CN216860109U - Glass magnesium board forming device capable of adjusting spacing between partition boards - Google Patents

Abstract

The utility model provides a can adjust glass magnesium board forming device of baffle interval, the power distribution box comprises a box body, the baffle of setting in the box, still include auxiliary structure, auxiliary structure is including articulated hinge bar in proper order, the hinge bar is including articulated apex angle, articulated base angle, establish the link on the articulated apex angle, the pole is adjusted in the interpolation of link, articulated base angle link block, the slider is established on the guide arm, the baffle passes through anchor clamps and sets up on the slider, the interval of slider is adjusted through the position adjustment between the hinge bar, and then the interval of adjustment baffle, and then the realization is adjusted the glass magnesium board thickness of production. The adjusting rod is used for unifying the height of the hinge vertex angles of all the hinge rods, namely the height of a triangle formed by adjacent hinge rods and part of guide rods is the same, under the condition that the lengths of the hinge rods are the same, namely the side lengths of two sides of the triangle are the same, the heights of the two sides of the triangle are also the same, the bottom sides of the triangle are uniform horizontal lines (namely the guide rods), the lengths of the guide rods between all the adjacent hinge rods are the same, namely the intervals of the slide blocks are the same. All the distances can be quickly adjusted by only determining the distance between adjacent hinge rods.

Description

Glass magnesium board forming device capable of adjusting spacing between partition boards

Technical Field

The utility model relates to the field of glass magnesium board production equipment, in particular to a glass magnesium board forming device capable of adjusting the distance between partition boards.

Background

The method for producing the glass magnesium board by using the die comprises the steps of putting glass magnesium slurry into a box body, then separating the box body by using a partition plate, and forming the glass magnesium board by using the part between the partition plates after the slurry is solidified. However, in the current mold production process, when the thickness of the glass magnesium board needs to be changed, the intervals of the partition boards can not be guaranteed to be the same by manually adjusting the intervals of the partition boards, when the number of the partition boards is large, the time consumed by measuring the partition boards one by means of a measuring tool is large, and errors exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a glass magnesium board forming device capable of adjusting the spacing between partition boards, and solves the problems that the manual adjustment of the spacing between partition boards in the prior art cannot ensure that all the spacing are the same, and when the number of partition boards is large, the measurement is performed one by means of a measuring tool, so that the time is long.

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

the utility model provides a glass magnesium board forming device of ability adjustable partition interval, includes the box, sets up the baffle in the box, its characterized in that still includes auxiliary structure, auxiliary structure is including articulated hinge bar in proper order, the hinge bar includes articulated apex angle, articulated base angle, establish the link on the articulated apex angle, peg interpolation regulation pole, articulated base angle link block, the slider is established on the guide arm, the baffle passes through anchor clamps and sets up on the slider.

Furthermore, a locking bolt is arranged on the sliding block.

Further, the clamp is in a scissor-shaped design, a clamping groove is formed in the bottom of the clamp, and the clamp is connected with the partition plate through the clamping groove.

Furthermore, the partition plate is provided with side lugs, and the side lugs are arranged in the clamping grooves.

Furthermore, a rotating shaft is arranged on the clamp, the rotating shaft is hollow, and the rotating shaft is sleeved on the sliding block.

Furthermore, a positioning groove is formed in the sliding block, and the rotating shaft is sleeved on the positioning groove.

Further, a bearing is arranged in the positioning groove, and the clamp is rotatably connected with the sliding block through the bearing.

Furthermore, the box body comprises four groups of side plates and a group of bottom plate, and the side plates are hinged with the bottom plate.

Furthermore, a heat conduction flow channel and a temperature sensor are arranged on the partition plate.

Furthermore, a torsion spring is arranged on the rotating shaft.

Compared with the prior art, the utility model has the following beneficial effects: the distance between the sliding blocks is adjusted through the position adjustment between the hinged rods, so that the distance between the partition plates is adjusted, and the thickness of the produced glass magnesium plate is adjusted. The adjusting rod is used for unifying the heights of the hinged vertex angles of all the hinged rods, namely the heights of triangles formed by the adjacent hinged rods and part of the guide rods are the same, under the condition that the lengths of the hinged rods are the same, namely the side lengths of two side edges of each triangle are the same, the heights of the side edges of each triangle are also the same, the bottom edges of the side edges of each triangle are uniform horizontal lines (namely the guide rods), the lengths of the guide rods between all the adjacent hinged rods are the same, namely the distances between the sliding blocks are the same. All the distances can be quickly adjusted by only determining the distance between adjacent hinge rods.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

FIG. 2 is a view showing the structure of the auxiliary device of the present invention.

