CN113769659A

CN113769659A - Automatic unpowered glue making transportation line

Info

Publication number: CN113769659A
Application number: CN202111080099.7A
Authority: CN
Inventors: 李永兆; 李斌杰
Original assignee: Qingdao Chuangke Intelligent Manufacturing Machinery Equipment Co ltd
Current assignee: Qingdao Chuangke Intelligent Manufacturing Machinery Equipment Co ltd
Priority date: 2021-09-15
Filing date: 2021-09-15
Publication date: 2021-12-10

Abstract

The invention relates to the field of silica gel manufacturing equipment, in particular to an automatic unpowered glue making conveying line which comprises a hopper, an RGV trolley, a glue injection mechanism, a conveying line, a clamping mechanism and a turnover mechanism, wherein the glue injection mechanism, the conveying line, the clamping mechanism and the turnover mechanism are sequentially arranged; the transfer chain is along keeping away from the direction downward sloping setting of injecting glue mechanism, and the terminal setting of transfer chain is used for stably and transfers the clamp of hopper and embraces the mechanism, and the RGV dolly sets up and is pressing from both sides between embracing mechanism and the tilting mechanism, tilting mechanism and hopper joint and drive the hopper upset, and rotation angle is greater than 90. The silica gel aging and transferring process disclosed by the invention does not need manual intervention or operation, high-quality automatic continuous operation is realized, and the aging and transportation efficiency is effectively improved; meanwhile, power driving equipment is omitted in the transferring process, the cost of control equipment is effectively reduced, the structure is simple, and the energy consumption of running power is low.

Description

Automatic unpowered glue making transportation line

Technical Field

The invention relates to the field of silica gel manufacturing equipment, in particular to an automatic unpowered glue making conveying line.

Background

Silica gel is a high-activity adsorption material, and is usually prepared by reacting sodium silicate with sulfuric acid, and performing a series of process flows such as aging, crushing, drying and the like. Wherein, the aging is one of the key processes of the silica gel production, and the silica gel stock solution needs to be statically placed in an aging tank for aging. Traditional ageing pond mostly is the square cell body that the stainless steel made, and cell body one side sets up the discharge gate, can realize ageing function basically, nevertheless need to shift to broken process by the manual work again after ageing in stewing, and efficiency is too low, and whole process time is long and output is unstable, and demoulding effect is also not good after the silica gel is ageing. The traditional logistics conveying equipment such as a vertical warehouse, a power conveying line and the like has mature technologies, can effectively meet the conveying requirements of various industries, but has larger equipment operation power consumption, high investment cost and high maintenance cost, and is not beneficial to energy conservation and emission reduction.

Disclosure of Invention

The invention aims to solve the problems and provides an automatic unpowered glue making conveying line, which adopts the following technical scheme:

the automatic unpowered glue making transport line comprises a hopper, an RGV trolley, a glue injection mechanism, a transport line, a clamping mechanism and a turnover mechanism, wherein the glue injection mechanism, the transport line, the clamping mechanism and the turnover mechanism are sequentially arranged; the transfer chain sets up along the direction downward sloping of keeping away from injecting glue mechanism, and the terminal setting of transfer chain is used for stably and transfers the clamp of hopper and embraces the mechanism, and the RGV dolly sets up and embraces between mechanism and the tilting mechanism pressing from both sides to with the hopper by pressing from both sides embracing the mechanism and transferring to tilting mechanism, tilting mechanism and hopper joint drive hopper upset, and rotation angle is greater than 90.

On the basis of the scheme, the device further comprises a return line connected to the glue injection mechanism through the turnover mechanism.

Preferably, the glue injection mechanism is provided with a glue injection conveying belt, the glue injection conveying belt conveys the glue injection conveying belt to a direction close to the conveying line, a glue injection port is arranged above the glue injection conveying belt, and a glue injection weighing device is arranged on the glue injection mechanism.

Preferably, the conveying line adopts a roller conveying line or a guide rail, and the bottom of the hopper is a plane.

On the basis of the scheme, the damping device is arranged at the tail end of the roller conveying line.

