CN116519982A - Wire harness testing station - Google Patents

Abstract

The invention provides a wire harness testing station which comprises a first lifting table, a second lifting table, testing equipment, pre-assembly equipment devices, an assembled material placing table, a conveying line body mechanism and testing fixture tables, wherein the conveying line body mechanism is used for conveying the testing fixture tables, the side edges of the conveying line body mechanism are sequentially provided with the testing equipment, the assembled material placing table and the pre-assembly equipment devices from left to right, at least 2 conveying line body mechanisms are arranged above the conveying line body mechanism at intervals, the left side of the conveying line body mechanism is provided with the first lifting table, the right side of the conveying line body mechanism is provided with the second lifting table, the first lifting table and the second lifting table are consistent in structure, the first lifting table comprises a protection frame body, a lifting mechanism and a conveying mechanism, the lifting mechanism is arranged in the protection frame body in a connecting mode, and production adjustment is convenient and fast through the first lifting table and the second lifting table, and production efficiency is improved.

Description

Wire harness testing station

Technical Field

The invention relates to the technical field of wire harness test stations, in particular to a wire harness test station.

Background

The wire harness is a wiring part for connecting various electrical equipment in a circuit, and is usually composed of an insulating sheath, a wiring terminal, wires, insulating binding materials and the like, and after the wire harness is produced, the situation that the plug connector is in poor contact, the wires are broken, short-circuited and the like easily occurs, so that a test bench is required to detect and use.

The test bench of the existing wire harness test equipment is fixed, the test equipment is difficult to timely carry out production adjustment, and the detection efficiency is low.

Disclosure of Invention

In view of this, in order to solve the problem that the test bench of the existing wire harness test equipment is fixed, the test equipment is difficult to timely carry out production adjustment, and the detection efficiency is low, the invention provides a wire harness test station, which comprises a first lifting platform 1, a second lifting platform 2, a test equipment 3, a pre-assembly equipment device 4, an assembly material placing platform 5, a transportation line body mechanism 6 and a test fixture platform 7, wherein the test equipment 3 is used for placing external test equipment 3, the pre-assembly equipment is used for storing pre-assembled line body materials, the assembly material placing platform 5 is used for placing assembly components, and the transportation line body mechanism 6 is used for transporting the test fixture platform 7, and the invention is characterized in that: the side of the transportation line body mechanism 6 is sequentially provided with the test equipment 3, the assembly material placing table 5 and the preassembling equipment device 4 from left to right, the transportation line body mechanism 6 is provided with at least 2, a plurality of test fixture tables 7 are arranged above the transportation line body mechanism 6 at intervals, the left side of the transportation line body mechanism 6 is provided with the first lifting table 1, the right side of the transportation line body mechanism 6 is provided with the second lifting table 2, the first lifting table 1 and the second lifting table 2 are consistent in structure, the first lifting table 1 comprises a protection frame 11, a lifting mechanism 12 and a transportation mechanism 13, the protection frame 11 is internally provided with the lifting mechanism 12, the lifting mechanism 13 is connected above the lifting mechanism 12, and production adjustment is conveniently carried out through the first lifting table 1 and the second lifting table, so that the production efficiency is improved.

The utility model provides a pencil test station, includes first elevating platform 1, second elevating platform 2, test equipment 3, pre-assembly equipment device 4, equipment material place the platform 5, transportation line body mechanism 6, test fixture platform 7, test equipment 3 is used for placing outside test equipment 3, pre-assembly equipment is used for depositing pre-assembled line body material, equipment material places the platform 5 and is used for placing the equipment subassembly, transportation line body mechanism 6 is used for transporting test fixture platform 7, its characterized in that: the side of the transportation line body mechanism 6 is provided with the test equipment 3, the assembly material placing table 5 and the preassembling equipment device 4 from left to right in sequence, the transportation line body mechanism 6 is provided with at least 2, a plurality of test fixture tables 7 are arranged above the transportation line body mechanism 6 at intervals, the left side of the transportation line body mechanism 6 is provided with the first lifting table 1, the right side of the transportation line body mechanism 6 is provided with the second lifting table 2, the first lifting table 1 and the second lifting table 2 are consistent in structure, the first lifting table 1 comprises a protection frame 11, a lifting mechanism 12 and a transportation mechanism 13, the lifting mechanism 12 is arranged in the protection frame 11, and the transportation mechanism 13 is connected above the lifting mechanism 12.