FIG. 3 is a view showing the connection structure of the slider and the auxiliary device according to the present invention.

FIG. 4 is a view showing the connection structure of the partition board and the slider according to the present invention.

FIG. 5 is a cross-sectional view of a slider of the present invention.

FIG. 6 is a view of the connection of the partition board and the clamp according to the present invention.

FIG. 7 is a schematic diagram of the opening and closing power of the clamp of the present invention.

Shown in the figure: 1. the auxiliary structure 101, the adjusting rod 102, the hanging ring 103, the hinge rod 105, the locking bolt 106, the limiting block 2, the guide rod 3, the sliding block 301, the positioning groove 302, the through hole 303, the locking bolt hole 304, the fixing groove 4, the clamp 401, the rotating shaft 402, the clamping groove 5, the partition plate 501, the side lug 6, the box 7, the winding shaft 8 and the steel cable.

Detailed Description

The utility model is further described below with reference to fig. 1-7.

A glass magnesium board forming device capable of adjusting the space between partition boards comprises a box body 6, partition boards 5 arranged in the box body 6 and an auxiliary structure 1. The box body 6 comprises four groups of side plates and a group of bottom plate, and the side plates are hinged with the bottom plate. The side plates can be opened along the hinged position of the bottom plate, and the box body is opened.

Auxiliary structure 1 is including articulated hinge rod 103 articulated in proper order, hinge rod 103 is including articulated apex angle, articulated base angle, establish link 102 on the articulated apex angle, peg graft regulation pole 101 in the link, articulated base angle link block 3, slider 3 is established on guide arm 2, establish locking bolt 105 on the slider 3. Specifically, a locking bolt hole 303 for fastening and positioning is formed in the slider 3, the locking bolt 105 is inserted into the locking bolt hole 303, and when the slider 3 moves to a predetermined position, the locking bolt 105 is screwed to position the slider 3. When the slider 3 needs to be moved, the lock bolt 105 is loosened to move the slider 3.

The partition 5 is arranged on the slide 3 by means of a clamp 4. The clamp 4 is in a scissor-shaped design, a clamping groove 402 is formed in the bottom of the clamp 4, the clamp 402 is connected with the partition plate 5 through the clamping groove 402, specifically, a side ear 501 is arranged on the partition plate 5, and the side ear 501 is arranged in the clamping groove 402. The clamp 4 is in a scissors shape formed by two groups of rods which are arranged in a crossed mode, a rotating shaft 401 is arranged on the clamp 4, the rotating shaft 401 is arranged at the crossed position of the two groups of rods, the rotating shaft 401 is in a hollow design, a torsion spring is arranged on the rotating shaft 401, and the rotating shaft 401 is sleeved on the sliding block 3. A positioning groove 301 is formed in the sliding block 3, and the rotating shaft 401 is sleeved on the positioning groove 301. A bearing is arranged in the positioning groove 301, and the clamp 4 is rotatably connected with the sliding block 3 through the bearing. The friction damage between the clamp and the slide block positioning groove can be reduced by using the bearing, and the service life is prolonged. And a heat conduction flow channel and a temperature sensor are arranged on the partition plate. The heat conduction flow channel is mainly used for heat dissipation in the production process of the glass magnesium board, the temperature sensors comprise six groups, and the six groups of temperature sensors are uniformly distributed on the partition board to monitor the temperature of the partition board. Preferably, the temperature sensor is connected with a display screen, so that the temperature is displayed through the display screen, the staff can observe the temperature in time conveniently, and the heat-conducting fluid is properly adjusted.

The specific working principle is as follows: firstly, the equipment is installed according to the general size for production, and the specific production process is as follows: first turn over four groups curb plates of box and erect, it is preferred, use cylinder or buckle spare to fix the curb plate, other all technical structure that can fix the curb plate can, as long as can keep the curb plate erect constitute a complete box can, do not do this and describe again. After the box body is formed, pouring the glass magnesium mixed slurry, and then inserting the partition boards between the unset slurry, wherein the space between the partition boards is adjusted according to the thickness and the size of the formed glass magnesium plate. After the partition board is placed, the slurry is solidified, then the side plate of the box body is put down, the box body is disassembled, and then the partition board and the glass magnesium board in the interlayer of the partition board are sequentially disassembled. Specifically, a winding shaft 7 is arranged at the top of the clamp, two steel cables 8 are arranged on the winding shaft 7, one end of each steel cable 8 is wound on the winding shaft 7, the other end of each steel cable is fixed to the top of the clamp, when the winding shaft 7 rotates, the steel cables 8 are contracted, the clamp is pulled by the steel cables, the clamp is enabled to be opened, the clamping grooves 402 are separated from the side lugs 501, and the partition plates are detached. And when all the magnesium oxide boards are completely collected, reassembling and carrying out the next round of production.