Preferably, the turnover mechanism comprises a turnover support frame, a turnover sliding table, a turnover frame and a turnover driving motor, the turnover frame is U-shaped, the opening of the turnover frame faces the direction of the conveying belt, a turnover buckle is arranged on the side wall of the turnover frame, the turnover buckle is in an inverted concave shape, a turnover fixture block matched with the turnover buckle is arranged on the side wall of the hopper, the turnover fixture block is in a convex shape, the turnover sliding table is fixedly connected with the turnover frame above the turnover frame, the turnover sliding table is provided with the conveying belt which slides along the horizontal direction, and the moving direction of the conveying belt is parallel to the moving direction of the conveying belt; the overturning driving motor is horizontally arranged on the overturning supporting frame, and the driving end is connected with the side wall of the overturning frame.

Preferably, a grid plate is provided within the hopper.

Preferably, the top of the side wall of the hopper is provided with a downward-inclined leakage-proof connecting plate, and the tail end of the leakage-proof connecting plate is overlapped with the edge of the adjacent downstream hopper.

Preferably, the periphery of the outer side of the side wall of the hopper is provided with an anti-collision clapboard.

On the basis of the scheme, the device further comprises a first transverse rail and a second transverse rail, the first transverse rail is used for bearing the RGV trolley, the first transverse rail is connected with the tail end of the backflow line and the glue injection mechanism, the second transverse rail is connected with the conveying line and the starting end of the backflow line, and the turnover mechanism is arranged on one side of the second transverse rail.

The invention has the beneficial effects that: after glue injection is completed in the hopper, the hopper automatically slides to the conveying line, transfer is completed at the conveying line under the action of self gravity, the silicone aging process is completed in the process of conveying along the conveying line, after the transfer is completed, the hopper is transferred to the turnover device by the clamping mechanism matched with the RGV trolley, the turnover device automatically turns over and pours the silicone aged in the hopper into the next process, the hopper automatically moves back to the material injection mechanism along the backflow line for the next round of circulation, manual intervention or operation is not needed in the whole process, high-quality automatic continuous operation is realized, and aging and conveying efficiency is effectively improved; meanwhile, power driving equipment is omitted in the transferring process, limit control is carried out through a mechanical structure, the cost of the control equipment is effectively reduced, the structure is simple, and the energy consumption of the running power is low.

Drawings

FIG. 1: the device of the invention is arranged schematically;

FIG. 2: the equipment layout schematic diagram of embodiment 2 of the invention (omitting part of the grid plate);

FIG. 3: the structure of the hopper of the invention is schematically shown (with a roller);

FIG. 4: the invention is a schematic structural diagram of a clamping mechanism;

FIG. 5: the invention has a structure schematic diagram of a turnover mechanism;

FIG. 6: embodiment 1 of the invention reflux line structure schematic diagram;

FIG. 7: the structure schematic diagram of the glue injection conveying belt is shown;

FIG. 8: the invention discloses a bearing buckle structure schematic diagram.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

in the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, it is to be understood that the terms "center", "length", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example 1

