CN219154512U - Glass conveying device - Google Patents

Abstract

The application relates to a glass conveyer, it includes carrier trolley, flexible subassembly and four parallel arrangement's locating part, and the locating part is equipped with a plurality of depressed parts that set up along locating part length direction, and the relative setting of the depressed part of four locating parts for restrict glass and remove, wherein two locating parts are installed in the carrier trolley, connect through flexible subassembly between four locating parts, in order to constitute the frame construction who holds glass, flexible subassembly is scalable, in order to adjust the interval between the locating part. The whole glass loading operation flow is simple and efficient, and the efficiency of glass transferring can be greatly improved; the telescopic component adjusts the distance between the four groups of limiting positions, and can adapt to glass with different sizes, so that the adaptability of the glass is stronger; four sets of limiting parts are mutually matched to protect the glass, so that the risk of interference or collision between two adjacent glass is avoided.

Description

Glass conveying device

Technical Field

The application relates to the technical field of glass production, in particular to a glass conveying device.

Background

Glass is a material commonly used in daily life, and in the fields of construction and decoration, it is generally necessary to transfer or transport a large block of glass, so that a glass transfer device is indispensable. During transportation, the glass is easy to collide with the transferring device, so that the glass is broken, and better protection is needed.

In the glass transportation process, the glass is fixed on the transfer device, in order to reduce the shaking of the glass, a mode of clamping and limiting the glass is adopted, and the glass is transferred in the mode, so that the risk of damage caused by overlarge compression exists. In the glass transferring process, the glass shaking can be limited, and the glass damage caused by excessive pressure cannot be generated, so that the problem to be solved is urgent.

Disclosure of Invention

In order to safely and stably transport glass and reduce the breakage rate in the glass transportation process, the application provides a glass transportation device.

The application provides a glass transportation device adopts following technical scheme:

the utility model provides a glass conveyer, includes carrier trolley, flexible subassembly and four parallel arrangement's locating part, and the locating part is equipped with a plurality of depressed parts that set up along locating part length direction, and the relative setting of the depressed part of four locating parts for restrict glass and remove, wherein two locating parts are installed in the carrier trolley, connect through flexible subassembly between four locating parts, in order to constitute the frame construction who holds glass, flexible subassembly is scalable, in order to adjust the interval between the locating part.

Through adopting above-mentioned technical scheme, when transporting glass, can earlier with glass card in proper order in the concave part of two flexible subassemblies that lie in the below carry out the location in, the flexible subassembly of readjustment will lie in the locating part and the joint of glass, can be fixed in on the carrier trolley with glass under the combined action of four concave parts, whole operation flow is simple high-efficient can improve the efficiency of transporting glass greatly; the telescopic component adjusts the distance between the four groups of limiting positions, and can adapt to glass with different sizes, so that the adaptability of the glass is stronger; four sets of limiting parts are mutually matched to protect the glass, so that the risk of interference or collision between two adjacent glass is avoided.

Optionally, the carrier trolley comprises a first carrier, a second carrier and a buffer assembly, wherein the second carrier is connected with the first carrier through the buffer assembly, and the limiting piece is arranged on the second carrier.

Through adopting above-mentioned technical scheme, glass passes through the locating part limit and installs on the second microscope carrier, and when the delivery dolly was transported glass and is bump or receive the exogenic action, the impact force that buffer assembly can reduce the second microscope carrier received, thereby reduces the rocking range of second microscope carrier and protects glass.

Optionally, the buffer assembly includes elastic component and spring, and elastic component and second microscope carrier fixed connection, the both ends of elastic component set up towards first microscope carrier slope and with first microscope carrier butt, the both ends of spring respectively with first microscope carrier and second microscope carrier butt.

Through adopting above-mentioned technical scheme, when first microscope carrier receives the exogenic action, elastic component takes place elastic deformation, and the both ends of elastic component slide towards deviating from the direction, and spring compression simultaneously hinders the motion or the motion trend of second microscope carrier towards first microscope carrier under the combined action of elastic component and spring to play the effect of buffering, guarantee to bear glass's second microscope carrier has steady state when the impact.

Optionally, the buffer assembly further comprises a limiting piece, one end of the limiting piece is fixedly connected with the elastic piece, and the limiting piece is spliced with the first carrying platform along the vertical direction.

