CN108584433B - Rack of glass production usefulness - Google Patents

Abstract

The invention discloses a placing frame for glass production, which comprises a square tray, wherein a plurality of parallel placing grooves are formed in the upper side surface of the tray, a fixing frame is arranged between two adjacent placing grooves and is rotatably connected with the tray, the fixing frame comprises a plurality of fixing rails parallel to the plane of the tray, a limiting bulge is arranged at the contact edge of the fixing frame and the tray, a plurality of fixing suckers uniformly arranged on the fixing frame at intervals are arranged on one side of the fixing frame, a damping structure is arranged in the placing grooves, and a buffering structure is arranged between the tray and the side of the fixing frame back to the fixing suckers. The invention has the advantages that the glass is convenient to take and place, the stability of the glass structure can be ensured, and the stacking and the transportation during the glass production are easy; the suction of the fixed sucker is adjusted through the adjusting protrusion, so that the glass can be conveniently stored and taken.

Description

Rack of glass production usefulness

Technical Field

The invention relates to the technical field of glass production, in particular to a placing rack for glass production.

Background

The glass needs to be subjected to cutting, edge grinding and other processes in the production and processing process, different workshops need to be replaced for carrying out the processes, and the glass needs to be transported and stacked in the workshop replacement process. The glass is fragile, each product needs to be wrapped by paper, and the products need to be separated by egg grids, so that the products cannot collide with each other to be damaged. In the prior art, glass is often stacked manually, scratch and secondary pollution are easy to occur, and danger potential hazards are caused to the safety of workers, so that glass manufacturers create glass stacking equipment, and the glass stacking equipment commonly used at present is roughly divided into a vertical stacker, a horizontal stacker and a manipulator stacker. The glass with the bending arc is not easy to be horizontally stacked in the stacking process, and the standing stacking is adopted.

For example, in chinese patent document, the application No. CN2016111870021, which is an invention named "glass stacking rack" disclosed in 2017, 8/15/2017, discloses a glass stacking rack, which includes a bottom plate, two supports are disposed on front and rear sides of the bottom plate, a rotating shaft is disposed between the two supports in a crossing manner, a sleeve rotatably connected to the rotating shaft is sleeved on the rotating shaft, a vertical plate is disposed on the sleeve, a left side wall of the vertical plate is connected to the bottom plate through a first spring disposed in an inclined manner, a plurality of grooves are disposed on top of the bottom plate in parallel and spaced manner along a left-right direction, and the grooves are disposed on a right side of the vertical plate. The glass stacking rack with the structure can effectively avoid glass from being toppled in the stacking process and being damaged. The weak point of this application lies in that the riser is connected in the pivot, and the riser inclines under the glass pressure effect, and the recess is used for spacing glass, stacks the in-process at glass because glass stacks, and the pressure that the glass that is located near riser one side received is great, and the inclination of two adjacent glass and horizontal plane is different, and the contact position that two adjacent glass is also different, because the difference of pressurized position to glass on the piling bin, causes the influence great to glass's structure, causes glass's damage easily.

Therefore, it is necessary to design a rack for glass production, which has good glass protection and is easy to take and place.

Disclosure of Invention

The invention provides a placing frame for glass production, aiming at overcoming the defects that the existing glass stacking frame is inconvenient to stack, take and place and is easy to cause glass fragmentation, and the placing frame can be used for keeping the structural stability of glass and simultaneously facilitating the taking and placing of the glass in workshop production.

In order to achieve the above object, the present invention adopts the following technical solutions.

The utility model provides a rack of glass production usefulness, including square tray, the side of going up of tray is equipped with the resettlement groove of a plurality of parallels, be equipped with fixed frame between the resettlement groove that double-phase faces, fixed frame and tray rotatable coupling, fixed frame includes the planar fixed rail in a plurality of parallel tray place, the fixed frame is equipped with spacing arch with the border of tray contact, one side of fixed frame is equipped with the fixed sucking disc that a plurality of interval evenly set up on fixed frame, the resettlement inslot is equipped with shock-absorbing structure, be equipped with buffer structure between one side of fixed frame fixed sucking disc dorsad and the tray.

Glass contacts the fixed suction cup on the fixed frame earlier when the unloading on the workshop production line, accomplishes glass's absorption through glass's action of gravity fixed suction cup, and fixed frame rotates back spacing arch and tray collision vibrations, and glass separates on the resettlement groove with the tray, and glass's fixed transportation is accomplished once more to fixed suction cup, and glass gets to put the stability that makes things convenient for and can guarantee glass structure, stacks and transports when easily glass production.

Preferably, the fixed sucker is internally provided with a plurality of adjusting bulges. The suction of the fixed sucker is adjusted through the adjusting protrusion, so that the glass can be conveniently stored and taken.

Preferably, the adjusting protrusion comprises a plurality of shock absorbing strips perpendicular to the plane where the fixing frame is located, and adjusting balls are arranged at the outer ends of part of the shock absorbing strips towards the fixing suction disc. The shock absorption strip can adjust the suction force of the fixed sucker; the adjusting ball can assist the glass to fall off from the fixed disk, and the glass is convenient to take and place.

