CN208313382U - Metal level manual measurement device - Google Patents

Abstract

The utility model relates to a manual measuring device for glass liquid level. The device includes: a measuring mechanism, including a temperature probe head for direct contact with the glass liquid surface; a lifting mechanism, connected with the measuring probe to adjust the distance between the temperature probe head and the glass liquid surface; a data reading mechanism, including Opposite to the set ruler and pointer, the pointer is connected with the temperature probe, and the distance between the temperature probe and the glass liquid surface is displayed on the ruler through the pointer. First adjust the position of the temperature detector head through the lifting mechanism, so that the temperature detector head is at the initial position, at this time, the pointer and the first scale of the ruler are facing; When the head is in contact with the liquid glass surface, at this moment, the pointer and the second scale of the ruler are exactly opposite. In the above device, the height data of the glass liquid level can be directly read out through the pointer and the ruler, and the method of acquiring the height data of the glass liquid level is very simple.

Description

Metal level manual measurement device

Technical field

The utility model relates to field of glass production technology, more particularly to a kind of metal level manual measurement device.

Background technique

In the production process of float glass, in glass melter, glass raw material is glass metal by high-temperature fusion, wherein The stability of the liquid level of glass metal is most important to the production of float glass.In the production process of float glass, timing is needed The liquid level of measurement glass metal can adjust the liquid level of glass metal if the liquid level of glass metal fluctuates in time, with Ensure steady production.In the production process of float glass, the instrument for measuring liquid level mainly has two major classes, and one kind is electronics Liquid level indicator, one kind are manual liquid level indicators.

Wherein, the principle of electronic liquid level instrument are as follows: electronic liquid level instrument emits light beam to metal level, and metal level is received through glass The reflected the reflected beams of glass liquid level, so as to obtain liquid level data according to the speed of beam propagation and time.It is quasi- True liquid level data are the foundations of level control, however electronic liquid level instrument leads to the electricity in it vulnerable to Effect of Hyperthermic Environment It is inaccurate to lead to measurement data for gas component wear, and hot environment also has an impact to the spread speed of light beam, to a certain degree On, it also will affect the accuracy of measurement data.

Manual liquid level indicator has higher accuracy relative to electronic liquid level instrument.Traditional manual liquid level indicator generally includes to pacify Loading board and the high temperature resistant being arranged on mounting plate visit silk, when detecting, mounting plate are set on the end face of the open end of melting furnaces, And make high temperature resistant visit silk and protrude into glass metal, then removing mounting plate, (high temperature resistant, which visits the part that silk protrudes into glass metal, to glue After having glass metal, mounting plate to be removed, being sticked to the glass metal that high temperature resistant is visited on silk can solidify), resistance to height is measured with stainless steel ruler Silk is far from mounting plate and the side for not being stained with glass metal and glass plate are close to the distance between the side of glass metal for temperature spy, can obtain Obtain liquid level data.The manual liquid level indicator needs to obtain liquid level data using stainless steel ruler, obtains liquid level The mode of data is complicated, not intuitively.

Utility model content

Based on this, it is necessary to provide a kind of relatively simple metal level manual measurement device of acquisition liquid level data.

A kind of metal level manual measurement device, comprising:

Measuring mechanism, including the temperature sensing head for directly being contacted with metal level；

Elevating mechanism is connect with the measuring probe, to adjust between the temperature sensing head and the metal level Distance；And

Data reading mechanisms, scale and pointer including face setting, the pointer are connect with the temperature sensing head, institute The distance between temperature sensing head and the metal level is stated to be shown on the scale by the pointer.

When obtaining the altitude information of metal level, the position that elevating mechanism adjusts temperature sensing head is first passed through, so that warm Degree detecting head is located at initial position, at this point, the first scale face of pointer and scale；Then temperature is controlled by elevating mechanism to visit Gauge head is mobile towards metal level, and in the process of moving, the temperature that temperature sensing head detects gradually increases, and works as temperature sensing When the temperature that head detects is the temperature of glass metal, temperature sensing head is contacted with metal level, at this point, the second of pointer and scale Scale face.The altitude information of metal level can be obtained by the second scale and the first scale.It is manual in above-mentioned metal level In measuring device, the altitude information of metal level can be read directly out by pointer and scale, obtain the height of metal level The mode of data is very simple.

