KR101449362B1 - Assembly type conveyer system apparatus - Google Patents

Abstract

The present invention relates to an assembly type conveyer system. The assembly type conveyer system according to one embodiment of the present invention includes a first conveyor unit (10); a second conveyor unit (20); a first rotation driving part (30); a second rotation driving part (40); a first guide attaching and detaching part (70); and a second guide attaching and detaching part (80). According to one embodiment of the present invention, the first conveyor unit (10) and the second conveyor unit (20) are joined together using male and female coupling ends thereof.

Description

Assembly type conveyer system apparatus

The present invention relates to a prefabricated conveyor system, and more particularly, to a prefabricated conveyor system capable of extending a conveyance length by mutual assembly.

Generally, a conveyor apparatus is a device for conveying a specific object, including a pair of rollers rotated by a drive unit, and a belt wrapping the rollers and forming an endless track. Such a conveyor apparatus is applied to various fields because the object to be conveyed is conveyed unattended, and various functions are added and used depending on the kind of the conveyed object. Such a conveyor apparatus is disclosed in U.S. Utility Model Publication No. 20-1997-0001179 under the name of equidistant one-way conveying apparatus.

On the other hand, since the conveyor apparatus is composed of a plurality of rollers and belts that are organically coupled, it is impossible to retrofit once the installation is completed. In particular, in order to increase the conveyance path, a conveyor apparatus Newly constructed. Therefore, only a specific conveying object can be conveyed, so there is a limit to the usability.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a prefabricated conveyor system that can be implemented in a prefabricated manner to increase or decrease a conveyance path of a conveyed object as needed.

Another object of the present invention is to provide a prefabricated conveyor system capable of cooling the conveyed object while it is being conveyed.

In order to achieve the above object, the assembled conveyor system according to the present invention includes a first frame body 11 connected to a pair of first horizontal frames 11a and a pair of first vertical frames 11b, A pair of first rollers 12 and 13 which are rotatably installed at both side ends of the pair of first transverse frames 11a and a pair of second rollers 12 and 13 which are disposed on opposite ends of the first transverse frames 11a, A first arm coupling end 15 formed at one end of the first transverse frame 11a and a first male coupling end 15 formed at the other end of the first transverse frame 11a, (10) comprising a first conveyor unit (16); A second frame body 21 having a pair of second horizontal frames 21a and a pair of second vertical frames 21b connected to each other at a slope and connected to both sides of the pair of second horizontal frames 21a, A second conveyor belt 24 which surrounds the second rollers 22 and 23 in an endless track and a pair of second rollers 22 and 23 installed in the second horizontal frame 21a A second conveyor unit 20 including a second arm coupling end 25 formed at one end and a second male coupling end 26 formed at the other end of the second horizontal frame 21a; A pair of first horizontal frames (11a) disposed inside the first conveyor belt (14) so as to be integrated with the first frame body (11) A rotation driving unit 30; And a second frame body (21) which is installed between the pair of second transverse frames (21a) inside the second conveyor belt (24) so as to be integrated with the second frame body (21) A rotation driving unit 40; A first guide detachable portion 70 which is installed on each of the pair of first vertical frames 11b and is made of a magnet; And a second guide attachment / detachment part (80) detachably attached to the first guide attachment / detachment part (70), the second guide attachment / detachment part (80) being formed of iron pieces and provided on each of the pair of second vertical frames (21b) The first male coupling end 16 formed at the other end of the first conveyor unit 10 is engaged with the second arm coupling end 25 formed at one end of the second conveyor unit 10, And the conveyor unit (10) and the second conveyor unit (20) are assembled together.
In order to prevent the conveyance target P from being struck on the upper ends of the first and second horizontal frames 11a and 21a during the conveyance of the conveyor belt P, The surface is located on the upper side by the first height D1 from the upper end of the first and second transverse frames 11a and 21a; In order to prevent the first and second conveyor belts 14 and 24 from contacting the floor when the first and second conveyor units 10 and 20 are placed on the floor, 24 are positioned on the upper side by the second height D2 from the lower ends of the first and second horizontal frames 11a, 21a
In the present invention, A first frame body 11 and a second frame body 11 which are installed between the pair of first transverse frames 11a on the inside of the first conveyor belt 14 so as to be integrated with the first frame body 11, A first suction table (50) having a first slot (50a) formed therein; And a pair of second horizontal frames (21a) disposed inside the second conveyor belt (24) so as to be integrated with the second frame body (21), wherein a plurality of And a second adsorption table (60) having a second elongated hole (60a) formed therein; On the upper surface of the first and second conveyor belts 14 and 24, first and second pores 14a and 24a formed at positions corresponding to the first and second long holes 50a and 60a are formed.
In the present invention, A first suction fan 55 which forms a suction pressure in the first suction table 50 and is installed on the side of the first horizontal frame 11a inside the first conveyor belt 14; And a second suction fan 65 provided on the side of the second transverse frame 21a inside the second conveyor belt 24 to form a suction pressure in the second suction table 60 .
In the present invention, it is possible to improve the assembling durability by simultaneously joining to the first conveyor unit 10 and the second conveyor unit 20, 90).

