CN211732722U - Feeding structure for transferring round glass - Google Patents

Abstract

The utility model relates to the field of glass processing, and discloses a feeding structure for transferring circular glass, which comprises a frame, a transition material conveying mechanism and a receiving mechanism for receiving the glass from the transition material conveying mechanism, wherein the transition material conveying mechanism comprises a plurality of conveying roller sets arranged in parallel, each conveying roller set is inclined, and a containing gap is reserved between at least two conveying roller sets; the supporting mechanism comprises a rotating shaft which is connected to the rack in a reciprocating rotating mode, a limiting unit is arranged on the rotating shaft and comprises a supporting seat connected to the rotating shaft, a supporting piece is arranged on the supporting seat, and when the supporting piece rotates to be parallel to the conveying roller set, the supporting piece is located in the accommodating gap. The glass damage problem caused by human factors is avoided through the embodiment and the scheme.

Description

Feeding structure for transferring round glass

Technical Field

The utility model relates to a glass processing field, concretely relates to pay-off structure for circular glass transports.

Background

Circular glass is widely used in our lives, such as a glass pot cover, and the glass pot cover needs to undergo the following stages during processing and forming: cutting, round edge polishing, drilling, cleaning, handle installation and the like. Because each procedure has different requirements on the placement state of the glass, the glass is required to be in a horizontal state during circular edge grinding, and the glass is required to be in a vertical state during drilling. The existing processing mode is a manual processing mode at each link needing state change, for example, after the glass pot cover is polished, the glass pot cover horizontally conveyed is vertically inserted into the limiting groove manually, and then the upper edge of the circular glass is conveyed to the drilling equipment through the clamping mechanism to be drilled. Therefore, at least 5-6 workers are arranged on a glass pot cover production line, the labor cost is high, and meanwhile, because the glass is smooth, the worker often has the problems that the glass slips and falls to the ground to be damaged in the operation process or the worker collides with other parts on the production line to be damaged; if the corresponding equipment is additionally purchased, the cost is higher. Therefore, the device for automatically switching the glass placing state based on the existing device needs to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it is anticipated that the pay-off structure that is used for circular glass to transport is provided to solve among the prior art circular glass and in the course of working human cost higher, and the problem of glass damage easily appears.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the feeding structure for transferring the round glass comprises a rack, a transition material conveying mechanism and a bearing mechanism for bearing the glass from the transition material conveying mechanism, wherein the transition material conveying mechanism comprises a plurality of conveying roller sets arranged in parallel, each conveying roller set is obliquely arranged, and an accommodating gap is reserved between at least two conveying roller sets; the supporting mechanism comprises a rotating shaft which is connected to the rack in a reciprocating rotating mode, a limiting unit is arranged on the rotating shaft and comprises a supporting seat connected to the rotating shaft, a supporting piece is arranged on the supporting seat, and when the supporting piece rotates to be parallel to the conveying roller set, the supporting piece is located in the accommodating gap.

The principle and the advantages of the scheme are as follows: this scheme is installed between two processes, conveys glass through the mode that adopts many conveying roller sets, wherein leaves accommodation gap between two at least conveying roller sets, is when rotating to being parallel with conveying roller set in order to guarantee to accept, during the piece imbeds accommodation gap, makes glass more smooth and easy slide to accept from conveying roller set. And finally, the round glass pot cover is driven by the bearing piece to rotate from a horizontal state to a vertical state by the rotating shaft. Therefore, the automatic transfer of the placing state of the round glass among different processes can be realized through the arrangement of the scheme, 1-2 workers do not need to be additionally configured for operation, and the labor cost is saved. Meanwhile, the problem of glass damage caused by human factors is also avoided.

Preferably, as an improvement, the number of the limiting units is two, and the two limiting units are arranged symmetrically along the radial direction of the rotating shaft. Because the round glass is transported to this scheme, consequently through above-mentioned structure, make two spacing units be located round glass's footpath line both sides respectively in the transportation to prevent that glass from taking place the roll phenomenon.

Preferably, as an improvement, still include positioning mechanism, this positioning mechanism is located between two stop gear, positioning mechanism is including fixing the setting element in the frame, and when accepting the piece and the setting element is parallel, the interval and the glass thickness phase-match of accepting the piece and setting element, through the aforesaid setting, when accepting the mechanism and transporting glass to specific position, carry out the centre gripping through the setting element rather than the accepting of both sides to glass, avoid glass to produce under the inertia effect and rock or the unstable condition of glass location, and lead to the unable normal work's of next process problem.

Preferably, as an improvement, be equipped with the locating part on the socket, form the accommodation space who holds glass between locating part and the socket, because can have the conversion of angle in the transportation, if move to vertical state or even exceed vertical state from the horizontal state, through above-mentioned setting, can avoid glass from the problem of landing on the socket in the transportation.

