CN114261769A - Large-scale glass transfer glass frame and transfer trolley - Google Patents

Abstract

The invention provides a glass frame for transferring large glass, which comprises: chassis and grudging post, wherein: the bottom of the underframe is provided with a chute; the vertical frame is vertically fixed on one side of the underframe. The invention provides a large glass transfer trolley, which comprises: a support frame and a sideframe, wherein: the supporting frame is provided with a track for the glass frame to slide in and out. The glass rack can vertically place glass, and simultaneously, the glass rack for loading the glass can slide into the transfer trolley together with the glass and then slide out of the transfer trolley together after being transferred to a preset position, so that the transfer efficiency and the safety are greatly improved. Simultaneously, through setting up hold-down mechanism in orbital one side to make the swing arm among the hold-down mechanism can swing, compress tightly glass on the glass frame with the compact heap in the swing arm of utilization in the transportation, make it can not appear rocking, ensure the security that glass transported.

Description

Large-scale glass transfer glass frame and transfer trolley

Technical Field

The invention relates to the technical field of glass processing production, in particular to a glass frame and a transfer trolley for transferring large glass.

Background

In the deep processing engineering of the plate glass, a plurality of glass original sheets including colors, sizes and the like are needed, so that in the production process, production workers select different size original sheets according to the maximum outturn rate calculated by optimization software and need to change different original sheets in a trivial way. The mode of changing the original piece at present uses the mill to drive a vehicle, does not use the fork truck of driving to carry out whole package or half-package to and the round trip replacement of monolithic original piece, such mode of operation very easily causes the incident, causes the damage of original piece, equipment damage, the casualties problem of personnel.

Disclosure of Invention

In order to solve the technical problems in the background art, the invention provides a glass frame and a transfer trolley for transferring large glass, which are used for improving the production efficiency and improving the safety production.

The invention provides a glass frame for transferring large glass, which comprises: chassis and grudging post, wherein:

the bottom of the underframe is provided with a chute; the vertical frame is vertically fixed on one side of the underframe.

Preferably, the underframe is provided with a plurality of brackets arranged at intervals linearly, each bracket comprises a lifting part and a vertical part, the lifting parts and the vertical parts are matched with the vertical parts to form an L shape, the lifting parts are fixed on the base, the vertical parts are vertically fixed at one ends of the lifting parts, and the vertical parts are provided with vertically arranged center holes; the vertical frame comprises a plurality of vertical rods, and the vertical rods are correspondingly inserted into the central holes of the brackets one by one.

Preferably, the upper surface of the lifting part is an inclined plane, and the vertical part is vertically fixed at the lowest end of the lifting part.

Preferably, the central hole is a polygonal hole, and the cross-sectional shape of the vertical rod is a polygon matched with the central hole.

Preferably, the central hole is a rectangular hole.

Preferably, a connecting rod for connecting any two adjacent vertical rods is arranged between any two adjacent vertical rods, and the connecting rod is detachably connected with the vertical rods.

Preferably, the uprights are located in the central hole and are fixed with the corresponding uprights by means of bolts.

Preferably, the upper surface of the lifting part is provided with a protective pad.

Preferably, a protective cushion is arranged on one side of the vertical rod close to the surface of the lifting part.

The invention provides a large glass transfer trolley, which comprises: a support frame and a sideframe, wherein:

the supporting frame is provided with a track for the glass frame to slide in and out; the side frame is positioned at one side of the track and is fixed on the support frame, and a pressing mechanism is arranged on the side frame; the pressing mechanism comprises a mounting shaft, a swing arm and a power unit, the mounting shaft is fixed on the side frame and is parallel to the rail; one end of the swing arm is rotatably connected with the mounting shaft, and the other end of the swing arm is provided with a pressing block; the power unit is connected with the swing arm to drive the swing arm to swing.

Preferably, the compressing block comprises a compressing part and a mounting bearing, the mounting bearing is positioned on one side of the compressing part, the outer ring of the mounting bearing is fixed with the middle part of the compressing part, and the inner ring of the mounting bearing is movably connected with the swing arm through a rotating shaft parallel to the mounting shaft.