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In the present invention, a blowing unit 100 installed at an upper portion of the assembly tunnel 90 and injecting cold air to a conveying object P conveyed to the first and second conveyor belts 14 and 24 . At this time, A thermoelectric element 101 composed of a first surface 101a on which a cold heat is generated when a power source is applied and a second surface 101a on which heat is generated; And a plurality of heat absorbing fins 103a formed in close contact with the first surface 101a at the inside of the first space portion 102a are formed in the body portion 102 forming the first and second space portions 102a and 102b. A heat dissipation block 104 having a plurality of heat dissipation fins 104a formed in close contact with the second surface 101b in the second space portion 102b and a heat dissipation block 104 A first intake hole 105 formed in the body 102 and a second intake hole 106 formed in the body 102 to face the heat dissipation block 104. The first intake hole 105, And a first fan (107) for exhausting the intake air to the conveying object (P) side after passing through the heat absorbing block (103). And a second fan 108 for allowing the air sucked into the second intake hole 106 to be exhausted to the outside air after passing through the heat dissipation block 104.

According to the present invention, since the first and second rotary drive units, the first and second suction tables, and the first and second suction fans are integrated into the first and second conveyor units, a plurality of first and second conveyor units are assembled in a row, (p) can be extended.

Since the upper surface of the first and second conveyor belts are protruded by the first height from the upper ends of the first and second horizontal frames and the lower surface is located on the upper side by the second height from the lower ends of the first and second horizontal frames, The first and second conveyor belts can be conveyed in an endless track without touching the floor or the table even when the first and second conveyor units are placed on a flat floor or a table without bumping against the top of the first horizontal frame while the object is being conveyed.

Also, if necessary, the assembly tunnel provided with the blower can be easily assembled to the first and second conveyor units, thereby improving the assembly durability and cooling the conveyed object during the conveyance.

1 is a perspective view of a prefabricated conveyor system according to the present invention,
FIG. 2 is a perspective view showing the first and second conveyor units of the assembled conveyor system of FIG. 1,
3 is a view for explaining the internal construction of the first and second conveyor units of FIG. 2,
Fig. 4 is a view for explaining the positional relationship between the first and second conveyor belts and the first and second transverse frames in the first and second conveyor units of Fig. 3;
5 is a view for explaining the positional relationship between the first and second slots formed in the first and second adsorption tables of FIG. 3 and the first and second holes formed in the first and second conveyor belts,
Fig. 6 is a view for explaining a configuration of a blow-up portion provided in the assembly tunnel of Fig. 1; Fig.
7 is a view for explaining that the object to be conveyed is cooled by the air blown into the air blowing portion in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a prefabricated conveyor system according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a prefabricated conveyor system according to the present invention, FIG. 2 is a perspective view showing the first and second conveyor units in the prefabricated conveyor system of FIG. 1, Fig. 8 is a view for explaining the internal configuration of the conveyor unit. Fig. 4 is a view for explaining the positional relationship between the first and second conveyor belts and the first and second transverse frames in the first and second conveyor units of Fig. 3, and Fig. 5 is a cross- FIG. 5 is a view for explaining the positional relationship between the first and second slots formed in the attraction table and the first and second holes formed in the first and second conveyor belts. 6 is a view for explaining a configuration of a blow-out portion provided in the assembly tunnel of FIG. 1, and FIG. 7 is a view for explaining that a conveyed object is cooled by air blown to the blow-