As shown in fig. 1, the automatic unpowered glue-making transportation line comprises a hopper 31, an RGV trolley 7, a glue-injecting mechanism, a transportation line, a clamping mechanism 4 and a turnover mechanism 5, wherein the glue-injecting mechanism, the transportation line, the clamping mechanism 4 and the turnover mechanism 5 are sequentially arranged, the hopper 31 slides along the transportation line after glue-injecting is completed at the glue-injecting mechanism, specifically, a glue-injecting conveyer belt 11 is arranged on the glue-injecting mechanism, the glue-injecting conveyer belt 11 conveys towards the direction close to the transportation line, a glue-injecting port 13 is arranged above the glue-injecting conveyer belt 11, and a glue-injecting weighing device is arranged on the glue-injecting mechanism. Silica gel stock solution is injected into the hopper 31 through the glue injection port 13, after the glue injection weigher detects that the silica gel stock solution in the hopper 31 reaches the rated weight, the glue injection conveyer belt 11 drives the hopper 31 to slide forwards to a position away from the glue injection port 13, and the silica gel stock solution output from the glue injection port 13 is continuously input into the subsequent empty hopper 31. Preferably, as shown in fig. 3, the top of the sidewall of the hopper 31 is provided with a downward-inclined leakage-proof connecting plate 33, the end of the leakage-proof connecting plate 33 is overlapped with the edge of the adjacent downstream hopper 31, and the top of the sidewall at the opposite side of the hopper 31 is provided with a groove corresponding to the position and shape of the leakage-proof connecting plate 33, so that when the hopper 31 is switched, the silicon gel stock solution can be ensured not to spill out, but to flow into the subsequent hopper 31 along the leakage-proof connecting plate 33. Move to the hopper 31 on the transfer chain for a plurality of, and the setting of contacting each other, can avoid adjacent hopper 31 mutual collision even to cause the material wherein to spill. Preferably, the outer sides of the side walls of the hoppers 31 are provided with the anti-collision partition plates 32 all around, the anti-collision partition plates 32 are supported by silicon rubber, the buffer performance is good, the anti-collision partition plates 32 of the adjacent hoppers 31 are corrosion-resistant, and the anti-collision partition plates 32 of the adjacent hoppers 31 are in contact with each other to absorb the impact influence generated when the hoppers 31 collide.

The conveying line is arranged in a downward inclined mode along the direction far away from the glue injection mechanism, so that the hopper 31 can automatically move along the conveying line under the action of gravity, a power device is omitted, and cost is effectively reduced. Preferably, the conveyor line is not limited to the roller conveyor line 22 or the guide rail, but includes other conveyor structures capable of realizing the push hopper 31. The bottom of the hopper 31 is a plane and can slide along the roller conveying line 22. The inclination angle of the conveying line is adjusted according to the length of the conveying line, the cooling time of the silica gel raw material and other factors, so that the silica gel stock solution in the hopper 31 moves on the conveying line and finishes aging at the same time, and the inclination angle is preferably adjusted within the range of 1-10 degrees. The transfer chain can include slope section and horizontal segment, and the slope section provides power for the removal of hopper 31, and the horizontal segment plays the cushioning effect to hopper 31, reduces hopper 31's translation rate, simultaneously because fill cloth mutual contact's hopper 31 on the transfer chain, can not take place the problem of hopper 31 stagnation at the horizontal segment. Preferably, as shown in fig. 4, a damping device 23 is arranged at the end of the roller conveying line 22, so as to further increase the damping effect of the roller conveying line 22, and prevent the hopper 31 from moving at the end of the roller conveying line 22 at an excessive speed, so that the moving position of the hopper 31 is difficult to control.

One or more detection devices are provided at each position of the conveyor belt to detect the transfer state of the hopper 31 on the conveyor belt and perform immediate feedback.

Conveying line end sets up and is used for stabilizing and transferring clamp of hopper 31 and embraces mechanism 4, as shown in fig. 4, it includes support frame 41 to press from both sides to embrace mechanism 4, slide guide rail 42 and arm lock 43, support frame 41 is fixed to be set up in conveying line end outside, slide guide rail 42 is fixed to be set up on support frame 41, and with the direction of delivery parallel arrangement of conveying line, arm lock 43 can set up on slide guide rail 42 with sliding, and can inwards centre gripping by hopper 31 relatively, set up the clamp that corresponds with arm lock 43 on the hopper 31 lateral wall and embrace fixture block 35, arm lock 43 with press from both sides after embracing fixture block 35 joint, the centre gripping of stabilizing is carried out to hopper 31. The position and the moving speed of the hopper 31 are stabilized through the action of the clamping arms 43, and the hopper 31 is driven to move continuously to the RGV trolley 8. Preferably, 2 sets of clamping arms 43 are arranged in parallel on the sliding guide rail 42, the number of each set of clamping arms 43 is 2, each set of clamping arms 43 respectively clamps one hopper 31, and the rear 1 set of clamping arms 43 stabilize and fix the rear hopper 31, so that the front hopper 31 is prevented from being squeezed and pushed, and the front hopper 31 is guaranteed to be stably controlled.

