CN111747013A - Logistics sorting chute and manufacturing method thereof - Google Patents

Abstract

The invention relates to a logistics sorting chute and a manufacturing method thereof. The invention has the effects of small space required by installation and reduction of space waste, and can reduce the kinetic energy of goods sliding out of the chute outlet to a certain extent.

Description

Logistics sorting chute and manufacturing method thereof

Technical Field

The invention relates to the technical field of logistics sorting chutes, in particular to a logistics sorting chute and a manufacturing method thereof.

Background

In the logistics industry, the sorting equipment that uses can be more, say conveyer belt and letter sorting spout, and the conveyer belt is mainly used for transporting the goods from a position to another position, and letter sorting spout can play the effect of dividing the reason to the goods except transporting the goods from a high position to a low position, disperses different kinds of goods to different positions to classify the goods.

Present letter sorting spout is mostly the sharp spout, when the goods slides on the sharp spout, the goods kinetic energy loss can be very little, this speed when just making goods roll-off sharp spout can be very big, and when being provided with the conveyer belt that is used for accepting the goods in sharp spout exit, the goods will be with great speed striking on the conveyer belt, produce the damage to the goods easily, and the shared space after the sharp spout installation is bigger, this just need prepare great installation space, cause the waste in space easily, so remain the improvement.

Disclosure of Invention

In view of the defects in the prior art, one of the objectives of the present invention is to provide a logistics sorting chute, which has the effects of small space required for installation, reducing space waste, and reducing kinetic energy of goods sliding out of the chute outlet to a certain extent.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides a commodity circulation letter sorting spout, is including the bending segment that is used for the goods to turn to, the bending segment includes at least one section nonstandard module, and nonstandard module horizontal plane projection is fan-shaped.

Through adopting above-mentioned technical scheme, the setting of bending segment, the circumstances that the conversion direction can appear when making the goods slide on this sort spout, and the goods is when the conversion direction, just need be consumed the kinetic energy, thereby cause the reduction of self kinetic energy, kinetic energy behind this spout of goods roll-off compares before and slides on the straight line spout and can reduce this moment, be provided with the conveyer belt or other receiving device who accept the goods in the exit of this sort spout, the goods is difficult to take place violent striking with receiving device, help promoting the security of goods, and because the interpolation of bending segment, make this sort spout structure compacter, required space need not be as big as before during the installation, be convenient for this sort spout adapts to more installation environment.

The present invention may further be configured in a preferred example that the included angle between the tangent line of the non-standard module at the side close to the inlet of the buckle and the horizontal plane and the included angle between the tangent line of the non-standard module at the side close to the outlet of the buckle and the horizontal plane are between 25 degrees and 28 degrees.

By adopting the technical scheme, the fall between the position of the non-standard module close to the goods inlet of the bending section and the position of the non-standard module close to the goods outlet of the bending section is not too large, the conversion between the gravitational potential energy and the kinetic energy of the goods is not too violent when the goods pass through the position, and meanwhile, because of turning, some kinetic energy is consumed, so that the kinetic energy of the goods passes through the position, and the speed of the goods sliding out of the sorting chute is not too high; but because the reduction of the goods kinetic energy is limited at the position, the goods can smoothly slide out of the sorting chute, and the situation of detention on the sorting chute is not easy to occur.

The invention in a preferred example can be further configured that the included angle between the tangent line of the non-standard module at the side close to the cargo inlet of the bending section and the horizontal plane and the included angle between the tangent line of the non-standard module at the side close to the cargo outlet of the bending section and the horizontal plane are both 27 degrees.

Through adopting above-mentioned technical scheme, the angle of contained angle is 27 degrees for the speed of this kind of spout of goods roll-off is unlikely to too fast, and the condition on the receiving device appears violently striking, is difficult for appearing again simultaneously the goods because kinetic energy is not enough and the condition of being detained on this letter sorting spout, and the goods can be with a more suitable state roll-off on this letter sorting spout.

The invention in a preferred example may be further configured such that the bend is in a helical rise and the angle of helix of the bend is between 25 and 28 degrees.

By adopting the technical scheme, the bending section is in a spiral rising state, so that the bending section is favorable for receiving goods from a high position and transferring the goods to a low position, the transfer of the goods is realized, and the bending section is also favorable for converting potential energy into kinetic energy by the goods to a certain extent so that the goods can smoothly pass through the bending section; the helix angle of the bending section is between 25 and 28 degrees, so that the bending section is not too steep, and further the conversion between the potential energy and the kinetic energy of the goods passing through the bending section is not too violent, so that the goods can slide out of the chute at a moderate speed without being too fast or too slow.

