CN213416665U - Frequency conversion energy-saving toughened glass homogenizing furnace - Google Patents

Abstract

The utility model discloses an energy-conserving type toughened glass homogeneity stove of frequency conversion, the induction cooker comprises a cooker bod, sliding connection has the feed plate on the furnace body, the bracing piece that two symmetries of fixedly connected with set up on the top lateral wall of feed plate, two the other end of bracing piece is fixed with the fixed plate, rotate on the fixed plate and be connected with the blowing board that two mutual symmetries set up, two a plurality of blow-off tanks, each have been seted up to the last arrangement of blowing board be provided with stabilising arrangement on the blow-off tank. The utility model relates to a glass homogeneity stove technical field can carry out the in-process that homogeneity was handled at glass and form glass's stabilising arrangement, prevents that glass on the blowing board from taking place to empty along with the shake of feed plate, causes glass's damage, can also adjust the inclination between two blowing boards, makes the blowing board adapt to placing of more not co-altitude glass, improves the practicality of homogeneity stove.

Description

Frequency conversion energy-saving toughened glass homogenizing furnace

Technical Field

The utility model relates to a glass homogeneity stove technical field specifically is an energy-conserving type of frequency conversion toughened glass homogeneity stove.

Background

The toughened glass homogenizing furnace is the finished product check out test set of toughened glass, get into the homogenizing furnace after glass tempering process is accomplished, through the hot dipping principle of homogenizing furnace, detonate the test and eliminate remaining nickel sulfide, will have "spontaneous explosion" hidden danger and detonate in advance at the test procedure promptly the toughened glass that the glass internal stress is uneven, thereby "spontaneous explosion" takes place once more after having avoided the toughened glass installation, the toughened glass qualification rate after the homogeneity will promote greatly, thereby the fail safe nature of building toughened glass has been improved.

When the glass is homogenized, the glass to be treated is placed in the feeding groove on the feeding plate of the glass, the glass of the feeding plate is easy to shake in the process of entering and exiting the homogenizing furnace, but the feeding groove on the existing frequency conversion energy-saving toughened glass homogenizing furnace is short of a glass stabilizing device, and the glass on the feeding plate is toppled along with the shaking of the feeding plate, so that the glass is damaged.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-saving toughened glass homogeneity stove of frequency conversion to solve the storage trough on the glass homogeneity stove on the existing market that above-mentioned background art provided and lack glass's stabilising arrangement, glass on the blowing board easily takes place the shake at the in-process of business turn over homogeneity stove and causes glass to empty the problem of damage.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a frequency conversion energy-saving type toughened glass homogenizing furnace comprises a furnace body, wherein a feeding plate is connected onto the furnace body in a sliding manner, two symmetrically arranged supporting rods are fixedly connected onto the side wall of the top of the feeding plate, a fixing plate is fixed to the other ends of the two supporting rods, two symmetrically arranged discharging plates are rotatably connected onto the fixing plate, a plurality of discharging grooves are formed in the two discharging plates in an arrayed manner, each discharging groove is provided with a stabilizing device, each stabilizing device comprises a plurality of first springs fixed onto the side wall of the discharging groove, a sliding plate is fixed onto the top of each first spring, two symmetrically arranged extruding plates are fixed onto the side wall of the top of the sliding plate, circular grooves are symmetrically formed in the inner wall of each discharging groove, fixing rods are fixed onto the circular grooves, sliding rods are connected onto the fixing rods in a sliding manner, and extruding blocks are fixed onto the other ends of the sliding rods, and a second spring is fixed on the inner wall of the circular groove, and the other end of the second spring is fixed with the side wall of the extrusion block.

Preferably, two there are two symmetrical adjusting levers that set up, two through slider sliding connection on the relative lateral wall of blowing board be provided with adjusting device on the adjusting lever, adjusting device includes sliding connection adjusting box on two adjusting lever lateral walls, two the one end that the adjusting lever is located the adjusting box is fixed with the rack, it is connected with the pivot to rotate on the lateral wall of adjusting box, the one end that the pivot is located the adjusting box is fixed with the gear, just gear and two rack intermeshing set up, the other end of pivot is fixed with the handle.

Preferably, the sliding device comprises sliding grooves fixedly formed in the opposite side walls of the two material discharging plates, the two sliding grooves are connected with sliding blocks matched with the sliding grooves in a sliding mode, and the tops of the two sliding blocks are fixed to the side walls of the two adjusting rods.