Preferably, the swing arm includes a first rod, a second rod located at one side of the first rod, and a connecting rod connecting the first rod and the second rod to form a whole, and the mounting bearing is located between the first rod and the second rod and movably connected with the first rod and the second rod through a rotating shaft.

Preferably, the side frames comprise a first side frame and a second side frame, the first side frame and the second side frame are oppositely arranged on two sides of the rail, and the first side frame and the second side frame are respectively provided with a pressing mechanism.

Preferably, the side frame is further provided with a traction mechanism, and the traction mechanism comprises a connecting part used for being connected with the glass frame and a driving part used for driving the connecting part to move in a reciprocating mode along the extending direction of the rail.

Preferably, a guide rail parallel to the rail and a sliding seat assembled with the guide rail in a sliding manner are arranged on the support frame and positioned on one side of the rail; the driving part is connected with the sliding seat to drive the sliding seat to move on the guide rail in a reciprocating mode; the connecting component is fixed on the sliding seat.

Preferably, the guide rails comprise a main guide rail and an auxiliary guide rail parallel to the main guide rail, and a gap is reserved between the main guide rail and the auxiliary guide rail in the height direction; the end surface of the main guide rail faces upwards, the auxiliary guide rail is positioned between the main guide rail and the track, and the end surface of the auxiliary guide rail faces to one side of the track; the sliding seat is provided with a main sliding groove and an auxiliary sliding groove, the main sliding groove is in sliding fit with the main guide rail, and the auxiliary sliding groove is in sliding fit with the auxiliary guide rail.

According to the glass frame, the glass can be vertically placed by arranging the structure of the glass frame, the sliding chute is arranged at the bottom of the glass frame, and the track for the glass frame to slide in and out is arranged on the transfer trolley, so that the glass frame loaded with glass can slide into the transfer trolley together with the glass and slide out of the transfer trolley together after being transferred to a preset position, the glass is conveyed for a plurality of times, and the transfer efficiency and the safety are greatly improved. Simultaneously, through setting up hold-down mechanism in orbital one side to make the swing arm among the hold-down mechanism can swing, compress tightly glass on the glass frame with the compact heap in the swing arm of utilization in the transportation, make it can not appear rocking, ensure the security that glass transported.

Drawings

FIG. 1 is a schematic structural view of a large glass rack for transferring glass according to the present invention.

Fig. 2 is a schematic view of the working principle of a large glass transfer rack according to the present invention.

FIG. 3 is a schematic structural view of a large glass transfer cart according to the present invention.

FIG. 4 is a front view of a large glass transfer cart according to the present invention.

FIG. 5 is a schematic structural diagram of the pressing mechanism in the large glass transfer trolley provided by the invention.

Fig. 6 is a schematic structural diagram of the compaction block in the large glass transfer trolley provided by the invention.

FIG. 7 is a schematic structural diagram of the traction mechanism in the large glass transfer trolley according to the present invention.

FIG. 8 is a schematic structural view of the guide rail in the large glass transfer trolley according to the present invention.

FIG. 9 is a schematic structural diagram of the connecting component in the large glass transfer trolley provided by the invention.

Fig. 10 is a schematic structural diagram of the first traction block and the second traction block in the large glass transfer trolley provided by the invention.

Fig. 11 is a schematic view of an assembly relationship between the first limiting wheel and the second limiting wheel in the large glass transfer trolley according to the present invention.

FIG. 12 is a schematic view of a large glass transfer cart according to the present invention, after the glass frame slides into the cart.

Detailed Description

Referring to fig. 1-2, the invention provides a glass rack for transferring large glass, comprising: chassis 1 and grudging post 2, wherein: the bottom of the underframe 1 is provided with a chute; the vertical frame 2 is vertically fixed on one side of the base frame 1. When placing glass, make glass paste and lean on in grudging post 2, one side supports and leans on chassis 1, makes glass be the side and stands the state of placing then.