Further, the transport mechanism 13 includes a supporting frame 131, a gear motor 132, a first driving wheel device 133, a first driven wheel device 134, a first linear section 135, a second linear section 136, a first flow advantage device 137, and a belt 138, where the first linear section 135 and the second linear section 136 are identical in structure, the first linear section 135 and the second linear section 136 are correspondingly arranged in parallel, the first linear section 135, the second linear section 136 are vertically connected with the lifting mechanism 12 through the supporting frame 131, one end of the first linear section 135 and one end of the second linear section 136 are provided with the first driving wheel device 133, the other end of the first linear section 135 and the other end of the second linear section 136 are provided with the first driven wheel device 134, the first driving wheel device 133 is connected with the first driven wheel device 134 through the belt 138, the side edge of the driving wheel device is provided with the gear motor 132 for driving the transport mechanism 13 to move, the first flow advantage device 137 is arranged above the first linear section 135 and the second linear section 136, and is used for reducing the resistance in conveying the belt 138, and the first flow advantage device 137 is connected with the first linear section 135 and the second linear section 136 through a fixing piece.

Further, the belt 138 includes a conveyor belt 1381 and a return belt 1382, the conveyor belt 1381 is located on the upper portion of the return belt 1382, the conveyor belt 1381 and the return belt 1382 are arranged in parallel, a first auxiliary roller device 139 is further disposed below the conveyor belt 1381, and is used for reducing belt conveying resistance, and the first auxiliary roller device 139 is fixedly connected with the first linear material 135 and the second linear material 136 through right angle members.

Further, the lifting mechanism 12 includes a first linear bearing 121, a second linear bearing 122, a first slider 123, a second slider 124, a connecting transverse plate 125, and a driving cylinder 126, where the first linear bearing 121 and the second linear bearing 122 are identical in structure, the first linear bearing 121 corresponds to the second linear bearing 122 in parallel, 2 first linear bearings 121 are arranged in parallel on one inner wall of the protective frame 11, the first slider 123 is correspondingly connected to the upper part of the first linear bearing 121, 2 second linear bearings 122 are correspondingly arranged on the other inner wall of the protective frame 11, the second slider 124 is correspondingly connected to the upper part of the second linear bearing 122, the first slider 123 and the second slider 124 are connected with the supporting frame 131 through an L-shaped plate assembly 126, and driving cylinders 126 are respectively arranged in the middle of the adjacent first linear bearing 121 and second linear bearing 122 and used for driving the lifting mechanism 12 to move up and down along the first linear bearing 121 and the second linear bearing 122, the top of the driving cylinder 126 is connected with the connecting transverse plate 125 through a lifting shaft.

Further, the transporting line body mechanism 6 includes a line body supporting frame 61, an upper transporting line body device 62, a lower transporting line body device 63, a protective cover plate 64, and an operation panel 65, where multiple protective cover plates 64 are correspondingly arranged on the side edges of the line body supporting frame 61 for preventing a worker from touching by mistake, the upper transporting line body device 62 is arranged above the line body supporting frame, the lower transporting line body device 63 is arranged in the middle of the line body supporting frame 61, the upper transporting line body device 62 is consistent with the lower transporting line body device 63 in structure, the upper transporting line body device 62 and the lower transporting line body device 63 are symmetrically arranged in parallel, multiple operation panels 65 are arranged, and the operation panels 65 are connected with the side edges of the upper transporting line body device 62 at intervals.

Further, the input end of the upper transporting line body device 62 is connected with the output end of the first lifting table 1, the output end of the upper transporting line body device 62 is connected with the input end of the second lifting table 2, the input end of the lower transporting line body device 63 is connected with the output end of the second lifting table 2, and the output end of the lower transporting line body device 63 is connected with the input end of the first lifting table 1.

Further, the upper transporting line body device 62 includes a second driving wheel device 621, a second driven wheel device 622, a second auxiliary roller device 623, a driving motor 624, a third linear section 625, a fourth linear section 626, a line transporting belt 627, and a second flow bar device 628, where the third linear section 625 and the fourth linear section 626 are in consistent structure, the third linear section 625 and the fourth linear section 626 are correspondingly disposed in parallel, the third linear section 625 and the fourth linear section 626 are vertically connected with the line supporting frame 61, one end of the third linear section 625 and one end of the fourth linear section 626 are provided with the second driving wheel device 621, the other end of the third linear section 625 and the other end of the fourth linear section 626 are provided with the second driven wheel device 622, the second driving wheel device 621 is connected with the second driven wheel device 622 through the line transporting belt 627, a driving motor 624 is disposed on the side of the second driving wheel device 621, the third linear section 625 and the fourth linear section 626 are used for driving the upper transporting line device 62 to move, the second flow bar device 628 is disposed above the third linear section 625 and the fourth linear section 626, the third linear section 625 is used for reducing resistance when the line transporting belt is transported, the third linear section 625 and the fourth linear section 626 is vertically connected with the line supporting frame 61, one end of the second driven wheel device is provided with the second driven wheel device 627 through the auxiliary roller device, and the second linear section 626 is connected with the second linear section 627 through a fixing line transporting roller device.