Preferably, the lower side of the tray is provided with shock absorption long grooves arranged at intervals. The buffering elongated slot increases the flexibility for the tray, and when glass is placed on the tray, the buffering elongated slot can be opened under the action of glass pressure to be reset after elastic deformation, so that the rigid impact on the glass is reduced, and the structural strength of the glass is ensured.

Preferably, the number of the fixed rails is two, and the two fixed rails are connected end to end through the connecting rails arranged in a crossed mode. The fixed rail's structure is reliable, and fixed sucking disc is settled to the fixed rail, can accomplish placing and transporting of plane glass and curved surface glass through two fixed rails and do not improve the adaptation ability of rack to glass.

Preferably, a rotating sleeve is arranged on one side of the fixed rail located at the edge of the fixed frame, a rotating shaft core is arranged between two adjacent placing grooves, the rotating sleeve is sleeved on the outer side of the rotating shaft core, the plane where the fixed frame is located is tangent to the outer side face of the rotating sleeve, and the plane where the limiting protrusion and the axis of the rotating sleeve are determined is perpendicular to the plane where the fixed frame is located. The fixing frame is eccentrically connected with the rotating shaft core, and the limiting bulge enables the fixing frame to rotate to the position vertical to the tray at most, so that the glass is convenient to limit and take.

Preferably, the damper strip has a cylindrical shape, and the diameter of the adjustment ball is twice the diameter of the damper strip. Improve the regulating power of adjusting the ball, make things convenient for getting of glass to put.

Preferably, the shock-absorbing structure is a shock-absorbing sleeve gasket sleeved outside the mounting groove. Reduce the rigidity of fixed rail through the shock attenuation cover pad, prevent to go up unloading in-process fixed rail damage glass, improve glass's transportation structural strength.

Preferably, the shock-absorbing sleeve pad is made of sponge material. The installation and the use of the shock-absorbing sleeve gasket are convenient.

Preferably, the buffer structure is a buffer spring, and two ends of the buffer spring are respectively and fixedly connected to the side surface of the fixed rail of the fixed frame, which is far away from the tray, and the upper side surface of the tray. The buffer of the fixing frame is completed through the buffer spring, and the stacking stability of the glass is improved.

The invention has the advantages that:

1. the glass is convenient to take and place, the stability of the glass structure can be ensured, and the stacking and the transportation during the glass production are easy;

2. the rigidity of the fixed rail is reduced through the damping sleeve gasket, the fixed rail is prevented from damaging glass in the feeding and discharging process, and the transportation structural strength of the glass is improved;

3. the suction of the fixed sucker is adjusted through the adjusting protrusion, so that the glass can be conveniently stored and taken.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Figure 2 is a front view of the fixing frame of the invention.

Fig. 3 is a cross-sectional view of the fixed suction cup of the present invention.

Fig. 4 is a front view of the fixed suction cup of the present invention.

In the figure: the tray 1 containing groove 11 cushioning elongated slot 12 fixing rail 21 connecting rail 22 rotating shaft core 23 spacing bump 24 fixing suction cup 3 damping strip 31 adjusting ball 32 damping sleeve pad 4 damping spring 5 glass 6.

Detailed Description

The invention is further described below with reference to the figures and specific embodiments.

In fig. 1, fig. 2, fig. 3 and fig. 4, a rack that glass production was used, including square tray 1, tray 1 is the rectangle, and the side of going up of tray 1 is equipped with a plurality of parallel arrangement groove 11, is equipped with fixed frame 2 between the two adjacent arrangement groove 11, and fixed frame 2 includes the planar fixed rail 21 in a plurality of parallel tray 1 place, and fixed rail 21 is equipped with two, and two fixed rails 21 are end to end through the connecting rail 22 of crossing setting. One side of the fixed rail 21 that is located 2 borders of fixed frame is equipped with the rotation sleeve, is equipped with rotation axle core 23 between two adjacent mounting grooves 11, and the rotation sleeve cover is established in the rotation axle core 23 outside to accomplish fixed frame 2 and tray 1 rotatable coupling, the border of fixed frame 2 and tray 1 contact is equipped with spacing arch 24, and the plane at fixed frame 2 place is tangent with rotation telescopic lateral surface, and spacing arch 24 is perpendicular with the plane at fixed frame 2 place with the plane of rotation sleeve axis affirmation. As shown in fig. 2, one side of the fixed frame 2 is provided with a plurality of fixed suckers 3 uniformly spaced on the fixed frame 2, each fixed rail 21 is provided with 12 fixed suckers 3 uniformly spaced, and the connecting rail 22 is provided with 6 fixed suckers 3. The fixed sucker 3 is rotatably fixed on the fixed frame 2 through a hinge, so that the fixed sucker 3 can be conveniently fixed by being matched with the glass 6 in a self-adjusting position to complete the adsorption of the glass 6. As shown in fig. 3 and 4, a plurality of adjusting protrusions are provided inside the fixed suction cup 3. The adjusting projections comprise a plurality of shock absorbing strips 31 which are vertical to the plane of the fixed frame 2, and adjusting balls 32 are arranged at the outer ends of the partial shock absorbing strips 31 facing the fixed suction cup 3. The damper strip 31 has a cylindrical shape, and the diameter of the adjustment ball 32 is twice the diameter of the damper strip 31. The placing groove 11 is internally provided with a damping structure which is a damping sleeve gasket 4 sleeved outside the fixed rail 21. The shock-absorbing sleeve cushion 4 is made of sponge material. A buffer structure is arranged between one side of the fixed frame 2 back to the fixed sucker 3 and the tray 1. The buffer structure is a buffer spring 5. Two ends of the buffer spring 5 are respectively and fixedly connected with the side surface of the fixed rail 21 of the fixed frame 2 far away from the tray 1 and the upper side surface of the tray 1. Buffer spring 5 is compression state when glass 6 material loading is to the rack, is tensile state when fixed frame 2 perpendicular tray 1, can the supplementary slope that small angle appears in fixed frame 2, makes things convenient for the cooperation of glass 6 and fixed suction cup 3. The lower side of the tray 1 is provided with shock absorption long grooves 12 arranged at intervals.