In this embodiment, a plurality of brackets 3 arranged at linear intervals are arranged on the underframe 1, each bracket 3 comprises a lifting part 31 and a vertical part 32, the lifting parts 31 and the vertical parts 32 are matched with the vertical parts 32 to form an L shape, the lifting parts 31 are fixed on the base, the vertical parts 32 are vertically fixed at one ends of the lifting parts 31, and the vertical parts 32 are provided with vertically arranged center holes; the vertical frame 2 comprises a plurality of vertical rods, and the vertical rods are correspondingly inserted into the central holes of the brackets 3 one by one. This kind of setting makes grudging post 2 can glass's altitude variation change at will to the reduction of area of contact, the laminating degree of reinforcing glass that also can be better and glass frame, the interval between each bracket 3 also conveniently carries out glass and moves and position control.

In this embodiment, the upper surface of the lifting portion 31 is an inclined surface, and the vertical portion 32 is vertically fixed at the lowest end of the lifting portion 31. So that the glass cannot slide outwards and can only cling to the stand 2.

In this embodiment, the central hole is a polygonal hole, and the cross section of the vertical rod is a polygon matched with the central hole, so that the vertical portion 32 cannot rotate after being inserted into the central hole, and stability is ensured.

Specifically, the method comprises the following steps: the central hole is a rectangular hole.

In this embodiment, all be equipped with between two arbitrary adjacent pole settings and connect the two connecting rod 4, and connecting rod 4 can dismantle with the pole setting and be connected. To connect the uprights together to form a whole by means of the connecting rods 4.

In this embodiment, the pole setting is located the centre bore and fixed with vertical portion 32 that corresponds through the bolt, can ensure the fastness of pole setting and the assembly of vertical portion 32, makes things convenient for the dismouting again.

In this embodiment, the upper surface of the lifting portion 31 and one side of the vertical rod close to the surface of the lifting portion 31 are respectively provided with a protection pad 5.

Referring to fig. 3-4, the invention provides a large glass transfer trolley, comprising: a support frame and a sideframe, wherein: the supporting frame is provided with a track 6 for the glass frame to slide in and out.

Referring to fig. 5, the side frame is positioned at one side of the rail 6 and fixed on the support frame, and a pressing mechanism is arranged on the side frame; the pressing mechanism comprises a mounting shaft 7, a swing arm 8 and a power unit 9, the mounting shaft 7 is fixed on the side frame, and the mounting shaft 7 is parallel to the rail 6; one end of the swing arm 8 is rotatably connected with the mounting shaft 7, and the other end of the swing arm is provided with a pressing block 10; the power unit 9 is connected with the swing arm 8 to drive the swing arm 8 to swing. The specific working mode is as follows:

after the glass frame enters the transfer trolley along the track 6, the power unit 9 drives the swing arm 8 to swing so as to enable the pressing block 10 to abut against the glass, so that the glass is tightly abutted against the stand 2, and then the glass is ensured to be stable in movement.

Referring to fig. 6, the pressing block 10 includes a pressing portion 1001 and a mounting bearing 1002, the mounting bearing 1002 is located at one side of the pressing portion 1001, and an outer ring thereof is fixed to a middle portion of the pressing portion 1001 and an inner ring thereof is movably connected to the swing arm 8 by a rotation axis parallel to the mounting shaft 7. When the rocker arm 8 swings upwards, the end of the pressing part 1001 contacts with the glass in advance, then the swing arm 8 continues swinging upwards, and the mounting bearing 1002 rotates until the pressing part 1001 is pushed to be attached to the glass.

Specifically, the method comprises the following steps: the swing arm 8 comprises a first rod body, a second rod body positioned on one side of the first rod body and a connecting rod 4 which is connected with the first rod body and the second rod body so as to enable the first rod body and the second rod body to form a whole, and the mounting bearing 1002 is positioned between the first rod body and the second rod body and is movably connected with the first rod body and the second rod body through a rotating shaft.

In this embodiment, the side frames include a first side frame and a second side frame, the first side frame and the second side frame are oppositely arranged on two sides of the rail 6, and the first side frame and the second side frame are respectively provided with a pressing mechanism. When the glass placed on the glass rack faces to any side of the rail 6, the glass can be pressed by the pressing mechanism. Thereby the glass frame can slide in and out without direction division.