The invention in a preferred example may be further configured such that the bending section is integrally formed.

Through adopting above-mentioned technical scheme, bending section integrated into one piece, make this department just need not the segmentation to make when the preparation, can one shot forming, the process of preparation has been reduced, and compare and splice after the multistage preparation again, this kind of mode has less concatenation department undoubtedly, the goods when this department slides, just also be difficult for appearing being influenced by concatenation department and the condition that the goods rolled takes place, the stability and the security that the goods slided have been promoted, the kinetic energy influence when slideing the goods simultaneously also can be littleer, the goods is difficult for appearing the condition of detaining in this department more.

The invention may further be configured in a preferred example that the bending section is made of glass fiber reinforced plastic.

By adopting the technical scheme, the bending section made of the glass fiber reinforced plastic material has good corrosion resistance and insulativity, has good resistance to acid, alkali, salt, various oils and solvents with common concentrations, and has smaller surface friction coefficient between the glass fiber reinforced plastic chute and goods compared with the chute made of carbon steel material.

In a preferred example, the invention may be further configured that one end of the bending section near the cargo entrance is obliquely provided with a straight sub-groove, and the higher end of the straight sub-groove is communicated with the cargo entrance of the bending section.

Through adopting above-mentioned technical scheme, the setting in sharp minute groove for this sorting spout can realize the letter sorting function, helps categorizing the goods.

The invention in a preferred example may be further configured such that the angle between the straight sub-slot and the horizontal plane is between 25 and 28 degrees.

Through adopting above-mentioned technical scheme, the straight line divides the contained angle between groove and the horizontal plane to be 25 degrees to 28 degrees for speed is also more moderate when the goods passes through the letter sorting spout, is difficult for appearing the too fast condition of sliding speed, also is difficult for appearing the too slow condition of sliding speed.

The second purpose of the invention is to provide a manufacturing method of the logistics sorting chute, which has the effect of convenient and fast forming.

The above object of the present invention is achieved by the following technical solutions:

a manufacturing method of a logistics sorting chute comprises the following steps:

s1, carving the bent section by using foam through a 3D carving machine, and calling the model as a model seed;

s2, manufacturing a mould for manufacturing the bending section on the basis of the mould seeds;

and S3, manufacturing the bent section by adopting a hand lay-up manufacturing mode on the basis of the mold.

By adopting the technical scheme, the mold seeds are carved in a 3D carving mode, the operation is convenient and rapid, the precision is high, and the quality of mold manufacturing is improved; the bending section is manufactured in a mode of using the die, so that the bending section can be integrally formed without being formed for many times and then spliced, the manufacturing procedures are reduced, and the rapid production is facilitated.

The present invention in a preferred example may be further configured that the hand paste manufacturing manner in step S3 includes:

s31, firstly, brushing a gel coat on the surface of a mould groove;

s32, paving glass fiber cloth and unsaturated resin on the gel coat;

and S33, finally, forming the bending section after the unsaturated resin is solidified.

Through adopting above-mentioned technical scheme, the setting of gel coat for the smooth and easy gliding of goods is helped to the surface of bending section contact goods one side can be more, and glass fiber cloth and unsaturated polyester resin's setting has guaranteed the structural strength of bending section, makes the bending section be difficult for taking place to warp, so that the bending section has longer life.

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

1. the arrangement of the bending section ensures that part of kinetic energy can be lost when goods pass through the bending section, the speed is not too high when the goods slide out of the sorting chute, when the receiving device is arranged at the outlet of the sorting chute, the goods are not easy to have too violent impact with the receiving device, the sliding safety of the goods is improved, and because of the existence of the bending section, the required space of the sorting chute during installation is less, and the sorting chute is beneficial to being adapted to more installation environments;

2. bending segment integrated into one piece for this department just need not the segmentation to make when the preparation, can one shot forming, the process of preparation has been reduced, and compare and splice after the multistage preparation again, this kind of mode has less concatenation department undoubtedly, when the goods slides in this department, just also be difficult for appearing being influenced by concatenation department and the condition that the goods rolled takes place, the stability and the security that the goods slided have been promoted, the kinetic energy influence when slideing the goods simultaneously also can be littleer, the goods is difficult for appearing the condition of detaining in this department more.

