusting mechanism 2 includes a longitudinal moving plate up-down displacement screw 21, a top plate 22 and a pair of longitudinal moving plate up-down displacement guide rods 23, the lower portion of the longitudinal moving plate up-down displacement screw 21 is formed with a screw down-pivoting support head 211, the screw down-pivoting support head 211 is rotatably supported on the aforementioned bottom plate 1 through a screw down-pivoting support head support 2111 fixed to the bottom plate 1, the upper portion of the longitudinal moving plate up-down displacement screw 21 extends above the top plate 22 and is rotatably supported on an upper pivoting support block 2121 through an upper pivoting bearing 212, the upper pivoting support block 2121 is fixed to the upward side of the top plate 22, the top portion of the longitudinal moving plate up-down displacement screw 21 extends above the upper pivoting support block 2121 and is fixed with an adjusting knob 213, the right side of the top plate 22 is fixed to the upper portion of the left side of the aforementioned top plate connecting plate 11, so as to have good positioning function to the top plate 22 by the top plate connecting plate 11, a pair of longitudinal moving plate up-and-down displacement guide rods 23 respectively corresponding to the front and rear sides of the longitudinal moving plate up-and-down displacement screw 21 and being longitudinally parallel to the longitudinal moving plate up-and-down displacement screw 21, the lower ends of the pair of longitudinal moving plate up-and-down displacement guide rods 23 being fixed to the bottom plate 1, and the upper ends thereof extending above the top plate 22 and being limited on the top plate 22; the temperature detector mounting seat left-right displacement adjusting mechanism 3 and the temperature detector mounting seat bracket 4 connected with the same are positioned on the left side of the longitudinal moving plate up-down displacement screw 21 and are connected with the longitudinal moving plate up-down displacement screw 21 in a manner of moving up and down; a temperature detector fixing screw hole 52 (shown in fig. 1) is formed in the upper portion of the temperature detector mounting base 5 at an interval around the temperature detector mounting hole 51.

Continuing to refer to fig. 3, a pair of upper and lower displacement guide fixing screw holes 12 are formed in the base plate 1 at positions corresponding to the lower ends of the pair of upper and lower displacement guides 23 of the longitudinal moving plate, and a guide fixing screw head 231 is formed at each of the lower ends of the pair of upper and lower displacement guides 23 of the longitudinal moving plate, the guide fixing screw head 231 being screw-fixed to the upper and lower displacement guide fixing screw holes 12; a top plate screw receding hole 221 is formed in the top plate 22 at a position corresponding to the vertical movement screw 21 of the vertical movement plate, and a pair of guide rod passing holes 222 are formed in positions corresponding to the pair of vertical movement plate vertical movement guide rods 23; the upper part of the vertical moving plate vertical displacement screw 21 extends to the upper part of the top plate 22 through the top plate screw abdicating hole 221; upper ends of the pair of vertical moving plate vertical displacement guide rods 23 extend above the top plate 22 through the pair of guide rod passing holes 222 and each form a guide rod limiting screw head 232, and a guide rod limiting screw head nut 2321 for limiting the upper ends of the pair of vertical moving plate vertical displacement guide rods 23 above the top plate 22 is arranged on the guide rod limiting screw head 232; the upper pivot bearing block 2121 is fixed to the top plate 22 by an upper pivot bearing block fixing screw 21211.