Referring to fig. 7, a drawing mechanism is further provided on the side frame, and the drawing mechanism includes a connecting member 11 for connecting with the glass frame and a driving member 12 for driving the connecting member 11 to reciprocate along the extending direction of the rail 6. When the glass frame needs to slide into or slide out of the transfer trolley, the track 6 on the transfer trolley is in butt joint with a processing line where the glass frame is located in advance, then the connecting part 11 in the traction mechanism is connected with the glass frame, and the driving part 1212 is used for driving the connecting part 11 to move so as to pull the glass frame into the transfer trolley or push the glass frame out of the transfer trolley.

Referring to fig. 8, a guide rail 13 parallel to the rail 6 and a sliding seat 14 slidably assembled with the guide rail 13 are arranged on the supporting frame and at one side of the rail 6; the driving part 12 is connected with the sliding seat 14 to drive the sliding seat 14 to reciprocate on the guide rail 13; the link member 11 is fixed to the carriage 14 to move in accordance with the movement of the carriage 14.

Specifically, the method comprises the following steps: the guide rail 13 comprises a main guide rail 1301 and an auxiliary guide rail 1302 parallel to the main guide rail 1301, and a gap is reserved between the main guide rail 1301 and the auxiliary guide rail 1302 in the height direction; the end surface of the main guide rail 1301 faces upwards, the auxiliary guide rail 1302 is positioned between the main guide rail 1301 and the track 6, and the end surface of the auxiliary guide rail 1302 faces to the side where the track 6 is located; a main sliding groove and an auxiliary sliding groove are arranged on the sliding seat 14, the main sliding groove is in sliding fit with the main guide rail 1301, and the auxiliary sliding groove is in sliding fit with the auxiliary guide rail 1302; the connecting member 11 is located on the side of the main rail 1301 close to the rail 6.

The guide rail 13 is set in a manner that the main guide rail 1301 and the auxiliary guide rail 1302 are combined, and a gap is reserved between the main guide rail 1301 and the auxiliary guide rail 1302 in the height direction, so that the end surface of the main guide rail 1301 faces upwards, and the end surface of the auxiliary guide rail 1302 faces to one side where the rail 6 is located. The sliding base 14 slides in the length direction of the guide rail 13, and is locked in the width direction of the guide rail 13, and the double guide formed by the main guide rail 1301 and the auxiliary guide rail 1302 can still guide stably under the guiding effect of the other guide when any one of the two guide has a local guide problem (such as guide clearance increase or local deformation), so that the two guide rails cannot shake. And the supporting strength and the deformation resistance can be effectively enhanced.

Specifically, the method comprises the following steps: the driving part 12 comprises a rack 1201, a motor 1202 with a motor shaft, and a gear 1203 mounted on the shaft of the motor 1202; the rack 1201 is arranged in parallel on one side of the main rail 1301; the motor 1202 is fixed to the carriage 14, and the gear 1203 meshes with the rack 1201. To drive rotation of gear 1203 with motor 1202 to in turn push motor 1202 along with carriage 14 to move on rail 13.

Referring to fig. 9, the connecting part 11 includes a pin 1101 and a driving unit 1102, one end of the pin 1101 faces the track 6, and the driving unit 1102 is connected with the pin 1101 to drive the pin 1101 to axially extend and retract; the glass frame is provided with a jack for inserting the pin shaft 1101. So that the latch 1101 is driven by the driving unit 1102 to extend and retract to be inserted into or withdrawn from the insertion hole of the glass rack, thereby realizing automatic connection with the glass rack.

In this embodiment, the jack includes first jack and second jack, and first jack and second jack are located the both ends of glass frame respectively. So that the pulling mechanism can pull from either end of the glass rack 2 and then facilitate pushing the glass rack 2 off the transfer trolley.