Preferably, as an improvement, the distance from the free end of the limiting member to the receiving member is greater than the distance from the fixed end of the limiting member to the receiving member.

Preferably, as an improvement, the cover is equipped with soft sleeve on adapting piece and the locating part to avoid glass to collide and appear damaging the problem with both in the transportation.

Preferably, as an improvement, be connected with in the axis of rotation and be used for driving axis of rotation pivoted actuating mechanism, actuating mechanism is equipped with U type connector including fixing the cylinder in the frame on the piston rod of cylinder, it has the driving piece to articulate on the U type connector, and the free end fixed cover of this driving piece is established in the axis of rotation, through the aforesaid setting, through the reciprocating motion of cylinder piston rod in order to drive the stable reciprocating rotation that carries on of axis of rotation.

Preferably, as an improvement, two the top edge of the opposite face of the bearing seat is provided with a chute, the chute is located between the bearing part and the limiting part, through the above arrangement, when glass passes through the limiting part and the accommodating space between the bearing parts, the glass enters the two chutes of the bearing seats to limit the glass in the left-right direction, and in addition, the limiting part and the bearing part limit the glass in the front-back direction, so that the limitation of the glass in four directions is realized. In addition, the opening of the chute is designed to be flared, so that the glass can accurately enter the chute.

Preferably, as an improvement, the transitional conveying mechanism further comprises a size adjusting mechanism for adjusting the size of the accommodating gap, and since circular glass with different diameters is usually processed in the actual production process, the conveying width of the transitional conveying mechanism is adjusted through the above arrangement, so as to process the circular glass with different sizes.

Preferably, as an improvement, the transitional conveying mechanism further comprises an angle adjusting mechanism for adjusting the guide angle of the conveying roller group close to the outer side of the accommodating gap. Through the arrangement, the conveying roller group positioned outside the accommodating gap can be adjusted to incline towards the direction of the accommodating gap, so that on one hand, the guide effect on the round glass can be achieved, and the round glass can smoothly enter the bearing mechanism; on the other hand, the protection effect can be achieved, namely, the round glass is prevented from sliding to two sides and being damaged.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention.

Fig. 2 is a schematic structural view of the limiting unit in fig. 1.

Fig. 3 is a schematic structural diagram of a size adjusting mechanism and an angle adjusting mechanism in embodiment 2 of the present invention.

Fig. 4 is an enlarged schematic view of a in fig. 3.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a rack 1, a rotating shaft 2, a bearing seat 3, a metal block 4, a non-metal block 5, a bearing piece 6, a limiting piece 7, a chute 8, a positioning piece 9, a positioning sleeve 10, a cylinder 11, a U-shaped connector 12, a driving piece 13, a conveying roller set 14, a base block 15, an adjusting hinge 16, a screw rod 17, a nut 18, an adjusting bolt 19, a first cross beam 20, a second cross beam 21 and an accommodating gap 22.

Example one

The first embodiment is basically as shown in the attached figures 1 and 2: a pay-off structure for circular glass transports, including frame 1, still include transition fortune material mechanism and be used for accepting the receiving mechanism who comes from the glass on the transition fortune material mechanism.

The transitional conveying mechanism comprises four conveying roller sets 14 which are arranged in parallel, each conveying roller set 14 is obliquely arranged on the rack 1 leftwards and downwards, and each conveying roller set 14 can be fixed on the rack 1 in a welding or bolt connection mode. Between the two left-hand conveyor roller sets 14 and between the two right-hand conveyor roller sets 14, there are provided accommodating gaps 22 for accommodating the carriers 6. The conveying roller group 14 comprises a rectangular base block 15, grooves with two ends and top openings are formed in the base block 15, and a plurality of rotating rollers which are uniformly distributed along the length direction of the base block 15 are connected in the grooves in a rotating mode.

The supporting mechanism comprises a rotating shaft 2, the rotating shaft 2 is located at the output end of the conveying roller set 14, the rotating shaft 2 and the two ends of the rotating shaft 2 of the conveying roller set 14 are connected to the frame 1 in a rotating mode through bearings, two limiting units are installed on the middle portion of the rotating shaft 2, the limiting units comprise supporting seats 3, the supporting seats 3 are formed by bonding metal blocks 4 (such as iron, aluminum and the like) and nonmetal blocks 5 (such as wood, rubber and the like), and the supporting seats 3 are formed by welding iron blocks and wood blocks. The bearing base 3 can be welded to the rotating shaft 2.