The elevating mechanism includes pedestal, elevating lever and swingle in one of the embodiments, is opened up on the pedestal There are first through hole and the second through-hole, the extending direction of the first through hole is vertical with the extending direction of second through-hole, described The outer wall of elevating lever and the inner wall of the first through hole are equipped with screw thread, and the elevating lever is arranged in the first through hole, and It is connect with the inner thread of the first through hole, the swingle is arranged on second through-hole, and can be logical described second It is rotated in hole around the central axis of itself, the outer wall of the swingle is equipped with screw thread, and is threadedly coupled with the elevating lever；

Wherein, described elevating lever one end is connect with the temperature sensing head, when rotating the swingle, the elevating lever Drive the temperature sensing head rest mobile close or remote from the metal level.

The elevating mechanism further includes handle in one of the embodiments, and the handle includes vertically disposed cross bar And vertical bar, the vertical bar are connect with the swingle, the cross bar is used to hold for manpower.

The scale is set to the pedestal on the side of the temperature sensing head in one of the embodiments, and It is arranged with the elevating lever parallel interval.

The pointer is set on the one end of the transverse slat far from the riser in one of the embodiments, the pointer Including crosspiece connected vertically and perpendicular section, the perpendicular section is connect with the transverse slat, and the perpendicular section and the scale parallel interval, The crosspiece is vertical with the scale, and the crosspiece, between the scale and the perpendicular section, the crosspiece is close to described One end of scale is equipped with the first inclined surface, and one end that the perpendicular section is connect with the transverse slat is provided with the second inclined surface.

The temperature sensing head can also be rotated around the elevating mechanism in one of the embodiments, so that the temperature Detecting head is spent to be located above the metal level or remove above the metal level.

The temperature sensing head can also be along vertical with the lifting direction of the temperature sensing head in one of the embodiments, Direction move back and forth, with the region face with the metal level on from edge to center position.

The measuring mechanism further includes connector in one of the embodiments, and the connector includes connected vertically Transverse slat and riser, the temperature sensing head are set to the one end of the riser far from the transverse slat；

The metal level manual measurement device further includes sliding equipment, and the sliding equipment includes sliding shoe, the cunning Motion block is set on the elevating mechanism, and the sliding shoe offers sliding through hole, and the transverse slat is worn far from one end of the riser In the sliding through hole, and the transverse slat can move back and forth in the sliding through hole.

The inner wall of the sliding through hole is equipped with sliding rail in one of the embodiments, offers sliding slot on the transverse slat, The sliding slot is matched with the sliding rail；And/or

The sliding equipment further includes the column that is screwed, and the sliding shoe offers far from the surface of the elevating mechanism One fixation hole, first fixation hole are connected to the sliding through hole, and it is fixed that second is offered on the inner wall of the sliding through hole Hole, second fixation hole and the first fixation hole face offer multiple connecting holes, multiple connections on the transverse slat Hole is intervally arranged along the extending direction of the transverse slat, one end of the column that is screwed successively with first fixation hole and described After connecting hole is threadedly coupled, it is threadedly coupled with second fixation hole

The metal level manual measurement device further includes rotating mechanism in one of the embodiments, the whirler Structure includes pedestal and rotary shaft, and the pedestal is set on the elevating mechanism, and the rotary shaft is set to the pedestal far from described On the side of elevating mechanism, the sliding shoe and the rotary shaft are rotatablely connected.

Detailed description of the invention

Fig. 1 is the structural schematic diagram for the metal level manual measurement device that an embodiment of the present invention provides；

Fig. 2 is the structural schematic diagram of the data reading mechanisms in Fig. 1.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms It realizes, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes to the utility model The understanding of disclosure is more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein includes Any and all combinations of one or more related listed items.

As shown in Figures 1 and 2, the metal level manual measurement device 10 that an embodiment of the present invention provides, the glass Liquid level manual measurement device 10 is used to obtain the altitude information of metal level 20.Specifically, in the present embodiment, metal level 20 For the metal level of the melting furnaces 30 in floatation glass production line.