When the thickness of the glass magnesium board to be produced needs to be adjusted, namely the distance between the partition boards is adjusted, the limiting block 106 on the adjusting rod 101 is taken down firstly, then the adjusting rod 101 is taken out, the locking bolt 105 is turned by the knob, the locking bolt 105 is loosened, then the position of the sliding block 3 is adjusted, the distance between the two groups of sliding blocks 3 is adjusted to be a preset size firstly, and the size of the specific first sliding block 3 needs to be confirmed by a practical measuring tool. After the adjustment is completed, the two set sliding blocks 3 are first fixed, i.e. locked by the locking bolts. Then the adjusting rod 101 is inserted into the hanging ring 102 on the top of the corresponding hinge rod 103 on the fixed slide block 3, because the length of the hinge rods 103 is uniform and the bottom sides (guide rods 101) thereof are also uniform, the height from the hanging ring 102 to the bottom side (guide rods 101) thereof is also the same, and as long as the angle between the adjacent hinge rods 103 is the same, the same distance between all the adjacent hinge rods 103 can be confirmed, that is, the distance between all the slide blocks 3 is the same, according to the characteristic of a triangle, as long as the adjusting rod 101 can be ensured to be smoothly inserted into the hanging ring 102 in the horizontal direction, the same angle between all the adjacent hinge rods 103 can be ensured, that is, the uniform adjustment of the distance is completed. Therefore, the specific size adjustment of the space is changed to adjust the position of the sliding block 3 so that the adjusting rod 102 passes through the hanging ring 102 on the upper portion thereof. Each hanging ring is independently connected in series, and each hanging ring 102 is fixed with a corresponding sliding block and is adjusted and fixed in sequence. In actual operation, the sliding block is firstly manually shifted to an approximate position, and then the adjustment of the sliding block can be reversely driven when the adjusting rod 101 is interpenetrated, so that all the intervals are completely the same due to geometrical characteristics. After the adjustment is finished, the glass magnesium board is sleeved with the limiting block 106 to produce the glass magnesium board with the corresponding thickness.

The above description is only for the preferred embodiment of the present invention, and the shown orientation or positional relationship is only for the convenience of describing the present invention and simplifying the description, the terms "disposed", "installed", "connected", "fixed", etc. should be understood in a broad sense, and various modifications and changes may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a glass magnesium board forming device of ability adjustable partition interval, includes the box, sets up the baffle in the box, its characterized in that still includes auxiliary structure, auxiliary structure is including articulated hinge bar in proper order, the hinge bar includes articulated apex angle, articulated base angle, establish the link on the articulated apex angle, peg interpolation regulation pole, articulated base angle link block, the slider is established on the guide arm, the baffle passes through anchor clamps and sets up on the slider.

2. The apparatus for forming a magnesium oxide panel capable of adjusting a distance between partitions according to claim 1, wherein the slide block is provided with a locking bolt.

3. The apparatus for forming a magnesium oxide panel capable of adjusting the distance between partitions according to claim 1, wherein the clamp is in a scissors-like design, the bottom of the clamp is provided with a clamping groove, and the clamp is connected with the partitions through the clamping groove.

4. The apparatus for forming a magnesium oxide panel according to claim 3, wherein the spacer has side lugs, and the side lugs are disposed in the clamping grooves.

5. The apparatus for forming a magnesium oxide panel according to claim 4, wherein the jig has a hollow shaft, and the shaft is coupled to the slide block.

6. The magnesium oxide board forming device capable of adjusting the distance between the partition boards according to claim 5, wherein a positioning groove is formed on the sliding block, and the rotating shaft is sleeved on the positioning groove.

7. The apparatus for forming a magnesium oxide panel with adjustable distance between partitions of claim 6, wherein a bearing is disposed in the positioning groove, and the clamp is rotatably connected to the slide block through the bearing.

8. The apparatus for forming a magnesium oxide panel capable of adjusting a distance between partitions according to claim 1, wherein the box body comprises four sets of side panels and a set of bottom panel, and the side panels are hinged to the bottom panel.

9. The apparatus for forming a magnesium oxide panel according to claim 1, wherein the partition plate has a heat conducting channel and a temperature sensor.

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