As shown in the drawings, the assembled conveyor system according to the present invention includes first and second conveyor units 10 and 20, a first and a second conveyor units 10 and 20, The first and second suction fans 55 and 60 that form suction pressures in the first and second rotation driving units 30 and 40 and the first and second suction tables 50 and 60 and the first and second suction tables 50 and 60, ) (65). First and second guide attaching / detaching portions 70 and 80 for guiding the assembling positions of the first conveying unit 10 and the second conveying unit 20, a first conveying unit 10 and a second conveying unit 20, And a plurality of wind-up portions 100 provided at the upper portion of the assembly tunnel 90. The assembling tunnel 90 includes a plurality of wind-

As shown in FIG. 3, the first conveyor unit 10 includes a first frame body 11, a pair of first horizontal frames 11a and a pair of first vertical frames 11b, A pair of first rollers 12 and 13 that are rotatably installed at both side ends of a pair of first horizontal frames 11a and a pair of first rollers 12 and 13 that are rotatably installed on both sides of a pair of first horizontal frames 11a, A first arm coupling end 15 formed at one end of the first horizontal frame 11a and a first male coupling end 16 formed at the other end of the first horizontal frame 11a do.

In the first frame body 11, a pair of first horizontal frames 11a and a pair of first vertical frames 11b are connected to form a slope.

The first and second rollers 12 and 13 are installed at both ends of the pair of first horizontal frames 11a inside the pair of first vertical frames 11b.

The first conveyor belt 14 surrounds a pair of first rollers 12 and 13 in an endless track. At this time, the upper surface of the first conveyor belt 14 protrudes from the upper end of the first horizontal frame 11a by a first height D1, as shown in Fig. 4, and the lower surface of the first conveyor belt 14 Is positioned on the upper side by the second height D2 from the lower end of the first horizontal frame 11a. That is, since the first conveyor belt 14 is positioned on the upper side by the first height D1 with respect to the upper end of the first horizontal frame 11a, the first horizontal frame 11a ). Since the first conveyor belt 14 is positioned on the upper side by the second height D2 with respect to the lower end of the first horizontal frame 11a, the first conveyor unit 10 is placed on a flat floor or table The first conveyor belt 14 can be conveyed in an endless track without touching the floor or the table.

The first conveyor belt 14 is supported on a first suction table 50 to be described later and has a plurality of first porous portions 14a formed at regular intervals so as to be able to apply an attraction force formed in the first suction table 50, It is a belt.

The first arm coupling end 15 and the first male coupling end 16 are formed at both ends of the first horizontal frame 11a.

As shown in FIG. 3, the second conveyor unit 20 includes a second frame body 21 connected to a pair of second horizontal frames 21a and a pair of second vertical frames 21b, A pair of second rollers 22 and 23 rotatably installed at both side ends of a pair of second horizontal frames 21a and a second conveyor 22a and 23b surrounding the second rollers 22 and 23 in an endless track, A second arm coupling end 25 formed at one end of the second horizontal frame 21a and a second male coupling end 26 formed at the other end of the second horizontal frame 21a do.

The second frame main body 21 is connected to the pair of second horizontal frames 21a and the pair of second vertical frames 21b in a slope.

The second conveyor belt 24 surrounds a pair of second rollers 22 and 23 in an endless track. At this time, the upper surface of the second conveyor belt 24 protrudes from the upper end of the second horizontal frame 21a by a first height D1, and the lower surface of the second conveyor belt 24 Is positioned on the upper side by the second height D2 from the lower end of the second horizontal frame 21a.