Specifically, the method comprises the following steps: referring to fig. 10, one end of the underframe 1 is provided with a first traction block 11, the other end thereof is provided with a second traction block 12, the first traction block 11 is provided with a through hole to form a first jack, and the second traction block 12 is provided with a through hole to form a second jack. The arrangement mode enables the first jack and the second jack to form a certain distance with the end part of the underframe 1, so that the glass frame can be conveniently pushed out (or pulled into) the transfer trolley. And because first traction block 11 and second traction block 12 are all fixed in on the chassis 1 for the application of force position is low during pulling, can effectively ensure the stationarity of pulling.

Specifically, the method comprises the following steps: first traction block 11 includes first left traction block and first right traction block, and first left traction block and first right traction block arrange in track 6's both sides relatively, are equipped with the through-hole on the first left traction block in order to form first left centre bore, are equipped with the through-hole on the first right traction block in order to form first right centre bore. The second traction block 12 comprises a second left traction block and a second right traction block, the second left traction block and the second right traction block are oppositely arranged on two sides of the track 6, a through hole is formed in the second left traction block to form a second left center hole, and a through hole is formed in the second right traction block to form a second right center hole. So that the front side and the back side of the glass frame do not need to be distinguished when the glass frame is drawn by the drawing mechanism.

Referring to fig. 11, the support frame includes a plurality of cross bars arranged at a linear interval, and a first support bar at one end of the cross bars to connect the cross bars together and a second support bar at the other end of the cross bars to connect the cross bars together; guide wheels rotatably assembled with the cross rods are respectively arranged above the cross rods, and the guide wheels on the cross rods are mutually matched to form a track 6.

Specifically, the method comprises the following steps: the guide grooves comprise a first guide groove and a second guide groove, and the notches of the first guide groove and the second guide groove are opposite; the guide wheel comprises a first guide wheel and a second guide wheel, the first guide wheel and the second guide wheel are coaxially arranged and are both rotatably installed on the cross rod, the first guide wheel is located in the first guide groove, and the second guide wheel is located in the second guide groove. The first guide wheel and the second guide wheel are matched to support and guide the glass frame, and the track 6 of the transfer trolley has strong bearing and deformation resistance due to the structure.

One side of first leading wheel near the second leading wheel is equipped with first spacing wheel 15, and first spacing wheel 15 supports with the port limit of first guide slot and leans on. So as to form secondary guiding at one side of the first guide wheel and realize axial limiting function.

Similarly, one side of the second guide wheel, which is close to the first guide wheel, is provided with a second limiting wheel 16, and the second limiting wheel 16 abuts against the port edge of the second guide groove. So as to form secondary guiding at one side of the second guide wheel and realize axial limiting function. The first limiting wheel 15 and the second limiting wheel 16 are matched, so that the glass frame can be effectively prevented from shaking left and right in the moving process.

According to the invention, the chute is arranged at the bottom of the glass frame, and the track 6 for the glass frame to slide in and out is arranged on the transfer trolley, so that the glass frame loaded with glass can slide into the transfer trolley together with the glass, and can slide out of the transfer trolley together after being transferred to the preset position, thereby saving the carrying times of the glass and greatly improving the transfer efficiency and the safety. Simultaneously, through setting up hold-down mechanism in one side of track 6 to make swing arm 8 among the hold-down mechanism can swing, compress tightly the glass on the glass frame with compact heap 10 on the swing arm 8 in the transportation, make it can not appear rocking, ensure the security that glass transported.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a large-scale glass changes uses glass frame which characterized in that includes: chassis (1) and grudging post (2), wherein:

the bottom of the underframe (1) is provided with a chute; the vertical frame (2) is vertically fixed on one side of the bottom frame (1).

2. The glass rack for large glass transfer according to claim 1, wherein the bottom rack (1) is provided with a plurality of brackets (3) arranged at a linear interval, each bracket (3) comprises a lifting part (31) and a vertical part (32), the lifting parts (31) and the vertical parts (32) are matched with the vertical parts (32) to form an L shape, the lifting parts (31) are fixed on the base, the vertical parts (32) are vertically fixed at one ends of the lifting parts (31), and the vertical parts (32) are provided with vertically arranged center holes; the vertical frame (2) comprises a plurality of vertical rods, and the vertical rods are correspondingly inserted into the central holes of the brackets (3).

