CN218369549U - Glass storage rack for glass production and processing - Google Patents

Abstract

The utility model belongs to the technical field of glass production, a glass storage rack for solving the problem that the existing storage rack is inconvenient to put in and take out glass, the glass taking and putting process is time-consuming and labor-consuming, and the glass is difficult to effectively fix a plurality of groups of glass simultaneously, and the glass is easy to break away from the damage during storage, in particular to a glass storage rack for glass production and processing, which comprises a lower bearing plate, wherein the lower bearing plate is arranged at the top of a movable fixing seat, an upper pressure plate is arranged below the fixing plate, a pressure cylinder is arranged at the bottom of the fixing plate, a plurality of groups of glass lower clamping seats are arranged at the top of the lower bearing plate, and a plurality of groups of glass upper clamping seats are correspondingly arranged at the bottom of the upper pressure plate; the utility model discloses make things convenient for getting of glass to put, can once only fix multiunit glass, show and improve operating efficiency, and through under the glass cassette, glass cassette and glass face side pressure mechanism improve the fixed effect to glass, prevent that glass from breaking away from the storage rack, deposit and carry to glass and play the guard action.

Description

Glass storage rack for glass production and processing

Technical Field

The utility model relates to a glass production technical field specifically is a glass storage rack is used in glass production and processing.

Background

The glass is an amorphous inorganic non-metallic material, is generally prepared by taking a plurality of inorganic minerals as main raw materials and adding a small amount of auxiliary raw materials, is an amorphous solid with a random structure, is widely applied to buildings, and needs to be placed by a storage rack in the production and processing process of the glass;

the existing glass storage rack generally stores glass in a layer-by-layer stacking mode or a vertical inserting mode, the glass needs to be lifted in and out in a whole manual process when being put in and taken out, the taking and putting process is time-consuming and labor-consuming, multiple groups of glass are difficult to be effectively fixed at the same time, and the glass is easy to break away and damage during the storage period and needs to be improved;

in view of the above technical drawbacks, a solution is proposed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a glass storage rack for glass production and processing has solved the inconvenient glass of putting into and taking out of current storage rack, and glass is got and is put the process and waste time and energy, and is difficult to effectively fix multiunit glass simultaneously, appears glass easily during the depositing and breaks away from the problem of damage.

In order to achieve the above object, the utility model provides a following technical scheme:

a glass storage rack for glass production and processing comprises a movable fixing seat, a lower bearing plate and a fixing plate, wherein the lower bearing plate is fixedly arranged at the top of the movable fixing seat through bolts, the fixing plate is positioned right above the lower bearing plate and is fixed with the lower bearing plate through a supporting frame, an upper pressure applying plate is arranged below the fixing plate, a pressure applying air cylinder connected with the top of the upper pressure applying plate is arranged at the bottom of the fixing plate, a plurality of groups of glass lower clamping seats are fixedly arranged at the top of the lower bearing plate through bolts, a plurality of groups of glass upper clamping seats are arranged at the bottom of the upper pressure applying plate, and the glass upper clamping seats correspond to the glass lower clamping seats one by one;

the movable traveling mechanism is installed to the bottom of removal fixing base, the absorption fixed establishment is installed to the both sides of removing the fixing base, it has the driving chamber to open in the fixing base to remove, and is provided with the drive switching mechanism who acts on removal traveling mechanism and absorption fixed establishment in the driving chamber.

Furthermore, glass face side pressing mechanisms are installed on two sides of the interior of the upper glass clamping seat and two sides of the interior of the lower glass clamping seat, an upper pressing pad is fixedly installed on the inner top wall of the upper glass clamping seat, and a lower rotating roller is installed at the inner bottom of the lower glass clamping seat.