The second conveyor belt 24 surrounds a pair of second rollers 22 and 23 in an endless track. At this time, the upper surface of the second conveyor belt 24 protrudes from the upper end of the second horizontal frame 21a by a first height D1, and the lower surface of the second conveyor belt 24 Is positioned on the upper side by the second height D2 from the lower end of the second horizontal frame 21a. That is, since the second conveyor belt 24 is positioned on the upper side by the first height D1 with respect to the upper end of the second horizontal frame 21a, the first horizontal frame 21a ). Since the second conveyor belt 24 is located on the upper side by the second height D2 with respect to the lower end of the second transverse frame 21a, the second conveyor unit 20 is placed on a flat floor or table The second conveyor belt 24 can be transported in an endless track without reaching the floor or the table.

The second conveyor belt 24 is a porous belt supported by a second suction table 60 to be described later and having a plurality of pores 24a formed at regular intervals so as to be able to apply an attraction force formed in the second suction table 60 .

The second arm coupling end 25 and the second male coupling end 26 are formed at both ends of the second horizontal frame 21a.

The first and second arm coupling ends 15 and 25 formed at one end of the first and second horizontal frames 11a and 21a have a concave shape and the first and second transverse frames 11a and 21a The first and second male coupling ends 16 and 26 formed on the side ends are convex so as to be coupled to the first and second arm coupling ends.

In this embodiment, the first male coupling end 16 of the first conveyor unit 10 is coupled to the second arm coupling end 25 of the second conveyor unit 20 so that the first conveyor unit 10, 2 conveyor unit 20 are illustrated as being assembled together, whereby the conveyance path of the conveyed object conveyed by the first conveyor belt 14 and the second conveyor belt 24 in this case is increased.

When a plurality of conveyor units having the above-described structure are assembled in the above manner, the conveying path of the conveying object can be further increased or decreased.

As shown in FIG. 3, the first rotation driving part 30 is integrated with the first frame main body 11 and rotationally drives at least one of the pair of first rollers 12. The first rotation driving part 30 is installed between the pair of first horizontal frames 11a on the inner side of the first conveyor belt 14. [

As shown in FIG. 3, the second rotation driving part 40 rotates at least one of the pair of second rollers 22 and 23 as being integrated with the second frame main body 11. The second rotary drive unit 40 is installed between the pair of second horizontal frames 21a on the inner side of the second conveyor belt 24. [

3, the first adsorption table 50 is integrated with the first frame body 11, and for this purpose, inside the first conveyor belt 14, between the pair of first horizontal frames 11a Respectively. On the upper side of the first adsorption table 50, a plurality of first long holes 50a are formed.

The first suction fan 55 forms a suction pressure on the first suction table 50 and is installed on the side of the pair of first horizontal frames 11a inside the first conveyor belt 14. [ The first suction fan 55 is connected to the first suction table 50 by the first duct 55a and the air sucked by the first suction fan 55 is supplied to the first suction frame 55 via the first And is exhausted to the outside air through the vent hole (56).

The second adsorption table 60 is integrated with the second frame body 21 as shown in Fig. 3, and for this purpose, the second adsorption table 60 is disposed inside the second conveyor belt 24 between the pair of second horizontal frames 21a Respectively. On the upper side of the second adsorption table 60, a plurality of second long holes 60a are formed.

The second suction fan 65 forms a suction pressure on the second suction table 60 and is installed on the side of the pair of second transverse frames 21a inside the second conveyor belt 24. [ The second suction fan 65 is connected to the second suction table 60 by the second duct 65a and the air sucked by the second suction fan 65 is connected to the second suction table 65 by the second And is exhausted to the outside air through the vent hole (66).

On the other hand, the upper surfaces of the first and second conveyor belts 14 and 24 are supported by the first and second adsorption tables 50 and 60, respectively. The first and second perforations 14a and 24a, And are formed at positions corresponding to the two long holes 50a and 60a. 5, when the first and second conveyor belts 14 and 24 are being conveyed, the first and second perforations 14a and 24a pass through the first and second long holes 50a and 60a, The first and second perforations 14a and 24a are always in communication with the first and second apertures 50a and 60a.

The first and second pores 14a and 24a are formed on the first and second conveyor belts 14 and 24 and the suction pressure on the upper surface of the first and second adsorption tables 50 and 60 The conveying object is not separated from the first and second conveyor belts 14 and 24 due to the suction pressure when the sheet-like light conveying object such as a film or a paper is conveyed. Accordingly, the sheet can be accurately conveyed to a light sheet type conveying object.