Drawings

Fig. 1 is a schematic overall structure diagram of a first embodiment of the present invention.

Fig. 2 is a schematic view of an angle display structure according to a first embodiment of the present invention.

Fig. 3 is a schematic view of an angle display structure in the first embodiment of the present invention.

Fig. 4 is a schematic overall structure diagram of a second embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a bending section in the second embodiment of the invention.

In the figure, 1, a bending section; 11. a non-standard module; 111. a carrier plate; 112. a guide plate; 2. an inlet straight section; 3. an outlet straight section; 4. a tallying platform; 5. linearly dividing the groove; 6. a connecting ring; 7. a support; 8. supporting a tube; 81. a circular ring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, a logistics sorting chute disclosed in the present invention has the effects of changing the sliding direction of goods, reducing the sliding speed of goods, and reducing the space required for installation, and includes a bending section 1 for turning goods, where the bending section 1 includes at least one section of non-standard module 11, in this embodiment, the non-standard module 11 is one, in other embodiments, the number of non-standard modules 11 may also be two, three, or four, and the projection of the non-standard module 11 on the horizontal plane is in a sector shape and is in a ninety-degree sector shape; when goods when bending section 1, goods turned to through ninety degrees, and simultaneously when turning to, the kinetic energy of goods self was partly by the loss for speed was unlikely to too fast when goods roll-off letter sorting spout, and the goods was difficult to be damaged after the roll-off on this kind of letter sorting spout this moment, had promoted the security that the goods was transported.

Referring to fig. 1 and fig. 2, in this embodiment, 1 integrated into one piece of bending section for bending section 1 can be more convenient when the preparation, compare and splice after the segmentation preparation again, integrated into one piece's bending section 1 does not need the concatenation, has reduced the work load of installation, the reduction of concatenation department moreover, make the goods difficult phenomenon that leads to self to take place to roll by the concatenation department when 1 department of bending section slides, the security and the smooth and easy degree that the goods slided have been promoted.

Referring to fig. 1 and 2, in order to make the surface of the bending section 1 and the surface of the goods smoother, in this embodiment, the bending section 1 is made of glass fiber reinforced plastic, which has the characteristics of high strength and corrosion resistance, and also helps to integrally form the bending section 1 during forming.

Referring to fig. 2 and 3, in order to prevent the height difference between the upper and lower ends of the non-standard module 11 in the vertical direction from being too large, the included angle between the horizontal plane and the tangent line of the non-standard module 11 near the cargo inlet of the bending section 1 and the included angle between the horizontal plane and the tangent line of the non-standard module 11 near the cargo outlet of the bending section 1 are between 25 degrees and 28 degrees, in this embodiment, the included angle between the horizontal plane and the tangent line of the non-standard module 11 near the cargo inlet of the bending section 1 and the included angle between the horizontal plane and the tangent line of the non-standard module 11 near the cargo outlet of the bending section 1 are both 27 degrees, so that the height of the upper and lower ends of the non-standard module 11 in the vertical direction is relatively moderate, when the cargo passes through the non-standard module 11, the potential energy of the cargo is not converted into kinetic energy, so that the speed of the cargo, meanwhile, the goods need to turn at the position, so that part of the kinetic energy of the goods is lost, and the goods cannot be violently collided with a bearing device when sliding out of the sorting chute, and the safety of goods transferring is improved.

Referring to fig. 1 and 2, the nonstandard module 11 includes a bearing plate 111 projected on a horizontal plane in a ninety degree fan shape, and a guide plate 112 at an arc edge of the bearing plate 111, the goods slide on the bearing plate 111, the bearing plate 111 and the guide plate 112 are integrally formed, and the guide plate 112 extends along the arc edge, and the guide plate 112 guides the goods slide on the bearing plate 111 when the goods are on the bearing plate 111.

Referring to fig. 1 and 2, in this embodiment, in order to provide enough kinetic energy to the goods before entering the bending section 1, an inlet straight section 2 is obliquely connected to a goods inlet of the bending section 1, a lower end of the inlet straight section 2 is connected to a higher end of the bending section 1 through a flange and a bolt, the inlet straight section 2 is U-shaped and has an upward opening, and the inlet straight section 2 is made of glass fiber reinforced plastic; before the goods enter the bending section 1, the goods firstly enter from the higher end of the inlet straight section 2, then slide along the inlet straight section 2 to accelerate, and then turn through the bending section 1.

