CN105540139A - Network chain structure for spiral cooling tower - Google Patents

Abstract

The invention discloses a network chain structure for a spiral cooling tower. The network chain structure comprises a plurality of network chain units which are sequentially connected in a rotating mode. Each network chain unit comprises hinge pins, a chain clamp, chain links and teeth, wherein the teeth are arranged on the chain link and protrude outwards from the chain links, the hinge pins comprise a first hinge pin and a second hinge pin, the first hinge pin and the second hinge pin are arranged in parallel, the chain clamp comprises hinge pin connecting parts, the end of the first hinge pin penetrates through one hinge pin connecting part of the chain clamp and the chain links, the end of the second hinge pin penetrate through the other hinge pin connecting part of the chain clamp, the chain links and chain links of the next network chain unit, the network chain unit is connected with the next network chain unit through the second hinge pin to form the network chain structure formed by sequentially connecting the network chain units in a rotating mode. The network chain structure with the proper length can be assembled according to needs, the network chains are driven by the teeth to move, the inner drive mode of a traditional conveyor belt is changed, and the network chain operates stably.

Description

A kind of supply chain network structure of spiral cooling tower

Technical field

The present invention relates to a kind of structure for conveying, be specifically related to a kind of supply chain network structure of spiral cooling tower.

Background technology

At present, on baked goods manufacturing line, after high-temperature baking, inside baking oven, temperature is out higher, can not pack at once, needs, through longer cooling conveying, to pack after treating food cooling again.Spiral cooling tower provides longer fed distance when taking up an area less, thus obtains more hardening time.But the load-transfer device of existing spiral cooling tower has following defect: the plastics sliver of spiral cooling tower is arranged in the middle of load-transfer device, in the motion process of load-transfer device can and lead-in rub and produce tiny grinding and drop on lower floor's product, polluted product; In addition, the transmission column close to the inner portion of spiral cooling tower rotates the friction force driving conveying belt motion produced, and when friction force is not enough to the resistance overcoming belt conveyor, load-transfer device will bounce back backward, thus makes load-transfer device produce shake, makes article disorder uneven.

Summary of the invention

For the deficiencies in the prior art, the object of the invention is the supply chain network structure in order to provide a kind of spiral cooling tower, this supply chain network structure can be assembled into suitable length according to demand, and drives network chain to move by teeth, change the mode in conventional conveyor internal drive, make network chain stable.

For achieving the above object, the present invention adopts following technical scheme: a kind of supply chain network structure of spiral cooling tower, comprises several network chain units; Several network chain units described are rotationally connected successively; Each network chain units described comprises bearing pin, chain card, chain link and teeth; Described chain card and chain link are arranged at least one end of bearing pin; Described teeth are arranged on chain link, and from chain link outwardly convex; Described bearing pin comprises the first bearing pin and the second bearing pin; Described first bearing pin and the second bearing pin arrangement in parallel; Described chain card comprises pinned connection portion;

The end of described first bearing pin wears pinned connection portion and the chain link of chain card; The end of described second bearing pin wears the chain link of the pinned connection portion of chain card, chain link and next network chain units; By the second bearing pin, network chain units and next network chain units are rotationally connected, are formed and be rotationally connected by network chain units the supply chain network structure formed successively.

Realize object of the present invention to reach by taking following technical scheme:

Realizing one embodiment of the present invention is: described bearing pin is corrosion-resistant steel bearing pin.

Realizing one embodiment of the present invention is: described chain card also comprises guide rail connecting portion; Described guide rail connecting portion is arranged on the lower end in pinned connection portion.

Realizing one embodiment of the present invention is: described chain link and teeth are formed in one structure.

Realizing one embodiment of the present invention is: described chain card and chain link are arranged on the two ends of bearing pin.

Realizing one embodiment of the present invention is: described pinned connection portion comprises the first pinned connection portion and the second pinned connection portion; Described first bearing pin is located in the first pinned connection portion; Described second bearing pin is located in the second pinned connection portion.

Realizing one embodiment of the present invention is: described first pinned connection portion is the draw-in groove of opening left; Described second pinned connection portion is the draw-in groove of opening to the right.

Realizing one embodiment of the present invention is: described chain link comprises the first chain link and the second chain link; Described first chain link is provided with the first perforating and the second perforating; Described second chain link is provided with the 3rd perforating and the 4th perforating; Described second perforating and the 3rd perforating are in correspondence with each other; Described first chain link and the second chain link are equipped with teeth;

Described first bearing pin wears the first pinned connection portion, the second perforating and the 3rd perforating; First chain link and the second chain link are rotationally connected by described first bearing pin; Described second bearing pin wears the first perforating of the second pinned connection portion, the 4th perforating and next network chain units; The chain link of the second chain link and next network chain units is rotationally connected by described second bearing pin; Formed and be rotationally connected by network chain units the supply chain network structure formed successively.