In addition, when the air-blowing portion 100 to be described later is employed, the air blown from the air-blowing portion 100 passes through the first and second pores 14a and 24a and the first and second long holes 50a and 60a The cold air is brought into contact with the upper surface, the side surface and the lower surface of the conveying object P, so that even cooling can be performed.

The first and second guide attaching / detaching units 70 and 80 are installed in the first and second conveying units 10 and 20 when they are closely contacted to each other to assemble the first conveying unit 10 and the second conveying unit 20 10) 20 are correctly engaged with each other. The first and second guide attaching / detaching portions 70 and 80 are provided on each of the first vertical frames 11b and selectively attached to / detached from the first guide attaching / detaching portions 70 The second guide attachment / detachment unit 80 is installed in each of the second vertical frames 21b. One of the first and second guide attaching / detaching portions 70 and 80 is a magnet having a strong magnetic force, and the other is a steel piece attached to a magnet. When the first conveyor unit 10 and the second conveyor unit 20 mounted on the floor or the table by the first and second guide attaching / detaching units 70 and 80 approach each other, the first and second conveyor units The first conveyor unit 10 and the second conveyor unit 20 can be coupled to each other without a separate fastening member.

The assembly tunnels 90 are simultaneously joined to the first conveyor unit 10 and the second conveyor unit 20 to improve the durability of the assemblies and at the same time the conveying object P via the assembly tunnel 90 It is to block the environment. The assembly tunnels 90 are formed by joining the first and second conveyor units 10 and 20 coupled to the first male coupling end 16 and the second arm coupling end 25 again to enhance the durability of the coupling structure. .

As shown in FIG. 1, at the end of the assembly tunnel 90, a tuft coupling end 91 having a step 91a is provided so as to be in close contact with the upper ends of the first and second transverse frames 11a and 21a . When the assembly tunnel 90 is mounted on the first and second horizontal frames 11a and 21a, the step 91a is brought into close contact with the upper ends of the first and second horizontal frames 11a and 21a. The tunnel coupling end 91 and the first and second horizontal frames 11a and 21a are coupled to each other.

The blowing part 100 is installed on the upper part of the assembly tunnel 90 and injects cold air to the conveying object P conveyed to the first and second conveyor belts 14 and 24 to cool it in a short period of time, Various numbers can be added depending on the length and size of the tunnel 90. In the present embodiment, two blowing units 100 are employed.

 Such a blow-in portion 100 is a. As shown in FIG. 6, the thermoelectric device 101 includes a first surface 101a where a cold is generated when a power source is applied and a second surface 101b where a heat is generated. A body portion 102 which is disposed at the center and forms first and second space portions 102a and 102b that are independent of each other and a body portion 102 which is in close contact with the first surface 101a inside the first space portion 102a, A heat absorbing block 103 having a fin 103a formed therein and a heat dissipating block 104 having a plurality of heat dissipating fins 104a formed in the second space 102b in close contact with the second surface 101b, A second intake hole 106 formed in the body portion 102 so as to face the heat dissipation block 104 and a second intake hole 106 formed in the body portion 102 so as to face the first intake hole 105 A first fan 107 and a second fan 107 so that the air sucked by the first fan 107 is exhausted to the conveying object P after passing through the heat absorbing block 103. And a second fan (108) for allowing the air drawn in by the second intake hole (106) to pass through the heat dissipation block (104) and then to be exhausted to the outside air.

The thermoelectric element 101 is a semiconductor element in which heat is transferred and one side is cooled and the other side is heated when power is applied. Since the thermoelectric element is widely used in various fields at present, a detailed description thereof will be omitted .

A plurality of heat absorbing fins 103a are formed in the heat absorbing block 103 so that heat exchange is performed while air passes through the heat absorbing block 103. [

A plurality of heat dissipation fins 104a are formed in the heat dissipation block 104 so that heat exchange is performed while air passes through the heat dissipation block 104. [

The first surface 101a is cooled and the second surface 101b is heated by applying the power to the thermoelectric element 101. As a result, And the heat is transferred to the heat dissipation block 104. In this state, the first fan 107 cools the air passing through the heat absorbing block 103 through the first air intake hole 105 and exhausts the air, The control unit 108 controls the power supplied to the thermoelectric element 101 so that the first fan (not shown) 107 can control the temperature of air injected toward the object P to be conveyed.

