CN220663485U - Transfer device for glass production - Google Patents

Abstract

The utility model relates to the technical field of transfer equipment, in particular to a transfer device for glass production. According to the utility model, the supporting beams are arranged on the end face of the top of the frame, the rolling shafts are arranged between the supporting beams on two sides in a rolling way, the rolling shafts are arranged in an inclined way, after glass is loaded, the glass is leaned against the longitudinal beam, the gravity center of the frame is positioned at the central axis position, the overturning caused by the gravity center deviation after the glass is loaded is avoided, and meanwhile, the pulleys for assisting sliding are arranged, so that the labor is saved when the glass is assembled and disassembled, the rolling shafts and the pulleys are wrapped with the rubber layers, and the glass is prevented from being scratched in the transferring process.

Description

Transfer device for glass production

Technical Field

The utility model relates to the technical field of transfer equipment, in particular to a transfer device for glass production.

Background

In the glass production process, a transfer device is needed to be used for transporting the massive glass from a production line to another station, the glass is transported and transferred by a conveyor belt between two stations, but the conveyor belt can only meet the transfer work between two points, and the method is also a traditional method, the transfer device is used for carrying, on the production line, the transfer device is more flexible and efficient in a plurality of environments of equipment, the glass transfer device is of a frame structure, and the transfer device is driven by wheels for transferring.

The prior art has the following defects in the using process:

1. the existing glass transfer devices are all of frame structures, when glass is transferred, the weight of the glass is large, larger friction force exists between the glass and a frame, and the placing position of the glass on a loading and transporting device is difficult to adjust, so that the loading and unloading are difficult, the glass and the frame are rubbed, scratches are easily left on the surface of the glass, and the subsequent processing or sales of the glass are affected;

2. the two sides of the existing glass transfer device are not provided with any blocking device, when the shipment device stops moving, the glass still continues to move along the original direction due to the inertia effect, and is easy to slip from the advancing direction of the transfer trolley, so that the glass is quite unsafe to use and is easy to damage.

In view of this we propose a transfer device for glass production to solve the existing problems.

Disclosure of Invention

The utility model aims to provide a transfer device for glass production, which solves the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a transfer device for glass production, includes frame, roll axis and blocking device, the longeron is installed along the central axis at the frame top, frame and longeron both ends all are connected with blocking device, the frame is close to longeron bottom both sides symmetry and installs first supporting beam, the second supporting beam is installed to one side that first supporting beam was kept away from to the frame, roll between first supporting beam and the second supporting beam and install a plurality of roll axes, longeron mid portion both sides welding has first crossbeam, longeron top welding has the second crossbeam, pulley is installed to first crossbeam and second crossbeam outside terminal surface, roll axis and pulley excircle parcel have the rubber layer.

Preferably, the blocking device comprises a first blocking rod, a notch, a second blocking rod and a locking block, wherein one end of the first blocking rod is installed at the upper end of the longitudinal beam and is rotationally connected with the longitudinal beam, one side of the first blocking rod, which is far away from the longitudinal beam, is provided with the notch, the second blocking rod is installed at one side of the frame and is rotationally connected with the frame, one end, which is far away from the frame, of the second blocking rod is provided with the locking block, the locking block is rotationally connected with the second blocking rod, and the locking block penetrates through the notch and is in sliding butt with the outer end face of the first blocking rod.

Preferably, the first support beam and the second support beam are obliquely arranged along the longitudinal beam direction, and a support block is arranged among the first support beam, the second support beam and the frame.

Preferably, the rolling direction of the rolling shaft is parallel to the sliding direction of the pulley.

Preferably, rollers are arranged around the end face of the bottom of the frame.

Preferably, the slot width is greater than the locking block width.

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

1. according to the utility model, the supporting beams are arranged on the end face of the top of the frame, the rolling shafts are arranged between the supporting beams on two sides in a rolling way, the rolling shafts are arranged in an inclined way, after glass is loaded, the glass is leaned against the longitudinal beam, the gravity center of the frame is positioned at the central axis position, the overturning caused by the gravity center deviation after the glass is loaded is avoided, and meanwhile, the pulleys for assisting sliding are arranged, so that the labor is saved when the glass is assembled and disassembled, the rolling shafts and the pulleys are wrapped with the rubber layers, and the glass is prevented from being scratched in the transferring process.