Realizing one embodiment of the present invention is: described first chain link comprises connecting strap and the first outer connecting strap in first; In described first, connecting strap is relative with the first outer connecting strap; In described first, connecting strap is fixedly connected with the upper end of the first outer connecting strap, and the upper end forming the first chain link closes, the U-shaped structure of lower ending opening; Described first perforating is two, to be separately positioned in first on connecting strap and the first outer connecting strap; Second perforating is two, to be separately positioned in first on connecting strap and the first outer connecting strap;

Described second chain link comprises connecting strap and the second outer connecting strap in second; In described second, connecting strap is relative with the second outer connecting strap; In described second, connecting strap is fixedly connected with the upper end of the second outer connecting strap, and the upper end forming the second chain link closes, the U-shaped structure of lower ending opening; Described 3rd perforating is two, to be separately positioned in second on connecting strap and the second outer connecting strap; Described 4th perforating is two, to be separately positioned in second on connecting strap and the second outer connecting strap; Described teeth are arranged on the first outer connecting strap and the second outer connecting strap;

Second perforating of the 3rd perforating of connecting strap, the 3rd perforating of the second outer connecting strap and the first outer connecting strap in the second perforating, second that described first bearing pin wears connecting strap in the first pinned connection portion, first successively; First chain link and the second chain link are rotationally connected by described first bearing pin; Described second bearing pin wear successively the 4th perforating of connecting strap in the second pinned connection portion, second, next network chain units first in the first perforating of connecting strap, the first perforating of the first outer connecting strap of next network chain units and the 4th perforating of the second outer connecting strap; The chain link of the second chain link and next network chain units is rotationally connected by described second bearing pin; Formed and be rotationally connected by network chain units the supply chain network structure formed successively.

Realizing one embodiment of the present invention is: described first perforating and the 3rd perforating are strip shape through hole.

Beneficial effect of the present invention is:

1, network chain assembly unit of the present invention can any amount be assembled, the supply chain network structure that composition length is different, is applicable to the cooling tower guide rail of different length;

2, chain of the present invention fastens the distance of the first bearing pin and the second bearing pin, wherein the optimal way in the first pinned connection portion and the second pinned connection portion is the draw-in groove of opening, the optimal way of the first perforating and the 3rd perforating is strip shape through hole, bearing pin is more easily aimed at, to wear chain card and chain link; First chain link and the second chain link are rotationally connected by the first bearing pin; Network chain units and next network chain units are rotationally connected by the second bearing pin, make supply chain network structure bend according to the camber of guide rail and to be fitted in all the time on guide rail;

3, chain link of the present invention is provided with teeth, corresponding with the gear of cooling tower, and the stable network chain that drives of gear is moved;

4, the optimal way of the first chain link of the present invention and the second chain link is that upper end closes, the U-shaped structure of lower ending opening, and the upper end of its second chain link can be set in the lower ending opening place of the first chain link, makes the connection of chain link compacter;

5, the first chain link of the present invention and the second chain link are U-shaped spatial structure, bearing pin wears connecting strap and the first outer connecting strap in first simultaneously, and wear connecting strap and the second outer connecting strap in second simultaneously, secure 2 points on the first chain link and the second chain pitch plane, first chain link and the second chain link can not arbitrarily be overturn, teeth proper alignment;

6, the present invention is by the guide rail connecting portion intercalation of chain card on guide rail, and network chain is not offset at moving on rails.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of supply chain network structure of the present invention;

Fig. 2 is the enlarged drawing at A place in Fig. 1;

Fig. 3 is the structural representation of chain card of the present invention;

Fig. 4 is the structural representation of chain link of the present invention;

Wherein, 1, network chain units; 11, bearing pin; 111, the first bearing pin; 112, the second bearing pin; 12, chain card; 121, pinned connection portion; 1211, the first pinned connection portion; 1212, the second pinned connection portion; 122, guide rail connecting portion; 13, chain link; 131, the first chain link; 1311, connecting strap in first; 1312, the first outer connecting strap; 131a, the first perforating; 131b, the second perforating; 132, the second chain link; 1321, connecting strap in second; 1322, the second outer connecting strap; 132a, the 3rd perforating; 132b, the 4th perforating; 14, teeth.