7, the conveying object P is gradually passed through the assembly tunnel 90 by the first and second conveyor belts 14 by the assembly tunnel 90 and the blowing section 100 described above The cold air is blown in the airflow 100. [ 7, the air passes through the upper surface, the side surface and the lower surface of the conveyance object P, and then the first and second pores 20a (20a, 20b) formed on the first and second conveyor belts 14, And the long holes 50a and 60a of the first and second adsorption tables 50 and 60, respectively. And then exhausted to the outside air through the first and second intake fans 55, 65 and the first and second vents 56, 66. At this time, the cold air is brought into contact with the upper surface, the side surface, and the lower surface of the conveying object P, so that the conveying object P can be cooled evenly.

In the assembled conveyor system according to the present invention as described above, the first and second rotary drive units 30 and 40, the first and second suction tables 50 and 60, Since the first and second suction fans 55 and 65 are integrated, the conveyance distance of the conveyance object p can be extended by assembling a plurality of first and second conveyor units in a row.

The upper surfaces of the first and second conveyor belts 14 and 24 protrude from the upper ends of the first and second horizontal frames 11a and 21a by a first height D1, The conveying object P does not hit the upper end of the first horizontal frame 21a during the conveyance of the conveyed object P and the first conveyor P is located at the upper side by the second height D2 from the lower end of the frame 11a Even when the units 10 and 20 are placed on a flat floor or a table, the first and second conveyor belts 14 and 24 can be conveyed in an endless track without touching the floor or the table.

The assembling tunnel 90 in which the blower 100 is installed can be easily assembled to the first and second conveying units 10 and 20 according to necessity and thus the assembling durability is improved, Can be cooled during transportation.

In addition, when the assembly tunnel 90 and the blowing section 100 are adopted, the conveying object P can be cooled uniformly.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10 ... first conveyor unit 11 ... first frame body
11a ... first horizontal frame 11b ... first vertical frame
12, 13 ... first roller 14 ... first conveyor belt
14a ... first pore 15 ... first arm coupling end
16 ... first male coupling end 20 ... second conveyor unit
21 ... second frame main body 21a ... second horizontal frame
21b ... second vertical frame 22, 23 ... second roller
24 ... second conveyor belt 24a ... second porous
25 ... second female coupling end 26 ... second male coupling end
30 ... first rotation driving part 40 ... second rotation driving part
50 ... first adsorption table 50a ... first elongated hole
55 ... first intake fan 55a ... first duct
56 ... first ventilation hole 60 ... second adsorption table
60a ... 2nd slot 65 ... 2nd suction fan
66 ... second vent hole 65a ... second duct
70 ... first guide attaching / detaching portion 71 ... tunnel connecting end
80 ... second guide detachable part 90 ... assembly tunnel
100 ... Song-rich part 101 ... Thermoelectric element
101a ... First surface 101b ... First surface
102 ... body portion 102a ... first space portion
102b ... second space portion 103 ... heat absorbing block
103a ... endothermic pin 104 ... heat dissipation block
104a ... Radiating fin 105 ... First intake air hole
106 ... first intake hole 107 ... first fan
108 ... 2nd fan

Claims (8)