Further, the test fixture table 7 includes a fixture table bottom plate 71, a first test fixture device 72, a second test fixture device 73, and a supporting and wire tying table assembly 74, the first test fixture device 72 is used for detecting the optical fiber interface condition of the test piece, the second test fixture device 73 is used for detecting the O-ring installation condition of the test piece, the first test fixture device 72 is arranged on the left side above the fixture table bottom plate 71, the first test fixture device 72 is connected with the fixture table bottom plate 71 through a screw, the second test fixture device 73 is arranged on the right side above the fixture table bottom plate 71, the second test fixture device 73 is connected with the fixture table bottom plate 71 through a slider assembly, a plurality of supporting and wire tying table assemblies 74 are arranged at intervals between the first test fixture device 72 and the second test fixture device 73, and are used for performing auxiliary bagging and wire tying on the test piece, the first test fixture device 72 includes a first interface test device 721, a second interface test device 722 and a pressing device 723, and the pressing device 723 is connected with the first interface test device 721 through the pressing device 723 when the second interface test device 722 works.

Further, the pressing device 723 includes a support plate 7231, a support column 7232, a pressing handle 7233, a first connecting shaft 7234, and a connecting plate 7235, the support plate 7231 is connected with the clamp table bottom plate 71 through the support column 7232, the pressing handle 7233 is arranged above the support plate 7231, the bottom of the pressing handle 7233 is connected with the connecting plate 7235 through the first connecting shaft 7234, the second interface testing device 722 includes a first pressing plate 7221, a second pressing plate 7222, a first testing plate 7223, a second connecting shaft 7224, and a supporting baffle 7225, the second pressing plate 7222 is connected with the support plate 7231 through the supporting baffle 7225, the first testing plate 7223 is arranged above the second pressing plate 7222, the first testing plate 7221 is arranged above the first testing plate 7223, and the first pressing plate 7221 is connected with the connecting plate 7235 through the second connecting shaft 7224.

Further, the second test fixture device 73 includes an operation handle assembly 731, a sliding assembly 732, an O-ring installation test device 733, the O-ring installation test device 733 is connected with the test fixture platform 7 through the sliding assembly 732, one end of the operation handle assembly 731 is vertically connected with the test fixture platform 7 through a fixing block, and the other end of the operation handle assembly 731 is connected with the bottom protruding portion of the O-ring installation test device 733 through a connecting piece.

The beneficial effects of the invention are as follows: the invention provides a wire harness testing station, which comprises a first lifting table 1, a second lifting table 2, testing equipment 3, a preassembling equipment device 4, an assembly material placing table 5, a transportation line body mechanism 6 and a testing fixture table 7, wherein the testing equipment 3 is used for placing external testing equipment 3, the preassembling equipment is used for storing preassembled line body materials, the assembly material placing table 5 is used for placing assembly components, and the transportation line body mechanism 6 is used for transporting the testing fixture table 7, and is characterized in that: the side of the transportation line body mechanism 6 is sequentially provided with the test equipment 3, the assembly material placing table 5 and the preassembling equipment device 4 from left to right, the transportation line body mechanism 6 is provided with at least 2, a plurality of test fixture tables 7 are arranged above the transportation line body mechanism 6 at intervals, the left side of the transportation line body mechanism 6 is provided with the first lifting table 1, the right side of the transportation line body mechanism 6 is provided with the second lifting table 2, the first lifting table 1 and the second lifting table 2 are consistent in structure, the first lifting table 1 comprises a protection frame 11, a lifting mechanism 12 and a transportation mechanism 13, the protection frame 11 is internally provided with the lifting mechanism 12, the lifting mechanism 13 is connected above the lifting mechanism 12, and production adjustment is conveniently carried out through the first lifting table 1 and the second lifting table, so that the production efficiency is improved.

Drawings

Fig. 1 is a structural view of a wire harness testing station of the present invention.

Fig. 2 is a structural view of a first elevating platform according to the present invention.