Detailed description of the invention

Below, by reference to the accompanying drawings and detailed description of the invention, the present invention is described further:

Specific embodiment:

With reference to Fig. 1, Fig. 2 composition graphs 3, the invention discloses a kind of supply chain network structure of spiral cooling tower, comprise several network chain units 1; Several network chain units 1 described are rotationally connected successively; Each network chain units 1 described comprises bearing pin 11, chain card 12, chain link 13 and teeth 14; Described chain card 12 and chain link 13 are arranged on the two ends of bearing pin 11; Described teeth 14 are arranged on chain link 13, and from chain link 13 outwardly convex;

Described bearing pin 11 comprises the first bearing pin 111 and the second bearing pin 112; Described first bearing pin 111 and the second bearing pin 112 arrangement in parallel; Described chain card 12 comprises pinned connection portion 121 and guide rail connecting portion 122; Described pinned connection portion 121 comprises the first pinned connection portion 1211 and the second pinned connection portion 1212; Described first pinned connection portion 1211 is the draw-in groove of opening left; Described second pinned connection portion 1212 is the draw-in groove of opening to the right; Described guide rail connecting portion 122 is fixedly connected on the lower end in pinned connection portion 121.

With reference to Fig. 4, described chain link 13 comprises the first chain link 131 and the second chain link 132; Described first chain link 131 comprises connecting strap 1311 and the first outer connecting strap 1312 in first; In described first, connecting strap 1311 is relative with the first outer connecting strap 1312; In described first, connecting strap 1311 is fixedly connected with the upper end of the first outer connecting strap 1312, and the upper end forming the first chain link 131 closes, the U-shaped structure of lower ending opening; Described first chain link 131 is provided with the first perforating 131a and the second perforating 131b; Described first perforating 131a is two, to be separately positioned in first on connecting strap 1311 and the first outer connecting strap 1312; Second perforating 131b is two, to be separately positioned in first on connecting strap 1311 and the first outer connecting strap 1312; Described second chain link 132 comprises connecting strap 1321 and the second outer connecting strap 1322 in second; In described second, connecting strap 1321 is relative with the second outer connecting strap 1322; In described second, connecting strap 1321 is fixedly connected with the upper end of the second outer connecting strap 1322, and the upper end forming the second chain link 132 closes, the U-shaped structure of lower ending opening; Described second chain link 132 is provided with the 3rd perforating 132a and the 4th perforating 132b; Described 3rd perforating 132a is two, to be separately positioned in second on connecting strap 1321 and the second outer connecting strap 1322; Described 4th perforating 132b is two, to be separately positioned in second on connecting strap 1321 and the second outer connecting strap 1322;

Described second perforating 131b and the 3rd perforating 132a in correspondence with each other; Described teeth 14 are arranged on the first outer connecting strap 1312 and the second outer connecting strap 1322; Described first perforating 131a and the 3rd perforating 132a is strip shape through hole.

Second perforating 131b of the 3rd perforating 132a of connecting strap 1321, the 3rd perforating 132a of the second outer connecting strap 1322 and the first outer connecting strap 1312 in the second perforating 131b, second that described first bearing pin 111 wears connecting strap 1311 in the first pinned connection portion 1211, first successively; First chain link 131 and the second chain link 132 are rotationally connected by described first bearing pin 111; Described second bearing pin 112 wear successively the 4th perforating 132b of connecting strap 1321 in the second pinned connection portion 1212, second, next network chain units 1 first in the first perforating 131a of connecting strap 1311, the first perforating 131a of the first outer connecting strap 1312 of next network chain units 1 and the 4th perforating 132b of the second outer connecting strap 1322; The chain link 13 of the second chain link 132 and next network chain units 1 is rotationally connected by described second bearing pin 112; Formed and be rotationally connected by network chain units 1 supply chain network structure formed successively.

During use, by guide rail connecting portion 122 intercalation on guide rail, then teeth 14 are at the side of network chain, by the actuating device arranged at guide rail side, driven gear horizontally rotates, and gear engages with teeth 14, drive supply chain network structure along guide rail movement, achieve the conveying of article.

For a person skilled in the art, according to technical scheme described above and design, other various corresponding change and distortion can be made, and all these change and distortion all should belong within the protection domain of the claims in the present invention.