Referring to fig. 2 in combination with fig. 1 and 3, the temperature detector mounting base right-left displacement adjusting mechanism 3 includes a mounting bracket right-left displacement screw 31, a longitudinal moving plate 32, and a pair of mounting bracket right-left displacement guide rods 33, a longitudinal moving plate nut 321 is fixed below the right side of the longitudinal moving plate 32 and at a position corresponding to the longitudinal moving plate up-down displacement screw 21, the longitudinal moving plate nut 321 is in threaded engagement with the longitudinal moving plate up-down displacement screw 21, a pair of longitudinal moving plate sliding guide holes 324 is formed at the right side of the longitudinal moving plate 32 and at a position corresponding to the pair of longitudinal moving plate up-down displacement guide rods 23, the pair of longitudinal moving plate sliding guide holes 324 is in sliding engagement with the pair of longitudinal moving plate up-down displacement guide rods 23, a left support plate 322 is fixed at the left side of the longitudinal moving plate 32, and a right support plate 323 is fixed at a position in the middle and at the left side of the longitudinal moving plate up-down displacement screw 21, the left support plate 322 and the right support plate 323 are parallel to each other in the left-right direction, the left end of the mounting bracket left-right displacement screw 31 extends to the left side of the left support plate 322 and is rotatably supported on the left bearing housing 311 by the left bearing 3111, the left end of the mounting bracket left-right displacement screw 31 extends to the left side of the left bearing housing 311 and is fixed with an adjustment knob 312, the left bearing housing 311 is fixed with the left side surface of the left support plate 322, the right end of the mounting bracket left-right displacement screw 31 is formed with a screw rotation support head 313, the screw rotation support head 313 is pivotally engaged with a support head pivot support 3131, the support head pivot support 3131 is fixed with the left side surface of the right support plate 323, a pair of mounting bracket left-right displacement guide rods 33 are respectively located at the front and rear sides of the mounting bracket left-right displacement screw 31, the left ends of the pair of mounting bracket left-right displacement guide rods 33 extend to the left side of the left support plate 322 and are defined on the left support plate 322, the right ends of the left and right displacement guide rods 33 of the pair of mounting brackets are fixed with the right support plate 323; the temperature detector mounting base bracket 4 is coupled to the mounting bracket left and right displacement screw 31 together with (i.e., "carries") the temperature detector mounting base 5.

Continuing with FIG. 2, a left and right displacement screw hole 3221 is defined in the left support plate 322 at a position corresponding to the left and right displacement screw 31 of the mounting bracket, a pair of guide rod passing holes 3222 is defined in the left and right displacement guide rods 33 of the mounting bracket, a pair of left and right displacement guide rod right head fixing screw holes 3231 is defined in the right support plate 323 at a position corresponding to the left and right displacement guide rods 33 of the mounting bracket, a left end of the left and right displacement screw 31 of the mounting bracket extends to the left of the left support plate 322 through the left and right displacement screw hole 3221 of the mounting bracket, a left end of the left and right displacement guide rods 33 of the mounting bracket passes through the pair of guide rod passing holes 3222 and forms a left and right displacement guide rod head 331 of the mounting bracket, and a left screw head 331 of the left and right displacement guide rod 331 of the mounting bracket is provided with a guide rod left head 331 for limiting the left end of the left and right displacement guide rod 33 of the mounting bracket to the left support plate 322 of the mounting bracket The left thread head defines a nut 3311, and right ends of the pair of mounting bracket left and right displacement guide rods 33 are formed with mounting bracket left and right displacement guide rod right thread heads 332, which are screw-fitted into the pair of left and right displacement guide rod right thread head fixing screw holes 3231.

As shown in fig. 2, the left bearing holder 311 is fixed to the left side surface of the left support plate 322 by a set of left bearing holder fixing screws 3112 spaced apart from each other.

Referring to fig. 1 and 2, the aforementioned thermodetector mount bracket 4 includes a left and right mount bracket displacement plate 41, a left and right mount bracket displacement plate coupling nut 42, and a thermodetector mount bracket support plate 43, wherein a left and right mount bracket displacement plate screw-rod relief hole for hollowing the left and right mount bracket displacement plate 41 onto the left and right mount bracket displacement screw rod 31 is formed at a lower portion of the left and right mount bracket displacement plate 41 and at a position corresponding to the left and right mount bracket displacement screw rod 31, a pair of slide holes is formed in the left and right mount bracket displacement plate 41 and at a position corresponding to the left and right mount bracket displacement guide rods 33, the pair of slide holes slidably engages with the pair of left and right mount bracket displacement guide rods 33, the left and right mount bracket displacement plate coupling nut 42 threadedly engages with the left and right mount bracket displacement screw rod 31, and a left side of the left and right mount bracket displacement plate coupling nut 42 is fixed to a right side surface of the left and right mount bracket displacement plate 41 The supporting plate 43 of the temperature detector mounting seat is fixed with the upper part of the left and right displacement plate 41 of the mounting bracket; the temperature detector mounting base 5 is fixed to the temperature detector mounting base support plate 43. Although the slide hole is not shown in the drawings, the slide hole functions similarly to the longitudinal movement plate guide slide hole 324, and thus the understanding of the present invention is not confused.