3. A large glass transfer rack according to claim 2, wherein the upper surface of the lifting part (31) is an inclined surface, and the vertical part (32) is vertically fixed at the lowest end of the lifting part (31).

4. The large glass transfer rack according to claim 2, wherein the central hole is a polygonal hole, and the cross-sectional shape of the vertical rod is a polygon fitting with the central hole; preferably, the central hole is a rectangular hole.

5. The glass rack for transferring large-sized glass according to claim 2, wherein a connecting rod (4) for connecting any two adjacent upright rods is arranged between the two upright rods, and the connecting rod (4) is detachably connected with the upright rods; preferably, the uprights are located in the central holes and are fixed by means of bolts to the corresponding uprights (32); preferably, the upper surface of the lifting part (31) is provided with a protective pad (5); preferably, a protective pad (5) is arranged on one side of the vertical rod close to the surface of the lifting part (31).

6. The utility model provides a dolly is transported to large-scale glass which characterized in that includes: a support frame and a sideframe, wherein:

the supporting frame is provided with a track (6) for the glass frame to slide in and out; the side frame is positioned at one side of the track (6) and is fixed on the support frame, and a pressing mechanism is arranged on the side frame; the pressing mechanism comprises a mounting shaft (7), a swing arm (8) and a power unit (9), the mounting shaft (7) is fixed on the side frame, and the mounting shaft (7) is parallel to the track (6); one end of the swing arm (8) is rotatably connected with the mounting shaft (7), and the other end of the swing arm is provided with a pressing block (10); the power unit (9) is connected with the swing arm (8) to drive the swing arm (8) to swing.

7. The large glass transfer trolley according to claim 6, wherein the pressing block (10) comprises a pressing part (1001) and a mounting bearing (1002), the mounting bearing (1002) is located on one side of the pressing part (1001), the outer ring of the mounting bearing is fixed with the middle part of the pressing part (1001), and the inner ring of the mounting bearing is movably connected with the swing arm (8) through a rotating shaft parallel to the mounting shaft (7).

8. The large glass transfer trolley according to claim 7, wherein the swing arm (8) comprises a first rod body, a second rod body located on one side of the first rod body, and a connecting rod (4) connecting the first rod body and the second rod body to form a whole, and the mounting bearing (1002) is located between the first rod body and the second rod body and movably connected with the first rod body and the second rod body through a rotating shaft.

9. The large glass transfer trolley according to claim 6, wherein the side frames comprise a first side frame and a second side frame, the first side frame and the second side frame are oppositely arranged on two sides of the rail (6), and the first side frame and the second side frame are respectively provided with a pressing mechanism.

10. The large glass transfer trolley according to any one of claims 6 to 9, wherein a traction mechanism is further provided on the side frame, the traction mechanism comprises a connecting member (11) for connecting with the glass frame and a driving member (12) for driving the connecting member (11) to reciprocate along the extending direction of the rail (6);

preferably, a guide rail (13) parallel to the rail (6) and a sliding seat (14) assembled with the guide rail (13) in a sliding way are arranged on the supporting frame and positioned at one side of the rail (6); the driving part (12) is connected with the sliding seat (14) to drive the sliding seat (14) to move on the guide rail (13) in a reciprocating manner; the connecting part (11) is fixed on the sliding seat (14);

preferably, the guide rail (13) comprises a main guide rail (1301) and a secondary guide rail (1302) parallel to the main guide rail (1301), and a gap is reserved between the main guide rail (1301) and the secondary guide rail (1302) in the height direction; the end face of the main guide rail (1301) faces upwards, the auxiliary guide rail (1302) is located between the main guide rail (1301) and the track (6), and the end face of the auxiliary guide rail (1302) faces to the side where the track (6) is located; the sliding seat (14) is provided with a main sliding groove and an auxiliary sliding groove, the main sliding groove is in sliding fit with the main guide rail (1301), and the auxiliary sliding groove is in sliding fit with the auxiliary guide rail (1302).

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