Further, glass face side pressure mechanism is including the side direction briquetting that is located the glass both sides, the extrusion groove has all been seted up to the inside both sides of cassette under cassette and the glass on the glass, slidable mounting has the extrusion piece in the extrusion groove, and extrudees inslot fixed mounting have the extrusion spring that links to each other with the extrusion piece, the extrusion piece is fixed in one side of extrusion spring dorsad and is set up the dead lever, and the dead lever is kept away from the one end of extrusion piece and is worn out the extrusion groove and be connected with the side direction briquetting.

Furthermore, the lateral pressing block is in a right trapezoid shape, the bottom end face of the lateral pressing block in the glass upper clamping seat is an inclined face, the top end face of the lateral pressing block in the glass lower clamping seat is an inclined face, and balls are uniformly arranged on the side, in contact with the glass, of the lateral pressing block.

Furthermore, a traveling wheel accommodating groove is formed in the bottom of the movable fixing seat, the movable traveling mechanism comprises a traveling wheel positioned in the traveling wheel accommodating groove and a vertical guide rod fixedly installed in the traveling wheel accommodating groove, a guide cylinder with an upward opening is fixedly installed at the top of the traveling wheel, the vertical guide rod is downwards inserted into the corresponding guide cylinder, and a first cross rod connected with the drive switching mechanism is installed on the outer peripheral surface of the guide cylinder;

the adsorption fixing mechanism comprises a sucker connecting block and an adsorption disc, the sucker connecting block is slidably mounted on the side walls of the two sides of the movable fixing base, the adsorption disc is mounted at the bottom of the sucker connecting block, a phase connecting rod is fixedly mounted at the top of the sucker connecting block, a second transverse rod is mounted at the top end of the phase connecting rod, and one end, far away from the phase connecting rod, of the second transverse rod is connected with the drive switching mechanism.

Furthermore, the driving switching mechanism comprises an upper movable plate and a lower movable plate which are movably arranged in the driving chamber, a transfer gear and a strip-shaped switching block are arranged between the upper movable plate and the lower movable plate through a rotating shaft, oblique extrusion rods are arranged at two ends of the strip-shaped switching block, one group of oblique extrusion rods is connected with the upper movable plate, and the other group of oblique extrusion rods is connected with the lower movable plate;

the movable rack is characterized in that a drive switching motor is fixedly mounted in the movable fixing seat through a motor seat, a drive screw and a transverse guide rod are transversely arranged in the driving chamber, the output end of the drive switching motor is connected with the drive screw, a transverse rack plate meshed with the transfer gear is mounted below the transfer gear, and the transverse rack plate is in threaded connection with the drive screw and is in sliding connection with the transverse guide rod.

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

1. the utility model discloses in, through installation removal running gear, conveniently remove the storage rack, help the transportation of glass, through installation absorption fixed establishment, conveniently place fixedly the storage rack, avoid causing the storage rack to overturn because of the collision and lead to glass cracked damage, realize the switching of mobile state and stationary state through driving switching mechanism, easy operation;

2. in the utility model, the bottom side of the glass is supported and limited by the lower glass clamping seat, the upper glass clamping seat is preliminarily limited on the top side of the glass, the pressure cylinder enables the upper glass clamping seats to simultaneously descend and press the top sides of the corresponding glass, the upper glass clamping seats and the lower glass clamping seats clamp and fix the glass, the effective fixation of multiple groups of glass is realized at one time, the operation efficiency is obviously improved, and the glass surface side pressure mechanisms in the upper glass clamping seats and the lower glass clamping seats apply pressure on the two sides of the glass, which is helpful for improving the positioning effect of the glass, preventing the glass from being separated from the storage rack, and protecting the storage and the transportation of the glass;

3. the utility model discloses in, when glass need be taken out, through exerting pressure cylinder pulling glass on the cassette rise in order no longer to exert down force to glass, operating personnel pulling glass is showing under the effect of live-rollers and ball and is reducing glass and take out the frictional force that the in-process received to make glass take out the operation simple fast more, labour saving and time saving.