The non-metal block 5 of the bearing seat 3 is vertically and fixedly provided with a bearing part 6, the cross section of the bearing part 6 can be in a round tube shape, a cylindrical shape, a square shape or a plate shape, the round tube shape is adopted in the embodiment, and the free end of the round tube shape can be more conveniently lapped to the gap of the last station conveying mechanism. The non-metal block 5 is also fixedly provided with a limiting part 7, the cross section of the bearing part 6 can be in a shape of a circular tube, a cylinder, a square or a plate, and the embodiment adopts the shape of the circular tube. A containing space for containing glass is formed between the limiting part 7 and the bearing part 6, when the rotating shaft 2 rotates to the bearing part 6 and is parallel to the conveying roller set 14 (namely the free end of the bearing part 6 is parked on the second beam 21 in the scheme of fig. 1), the free end of the limiting part 7 is higher than the upper surface of the conveying roller set 14 by 2cm, the upper top edges of the opposite surfaces of the two non-metal blocks 5 are provided with inclined grooves 8, the inclined grooves 8 are positioned between the bearing part 6 and the limiting part 7, and the openings of the inclined grooves 8 are in flaring shapes.

In addition, in order to avoid the problem that the glass is damaged due to collision with the glass in the transferring process, soft sleeves are sleeved on the bearing piece 6 and the limiting piece 7 respectively, and can adopt waste plastic pipes so as to achieve the purpose of recycling wastes and protecting the environment.

The positioning mechanism is vertically installed between the two limiting mechanisms and comprises a positioning piece 9 vertically welded on the rack 1, a clamping piece is vertically installed at the top of the positioning piece 9 and comprises a fastening bolt and a soft positioning sleeve 10, the fastening bolt penetrates through and is in threaded connection with the upper end of the positioning piece 9, the positioning sleeve 10 is in interference fit with one end, close to the bearing mechanism, of the fastening bolt, and the positioning sleeve 10 can adopt an abandoned plastic pipe. When the bearing piece 6 rotates to be parallel to the positioning piece 9, the distance between the bearing piece 6 and the free end of the positioning sleeve 10 is consistent with the thickness of the glass.

Be connected with on the axis of rotation 2 and be used for driving axis of rotation 2 pivoted actuating mechanism, actuating mechanism is including the cylinder 11 that the slope set up, this cylinder 11 passes through the bolt fastening in frame 1, fixed mounting has U type connector 12 on cylinder 11's the piston rod, it has driving piece 13 to articulate on U type connector 12, the free end cover of this driving piece 13 is established on axis of rotation 2, the screwed connecting hole is seted up in the footpath of driving piece 13 free end, pass the connecting hole in order to support tight axis of rotation 2 through the bolt, thereby realize driving piece 13 and axis of rotation 2's fixed.

The specific implementation process is as follows: the cylinder 11 is started first, the piston rod of the cylinder 11 is stretched to drive the rotating shaft to rotate 90 degrees clockwise through the driving part 13, and at the moment, the free ends of the two bearing parts 6 are parked on the second beam 21 on the rack 1 and are respectively positioned in the accommodating gaps 22 on the left side and the right side. When the glass finished in the previous process falls onto the four conveying roller sets 14 from the conveying belt, the glass slides downwards along the inclined conveying roller sets 14 until the glass enters the accommodating spaces of the two limiting mechanisms. At the moment, the air cylinder 11 contracts to drive the rotating shaft 2 to rotate anticlockwise, and in the rotating process, the glass gradually enters the chute 8 under the action of self gravity, so that the left end and the right end of the glass are limited, and the glass is prevented from rolling.

Example two

The structure of this embodiment is basically the same as that of the first embodiment, except that: as shown in fig. 3 and 4, the transitional conveying mechanism further includes a size adjusting mechanism for adjusting the size of the accommodating gap 22, the size adjusting mechanism is installed on the left and right conveying roller sets 14 located on the outermost side, in this embodiment, the size adjusting mechanism installed on the right conveying roller set 14 is taken as an example, the size adjusting mechanism includes a connecting rod and an adjusting hinge 16, the connecting rod is a threaded rod, the lower end of the connecting rod is in threaded connection with the first cross beam 20 on the rack 1, the upper end of the connecting rod is rotatably connected with the bottom of the base block 15, specifically, a through hole with a diameter larger than that of the connecting rod is formed in the bottom of the base block 15, the connecting rod penetrates through the through hole and extends into the groove of the base block 15, and nuts are connected to the upper side and the lower side of the through. Adjust 16 right-hand members fixed connection of hinge in the bottom of base block 15, adjust on the left end of hinge 16 rotates the second crossbeam 21 of connection in frame 1, specifically for all seted up the mounting hole on second crossbeam 21 and regulation hinge 16, wherein the mounting hole on the second crossbeam 21 has a plurality ofly, all follows second crossbeam 21 length direction evenly distributed. A screw rod 17 is connected in the mounting hole of the adjusting hinge 16 in a sliding manner, and two ends of the screw rod 17 are respectively connected with a screw cap 18 in a threaded manner. The adjusting hinge 16 is pressed against the second cross beam 21 by inserting the screw 17 into one of the mounting holes of the adjusting hinge 16 and the second cross beam 21 and then screwing the nuts 18 at both ends of the screw 17.