The applicant needs to state that: while the adjustment knob 213 and the adjustment knob 312 are defined, it is not meant to forego the use of a handwheel or other similar structure. That is, if a handwheel (i.e., an adjusting handwheel) is used instead of the adjusting knob 213 and the adjusting knob 312, respectively, the technical means should be equivalent and still fall within the technical scope of the present disclosure.

When the adjusting knob 213 is rotated clockwise, the adjusting knob 213 drives the vertical moving plate vertical displacement screw 21 to rotate, so that the longitudinal moving plate nut 321 moves upward along with the vertical moving plate vertical displacement screw 21, and the vertical moving plate nut 321 drives the vertical moving plate 32 slidably engaged with the pair of vertical moving plate vertical displacement guide rods 23 through the vertical moving plate guide hole 324 to move upward, so that the whole temperature detector mounting seat left and right displacement adjusting mechanism 3, the temperature detector mounting seat bracket 4 and the temperature detector mounting seat 5 correspondingly move upward. However, when the adjustment knob 213 is rotated counterclockwise, the longitudinal moving plate vertical displacement screw 21 is rotated counterclockwise, and in contrast to the above, the entire temperature detector mount left-right displacement adjustment mechanism 3 is displaced downward correspondingly together with the temperature detector mount bracket 4 and the temperature detector mount 5.

When the adjusting knob 312 is rotated clockwise, the adjusting knob 312 drives the left and right displacement screws 31 of the mounting bracket to rotate, so that the left and right displacement plate interlocking nuts 42 of the mounting bracket displace leftwards along with the left and right displacement screws 31 of the mounting bracket, and the left and right displacement plates 41 of the mounting bracket, which are slidably engaged with the left and right displacement guide rods 33 of the mounting bracket through the slide holes, are driven leftwards by the left and right displacement plates 42 of the mounting bracket, so that the left and right displacement plates 41 of the mounting bracket drive the temperature detector mounting base 5 to correspondingly move leftwards through the temperature detector mounting base supporting plate 43. And vice versa, will not be described in detail.

From the above description, it can be seen that: the temperature detector mounting base 5 can be adjusted by up-down lifting and left-right displacement, so as to meet the requirement of accurate temperature measurement (to be mentioned in detail below).

Referring to fig. 4 in conjunction with fig. 1 to 3, fig. 4 shows a bottom plate support 7 arranged on a floor, the bottom plate 1 is fixed on the upper part of the bottom plate support 7, fig. 4 also shows a kiln 8, and a viewing hole 81 is arranged at the high temperature section corresponding to the kiln 8, wherein the viewing hole 81 can be also called a viewing port, and can be either concave to the furnace wall or convex to the furnace wall or flush with the furnace wall.

In a use state, a temperature detector 6 is provided at a position corresponding to the temperature detector mounting hole 51, and the temperature detector 6 is fixed to the temperature detector mounting base 5 at a position corresponding to the temperature detector fixing screw hole 52 by a temperature detector fixing screw 61.

As shown in fig. 4, the temperature detector 6 corresponds to the midpoint of the observation hole 81 and maintains a reasonable distance required for the process, that is, for the temperature measurement, between the high temperature resistant glass of the observation hole 81 in the use state.