Drawings

In order to facilitate understanding of the present invention for those skilled in the art, the present invention will be further described with reference to the accompanying drawings;

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

FIG. 2 is a schematic structural view of a lower glass holder according to the present invention;

FIG. 3 is a schematic structural view of the upper glass clamping seat of the present invention;

FIG. 4 is a schematic structural view of a glass surface pressing mechanism of the present invention;

FIG. 5 is a schematic structural view of the movable fixing base of the present invention;

fig. 6 is a schematic structural diagram of the middle driving switching mechanism of the present invention.

Reference numerals: 1. moving the fixed seat; 2. a lower bearing plate; 3. a fixing plate; 4. a glass lower clamping seat; 5. a glass upper clamping seat; 6. pressing a plate upwards; 7. a pressure cylinder; 8. a glass surface side pressing mechanism; 9. driving a switching mechanism; 10. a drive chamber; 11. a traveling wheel; 12. a traveling wheel receiving groove; 13. a first cross bar; 14. an adsorption tray; 15. a phase connecting rod; 16. a second cross bar; 17. a sucker connecting block; 18. a guide cylinder; 19. a vertical guide rod; 20. a support frame; 41. a lower rotation roller; 51. an upper pressure pad; 81. lateral briquetting; 82. extruding the block; 83. extruding the spring; 84. extruding a groove; 85. fixing the rod; 86. a ball bearing; 91. driving a switching motor; 92. a drive screw; 93. a movable plate is lowered; 94. an upper movable plate; 95. a transverse guide rod; 96. a transverse rack plate; 97. a transfer gear; 98. a bar switching block; 99. and (4) obliquely extruding the rod.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1-4, the utility model provides a glass storage rack for glass production and processing, including moving fixing base 1, lower bearing board 2 and fixed plate 3, lower bearing board 2 is installed at the top of moving fixing base 1 through bolt fastening, fixed plate 3 is located directly over lower bearing board 2, fixed plate 3 is fixed through support frame 20 with lower bearing board 2, upper pressure applying plate 6 is arranged below fixed plate 3, and the bottom of fixed plate 3 is installed with pressure applying cylinder 7 that links to each other with upper pressure applying plate 6 top, the top of lower bearing board 2 is installed with multiunit glass lower cassette 4 through bolt fastening, the bottom of upper pressure applying plate 6 is installed with multiunit glass upper cassette 5, glass upper cassette 5 and glass lower cassette 4 correspond one-to-one, when depositing glass, glass lower cassette 4 bears and spacing the bottom side of glass, glass upper cassette 5 carries out spacing to the top side of glass, and pressure applying cylinder 7 extends so that upper pressure applying plate 6 moves downwards, all glass upper cassettes 5 descend simultaneously and push down the top side of multiunit glass, glass upper cassette 5 and glass lower cassette 4 carry out the centre gripping and fixing to glass, realize the effective fixation of multiunit glass;

glass surface side pressing mechanisms 8 are respectively arranged on two sides of the inner portion of the upper glass clamping seat 5 and two sides of the inner portion of the lower glass clamping seat 4, each glass surface side pressing mechanism 8 comprises a side pressing block 81 positioned on two sides of glass, each pressing groove 84 is formed in each of the inner portions of the upper glass clamping seat 5 and the lower glass clamping seat 4, a pressing block 82 is slidably arranged in each pressing groove 84, a pressing spring 83 is fixedly arranged in each pressing groove 84, each pressing spring 83 is fixedly connected with each pressing block 82, a fixing rod 85 is fixedly arranged on one side, opposite to each pressing spring 83, of each pressing block 82, one end, far away from each pressing block 82, of each fixing rod 85 penetrates through each pressing groove 84 and is connected with the side pressing block 81, each pressing spring 83 is in a compression state and applies thrust to each pressing block 82, each pressing block 82 applies thrust to each side pressing block 81 through each fixing rod 85, each side pressing block 81 presses two sides of the glass, the positioning effect on the glass is improved, the glass is prevented from being separated from a storage rack, and the storage and the glass is protected;