The transitional conveying mechanism further comprises an angle adjusting mechanism for adjusting the guide angle of the conveying roller group 14 close to the outer side of the accommodating gap 22, the angle adjusting mechanism comprises an adjusting bolt 19 which vertically penetrates through and is in threaded connection with the second cross beam 21, and the upper end of the adjusting bolt 19 abuts against the outer bottom of the right side of the base block 15.

When the circular glass with larger size needs to be conveyed, the screw cap 18 is unscrewed, the screw rod 17 is taken down from the mounting holes in the second cross beam 21 and the adjusting hinge 16, as shown in fig. 1, the lower ends of the conveying roller sets 14 are in a free state, the lower ends of the conveying roller sets 14 on the left side and the right side are rotated outwards by proper angles respectively to realize the adjustment of the transverse width of the transitional conveying mechanism, the bolts are inserted into the new mounting holes in the adjusting hinge 16 and the second cross beam 21 after the adjustment is finished, and the adjusting hinge 16 is pressed on the second cross beam 21 by screwing the screw cap 18.

When the guide angle of the outermost conveying roller group 14 needs to be adjusted, the conveying roller group 14 can rotate by taking the adjusting hinge 16 as a rotation center only by screwing the adjusting bolt 19 to ascend or descend, so that the inclination angle of the upper surface of the conveying roller group 14 can be adjusted.

The above description is only an example of the present invention, and the detailed technical solutions and/or characteristics known in the solutions are not described too much here. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. A pay-off structure for circular glass transports, including the frame, its characterized in that: the glass conveying device is characterized by also comprising a transitional conveying mechanism and a receiving mechanism for receiving glass from the transitional conveying mechanism, wherein the transitional conveying mechanism comprises a plurality of conveying roller sets arranged in parallel, each conveying roller set is obliquely arranged, and an accommodating gap is reserved between at least two conveying roller sets; the supporting mechanism comprises a rotating shaft which is connected to the rack in a reciprocating rotating mode, a limiting unit is arranged on the rotating shaft and comprises a supporting seat connected to the rotating shaft, a supporting piece is arranged on the supporting seat, and when the supporting piece rotates to be parallel to the conveying roller set, the supporting piece is located in the accommodating gap.

2. The feeding structure for circular glass transfer according to claim 1, wherein: the number of the limiting units is two, and the two limiting units are symmetrically arranged along the radial direction of the rotating shaft.

3. The feeding structure for round glass transfer according to claim 1 or 2, wherein: the glass positioning device is characterized by further comprising a positioning mechanism, wherein the positioning mechanism is located between the two limiting mechanisms, the positioning mechanism comprises a positioning piece fixed on the rack, and when the receiving piece is parallel to the positioning piece, the distance between the receiving piece and the positioning piece is matched with the thickness of glass.

4. The feeding structure for circular glass transfer according to claim 3, wherein: the bearing seat is provided with a limiting part, and an accommodating space for accommodating glass is formed between the limiting part and the bearing part.

5. The feeding structure for circular glass transfer according to claim 4, wherein: the distance between the free end of the limiting part and the bearing part is larger than the distance between the fixed end of the limiting part and the bearing part.

6. The feeding structure for circular glass transfer according to claim 5, wherein: soft sleeves are sleeved on the bearing pieces and the limiting pieces.

7. The feeding structure for circular glass transfer according to claim 6, wherein: the driving mechanism comprises a cylinder fixed on the frame, a U-shaped connector is arranged on a piston rod of the cylinder, a driving piece is hinged to the U-shaped connector, and the free end of the driving piece is fixedly sleeved on the rotating shaft.

8. The feeding structure for circular glass transfer according to claim 7, wherein: two the last top edge of accepting the seat opposite face is equipped with the chute, and this chute is located and accepts between piece and the locating part, the opening of chute is the flaring.

9. The feeding structure for round glass transfer according to claim 1 or 8, wherein: the transition material conveying mechanism further comprises a size adjusting mechanism for adjusting the size of the accommodating gap.

10. The feeding structure for circular glass transfer according to claim 9, wherein: the transition material conveying mechanism further comprises an angle adjusting mechanism for adjusting the guide angle of the conveying roller group close to the outer side of the accommodating gap.

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