Preferably, a protective sponge is fixedly embedded in the side wall of the handle.

Preferably, the gear and rack meshing transmission ratio is 1: 2.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through the arrangement of the sliding plate, the extrusion blocks, the extrusion plates and other components, the glass to be homogenized is placed in the material discharge groove, the sliding plate moves downwards under the action of gravity, the extrusion plates do not abut against the extrusion blocks any more, the two extrusion blocks move relatively under the action of the second spring and abut against the side walls of the glass to form a glass stabilizing device, and the glass on the material discharge plate is prevented from falling down along with the shaking of the material discharge plate to cause the damage of the glass;

2. through the setting of parts such as gear, rack, handle, rotate the handle, drive two adjusting levers and carry out the motion of being close to each other or keeping away from each other with two blowing boards, the inclination between two blowing boards of adjustment makes the blowing board adapt to placing of more not co-altitude glass, improves the practicality of homogeneity stove.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of a variable-frequency energy-saving type toughened glass homogenizing furnace provided by the present invention;

FIG. 2 is a schematic view of an adjustment structure of the variable-frequency energy-saving toughened glass homogenizing furnace provided by the present invention;

FIG. 3 is a schematic view of the internal structure of a stabilizing device of the variable frequency energy-saving type homogenizing furnace for toughened glass;

fig. 4 is the schematic diagram of the internal structure of the adjustment structure of the frequency conversion energy-saving toughened glass homogenizing furnace provided by the utility model.

In the figure: 1. a furnace body; 2. a feeding plate; 3. a support bar; 4. a fixing plate; 5. a material placing plate; 6. a discharging groove; 7. a first spring; 8. a sliding plate; 9. a pressing plate; 10. a circular groove; 11. Fixing the rod; 12. a slide bar; 13. extruding the block; 14. a second spring; 15. a sliding groove; 16. An adjusting lever; 17. an adjustment box; 18. a rack; 19. a rotating shaft; 20. a gear; 21. a handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-4, a frequency conversion energy-saving type toughened glass homogenizing furnace comprises a furnace body 1, a feeding plate 2 is connected on the furnace body 1 in a sliding manner, two symmetrically arranged supporting rods 3 are fixedly connected on the side wall of the top of the feeding plate 2, a fixing plate 4 is fixed at the other end of the two supporting rods 3, two mutually symmetrically arranged discharging plates 5 are rotatably connected on the fixing plate 4, a plurality of discharging grooves 6 are arranged on the upper rows of the two discharging plates 5, a stabilizing device is arranged on each discharging groove 6 and comprises a plurality of first springs 7 fixed on the side wall of the discharging groove 6, a sliding plate 8 is fixed at the top of each first spring 7, two symmetrically arranged extrusion plates 9 are fixed on the side wall of the top of the sliding plate 8, circular grooves 10 are symmetrically arranged on the inner wall of the discharging groove 6, fixing rods 11 are fixed on the circular grooves 10, and sliding rods 12 are slidably connected on the, the other end of the sliding rod 12 is fixed with an extrusion block 13, the inner wall of the circular groove 10 is fixed with a second spring 14, the other end of the second spring 14 is fixed with the side wall of the extrusion block 13, the opposite side walls of the two discharging plates 5 are connected with two symmetrically arranged adjusting rods 16 in a sliding way through a sliding device, the sliding device comprises sliding grooves 15 fixedly arranged on the opposite side walls of the two discharging plates 5, the two sliding grooves 15 are connected with sliding blocks matched with the sliding grooves in a sliding way, the tops of the two sliding blocks are fixed with the side walls of the two adjusting rods 16, mainly in order to enable the two adjusting rods 16 to slide on the two discharging plates 5 more stably, the two adjusting rods 16 are provided with adjusting devices, each adjusting device comprises an adjusting box 17 slidably connected on the side walls of the two adjusting rods 16, one end of the two adjusting rods 16 positioned in the adjusting box 17 is fixed with a rack 18, and the side walls of the adjusting box 17 are, the gear 20 is fixed at one end of the rotating shaft 19, which is positioned in the adjusting box 17, the gear 20 and the two racks 18 are meshed with each other, the meshing transmission ratio of the gear 20 and the racks 18 is 1:2, the two adjusting rods 16 can move more quickly mainly in the rotating process of the rotating shaft 19, the operation efficiency is improved, the handle 21 is fixed at the other end of the rotating shaft 19, the inclination angle between the two material placing plates 5 is adjusted mainly conveniently, the material placing plates 5 are suitable for placing more glass with different heights, the practicability of the homogenizing furnace is improved, the protective sponge is fixedly embedded on the side wall of the handle 21, and the comfort of an operator in the adjusting process is improved mainly.