Metal level manual measurement device 10 includes measuring mechanism 100, elevating mechanism 200 and data reading mechanisms 300. Measuring mechanism 100 includes the temperature sensing head 110 directly contacted for metal level 20.Elevating mechanism 200 and temperature sensing head 110 connections, control temperature sensing head 110 is gone up and down, to adjust the distance between temperature sensing head 110 and metal level 20.Number It include the scale 310 and pointer 320 of face setting according to reading mechanism 300, pointer 320 is connect with temperature sensing head 110, and temperature is visited The distance between gauge head 110 and metal level 20 are shown on scale 310 by pointer 320.

When obtaining the altitude information of metal level 20, the position that elevating mechanism 200 adjusts temperature sensing head 110 is first passed through It sets, so that temperature sensing head 110 is located at initial position, at this point, the first scale face of pointer 320 and scale 310；Then pass through Elevating mechanism 200 controls temperature sensing head 110 towards the movement of metal level 20, and in the process of moving, temperature sensing head 110 is visited The temperature measured gradually increases, when the temperature that temperature sensing head 110 detects is the temperature of glass metal, temperature sensing head 110 It is contacted with metal level 20, at this point, the second scale face of pointer 320 and scale 310.It is by the second scale and the first scale The altitude information of metal level 20 can be obtained.And the precision based on pointer 320 and scale 310, according to pointer 320 and scale The error of the height of 310 metal levels 20 read, can control within 0.5mm, so that the height of metal level 20 Data are more acurrate.

In above-mentioned metal level manual measurement device 10, glass be can be read directly out by pointer 320 and scale 310 The altitude information of liquid level 20, the mode for obtaining the altitude information of metal level 20 are very simple.And it when temperature sensing head 110 and melts The end face of the open end of kiln 30 is initial position, and when the first scale is zero graduation, the second scale is metal level 20 Altitude information, in this way, the mode for obtaining the altitude information of metal level 20 is simpler.

In the present embodiment, measuring mechanism 100 further includes connector 120.Connector 120 includes transverse slat connected vertically 122 and riser 124, the one end of transverse slat 122 far from riser 124 connect with elevating mechanism 200.

In the present embodiment, elevating mechanism 200 includes pedestal 210, elevating lever 220, swingle 230 and handle 240.Pedestal First through hole 212 and the second through-hole 214, the extension of the extending direction of first through hole 212 and the second through-hole 214 are offered on 210 Direction is vertical.The outer wall of elevating lever 212 and the inner wall of first through hole 212 are equipped with screw thread, and elevating lever 220 is arranged in first through hole On 212, and it is connect with the inner thread of first through hole 212.Swingle 230 is arranged on the second through-hole 214, and can be logical second It is rotated in hole 214 around the central axis of itself, the outer wall of swingle 230 is equipped with screw thread, and is threadedly coupled with elevating lever 220.Its In, 220 one end of elevating lever is connect with temperature sensing head 110, and when rotating rotary rods 230, elevating lever 220 drives temperature sensing head 110 is mobile close to or far from metal level 20.Specifically, in the present embodiment, elevating mechanism 200 is screw lifter.

In the present embodiment, handle 240 includes vertically disposed cross bar 242 and vertical bar 244, vertical bar 244 and swingle 230 Connection, cross bar 242 are used to hold for manpower.The very convenient manual operation of handle 240 is set.It is appreciated that handle 240 can save When slightly, at this point it is possible to using spanner come so that swingle 230 rotates.

In the present embodiment, scale 310 is set to pedestal 210 on the side of temperature sensing head 110, and and elevating lever The setting of 220 parallel intervals.It is appreciated that in other embodiments, scale 310 can not also be set on pedestal 210, it can be direct On ground, as long as can guarantee that scale 310 is fixed.

Further, as shown in Figures 1 and 2, in the present embodiment, pointer 320 is set to one of transverse slat 122 far from riser 124 On end.Pointer 320 includes crosspiece 322 connected vertically and perpendicular section 324, and perpendicular section 324 is connect with transverse slat 122, and perpendicular section 324 and mark 310 parallel interval of ruler, crosspiece 322 is vertical with scale 310, and crosspiece 322 is between scale 310 and perpendicular section 324, crosspiece 322 The first inclined surface 3222 is equipped with close to one end of scale 310.In this way, the reading for data of being not only more convenient for, but also can reduce The quality of pointer 320.Further, in the present embodiment, it erects one end that section 324 is connect with transverse slat 122 and is provided with the second inclined surface 3242.In this way, the quality of pointer 320 can be reduced.