Fig. 3 is a structural view of the first elevating platform of the present invention.

Fig. 4 is a partial structural view of the transportation line body mechanism of the present invention.

Fig. 5 is a partial structural view of the transportation line body mechanism of the present invention.

Fig. 6 is a partial structural view of the transportation line body mechanism of the present invention.

Fig. 7 is a partial structural view of the transportation line body mechanism of the present invention.

Fig. 8 is a partial structural view of the test fixture table of the present invention.

Fig. 9 is a partial structural view of the test fixture table of the present invention.

Fig. 10 is a partial structural view of the test fixture table of the present invention.

FIG. 11 is a partial block diagram of a test fixture table according to the present invention

Description of the main reference signs

The invention will be further described in the following detailed description in conjunction with the above-described figures.

Detailed Description

As shown in fig. 1, a structure diagram of the wire harness test station of the present invention; FIG. 2 is a block diagram of a first lift table according to the present invention; FIG. 3 is a block diagram of a first lift table according to the present invention; FIG. 4 is a partial block diagram of the conveyor line body mechanism of the present invention; FIG. 5 is a partial block diagram of the conveyor line body mechanism of the present invention; FIG. 6 is a partial block diagram of the conveyor line body mechanism of the present invention; FIG. 7 is a partial block diagram of the conveyor line body mechanism of the present invention; FIG. 8 is a partial block diagram of a test fixture station of the present invention; FIG. 9 is a partial block diagram of a test fixture station of the present invention; FIG. 10 is a partial block diagram of a test fixture station of the present invention; as shown in fig. 11, a partial structure of the test fixture table of the present invention is shown.

The utility model provides a pencil test station, includes first elevating platform 1, second elevating platform 2, test equipment 3, pre-assembly equipment device 4, equipment material place the platform 5, transportation line body mechanism 6, test fixture platform 7, test equipment 3 is used for placing outside test equipment 3, pre-assembly equipment is used for depositing pre-assembled line body material, equipment material places the platform 5 and is used for placing the equipment subassembly, transportation line body mechanism 6 is used for transporting test fixture platform 7, its characterized in that: the side of the transportation line body mechanism 6 is provided with the test equipment 3, the assembly material placing table 5 and the preassembling equipment device 4 from left to right in sequence, the transportation line body mechanism 6 is provided with at least 2, a plurality of test fixture tables 7 are arranged above the transportation line body mechanism 6 at intervals, the left side of the transportation line body mechanism 6 is provided with the first lifting table 1, the right side of the transportation line body mechanism 6 is provided with the second lifting table 2, the first lifting table 1 and the second lifting table 2 are consistent in structure, the first lifting table 1 comprises a protection frame 11, a lifting mechanism 12 and a transportation mechanism 13, the lifting mechanism 12 is arranged in the protection frame 11, and the transportation mechanism 13 is connected above the lifting mechanism 12.

The transporting mechanism 13 comprises a supporting frame 131, a speed reducing motor 132, a first driving wheel device 133, a first driven wheel device 134, a first linear section 135, a second linear section 136, a first fluent strip device 137 and a belt 138, the first linear section 135 and the second linear section 136 are identical in structure, the first linear section 135 and the second linear section 136 are correspondingly arranged in parallel, the first linear section 135 and the second linear section 136 are vertically connected with the lifting mechanism 12 through the supporting frame 131, one ends of the first linear section 135 and the second linear section 136 are provided with the first driving wheel device 133, the other ends of the first linear section 135 and the second linear section 136 are provided with the first driven wheel device 134, the first driving wheel device 133 is connected with the first driven wheel device 134 through the belt 138, the speed reducing motor 132 is arranged on the side edge of the driving wheel device and used for driving the transporting mechanism 13 to move, the first fluent strip device 137 is arranged above the first linear section 135 and the second linear section 136 and is used for reducing the resistance when the belt 138 is conveyed, and the first fluent strip device 137 is connected with the first linear section 135 and the second linear section 136 through fixing pieces.

The belt 138 includes conveyer belt 1381, return belt 1382, conveyer belt 1381 is located the upper portion of return belt 1382, conveyer belt 1381 and return belt 1382 parallel arrangement still are equipped with first supplementary roller device 139 in conveyer belt 1381's below for reduce belt conveying resistance, first supplementary roller device 139 passes through right angle component and first straight line type material 135, second straight line type material 136 fixed connection.