Through adopting above-mentioned technical scheme, the locating part can restrict first microscope carrier and second microscope carrier and only follow vertical direction and remove, avoids the second microscope carrier to take place to rock in the horizontal plane direction relative first microscope carrier, and then the glass of protection being fixed in the second microscope carrier.

Optionally, the number of the buffer assemblies is at least four, and the buffer assemblies are distributed in an array between the first carrier and the second carrier.

Through adopting above-mentioned technical scheme, multiunit buffer unit can be even bear the impact force that the second microscope carrier received, improved the threshold value that buffer unit can bear the impact force, reduce the comparatively concentrated external force that receives and produce the risk of damage, prolonged buffer unit's life.

Optionally, one side that the second microscope carrier deviates from first microscope carrier is equipped with the slide rail, and two spacing subassemblies slide with the slide rail and be connected for two locating parts are close to or keep away from, and the depressed part of two locating parts is relative setting.

Through adopting above-mentioned technical scheme for the locating part can be steady slide on the slide rail, with under the rated load-bearing condition of slide rail, can slide smoothly, and the maneuverability is strong, and the interval of two locating parts is adjusted to the operating personnel of being convenient for.

Optionally, the telescopic assembly includes first member and second member, and one end and a locating part fixed connection of first member, the other end and second member sliding connection, the one end and a locating part fixed connection of second member keeping away from first member, first member threaded connection has the location knob, and the location knob is used for supporting tight second member.

Through adopting above-mentioned technical scheme, first member and second member slide, can play the supporting role in the time of can adjusting the interval between the locating part, when glass loading is carried in between the locating part, screw the positioning knob, it is fixed with first member and second member, reduce the rocking that glass produced in the operation process, under the condition of not carrying glass, first member and second member shrink, accomodate the locating part on the second carrier, reduce its space that occupies.

Optionally, the carrying trolley further comprises a handle part, and the handle part is fixedly connected with one side of the first carrying platform.

Through adopting above-mentioned technical scheme, operating personnel can hold handle portion push-and-pull carrier trolley for operating personnel is more convenient laborsaving.

Optionally, the concave part is provided with a clamping piece, the clamping piece is abutted with the inner wall of the concave part, and the clamping piece is extruded by glass and filled in a gap between the concave part and the glass.

Through adopting above-mentioned technical scheme for the depressed part when loading the glass of different thickness, glass can be through the inseparable laminating of joint spare with the inner wall of depressed part, has further ensured glass's safety.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the whole glass loading operation flow is simple and efficient, the efficiency of transferring glass can be greatly improved, the distance between four groups of limiting positions is adjusted by the telescopic assembly, and the glass loading device can adapt to glass with different sizes, so that the application has stronger adaptability;

2. the four groups of limiting pieces are matched with each other to protect the glass, so that the risk of interference or collision between two adjacent glass is avoided;

3. under the combined action of the elastic piece and the spring, the second carrying platform is hindered from moving towards the first carrying platform or moving trend, so that the buffer effect is achieved, and the second carrying platform for carrying glass is guaranteed to have a stable state during impact.

Drawings

Fig. 1 is a schematic view showing a transportation state of a glass transportation device according to the present application.

Fig. 2 is a schematic cross-sectional view of a glass transportation device of the present application.

FIG. 3 is an enlarged schematic cross-sectional view of a cushioning assembly of the present application.

Fig. 4 is a schematic view showing a structure of a glass transporting apparatus in a vacant state.

Reference numerals illustrate: 1. carrying trolley; 11. a first stage; 111. a groove; 112. a limiting hole; 12. a second stage; 13. a wheel module; 14. a handle portion; 15. a slide rail; 16. a positioning block; 17. a positioning rod; 2. a telescoping assembly; 21. a first rod member; 22. a second rod member; 23. a positioning knob; 3. a limiting piece; 31. a recessed portion; 32. a clamping piece; 4. a buffer assembly; 41. an elastic member; 42. a spring; 43. and a limit rod.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a glass conveying device.

Example 1:

referring to fig. 1 and 2, the glass transportation device includes a carrying cart 1, a plurality of telescopic components 2 and four limiting members 3, a plurality of concave portions 31 are provided at one side of the limiting members 3, the plurality of concave portions 31 are provided along the length direction of the limiting members 3, four groups of limiting members 3 form a frame structure for limiting glass through the telescopic components 2, and the concave portions 31 of the four groups of limiting members 3 correspond to each other to load a plurality of glass. The telescopic assembly 2 can telescopically adjust the spacing between the limiting members 3 so as to be capable of loading glass of different sizes. The frame that locating part 3 and flexible subassembly 2 constitute is installed on carrier trolley 1, and carrier trolley 1 can transport the glass between joint locating part 3.