Further, as shown in Figure 1, in the present embodiment, temperature sensing head 110 can also be rotated freely around elevating mechanism 200 (360 ° of rotations), so that temperature sensing head 110 is located at 20 top of metal level or removes above metal level 20.When being not required to When measuring, so that temperature sensing head 110 is moved to outside melting furnaces 30 above metal level 20, keep stand-by；When needing to measure When, so that temperature sensing head 110 is moved to outside melting furnaces 30 above metal level 20.

In the present embodiment, metal level manual measurement device 10 further includes rotating mechanism 400, and rotating mechanism 400 includes Pedestal 410 and rotary shaft (not shown), pedestal 410 are set on elevating lever 220, and rotary shaft is set to pedestal 410 far from elevating lever 220 Side on, transverse slat 122 and rotary shaft are rotatablely connected.

Further, in the present embodiment, temperature sensing head 110 can also be vertical along the lifting direction with temperature sensing head 310 Direction move back and forth, with the region face with metal level 20 on from edge to center position.In this way, available not same district The altitude information of the liquid level in domain, the altitude information of the multiple spot liquid level of comprehensive each region, can more accurately react metal level 20 Elevation information.

In the present embodiment, metal level manual measurement device 10 further includes sliding equipment 500, and sliding equipment 500 includes Sliding shoe 510 and the column 520 that is screwed.

Sliding shoe 510 is set on pedestal 410, and is rotatablely connected with rotary shaft.Sliding shoe 510 offers sliding through hole 512, Transverse slat 122 is arranged in sliding through hole 512 far from one end of riser 124, and transverse slat 122 can move back and forth in sliding through hole 512 It is dynamic.Specifically, in the present embodiment, the inner wall of sliding through hole 512 is equipped with sliding rail (not shown), offers cunning on transverse slat 122 Slot (not shown), sliding slot are matched with sliding rail.

Sliding shoe 510 offers the first fixation hole 514 far from the surface of elevating lever 220, and the first fixation hole 514 and sliding are logical Hole 512 is connected to, and offers the second fixation hole (not shown), the second fixation hole and the first fixation hole on the inner wall of sliding through hole 512 514 faces.Multiple connecting hole (not shown) are offered on transverse slat 122, multiple connecting holes are arranged along the extending direction interval of transverse slat 122 Cloth.Be screwed column 520 one end be successively threadedly coupled with the first fixation hole 514 and connecting hole after, with the second fixation hole screw thread Connection.It is appreciated that in other embodiments, one end of the column 520 that is screwed can also successively with the first fixation hole 514, even After connecing hole and the threaded connection of the second fixation hole, it is threadedly coupled with pedestal 410.