In the present embodiment, the temperature detector 6 is a heat radiation type temperature sensor, and the temperature information of the kiln temperature control area is fed back to the electric control equipment installed in the electric control place in a wireless manner, but the temperature information of the kiln temperature control area may be fed back to the control equipment installed in the electric control place in a wired manner or a wired and wireless manner, and the temperature information may be displayed on the display of the control equipment so as to meet the remote monitoring requirement.

When the condition in the furnace of the high-temperature section of the kiln 8 is observed through the observation hole 81, the temperature detector mounting base 5 and the temperature detector 6 can be moved away from the observation hole 51 by the operation of the vertical displacement adjusting mechanism 2 and/or the horizontal displacement adjusting mechanism 3 of the temperature detector mounting base as described above by the applicant, and then the original position is restored after the observation is completed. The applicant has emphasized that the invention can also be used in other areas of the furnace than the hot sections, i.e. without being restricted to the use of the aforementioned hot section areas.

In conclusion, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the invention task and truly realizes the technical effects of the applicant in the technical effect column.

Claims (10)

1. A kiln temperature detector position adjusting device is characterized by comprising a bottom plate (1); the temperature detector mounting seat up-down displacement adjusting mechanism (2), and the temperature detector mounting seat up-down displacement adjusting mechanism (2) is arranged on one upward side of the bottom plate (1); the left-right displacement adjusting mechanism (3) of the temperature detector mounting seat is connected with the up-down displacement adjusting mechanism (2) of the temperature detector mounting seat in a manner of up-down displacement; the temperature detector mounting seat support (4) is connected with the temperature detector mounting seat left-right displacement adjusting mechanism (3) in a left-right displacement mode; and the temperature detector mounting seat (5) is fixed on the temperature detector mounting seat bracket (4).

2. The kiln temperature detector position adjusting device according to claim 1, characterized in that a top plate connecting plate (11) is fixed on the bottom plate (1) and on the right side of the temperature detector mounting seat up-down displacement adjusting mechanism (2), and the upper part of the temperature detector mounting seat up-down displacement adjusting mechanism (2) is fixed with the upper part of the left side surface of the top plate connecting plate (11); the temperature detector mounting seat left and right displacement adjusting mechanism (3) and the temperature detector mounting seat support (4) connected with the temperature detector mounting seat left and right displacement adjusting mechanism (2) are connected with the temperature detector mounting seat up and down displacement adjusting mechanism (2) in a manner of moving up and down; the upper part of the temperature detector mounting seat (5) is provided with a temperature detector mounting hole (51).

3. The kiln temperature detector position adjusting device according to claim 2, wherein the temperature detector mounting base up-down displacement adjusting mechanism (2) comprises a longitudinal moving plate up-down displacement screw (21), a top plate (22) and a pair of longitudinal moving plate up-down displacement guide rods (23), a screw down pivot support head (211) is formed at a lower portion of the longitudinal moving plate up-down displacement screw (21), the screw down pivot support head (211) is rotatably supported on the bottom plate (1) through a screw down pivot support head support base (2111), an upper portion of the longitudinal moving plate up-down displacement screw (21) extends above the top plate (22) and is rotatably supported on an upper pivot support base (2121) through an upper pivot bearing (212), and the upper pivot support base (2121) is fixed to an upward facing side of the top plate (22), and a top portion of the longitudinal moving plate up-down displacement screw (21) extends above the upper pivot support base (2121) and is fixed thereto An adjusting knob (213) is fixed, the right side surface of the top plate (22) is fixed with the upper part of the left side surface of the top plate connecting plate (11), a pair of longitudinal moving plate up-and-down displacement guide rods (23) respectively correspond to the front and back sides of the longitudinal moving plate up-and-down displacement screw rods (21) and are longitudinally parallel to the longitudinal moving plate up-and-down displacement screw rods (21), the lower ends of the pair of longitudinal moving plate up-and-down displacement guide rods (23) are fixed with the bottom plate (1), and the upper ends extend to the upper part of the top plate (22) and are limited on the top plate (22); the temperature detector mounting seat left and right displacement adjusting mechanism (3) and the temperature detector mounting seat bracket (4) connected with the temperature detector mounting seat left side of the longitudinal moving plate up and down displacement screw (21) are connected with the longitudinal moving plate up and down displacement screw (21) in a moving manner; and temperature detector fixing screw holes (52) are formed in the upper part of the temperature detector mounting seat (5) and around the temperature detector mounting hole (51) at intervals.