2. According to the utility model, the first stop lever and the second stop lever are respectively arranged at the two ends of the longitudinal beam and the frame, and the locking block passes through the notch and is abutted with one end of the first stop lever, so that one ends of the two stop levers are quickly connected to form a blocking device, and further, the blocking protection effect on glass is realized; when the glass is unloaded, the locking block is only required to be rotated to be parallel to the notch and then pushed out of the notch, so that the two stop rods can be separated, the blocking device is rapidly removed, and the glass unloading is not influenced.

Drawings

FIG. 1 is a schematic three-dimensional perspective view of the present utility model;

FIG. 2 is a schematic side view of the present utility model;

fig. 3 is a schematic bottom view of the present utility model.

In the figure: 1. a longitudinal beam; 2. a blocking device; 201. a first stop lever; 202. a notch; 203. a second stop lever; 204. a locking block; 3. a frame; 4. a first support beam; 5. a second support beam; 6. a rolling shaft; 7. a support block; 8. a first cross beam; 9. a second cross beam; 10. a pulley; 11. and a roller.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Example 1

As shown in fig. 1, fig. 2 and fig. 3, the transfer device for glass production provided by the utility model comprises a frame 3, rolling shafts 6 and a blocking device 2, wherein the top of the frame 3 is provided with a longitudinal beam 1 along a central axis, both ends of the frame 3 and the longitudinal beam 1 are connected with the blocking device 2, the frame 3 is symmetrically provided with a first supporting beam 4 near the two sides of the bottom end of the longitudinal beam 1, one side of the frame 3, which is far away from the first supporting beam 4, is provided with a second supporting beam 5, a plurality of rolling shafts 6 are arranged between the first supporting beam 4 and the second supporting beam 5 in a rolling way, both sides of the middle part of the longitudinal beam 1 are welded with a first cross beam 8, the top of the longitudinal beam 1 is welded with a second cross beam 9, the outer side end surfaces of the first cross beam 8 and the second cross beam 9 are provided with pulleys 10, rubber layers are wrapped by the rolling shafts 6 and the pulleys 10, the bottom end surfaces of the frame 3 are provided with the rolling shafts 6 and the pulleys 10 at both sides of the longitudinal beam 1, so that glass is in rolling contact with the transfer device, and loading and unloading are more convenient, and unloading are avoided in the transfer process by the rubber layers.

Further, the blocking device 2 comprises a first blocking rod 201, a notch 202, a second blocking rod 203 and a locking block 204, one end of the first blocking rod 201 is installed at the upper end of the longitudinal beam 1 and is rotationally connected with the longitudinal beam 1, one side, away from the longitudinal beam 1, of the first blocking rod 201 is provided with the notch 202, the second blocking rod 203 is installed at one side of the frame 3 and is rotationally connected with the frame 3, one end, away from the frame 3, of the second blocking rod 203 is provided with the locking block 204, the locking block 204 is rotationally connected with the second blocking rod 203, the locking block 204 penetrates through the notch 202 to be in sliding butt with the outer side end face of the first blocking rod 201, and glass is limited on the frame 3 by arranging blocking devices at two ends of the frame 3.

Further, the first supporting beam 4 and the second supporting beam 5 are obliquely arranged along the direction of the longitudinal beam 1, the supporting blocks 7 are arranged among the first supporting beam 4, the second supporting beam 5 and the frame 3, and the first supporting beam 4 and the second supporting beam 5 are obliquely arranged towards the longitudinal beam 1, so that the gravity center of the frame 3 is positioned on the central axis, overturning caused by gravity center deviation after glass loading is avoided, and the supporting blocks 7 are arranged to improve the overall structural strength of the frame 3.