Above-mentioned metal level manual measurement device 10 will not be damaged relative to electronic liquid level instrument by variation of ambient temperature, energy Enough accurately feedback real liquid surface data, data error caused by avoiding electronic liquid level instrument from damaging or is affected by environment, Neng Goujing Locating tab assembly.And above-mentioned 10 flexible operation of metal level manual measurement device, accurate positioning is reliable, and manufacturing cost is not high, installs It is easy, is easy to operate.In addition, above-mentioned metal level manual measurement device 10 has relative to traditional manual liquid level indicator obtains liquid The relatively easy feature of face altitude information.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a glass liquid level manual measuring device, is characterized in that, comprises: Measuring mechanism, including a temperature probe for direct contact with the glass surface; an elevating mechanism connected to the temperature probe to adjust the distance between the temperature probe and the glass liquid surface; and A data reading mechanism, including a scale and a pointer that are set in the opposite direction, the pointer is connected with the temperature detection head, and the distance between the temperature detection head and the glass liquid surface is displayed on the scale through the pointer . 2 . The glass liquid level manual measuring device according to claim 1 , wherein the lifting mechanism comprises a base, a lifting rod and a rotating rod, and the base is provided with a first through hole and a second through hole. The extension direction of the first through hole is perpendicular to the extension direction of the second through hole, the outer wall of the lifting rod and the inner wall of the first through hole are both provided with threads, and the lifting rod is penetrated through the first through hole. a through hole and is threadedly connected with the inner wall of the first through hole, the rotating rod is inserted through the second through hole, and can rotate around its central axis in the second through hole, The outer wall of the rotating rod is provided with threads and is threadedly connected with the lifting rod; Wherein, one end of the lifting rod is connected with the temperature detection head, and when the rotating rod is rotated, the lifting rod drives the temperature detection head to move closer to or away from the glass liquid surface. 3 . The glass liquid level manual measuring device according to claim 2 , wherein the lifting mechanism further comprises a handle, and the handle comprises a vertical bar and a vertical bar, the vertical bar and the rotating bar are 3 . connected, and the cross bar is used for human hands to hold. 4 . The glass liquid level manual measuring device according to claim 2 , wherein the scale is arranged on a side of the base close to the temperature probe, and is arranged in parallel with the lifting rod. 5 . 5 . The glass liquid level manual measuring device according to claim 4 , wherein the measuring mechanism further comprises a connecting piece, and the connecting piece comprises a horizontal plate and a vertical plate connected vertically, and the pointer is provided on the On one end of the horizontal plate away from the vertical plate, the pointer includes a horizontal section and a vertical section that are vertically connected, the vertical section is connected with the horizontal plate, and the vertical section is spaced parallel to the scale, and the horizontal section is parallel to the scale. The section is perpendicular to the scale, and the horizontal section is located between the scale and the vertical section. One end of the horizontal section close to the scale is provided with a first inclined surface, and the vertical section is connected to the horizontal plate. One end of the connection is provided with a second inclined surface. 6. The glass liquid level manual measuring device according to claim 1, wherein the temperature detection head can also be rotated around the lifting mechanism, so that the temperature detection head is located above the glass liquid level or from Remove above the glass level. 7 . The glass liquid level manual measuring device according to claim 1 , wherein the temperature probe head can also move back and forth in a direction perpendicular to the lifting direction of the temperature probe head, so as to be consistent with the glass liquid level. 8 . The area in the direction from the edge to the center is right. 8 . The glass liquid level manual measuring device according to claim 7 , wherein the measuring mechanism further comprises a connecting piece, and the connecting piece comprises a horizontal plate and a vertical plate that are vertically connected, and the temperature detecting head is arranged on the an end of the vertical plate away from the horizontal plate; The glass liquid level manual measuring device further includes a sliding mechanism, the sliding mechanism includes a sliding block, the sliding block is arranged on the lifting mechanism, the sliding block is provided with a sliding through hole, and the horizontal plate is far away from the One end of the vertical plate passes through the sliding through hole, and the horizontal plate can move back and forth in the sliding through hole. 9 . The glass liquid level manual measuring device according to claim 8 , wherein a sliding rail is provided on the inner wall of the sliding through hole, a sliding groove is provided on the horizontal plate, and the sliding groove is connected with the sliding groove. 10 . slide rails; and/or The sliding mechanism further comprises a threaded fixing column, a surface of the sliding block away from the lifting mechanism is provided with a first fixing hole, the first fixing hole is communicated with the sliding through hole, and the inner wall of the sliding through hole is provided with a first fixing hole. A second fixing hole is opened, the second fixing hole is opposite to the first fixing hole, a plurality of connecting holes are opened on the horizontal plate, and the plurality of connecting holes are spaced along the extending direction of the horizontal plate Arrangement, one end of the threaded fixing column is threadedly connected with the first fixing hole and the connecting hole in sequence, and then is threadedly connected with the second fixing hole. 10. The glass liquid level manual measuring device according to claim 9, characterized in that, the glass liquid level manual measuring device further comprises a rotating mechanism, and the rotating mechanism comprises a base and a rotating shaft, and the base is provided on the pedestal. On the lifting mechanism, the rotating shaft is arranged on a side of the base away from the lifting mechanism, and the sliding block is rotatably connected with the rotating shaft.