4. The kiln temperature detector position adjusting device according to claim 3, characterized in that a pair of upper and lower displacement guide fixing screw holes (12) are formed on the bottom plate (1) at positions corresponding to lower ends of the pair of upper and lower displacement guides (23) of the longitudinal moving plate, and a guide fixing screw head (231) is formed at each lower end of the pair of upper and lower displacement guides (23) of the longitudinal moving plate, the guide fixing screw heads (231) being screw-fixed to the upper and lower displacement guide fixing screw holes (12); a top plate screw rod abdicating hole (221) is formed on the top plate (22) at a position corresponding to the vertical displacement screw rod (21) of the vertical moving plate, and a pair of guide rod passing holes (222) is formed at a position corresponding to the pair of vertical moving plate vertical displacement guide rods (23); the upper part of the vertical moving plate vertical displacement screw rod (21) extends to the upper part of the top plate (22) through the top plate screw rod abdicating hole (221); the upper ends of the pair of vertical moving plate vertical displacement guide rods (23) extend to the upper part of the top plate (22) through the pair of guide rod through holes (222) and are respectively provided with a guide rod limiting screw head (232), and guide rod limiting screw head nuts (2321) for limiting the upper ends of the pair of vertical moving plate vertical displacement guide rods (23) to the upper part of the top plate (22) are arranged on the guide rod limiting screw heads (232); the upper pivot bearing block (2121) is fixed to the top plate (22) by an upper pivot bearing block fixing screw (21211).

5. The kiln temperature detector position adjusting device according to claim 3, characterized in that the temperature detector mounting seat left and right displacement adjusting mechanism (3) comprises a mounting bracket left and right displacement screw (31), a longitudinal moving plate (32) and a pair of mounting bracket left and right displacement guide rods (33), a longitudinal moving plate nut (321) is fixed below the right side of the longitudinal moving plate (32) and at a position corresponding to the longitudinal moving plate up and down displacement screw (21), the longitudinal moving plate nut (321) is in threaded engagement with the longitudinal moving plate up and down displacement screw (21), a pair of longitudinal guide holes (324) is provided at the right side of the longitudinal moving plate (32) and at a position corresponding to the pair of longitudinal moving plate up and down displacement guide rods (23), the pair of longitudinal guide plate sliding holes (324) is in sliding engagement with the pair of longitudinal moving plate up and down displacement guide rods (23), a left support plate (322) is fixed at the left side of the longitudinal moving plate (32), a right support plate (323) is fixed at the middle part and at the left side of the longitudinal moving plate up-down displacement screw (21), the left support plate (322) and the right support plate (323) are parallel left and right, the left end of the mounting bracket left-right displacement screw (31) extends to the left side of the left support plate (322) and is rotatably supported on a left bearing seat (311) through a left bearing (3111), the left end part of the mounting bracket left-right displacement screw (31) extends to the left side of the left bearing seat (311) and is fixed with an adjusting knob (312), the left bearing seat (311) is fixed with the left side surface of the left support plate (322), the right end of the mounting bracket left-right displacement screw (31) is formed with a screw rotation support head (313), the screw rotation support head (313) is pivotally matched with the support head pivot support seat (3131), the support head pivoting support (3131) is fixed with the left side surface of the right support plate (323), a pair of mounting bracket left and right displacement guide rods (33) are respectively positioned at the front and rear sides of the mounting bracket left and right displacement screw rod (31), the left ends of the pair of mounting bracket left and right displacement guide rods (33) extend to the left side of the left support plate (322) and are limited on the left support plate (322), and the right ends of the pair of mounting bracket left and right displacement guide rods (33) are fixed with the right support plate (323); the temperature detector mounting seat support (4) and the temperature detector mounting seat (5) are connected with the left and right displacement screw rod (31) of the mounting support.