Further, the rolling direction of the rolling shaft 6 is parallel to the sliding direction of the pulley 10, so that interference to glass loading and unloading caused by inconsistent movement directions of the rolling shaft 6 and the pulley 10 is avoided.

Further, the rollers 11 are arranged on the periphery of the end face of the bottom of the frame 3, and glass is transported more quickly and conveniently by arranging the rollers 11.

Further, the width of the notch 202 is larger than that of the locking block 204, and the locking block 204 passes through the notch 202 to fixedly connect the first stop lever 201 with the second stop lever 203.

The working principle of the transfer device for glass production based on the first embodiment is as follows: during operation, glass is installed above the frame 3 through the rolling shaft 6, the glass is pushed, the glass and the outer rubber layer of the rolling shaft 6 are subjected to friction stress to rotate, the rolling shaft 6 rotates to drive the glass to move, the glass inclines to lean towards one side of the longitudinal beam 1, the end face of the glass is in rolling contact with the pulleys 10 installed on the first transverse beam 8 and the second transverse beam 9, the glass is assisted to move on the loading device, loading and unloading are easier, after loading is completed, the fixing block passes through the notch 202 on the first stop lever 201, the first stop lever 201 is connected with the second stop lever 203, locking is realized through the abutting of the locking block 204 on the other end of the first stop lever 201, glass slip damage in the loading process is prevented, when the blocking device 2 is removed, the locking block 204 is rotated, the locking block 204 is parallel to the notch 202, the locking block 204 is pushed out of the notch 202, therefore the connecting ends of the first stop lever 201 and the second stop lever 203 are separated, the frame 3 is pushed, and transfer operation is carried out under the driving of the wheels at the bottom of the frame 3.

The above-described embodiments are merely a few preferred embodiments of the present utility model, and many alternative modifications and combinations of the above-described embodiments will be apparent to those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.

Claims (6)

1. A transfer device for glass production, includes frame (3), roll axis (6) and blocking device (2), its characterized in that: the novel automobile frame is characterized in that a longitudinal beam (1) is arranged at the top of the frame (3) along a central axis, blocking devices (2) are connected at two ends of the frame (3) and the longitudinal beam (1), a first supporting beam (4) is symmetrically arranged at two sides of the bottom end of the frame (3) close to the longitudinal beam (1), a second supporting beam (5) is arranged at one side of the frame (3) far away from the first supporting beam (4), a plurality of rolling shafts (6) are arranged between the first supporting beam (4) and the second supporting beam (5) in a rolling mode, a first cross beam (8) is welded at two sides of the middle part of the longitudinal beam (1), a second cross beam (9) is welded at the top of the longitudinal beam (1), a pulley (10) is arranged at the outer side end faces of the first cross beam (8) and the second cross beam (9), and a rubber layer is wrapped by the rolling shafts (6) and the outer circle of the pulley (10).

2. A transfer device for glass production according to claim 1, wherein: blocking device (2) are including first pin (201), notch (202), second pin (203) and locking piece (204), first pin (201) one end is installed in longeron (1) upper end, and rotates with longeron (1) to be connected, first pin (201) are kept away from longeron (1) one side and are equipped with notch (202), second pin (203) are installed in frame (3) one side, and rotate with frame (3) to be connected, locking piece (204) are installed to frame (3) one end is kept away from to second pin (203), and locking piece (204) rotate with second pin (203) to be connected, locking piece (204) pass notch (202) and first pin (201) outside terminal surface sliding butt.

3. A transfer device for glass production according to claim 1, wherein: the first support beam (4) and the second support beam (5) are obliquely arranged along the longitudinal beam (1), and support blocks (7) are arranged among the first support beam (4), the second support beam (5) and the frame (3).

4. A transfer device for glass production according to claim 1, wherein: the rolling direction of the rolling shaft (6) is parallel to the sliding direction of the pulley (10).

5. A transfer device for glass production according to claim 1, wherein: rollers (11) are arranged around the end face of the bottom of the frame (3).

6. A transfer device for glass production according to claim 2, characterized in that: the slot (202) has a width greater than the locking block (204).