A first frame body 11 connected to a pair of first horizontal frames 11a and a pair of first vertical frames 11b so as to be sloped and connected to both sides of the pair of first horizontal frames 11a, A first conveyor belt 14 which surrounds the first rollers 12 and 13 in an endless track and a second conveyor belt 14 which surrounds the first rollers 12 and 13, A first conveyor unit 10 including a first arm coupling end 15 formed at one end and a first male coupling end 16 formed at the other end of the first horizontal frame 11a;
A second frame body 21 having a pair of second horizontal frames 21a and a pair of second vertical frames 21b connected to each other at a slope and connected to both sides of the pair of second horizontal frames 21a, A second conveyor belt 24 which surrounds the second rollers 22 and 23 in an endless track and a pair of second rollers 22 and 23 installed in the second horizontal frame 21a A second conveyor unit 20 including a second arm coupling end 25 formed at one end and a second male coupling end 26 formed at the other end of the second horizontal frame 21a;
A pair of first horizontal frames (11a) disposed inside the first conveyor belt (14) so as to be integrated with the first frame body (11) A rotation driving unit 30;
And a second frame body (21) which is installed between the pair of second transverse frames (21a) inside the second conveyor belt (24) so as to be integrated with the second frame body (21) A rotation driving unit 40;
A first guide detachable portion 70 which is installed on each of the pair of first vertical frames 11b and is made of a magnet; And
And a second guide attachment / detachment part (80) detachably attached to the first guide attachment / detachment part (70), the second guide attachment / detachment part (80) being formed of iron pieces and provided on each of the pair of second vertical frames (21b)
The first male coupling end 16 formed at the other end of the first conveyor unit 10 is engaged with the second arm coupling end 25 formed at one end of the second conveyor unit 20 , Whereby the first conveyor unit (10) and the second conveyor unit (20) are assembled together. The method according to claim 1,
The upper surfaces of the first and second conveyor belts 14 and 24 are moved in the first and second horizontal frames 11a and 21a so as not to strike the upper ends of the first and second horizontal frames 11a and 21a, 2 is positioned on the upper side by the first height D1 from the upper end of the horizontal frames 11a, 21a;
In order to prevent the first and second conveyor belts 14 and 24 from contacting the floor when the first and second conveyor units 10 and 20 are placed on the floor, 24 are positioned on the upper side by a second height (D2) from the lower end of the first and second transverse frames (11a, 21a). The method according to claim 1,
A first frame body 11 and a second frame body 11 which are installed between the pair of first transverse frames 11a on the inside of the first conveyor belt 14 so as to be integrated with the first frame body 11, A first suction table (50) having a first slot (50a) formed therein; And
A second frame body (21), a second frame body (21), a second frame body (21), and a second frame body (21) And a second adsorption table (60) having two elongated holes (60a) formed therein;
The first and second porous belts 14a and 24a are formed on the upper surface of the first and second conveyor belts 14 and 24 at positions corresponding to the first and second long holes 50a and 60a. The conveying system being characterized in that the conveying system comprises: 4. The method of claim 3,
A first suction fan 55 which forms a suction pressure in the first suction table 50 and is installed on the side of the first horizontal frame 11a inside the first conveyor belt 14; And
And a second suction fan 65 provided on the side of the second transverse frame 21a on the inside of the second conveyor belt 24 for forming a suction pressure on the second suction table 60 The prefabricated conveyor system features. delete The method according to claim 1,
And further includes a assembly tunnel 90 for simultaneously connecting the first conveyor unit 10 and the second conveyor unit 20 to improve the durability of the assembly and to block the conveyed object P passing through by the external environment Wherein said conveyor system is a conveyor system. The method according to claim 6,
And a blowing unit 100 provided at an upper portion of the assembly tunnel 90 and injecting cold air to a conveying object P conveyed to the first and second conveyor belts 14 and 24 Prefabricated conveyor system. 8. The portable terminal according to claim 7, wherein the power supply unit (100) comprises:
A thermoelectric element 101 composed of a first surface 101a on which a cold heat is generated when a power source is applied and a second surface 101a on which heat is generated; And a plurality of heat absorbing fins 103a formed in close contact with the first surface 101a at the inside of the first space portion 102a are formed in the body portion 102 forming the first and second space portions 102a and 102b. A heat dissipation block 104 having a plurality of heat dissipation fins 104a formed in close contact with the second surface 101b in the second space portion 102b and a heat dissipation block 104 A first intake hole 105 formed in the body 102 and a second intake hole 106 formed in the body 102 to face the heat dissipation block 104. The first intake hole 105, And a first fan (107) for exhausting the intake air to the conveying object (P) side after passing through the heat absorbing block (103). And a second fan (108) for allowing the air taken in by the second intake hole (106) to pass through the heat dissipation block (104) and then to be exhausted to the outside air.

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