6. The kiln thermodetector position adjustment device according to claim 5, wherein a mounting bracket left and right displacement screw abdicating hole (3221) is opened on the left support plate (322) at a position corresponding to the mounting bracket left and right displacement screw (31), a pair of guide rod passing holes (3222) is opened at a position corresponding to the pair of mounting bracket left and right displacement guide rods (33), a pair of left and right displacement guide rod right screw head fixing threaded holes (3231) is opened on the right support plate (323) at a position corresponding to the pair of mounting bracket left and right displacement guide rods (33), a left end of the mounting bracket left and right displacement screw (31) extends to the left side of the left support plate (322) through the mounting bracket left and right displacement screw abdicating hole (3221), and a left end of the pair of mounting bracket left and right displacement guide rods (33) passes through the pair of guide rod passing holes (3222) and constitutes a mounting bracket left and right displacement guide rod left screw head (3222) 331) The left screw head limiting nut (3311) used for limiting the left ends of the left and right displacement guide rods (33) of the pair of mounting brackets on the left support plate (322) is screwed on the left screw head (331) of the left and right displacement guide rods of the mounting brackets, the right ends of the left and right displacement guide rods (33) of the pair of mounting brackets form a right screw head (332) of the left and right displacement guide rods of the mounting brackets, and the right screw head (332) of the left and right displacement guide rods of the pair of mounting brackets is in threaded fit with the right screw head fixing threaded holes (3231) of the left and right displacement guide rods.

7. The kiln temperature detector position adjustment device as claimed in claim 5, characterized in that the left bearing block (311) is fixed to the left side surface of the left support plate (322) by a set of left bearing block fixing screws (3112) distributed at intervals.

8. The kiln temperature detector position adjusting device according to claim 5, characterized in that the temperature detector mounting seat bracket (4) comprises a mounting bracket left and right displacement plate (41), a mounting bracket left and right displacement plate linkage nut (42) and a temperature detector mounting seat support plate (43), a mounting bracket left and right displacement plate screw abdicating hole for empty fitting of the mounting bracket left and right displacement plate (41) onto the mounting bracket left and right displacement screw (31) is opened at the lower part of the mounting bracket left and right displacement plate (41) and at the position corresponding to the mounting bracket left and right displacement screw (31), a pair of slide holes is opened on the mounting bracket left and right displacement plate (41) and at the position corresponding to the pair of mounting bracket left and right displacement guide rods (33), the pair of slide holes is slidably fitted with the pair of mounting bracket left and right displacement guide rods (33), a mounting bracket left and right displacement plate linkage nut (42) is in threaded fit with the mounting bracket left and right displacement screw (31), the left side of the mounting bracket left and right displacement plate linkage nut (42) is fixed with the right side surface of the mounting bracket left and right displacement plate (41), and a temperature detector mounting seat supporting plate (43) is fixed with the upper part of the mounting bracket left and right displacement plate (41); the temperature detector mounting seat (5) is fixed on the temperature detector mounting seat supporting plate (43).

9. The kiln temperature detector position adjustment device according to claim 3, characterized in that in the use state, a temperature detector (6) is provided at a position corresponding to the temperature detector mounting hole (51), and the temperature detector (6) is fixed to the temperature detector mounting seat (5) at a position corresponding to the temperature detector fixing screw hole (52) by a temperature detector fixing screw (61).

10. The kiln temperature detector position adjusting device according to claim 9, characterized in that the temperature detector (6) is a heat radiation type temperature sensor and feeds back the temperature information of the kiln temperature control area to the electric control equipment arranged at the electric control place in a wireless and/or wired manner without interruption.

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