RGV dolly 7 sets up and presss from both sides between embracing mechanism 4 and tilting mechanism 5 to with the help of the conveyor on the RGV dolly 7 with the hopper 31 by pressing from both sides embracing mechanism 4 and transfer to tilting mechanism 5, tilting mechanism 5 and hopper 31 joint and drive hopper 31 upset, flip angle is greater than 90. Specifically, as shown in fig. 5, the turnover mechanism 5 includes a turnover support frame 51, a turnover sliding table 52, a turnover frame 53 and a turnover driving motor 54, the turnover frame 53 is U-shaped, and the opening of the turnover frame faces the direction of the conveying belt, a turnover buckle 55 is arranged on the side wall of the turnover frame 53, the turnover buckle 55 is in an inverted "concave" shape, a turnover fixture block 36 adapted to the turnover buckle 55 is arranged on the side wall of the hopper 31, the turnover fixture block 36 is in a "convex" shape, the turnover sliding table 52 is fixedly connected to the turnover frame 53 above the turnover frame 52, the turnover sliding table 52 is provided with the conveying belt sliding along the horizontal direction, and the moving direction of the conveying belt is parallel to the moving direction of the conveying line; the turning driving motor 54 is horizontally installed on the turning support frame 51, and the driving end is connected with the side wall of the turning frame 53. The overturning and sliding table 52 is a conveyor belt or other structures capable of transferring materials, after the RGV trolley 8 transfers the hopper 31 to the overturning and sliding table 52, the overturning and sliding table 52 drives the hopper 31 to move to a preset position, so that the overturning buckle 55 is clamped with the overturning clamping block 36, the overturning driving motor 54 acts, the overturning frame 53 and the overturning and sliding table 52 are driven to drive the hopper 31 to rotate in a direction away from the conveyor line, aged silica gel in the hopper 31 is poured to the next step, and then the hopper 31 is rotated in the opposite direction to the original position. Preferably, the turning angle of the hopper 31 is 135 degrees, so that the silica gel can be completely poured out. The grid plate 34 is arranged in the hopper 31, so that the silica gel can be primarily crushed and blocked while being poured out, and the subsequent work difficulty and workload are reduced.

The transport line further includes a return line 63 connected to the glue injection mechanism by the turnover mechanism 5, as shown in fig. 6, the return line 63 is also of a roller conveyor line structure and is arranged in parallel with the conveyor line, and the height of the start end to the tail end of the return line 63 gradually decreases, so that the hopper 31 can slide under the condition without a driving device according to the action of gravity. The empty hopper is transported to the starting end of the return line 63 from the turnover mechanism 5 by the RGV trolley 7, and the hopper 31 is transported to the return line 63 by virtue of the jacking and transferring functions of the trolley, so that the hopper 31 is moved to the glue injection mechanism along the return line 63 for recycling.

Preferably, the transport line further includes a first transverse rail 61 and a second transverse rail 62 for carrying the RGV cart 7, as shown in fig. 6 and 7, the first transverse rail 61 connects the tail end of the return line 63 with the glue injection mechanism, the second transverse rail 62 connects the start ends of the transport line and the return line 63, and the turnover mechanism 5 is disposed on one side of the second transverse rail 62. The quantity of transfer chain can be many, makes RGV dolly 7 can form a complete set many transfer chains and use through removing at first horizontal rail 61 and second horizontal rail 62, improves RGV dolly 7's utilization ratio.

Example 2

As shown in fig. 2, the present embodiment is different from embodiment 1 in that the conveyor line 2 adopts a rail structure, a roller 37 is disposed at the bottom of the hopper 31, the movement of the hopper 31 is completed by the cooperation of the roller 37 and the conveyor line 2, so as to facilitate the replacement of the bearing at the bottom of the hopper 31, and the end of the roller mounting shaft at the bottom of the hopper 31 is hinged with a bearing buckle 38, as shown in fig. 8. Rotate bearing buckle 38 to the state with the installation axle collineation, can carry out the change of gyro wheel 37 and bearing, rotate bearing buckle 38 to the state perpendicular with the installation axle, can accomplish the fixed action to gyro wheel 37 and bearing. In this embodiment, the return line 63 is composed of the RGV trolley 7 and the guide rail, and the empty hopper which is turned over and poured is conveyed to the glue injection mechanism by the RGV trolley 7.