Referring to fig. 1 and 2, in order to enable goods to get rid of the centrifugal force influence of a bending section 1, an outlet straight section 3 is obliquely connected to a goods outlet of the bending section 1, a higher end of the outlet straight section 3 is connected with a lower end of the bending section 1 through a flange and a bolt, the outlet straight section 3 is also U-shaped and has an upward opening, and the outlet straight section 3 is also made of glass fiber reinforced plastic; after the goods slide out from the bending section 1, the goods can slide out along the outlet straight section 3, and at the moment, after the goods slide through the outlet straight section 3, the centripetal force effect of the bending section 1 can be well broken away, so that the receiving device is facilitated to receive the goods.

Referring to fig. 1 and 2, a tallying platform 4 is further arranged at one end of the inlet straight section 2 far away from the bending section 1, the tallying platform 4 is in a boss shape, the upper end surface of the tallying platform 4 is rectangular, the surface of one side of the tallying platform 4 close to the inlet straight section 2 is in a right trapezoid shape, the tallying platform 4 is made of glass fiber reinforced plastic, and the tallying platform 4 is connected with the higher end of the inlet straight section 2 through a flange and a bolt; the goods can be slightly stopped on the tallying platform 4 before entering the inlet straight section 2, and then enter the inlet straight section 2 after being laid down.

Referring to fig. 1 and 2, a straight sub-groove 5 is obliquely arranged at one end of the bending section 1 close to the goods entrance, the straight sub-groove 5 is U-shaped and has an opening facing upwards, the higher end of the straight sub-groove 5 is communicated with the goods entrance of the bending section 1, and in the embodiment, the higher end of the straight sub-groove 5 is connected with the lower end of the circumferential side surface of the goods handling platform 4 through a flange and a bolt; the goods on the tallying platform 4 can also slide out downwards from the straight line sub-groove 5, and the effect of sorting the goods can be achieved by matching with the bending section 1.

Referring to fig. 3, in the present embodiment, the included angle between the linear sub-slot 5 and the horizontal plane is 25 degrees to 28 degrees, specifically 27 degrees, which enables the goods to slide along the linear sub-slot 5 without too fast or too slow, and the goods has a moderate sliding speed.

Referring to fig. 1 and 2, still be provided with a plurality of supports 7 in sharp spout, the straight section 2 of entry, bending segment 1 and the straight section 3 below of export, support 7 is vertical to be set up to support 7 upper end is through the bolt respectively with sharp spout, the straight section 2 of entry, bending segment 1 fixed connection, makes sharp spout, the straight section 2 of entry, bending segment 1 supported, facilitates the use.

The principle of the embodiment is as follows: when the goods need to be used in the sorting chute, the goods are firstly placed on the tallying platform 4, and then the goods enter the linear sub-chute 5 or the inlet straight section 2; after the goods enter the inlet straight section 2, the goods slide along the inlet straight section 2, then enter the bending section 1, and finally slide out from the outlet straight section 3; after the goods enter the linear sub-slot 5, the goods directly slide downwards along the linear sliding slot.

Referring to fig. 4 and 5, the second embodiment is different from the first embodiment in that the bending section 1 may be in a spiral-up state, the bending section 1 is formed by splicing a plurality of non-standard modules 11, and the spiral-up angle of the bending section 1 is 25 to 28 degrees, specifically 27 degrees, after the goods pass through the bending section 1, more kinetic energy is needed for self-steering, so that the final increase of the kinetic energy of the goods is affected, and the goods can be transported more safely without too much speed.

Referring to fig. 4 and 5, in this embodiment, the non-standard module 11 is provided with a connection ring 6 near the right angle of itself in a pre-buried manner, the connection ring 6 is in a circular ring 81 shape and is made of stainless steel, when this kind of non-standard module 11 is installed, the connection ring 6 needs to be sleeved on a support tube 8, the support tube 8 is in a circular tube shape and is made of stainless steel, the circular ring 81 made of stainless steel is welded at the lower end of the support tube 8, the connection ring 6 lower end face and the circular ring 81 upper end face on the non-standard module 11 located at the bottom among the plurality of non-standard modules 11 are abutted, then the plurality of non-standard modules 11 are sequentially sleeved on the support tube 8, and meanwhile, two adjacent non-standard modules 11 are fixedly connected, thereby completing the installation of.