In fig. 1, when glass 6 is fed from a workshop production line, the glass 6 firstly contacts a fixed sucker 3 on a fixed frame 2 and is attached to the fixed sucker 3, a buffer spring 5 completes the shock absorption of the fixed frame 2, the fixed sucker 3 is compressed by the gravity action of the glass 6, the fixed sucker 3 is flattened to complete the adsorption of the glass 6, the fixed frame 2 rotates until a limiting bulge 24 contacts a tray 1 through a motor or a manual operation, the fixed frame 2 is eccentrically connected with a rotating shaft core 23, and the limiting bulge 24 enables the fixed frame 2 to rotate to a position perpendicular to the tray 1 at most, so that the glass 6 can be limited and taken conveniently; spacing arch 24 and 1 collision vibrations back regulation ball 32 of tray are shaken receiving vibrations and are driven bumper strip 31 and stir fixed suction cup 3, glass 6 and 3 separation of fixed suction cup, glass 6 slides down along fixed frame 2 and puts the groove 11 back of targetting in place until the downside border of glass 6, fixed frame 2 is reset by the tractive of buffer spring 5, thereby fixed suction cup 3 is accomplished glass 6's fixed transportation because glass 6's self gravity is squashed once more after the slope of fixed frame 2, glass 6 is got and is put the stability that the convenience just can guarantee glass 6 structure, stack and transportation when easily glass 6 produces.

Claims (8)

1. A glass production rack is characterized by comprising a square tray, wherein a plurality of parallel containing grooves are formed in the upper side surface of the tray, a fixing frame is arranged between two adjacent containing grooves and is rotatably connected with the tray, the fixing frame comprises a plurality of fixing rails parallel to the plane of the tray, a limiting bulge is arranged at the contact edge of the fixing frame and the tray, a plurality of fixing suckers uniformly arranged on the fixing frame at intervals are arranged on one side of the fixing frame, a damping structure is arranged in each containing groove, and a buffering structure is arranged between the side of the fixing frame, which is opposite to the fixing suckers, and the tray; a plurality of adjusting bulges are arranged inside the fixed sucker; the adjusting protrusion comprises a plurality of shock absorbing strips which are perpendicular to the plane where the fixing frame is located, and adjusting balls are arranged at the outer ends of part of the shock absorbing strips towards the fixing suction disc.

2. A rack for glass production as defined in claim 1 wherein the underside of the tray is provided with shock absorbing slots spaced apart.

3. A rack for glass production according to claim 1, wherein the two fixed rails are connected end to end by connecting rails arranged in a cross manner.

4. A rack for glass production according to claim 1, wherein a rotating sleeve is provided on one side of the fixed rail at the edge of the fixed frame, a rotating shaft core is provided between two adjacent placing grooves, the rotating sleeve is sleeved on the outer side of the rotating shaft core, the plane where the fixed frame is located is tangent to the outer side surface of the rotating sleeve, and the plane where the limiting protrusion and the axis of the rotating sleeve define is perpendicular to the plane where the fixed frame is located.

5. A glass manufacturing rack in accordance with claim 1 wherein the shock bar is cylindrical and the adjusting ball has a diameter twice the diameter of the shock bar.

6. A rack for glass production according to claim 1, wherein the shock-absorbing structure is a shock-absorbing sleeve gasket sleeved outside the placement groove.

7. A rack for glass production according to claim 6, wherein the shock-absorbing pad is made of sponge material.

8. A holding rack for glass production according to claim 1, wherein the buffering structure is a buffering spring, and two ends of the buffering spring are fixedly connected to the side surface of the fixing rail of the fixing frame far away from the tray and the upper side surface of the tray respectively.

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