lateral pressing block 81 is right trapezoid, the bottom face of lateral pressing block 81 in cassette 5 on the glass is the inclined plane, the top face of lateral pressing block 81 in cassette 4 under the glass is the inclined plane, when inserting glass, because the inclined plane of glass extrusion lateral pressing block 81 makes lateral pressing block 81 move to the direction of extrusion groove 84 gradually, glass's insertion is more smooth quick, and the interior roof fixed mounting of cassette 5 has last pressure pad 51 on the glass, when fixing glass, it is made by rubber materials to go up pressure pad 51, go up the top side that pressure pad 51 pushed down glass, help improving the fixed effect to glass, lower live-rollers 41 is installed to the interior bottom of cassette 4 under the glass, lateral pressing block 81 evenly installs ball 86 with the one side that glass contacted, when taking out glass, lower live-rollers 41 and ball 86 can reduce the frictional force that glass received in-process of taking out, thereby make the operation of taking out convenient and fast more.

Example two:

as shown in fig. 5, the difference between the present embodiment and embodiment 1 is that a mobile walking mechanism is installed at the bottom of the mobile fixing base 1, a walking wheel accommodating groove 12 is formed at the bottom of the mobile fixing base 1, the mobile walking mechanism includes a walking wheel 11 located in the walking wheel accommodating groove 12, a vertical guide rod 19 is fixedly installed in the walking wheel accommodating groove 12, the top of the walking wheel 11 is fixedly installed, an opening of the guide cylinder 18 faces upward, the vertical guide rod 19 is inserted into the corresponding guide cylinder 18 downward, and a first cross rod 13 connected with the drive switching mechanism 9 is installed on the outer circumferential surface of the guide cylinder 18;

when the storage rack needs to be moved to transport glass, the first cross rod 13 is driven by the driving switching mechanism 9, the first cross rod 13 drives the guide cylinder 18 to move downwards along the vertical guide rod 19, so that the walking wheels 11 move downwards along with the first cross rod and penetrate out of the walking wheel accommodating grooves 12 below the walking wheels, the walking wheels 11 are in contact with the ground, the storage rack can be moved at the moment, and the glass is conveniently transported.

Example three:

as shown in fig. 5, the present embodiment is different from embodiments 1 and 2 in that adsorption fixing mechanisms are installed on two sides of the movable fixed seat 1, each adsorption fixing mechanism includes a suction cup connecting block 17, the suction cup connecting blocks 17 are slidably installed on two side walls of the movable fixed seat 1, an adsorption plate 14 is installed at the bottom of each suction cup connecting block 17, a phase connecting rod 15 is fixedly installed at the top of each suction cup connecting block 17, a second cross rod 16 is installed at the top end of each phase connecting rod 15, and one end of each second cross rod 16 away from the phase connecting rod 15 is connected to the driving switching mechanism 9;

when placing the fixed to the storage rack, make walking wheel 11 get into in walking wheel accomodates groove 12, then through drive switching mechanism 9 drive looks connecting rod 15, connecting rod 15 drives sucking disc connecting block 17 downstream through second horizontal pole 16, adsorbs dish 14 and adsorbs and live ground with the ground contact of removing fixing base 1 both sides, plays the additional effect to the stable placement of storage rack, avoids leading to glass fragmentation damage because of the collision causes the storage rack to overturn.

Example four:

as shown in fig. 5-6, the present embodiment is different from embodiments 1, 2 and 3 in that a driving chamber 10 is formed in the movable fixing base 1, a driving switching mechanism 9 is located in the driving chamber 10, the driving switching mechanism 9 includes an upper movable plate 94 and a lower movable plate 93 movably mounted in the driving chamber 10, a transfer gear 97 and a bar-shaped switching block 98 are mounted between the upper movable plate 94 and the lower movable plate 93 through a rotating shaft, oblique pressing rods 99 are mounted at two ends of the bar-shaped switching block 98, and one set of the oblique pressing rods 99 is connected to the upper movable plate 94, and the other set of the oblique pressing rods 99 is connected to the lower movable plate 93;