It should be noted that the RGV car in the above embodiments may also be replaced by other moving devices with conveying and jacking functions, the clamping mechanism may be replaced by other mechanisms capable of completing clamping and transferring, and the present invention may also be used for transferring and processing other materials.

The present invention has been described above by way of example, but the present invention is not limited to the above-described specific embodiments, and any modification or variation made based on the present invention is within the scope of the present invention as claimed.

Claims

1. The automatic unpowered glue making conveying line is characterized by comprising a hopper (31), an RGV (reduced graphics) trolley (7), a glue injection mechanism, a conveying line, a clamping mechanism (4) and a turnover mechanism (5) which are sequentially arranged, wherein the hopper (31) slides along the conveying line after glue injection is finished at the glue injection mechanism, and silica gel stock solution in the hopper (31) moves on the conveying line and is aged; the transfer chain is along keeping away from the direction downward sloping setting of injecting glue mechanism, transfer chain end sets up and is used for stably and transferring clamp of hopper (31) and embraces mechanism (4), RGV dolly (8) set up and is embracing between mechanism (4) and tilting mechanism (5) pressing from both sides to embrace mechanism (4) with hopper (31) by pressing from both sides and transfer to tilting mechanism (5), tilting mechanism (5) and hopper (31) joint drive hopper (31) upset, flip angle is greater than 90.

2. The automated unpowered glue conveyor line according to claim 1, further comprising a return line (63) connected to the glue injection mechanism by the flipping mechanism (5).

3. The automatic unpowered glue making and transporting line according to claim 1, wherein the glue injection mechanism is provided with a glue injection conveyer belt (11), the glue injection conveyer belt (11) conveys the glue injection conveyer belt in a direction close to the conveyer line, a glue injection port (13) is arranged above the glue injection conveyer belt (11), and a glue injection weigher is arranged on the glue injection mechanism.

4. The automated unpowered glue making transport line according to claim 1, wherein the transport line is a roller transport line (22) or a guide rail, and the bottom of the hopper (31) is a plane.

5. An automated unpowered glue conveying line according to claim 4, characterized in that the damping device (23) is arranged at the end of the roller conveying line (22).

6. The automatic unpowered glue-making conveying line according to claim 1, wherein the turnover mechanism (5) comprises a turnover support frame (51), a turnover sliding table (52), a turnover frame (53) and a turnover driving motor (54), the turnover frame (53) is U-shaped, the opening of the turnover frame faces the conveying belt, a turnover buckle (55) is arranged on the side wall of the turnover frame (53), the turnover buckle (55) is inverted concave, a turnover clamping block (36) matched with the turnover buckle (55) is arranged on the side wall of the hopper (31), the turnover clamping block (36) is convex, the turnover sliding table (52) is fixedly connected with the turnover frame (53) above the turnover sliding table, the turnover sliding table (52) is provided with the conveying belt which slides along the horizontal direction, and the moving direction of the conveying belt is parallel to the moving direction of the conveying line; the overturning driving motor (54) is horizontally arranged on the overturning supporting frame (51), and the driving end of the overturning driving motor is connected with the side wall of the overturning frame (53).

7. An automated unpowered glue conveying line according to claim 1, characterised in that a grid plate (34) is provided in the hopper (31).

8. The automated unpowered glue-making transport line according to claim 1, characterized in that the top of the side walls of the hopper (31) is provided with a downwardly sloping leak-proof web (33), the end of the leak-proof web (33) overlapping the edge of the adjacent downstream hopper (31).

9. The automated unpowered glue production line according to claim 1, wherein an anti-collision partition (32) is arranged around the outside of the side wall of the hopper (31).

10. The automated unpowered glue transportation line according to claim 2, further comprising a first transverse rail (61) and a second transverse rail (62) for carrying the RGV trolley (7), wherein the first transverse rail (61) is connected with the tail end of the return line (63) and the glue injection mechanism, the second transverse rail (62) is connected with the starting ends of the return line and the return line (63), and the turnover mechanism (5) is arranged on one side of the second transverse rail (62).