Claims (10)

1. a supply chain network structure for spiral cooling tower, comprises several network chain units; Several network chain units described are rotationally connected successively; It is characterized in that: each network chain units described comprises bearing pin, chain card, chain link and teeth; Described chain card and chain link are arranged at least one end of bearing pin; Described teeth are arranged on chain link, and from chain link outwardly convex; Described bearing pin comprises the first bearing pin and the second bearing pin; Described first bearing pin and the second bearing pin arrangement in parallel; Described chain card comprises pinned connection portion;

The end of described first bearing pin wears pinned connection portion and the chain link of chain card; The end of described second bearing pin wears the chain link of the pinned connection portion of chain card, chain link and next network chain units; By the second bearing pin, network chain units and next network chain units are rotationally connected, are formed and be rotationally connected by network chain units the supply chain network structure formed successively.

2. the supply chain network structure of spiral cooling tower as claimed in claim 1, is characterized in that: described bearing pin is corrosion-resistant steel bearing pin.

3. the supply chain network structure of spiral cooling tower as claimed in claim 1, is characterized in that: described chain card also comprises guide rail connecting portion; Described guide rail connecting portion is arranged on the lower end in pinned connection portion.

4. the supply chain network structure of spiral cooling tower as claimed in claim 1, is characterized in that: described chain link and teeth are formed in one structure.

5. the supply chain network structure of spiral cooling tower as claimed in claim 1, is characterized in that: described chain card and chain link are arranged on the two ends of bearing pin.

6. the supply chain network structure of spiral cooling tower as claimed in claim 1, is characterized in that: described pinned connection portion comprises the first pinned connection portion and the second pinned connection portion; Described first bearing pin is located in the first pinned connection portion; Described second bearing pin is located in the second pinned connection portion.

7. the supply chain network structure of spiral cooling tower as claimed in claim 6, is characterized in that: described first pinned connection portion is the draw-in groove of opening left; Described second pinned connection portion is the draw-in groove of opening to the right.

8. the supply chain network structure of spiral cooling tower as claimed in claim 6, is characterized in that: described chain link comprises the first chain link and the second chain link; Described first chain link is provided with the first perforating and the second perforating; Described second chain link is provided with the 3rd perforating and the 4th perforating; Described second perforating and the 3rd perforating are in correspondence with each other; Described first chain link and the second chain link are equipped with teeth;

Described first bearing pin wears the first pinned connection portion, the second perforating and the 3rd perforating; First chain link and the second chain link are rotationally connected by described first bearing pin; Described second bearing pin wears the first perforating of the second pinned connection portion, the 4th perforating and next network chain units; The chain link of the second chain link and next network chain units is rotationally connected by described second bearing pin; Formed and be rotationally connected by network chain units the supply chain network structure formed successively.

9. the supply chain network structure of spiral cooling tower as claimed in claim 8, is characterized in that: described first chain link comprises connecting strap and the first outer connecting strap in first; In described first, connecting strap is relative with the first outer connecting strap; In described first, connecting strap is fixedly connected with the upper end of the first outer connecting strap, and the upper end forming the first chain link closes, the U-shaped structure of lower ending opening; Described first perforating is two, to be separately positioned in first on connecting strap and the first outer connecting strap; Second perforating is two, to be separately positioned in first on connecting strap and the first outer connecting strap;

Described second chain link comprises connecting strap and the second outer connecting strap in second; In described second, connecting strap is relative with the second outer connecting strap; In described second, connecting strap is fixedly connected with the upper end of the second outer connecting strap, and the upper end forming the second chain link closes, the U-shaped structure of lower ending opening; Described 3rd perforating is two, to be separately positioned in second on connecting strap and the second outer connecting strap; Described 4th perforating is two, to be separately positioned in second on connecting strap and the second outer connecting strap; Described teeth are arranged on the first outer connecting strap and the second outer connecting strap;

Second perforating of the 3rd perforating of connecting strap, the 3rd perforating of the second outer connecting strap and the first outer connecting strap in the second perforating, second that described first bearing pin wears connecting strap in the first pinned connection portion, first successively; First chain link and the second chain link are rotationally connected by described first bearing pin; Described second bearing pin wear successively the 4th perforating of connecting strap in the second pinned connection portion, second, next network chain units first in the first perforating of connecting strap, the first perforating of the first outer connecting strap of next network chain units and the 4th perforating of the second outer connecting strap; The chain link of the second chain link and next network chain units is rotationally connected by described second bearing pin; Formed and be rotationally connected by network chain units the supply chain network structure formed successively.

10. the supply chain network structure of the spiral cooling tower as described in as arbitrary in claim 8-9, is characterized in that: described first perforating and the 3rd perforating are strip shape through hole.