a driving switching motor 91 is fixedly installed in the movable fixed seat 1 through a motor seat, a driving screw 92 and a transverse guide rod 95 are transversely arranged in the driving chamber 10, a transverse rack plate 96 in meshed connection with the transfer gear 97 is installed below the transfer gear 97, when the movable state and the fixed state are switched, the driving switching motor 91 drives the driving screw 92 to rotate, the transverse rack plate 96 transversely moves along the transverse guide rod 95 along with the transverse rack plate and drives the transfer gear 97 to deflect, and therefore the inclination direction of the strip-shaped switching block 98 is changed, and the upper movable plate 94 and the lower movable plate 93 are pushed and pulled through an inclined extrusion rod 99;

when the storage rack needs to be moved, the upper movable plate 94 and the lower movable plate 93 move back to extend out of the travelling wheels 11 downwards and pull up the adsorption discs 14 upwards, and when the storage rack needs to be fixed, the upper movable plate 94 and the lower movable plate 93 move oppositely to retract the travelling wheels 11 upwards and extend out of the adsorption discs 14 downwards, so that the travelling wheels 11 and the adsorption discs 14 are driven synchronously, and the operation is simple.

The working process and the principle of the utility model are as follows:

when the glass storage rack is used, when glass is stored, the lower glass clamping seats 4 bear and limit the bottom sides of the glass, the upper glass clamping seats 5 primarily limit the top sides of the glass, when all the lower glass clamping seats 4 bear the glass, the pressing air cylinder 7 extends to enable the upper pressing plate 6 to move downwards, all the upper glass clamping seats 5 simultaneously descend and press the top sides of the corresponding glass, and the upper glass clamping seats 5 and the lower glass clamping seats 4 clamp and fix the glass, so that effective fixation of multiple groups of glass at one time is realized, and the operation efficiency is obviously improved;

the glass surface side pressing mechanisms 8 in the upper glass clamping seat 5 and the lower glass clamping seat 4 apply pressure to two sides of the glass, so that the positioning effect on the glass is improved, the glass is prevented from being separated from the storage rack, and the storage and the conveying of the glass are protected; when the glass needs to be taken out, the upper pressing plate 6 is pulled to move upwards through the pressing air cylinder 7, so that the lower pressure is not applied to the glass by the upper glass clamping seat 5, at the moment, the operator pulls the glass, and the friction force applied in the glass drawing process is obviously reduced under the action of the lower rotating roller 41 and the ball 86, so that the glass is taken out more simply and quickly, and the time and the labor are saved;

through installation removal running gear, the convenience is removed the storage rack, helps glass's transportation, adsorbs fixed establishment through the installation, and the convenience is placed fixedly to the storage rack, avoids causing the storage rack to overturn because of the collision and leads to the cracked damage of glass, realizes moving state and fixed state's switching, easy operation through drive switching mechanism 9.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not exhaustive and do not limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. A glass storage rack for glass production and processing comprises a movable fixing seat (1), a lower bearing plate (2) and a fixing plate (3), wherein the lower bearing plate (2) is fixedly installed at the top of the movable fixing seat (1) through bolts, the fixing plate (3) is located right above the lower bearing plate (2) and is fixed with the lower bearing plate through a support frame (20), the glass storage rack is characterized in that an upper pressure applying plate (6) is arranged below the fixing plate (3), a pressure applying cylinder (7) connected with the top of the upper pressure applying plate (6) is installed at the bottom of the fixing plate (3), a plurality of groups of glass lower clamping seats (4) are fixedly installed at the top of the lower bearing plate (2) through bolts, a plurality of groups of glass upper clamping seats (5) are installed at the bottom of the upper pressure applying plate (6), and the glass upper clamping seats (5) correspond to the glass lower clamping seats (4) one by one;

the movable traveling mechanism is installed to the bottom of removal fixing base (1), adsorb fixed establishment is installed to the both sides of removing fixing base (1), set up driving chamber (10) in removing fixing base (1), and be provided with in driving chamber (10) and act on the drive switching mechanism (9) that remove traveling mechanism and adsorb fixed establishment.