The carrying trolley 1 comprises a first carrying platform 11, a second carrying platform 12 and a buffer assembly 4, wherein the second carrying platform 12 is connected with the first carrying platform 11 through the buffer assembly 4, four groups of wheel modules 13 are fixedly connected to one side, away from the second carrying platform 12, of the first carrying platform 11, a handle portion 14 is fixedly connected to one side of the first carrying platform 11, in the embodiment, the handle portion 14 is a U-shaped pipe which is arranged at an angle of 60 degrees with the horizontal plane, and an operator can hold the handle portion 14 by hand to push and pull the carrying trolley 1 so as to realize glass transfer.

Referring to fig. 3, four grooves 111 for accommodating the buffer assemblies 4 are formed in a side of the first carrier 11 facing the second carrier 12, and a limiting hole 112 is formed in each groove 111. The buffer component 4 comprises an elastic piece 41, a spring 42 and a limiting rod, wherein two ends of the elastic piece 41 are obliquely arranged towards the bottom of the groove 111, the middle position of the elastic piece 41 is fixedly connected with the second carrying platform 12 towards the first carrying platform 11, one end of the limiting piece 3 is fixedly connected with the middle position of the elastic piece 41, and the limiting piece 3 is slidably connected with the limiting hole 112 along the vertical direction so as to limit the shaking of the first carrying platform 11 and the second carrying platform 12 in the horizontal direction.

The spring 42 is sleeved on the outer wall of the limiting member 3, one end of the spring 42 is abutted against the first carrying platform 11, the other end is abutted against the elastic member 41, in this embodiment, the end of the elastic member 41 is arranged in a plane to enhance the blocking effect of the elastic member 41, and in other embodiments, the end of the elastic member 41 can be arranged in an arc manner to reduce the abrasion between the elastic member 41 and the first carrying platform 11. When the first carrier 11 or the second carrier 12 receives an impact force, the elastic member 41 and the spring 42 are simultaneously elastically deformed to block the relative movement between the first carrier 11 and the second carrier 12, thereby improving the stability of carrying the second carrier 12.

Referring to fig. 4, two parallel sliding rails 15 are fixed on one side of the second carrying platform 12 away from the first carrying platform 11, a slider matched with the sliding rail 15 is fixed on one side of the two limiting pieces 3 away from the concave portion 31, the two limiting pieces 3 are slidably connected with the sliding rail 15 through the slider, and the concave portions 31 of the two limiting pieces 3 are in one-to-one correspondence for positioning glass. The length direction of the two limiting pieces 3 is perpendicular to the length direction of the sliding rail 15, and the two limiting pieces 3 slide along the length direction of the sliding rail 15 so as to achieve the approaching or separating of the two limiting pieces 3.

The limiting piece 3 connected with the slide rail 15 is fixedly connected with a positioning block 16, the positioning block 16 is provided with a threaded hole opposite to the slide rail 15, the positioning block 16 is in threaded connection with a positioning rod 17, and the positioning rod 17 is in abutting connection with the slide rail 15 in a rotating way, so that friction force is generated between the positioning rod 17 and the slide rail 15 to limit the movement of the limiting piece 3.

The limiting piece 3 connected with the sliding rail 15 is connected with a limiting piece 3 through two telescopic components 2 along the vertical direction, and the two limiting pieces 3 far away from the sliding rail 15 are positioned on the same horizontal plane and are connected through the two telescopic components 2. The concave parts 31 of the limiting pieces 3 are arranged towards the inside of the frame, and the concave parts 31 of the four limiting pieces 3 are in one-to-one correspondence to limit glass movement. The inner wall of the concave part 31 is adhered with the clamping piece 32, when the glass is clamped into the concave part 31, the clamping piece 32 is extruded to fill the gap between the inner wall of the concave part 31 and the glass, so that the shaking of the glass is reduced, and the impact force of the glass can be weakened.