In a third embodiment, a method for manufacturing a logistics sorting chute includes the following steps:

s1, carving a bending section 1, an inlet straight section 2 and an outlet straight section 3 by using foam through a 3D carving machine, and calling the model as a model seed;

s11, splicing all the mould seeds in a bonding mode to form an actual shape of a section of sliding chute;

s2, manufacturing a die for manufacturing the bending section 1 on the basis of the die types, and specifically: firstly brushing a layer of gel coat on the surface of a groove of a mold, paving a layer of glass fiber after the gel coat is solidified, paving a layer of unsaturated resin on the glass fiber to mix the unsaturated resin with the glass fiber, fixing the glass fiber on the gel coat, and alternately paving the glass fiber and the unsaturated resin on the unsaturated resin until the required thickness is reached;

s21, after the unsaturated resin is completely cured, forming the die, and polishing the surface of the die to reach the universal standard of the surface of an industrial die;

s3, manufacturing the bending section 1 by adopting a hand lay-up manufacturing mode on the basis of a mould;

the hand paste is prepared by the following specific steps:

s31, firstly, brushing a release agent on the surface of a mold groove, then brushing a gel coat on the surface of the mold groove, wherein two layers of the gel coat are needed to be brushed, and a second layer is needed to be brushed after the first layer of the gel coat is cured;

s32, after the second layer of gel coat is solidified, laying a layer of glass fiber cloth and a layer of unsaturated resin on the second layer of gel coat to fix the glass fiber cloth on the second layer of gel coat, and after the unsaturated resin is solidified, alternately laying the glass fiber cloth and brushing the unsaturated resin until the thickness of the sorting chute reaches the design requirement, wherein in the embodiment, the thickness of the sorting chute is between 5 and 12 millimeters, and is specifically 8 millimeters;

s33, finally, after the unsaturated resin is solidified, forming a bending section 1, an inlet straight section 2 and an outlet straight section 3;

and S4, finally splicing the formed bent section 1, the inlet straight section 2 and the outlet straight section 3.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (10)

1. The logistics sorting chute is characterized by comprising a bending section (1) for goods turning, wherein the bending section (1) comprises at least one section of nonstandard module (11), and the horizontal plane projection of the nonstandard module (11) is in a fan shape.

2. The logistics sorting chute of claim 1 wherein the included angle between the tangent line of the non-standard module (11) at the side close to the cargo inlet of the buckle section (1) and the horizontal plane and the included angle between the tangent line of the non-standard module (11) at the side close to the cargo outlet of the buckle section (1) and the horizontal plane are between 25 and 28 degrees.

3. The logistics sorting chute according to claim 2, wherein the included angle between the tangent line of the non-standard module (11) at the side close to the cargo inlet of the bending section (1) and the horizontal plane and the included angle between the tangent line of the non-standard module (11) at the side close to the cargo outlet of the bending section (1) and the horizontal plane are both 27 degrees.

4. The logistics sorting chute of claim 1 wherein the buckle section (1) is in a spiral rising state and the angle of spiral of the buckle section (1) is between 25 and 28 degrees.

5. A logistics sorting chute according to claim 4, wherein the bend section (1) is integrally formed.

6. The logistic sorting chute according to claim 1, wherein the bending section (1) is of glass fiber reinforced plastic.

7. The logistics sorting chute according to claim 1, wherein the end of the bending section (1) close to the goods entrance is obliquely provided with a linear sub-chute (5), and the higher end of the linear sub-chute (5) is communicated with the goods entrance of the bending section (1).

8. A logistics sorting chute according to claim 7, wherein the angle between the straight dividing slot (5) and the horizontal plane is between 25 and 28 degrees.

9. A manufacturing method of a logistics sorting chute is based on any one of claims 1 to 8, and is characterized by comprising the following steps:

s1, carving the bending section (1) by using foam through a 3D carving machine, and calling the model as a model seed;

s2, manufacturing a mould for manufacturing the bending section (1) on the basis of mould seeds;

and S3, manufacturing the bending section (1) by adopting a hand lay-up manufacturing mode on the basis of the die.

10. The method for manufacturing a logistic sorting chute according to claim 9, wherein the hand lay-up manufacturing method in step S3 comprises:

s31, firstly, brushing a gel coat on the surface of a mould groove;

s32, paving glass fiber cloth and unsaturated resin on the gel coat;

and S33, finally, after the unsaturated resin is solidified, forming the bending section (1).

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