2. The glass storage rack for producing and processing glass as claimed in claim 1, wherein glass surface side pressing mechanisms (8) are respectively installed on two inner sides of the upper glass clamping seat (5) and two inner sides of the lower glass clamping seat (4), an upper pressing pad (51) is fixedly installed on the inner top wall of the upper glass clamping seat (5), and a lower rotating roller (41) is installed at the inner bottom of the lower glass clamping seat (4).

3. The glass storage rack for glass production and processing as claimed in claim 2, wherein the glass surface pressing mechanism (8) comprises lateral pressing blocks (81) located on two sides of the glass, extrusion grooves (84) are formed in two sides of the inner portions of the upper glass clamping seat (5) and the lower glass clamping seat (4), extrusion blocks (82) are installed in the extrusion grooves (84) in a sliding mode, extrusion springs (83) connected with the extrusion blocks (82) are fixedly installed in the extrusion grooves (84), a fixing rod (85) is fixedly arranged on one side, opposite to the extrusion springs (83), of each extrusion block (82), and one end, far away from the extrusion blocks (82), of each fixing rod (85) penetrates through the extrusion grooves (84) and is connected with the lateral pressing blocks (81).

4. The glass storage rack for glass production and processing as claimed in claim 3, wherein the lateral pressing block (81) is in a right trapezoid shape, the bottom end face of the lateral pressing block (81) in the upper glass clamping seat (5) is an inclined face, the top end face of the lateral pressing block (81) in the lower glass clamping seat (4) is an inclined face, and balls (86) are uniformly arranged on one face of the lateral pressing block (81) which is in contact with the glass.

5. The glass storage rack for glass production and processing as claimed in claim 1, wherein a walking wheel accommodating groove (12) is formed at the bottom of the movable fixed seat (1), the movable walking mechanism comprises a walking wheel (11) positioned in the walking wheel accommodating groove (12) and a vertical guide rod (19) fixedly installed in the walking wheel accommodating groove (12), a guide cylinder (18) with an upward opening is fixedly installed at the top of the walking wheel (11), the vertical guide rod (19) is downwards inserted into the corresponding guide cylinder (18), and a first cross rod (13) connected with the drive switching mechanism (9) is installed on the outer peripheral surface of the guide cylinder (18);

adsorb fixed establishment and include slidable mounting at sucking disc connecting block (17) of removing fixing base (1) both sides lateral wall and install absorption dish (14) in sucking disc connecting block (17) bottom, the top fixed mounting of sucking disc connecting block (17) has connecting rod (15) mutually, second horizontal pole (16) are installed on the top of connecting rod (15) mutually, and the one end that connecting rod (15) mutually kept away from in second horizontal pole (16) links to each other with drive switching mechanism (9).

6. The glass storage rack for glass production and processing as claimed in claim 5, wherein the driving switching mechanism (9) comprises an upper movable plate (94) and a lower movable plate (93) movably mounted in the driving chamber (10), a transfer gear (97) and a strip-shaped switching block (98) are mounted between the upper movable plate (94) and the lower movable plate (93) through rotating shafts, inclined extrusion rods (99) are mounted at two ends of the strip-shaped switching block (98), one group of the inclined extrusion rods (99) is connected with the upper movable plate (94), and the other group of the inclined extrusion rods (99) is connected with the lower movable plate (93);

the utility model discloses a horizontal rack plate, including removal fixing base (1), drive switching motor (91) is installed through motor cabinet fixed mounting in removal fixing base (1), transversely set up driving screw (92) and horizontal guide arm (95) in drive chamber (10), and the output of drive switching motor (91) links to each other with driving screw (92), horizontal rack plate (96) rather than the meshing is connected are installed to the below of transfer gear (97), and horizontal rack plate (96) and driving screw (92) threaded connection and with horizontal guide arm (95) sliding connection.

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