In the utility model, when the glass needs to be homogenized, the actual height of the glass needing to be homogenized is confirmed, when the glass is prevented from being placed on the two material placing plates 5, the inclination angle between the two material placing plates 5 is larger, so that the glass placed on the two material placing plates 5 has interference, after the actual height of the glass is confirmed, when the angle adjustment of the two material placing plates 5 is needed, the handle 21 is rotated to drive the gear 20 to be meshed with the rack 18 for rotation, the two adjusting rods 16 are driven to move away from or close to each other under the transmission action of the rack 18 and the gear 20, the inclination angle between the two material placing plates 5 is adjusted, so that the material placing plates 5 are suitable for placing more glass with different heights, the practicability of the homogenizing furnace is improved, after the adjustment is completed, the glass needing to be homogenized is placed in the material placing groove 6, each sliding plate 8 is driven to move downwards under the action of gravity, in the process that each sliding plate 8 moves downwards, each extrusion plate 9 no longer offsets with extrusion block 13, each extrusion block 13 is leaned on and moved towards the glass lateral wall and offsets with it under the effect of second spring 14, form glass's protector, prevent that the glass on the feeding plate 5 from toppling over along with the shake of feeding plate, cause glass's damage, after the homogenization treatment is accomplished, upwards stimulate each glass, sliding plate 8 moves upwards under the effect of first spring 7, drive each extrusion plate 9 and shift up and offset with the lateral wall of each extrusion block 13, each extrusion block 13 income is in circular slot 10 under the effect of force, make things convenient for next use and operation.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. The variable-frequency energy-saving toughened glass homogenizing furnace comprises a furnace body (1) and is characterized in that a feeding plate (2) is connected onto the furnace body (1) in a sliding manner, two symmetrically arranged supporting rods (3) are fixedly connected onto the side wall of the top of the feeding plate (2), a fixing plate (4) is fixed to the other end of each of the two supporting rods (3), two symmetrically arranged discharging plates (5) are rotatably connected onto the fixing plate (4), a plurality of discharging grooves (6) are formed in the two discharging plates (5) in an arranged manner, a stabilizing device is arranged on each discharging groove (6) and comprises a plurality of first springs (7) fixed onto the side wall of the discharging groove (6), a sliding plate (8) is fixed onto the top of each first spring (7), two symmetrically arranged extrusion plates (9) are fixed onto the side wall of the top of each sliding plate (8), circular slot (10) have been seted up to the symmetry on the inner wall of blowing groove (6), be fixed with dead lever (11) on circular slot (10), sliding connection has slide bar (12) on dead lever (11), the other end of slide bar (12) is fixed with extrusion piece (13), be fixed with second spring (14) on the inner wall of circular slot (10), the other end of second spring (14) is fixed mutually with the lateral wall of extrusion piece (13).

2. The variable-frequency energy-saving type toughened glass homogenizing furnace as claimed in claim 1, wherein two symmetrically arranged adjusting rods (16) are slidably connected to opposite side walls of the two material placing plates (5) through a sliding device, an adjusting device is arranged on the two adjusting rods (16), the adjusting device comprises an adjusting box (17) slidably connected to the side walls of the two adjusting rods (16), a rack (18) is fixed to one end, located in the adjusting box (17), of the two adjusting rods (16), a rotating shaft (19) is rotatably connected to the side wall of the adjusting box (17), a gear (20) is fixed to one end, located in the adjusting box (17), of the rotating shaft (19), the gear (20) and the two racks (18) are meshed with each other, and a handle (21) is fixed to the other end of the rotating shaft (19).

3. The variable-frequency energy-saving type homogenized glass furnace according to claim 2, wherein the sliding device comprises sliding grooves (15) fixedly formed on the opposite side walls of the two discharging plates (5), the two sliding grooves (15) are slidably connected with matched sliding blocks, and the tops of the two sliding blocks are fixed with the side walls of the two adjusting rods (16).

4. The variable-frequency energy-saving type toughened glass homogenizing furnace as claimed in claim 2, wherein a protective sponge is fixedly embedded on the side wall of the handle (21).

5. The variable-frequency energy-saving type homogenized glass furnace according to claim 2, wherein the gear ratio of the gear (20) to the rack (18) is 1: 2.

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