The telescopic component 2 is telescopic to adjust the spacing of the limiting parts 3 and is used for adapting to glass with different sizes, and it is worth noting that the glass loaded in the limiting parts 3 in the same batch has the same size and thickness so as to achieve better glass shaking limiting effect. In this embodiment, the telescopic assembly 2 includes a first rod 21 and a second rod 22, the ends of the first rod 21 and the second rod 22 are respectively fixedly connected with a limiting member 3, and the first rod 21 and the second rod 22 are slidably connected. The first rod piece 21 is in threaded connection with a positioning knob 23, and the positioning knob 23 can pass through the first rod piece 21 to be abutted with the outer wall of the second rod piece 22. In other embodiments, the telescoping assemblies 2 may be attached by rope or orifice plate latches.

The implementation principle of the embodiment 1 is as follows: in the glass transferring process, the distance between the two limiting parts 3 on the sliding rail 15 is adjusted firstly, so that glass can be clamped into the clamping parts 32 of the concave parts 31, and the glass can be clamped into the concave parts 31 in sequence, so that adjacent glass cannot be affected mutually. And then the first rod piece 21 is contracted, the two limiting pieces 3 positioned at the top of the glass are clamped with the glass, and finally the positioning knob 23 is rotated to fix the first rod piece 21 and the second rod piece 22, so that loading can be completed.

When the carrying trolley 1 receives impact force, the limiting piece 3 and the telescopic component 2 can be matched to stably fix the glass on the second carrying platform 12. The elastic member 41 and the spring 42 deform to reduce the shake amplitude of the second carrier 12, so as to reduce the impact force on the glass and protect the glass.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. A glass transportation device, characterized in that: including carrier trolley (1), flexible subassembly (2) and four parallel arrangement's locating part (3), locating part (3) are equipped with a plurality of depressed part (31) that set up along locating part (3) length direction, four the relative setting of depressed part (31) of locating part (3) for restrict glass and remove, wherein two locating part (3) are installed in carrier trolley (1), four connect through flexible subassembly (2) between locating part (3) to constitute and hold glass's frame construction, flexible subassembly (2) is scalable, in order to adjust the interval between locating part (3).

2. The glass transportation device of claim 1, wherein: the carrying trolley (1) comprises a first carrying platform (11), a second carrying platform (12) and a buffer assembly (4), wherein the second carrying platform (12) is connected with the first carrying platform (11) through the buffer assembly (4), and the limiting piece (3) is arranged on the second carrying platform (12).

3. The glass transportation device of claim 2, wherein: the buffer assembly (4) comprises an elastic piece (41) and a spring (42), the elastic piece (41) is fixedly connected with the second carrying platform (12), two ends of the elastic piece (41) are obliquely arranged towards the first carrying platform (11) and are abutted to the first carrying platform (11), and two ends of the spring (42) are respectively abutted to the first carrying platform (11) and the second carrying platform (12).

4. A glass transportation device according to claim 3, wherein: the buffer assembly (4) further comprises a limiting piece (3), one end of the limiting piece (3) is fixedly connected with the elastic piece (41), and the other end of the limiting piece is spliced with the first carrying platform (11).

5. The glass transportation device of claim 2, wherein: the number of the buffer assemblies (4) is at least four, and the buffer assemblies (4) are distributed between the first carrying platform (11) and the second carrying platform (12) in an array mode.

6. The glass transportation device of claim 2, wherein: one side of second microscope carrier (12) deviating from first microscope carrier (11) is equipped with slide rail (15), two locating part (3) are connected with slide rail (15) in a sliding way for two locating parts (3) are close to or keep away from, two recess (31) of locating part (3) are relative setting.

7. The glass transportation device of claim 1, wherein: the telescopic component (2) comprises a first rod piece (21) and a second rod piece (22), one end of the first rod piece (21) is fixedly connected with one limiting piece (3), the other end of the first rod piece is slidably connected with the second rod piece (22), one end, far away from the first rod piece (21), of the second rod piece (22) is fixedly connected with one limiting piece (3), the first rod piece (21) is in threaded connection with a positioning knob (23), and the positioning knob (23) is used for propping against the second rod piece (22).

8. The glass transportation device of claim 1, wherein: the carrying trolley (1) further comprises a handle part (14), and the handle part (14) is fixedly connected with one side of the first carrying platform (11).

9. The glass transportation device of claim 1, wherein: the concave part (31) is provided with a clamping piece (32), the clamping piece (32) is abutted with the inner wall of the concave part (31), and the clamping piece (32) is extruded by glass and fills a gap between the concave part (31) and the glass.

Images