The lifting mechanism 12 comprises a first linear bearing 121, a second linear bearing 122, a first sliding block 123, a second sliding block 124, a connecting transverse plate 125 and a driving cylinder 126, the structures of the first linear bearing 121 and the second linear bearing 122 are consistent, the first linear bearing 121 and the second linear bearing 122 are parallel and correspond, 2 first linear bearings 121 are arranged above one inner wall of the protection frame 11 at intervals, the first sliding block 123 is correspondingly connected above the first linear bearing 121, 2 second linear bearings 122 are correspondingly arranged above the second linear bearing 122, the second sliding block 124 is correspondingly connected above the second linear bearing 122, the first sliding block 123 and the second sliding block 124 are connected with the supporting frame 131 through the L-shaped plate assembly 126, the driving cylinder 126 is arranged in the middle of each adjacent first linear bearing 121 and second linear bearing 122 and is used for driving the lifting mechanism 12 to move up and down along the first linear bearing 121 and the second linear bearing 122, and the top of the driving cylinder 126 is connected with the connecting transverse plate 125 through a lifting shaft.

The transporting line body mechanism 6 comprises a line body supporting frame 61, an upper transporting line body device 62, a lower transporting line body device 63, a protective cover plate 64 and an operation panel 65, wherein a plurality of protective cover plates 64 are correspondingly arranged on the side edges of the line body supporting frame 61 and used for preventing a worker from touching by mistake, the upper transporting line body device 62 is arranged above the line body supporting frame, the lower transporting line body device 63 is arranged in the middle of the line body supporting frame 61, the upper transporting line body device 62 is consistent with the lower transporting line body device 63 in structure, the upper transporting line body device 62 and the lower transporting line body device 63 are symmetrically arranged in parallel, the operation panel 65 is multiple, and the operation panel 65 is connected with the side edges of the upper transporting line body device 62 at intervals.

The input end of the upper conveying line body device 62 is connected with the output end of the first lifting table 1, the output end of the upper conveying line body device 62 is connected with the input end of the second lifting table 2, the input end of the lower conveying line body device 63 is connected with the output end of the second lifting table 2, and the output end of the lower conveying line body device 63 is connected with the input end of the first lifting table 1.

The upper transportation line body device 62 includes a second driving wheel device 621, a second driven wheel device 622, a second auxiliary roller device 623, a driving motor 624, a third linear section 625, a fourth linear section 626, a line body transportation belt 627, and a second flow bar device 628, where the third linear section 625 and the fourth linear section 626 are in consistent structure, the third linear section 625 and the fourth linear section 626 are correspondingly arranged in parallel, the third linear section 625 and the fourth linear section 626 are vertically connected with the line body supporting frame 61, one end of the third linear section 625 and one end of the fourth linear section 626 are provided with the second driving wheel device 621, the other end of the third linear section 625 and the other end of the fourth linear section 626 are provided with the second driven wheel device 622, the second driving wheel device 621 is connected with the second driven wheel device 622 through the line body transportation belt 627, a driving motor 624 is arranged on the side edge of the second driving wheel device 621, the third linear section 625 and the fourth linear section 626 are used for driving the upper transportation line body device 62 to move, the second flow bar device 628 is arranged above the third linear section 625 and the fourth linear section 626, the second flow bar device 628 is used for reducing resistance when the line body transportation belt is transported, the second flow bar device is connected with the third linear section 625 and the fourth linear section 626 through a fixing piece, the auxiliary roller device 627 is connected with the fourth linear section through the fixing piece, the auxiliary roller device 627 through the fixing piece, and the second linear section 626 is connected with the auxiliary roller device.

The test fixture table 7 comprises a fixture table bottom plate 71, a first test fixture device 72, a second test fixture device 73 and a supporting wire tying table assembly 74, the first test fixture device 72 is used for detecting the optical fiber interface condition of a test piece, the second test fixture device 73 is used for detecting the O-shaped ring installation condition of the test piece, the first test fixture device 72 is arranged on the left side above the fixture table bottom plate 71, the first test fixture device 72 is connected with the fixture table bottom plate 71 through screws, the second test fixture device 73 is arranged on the right side above the fixture table bottom plate 71, the second test fixture device 73 is connected with the fixture table bottom plate 71 through a sliding block assembly, a plurality of supporting wire tying table assemblies 74 are arranged at intervals between the first test fixture device 72 and the second test fixture device 73 and used for assisting bagging and wire tying of the test piece, the first test fixture device 72 comprises a first interface test device 721, a second interface test device 722 and a pressing device 723, and the second interface test device 723 is connected with the first interface test device 721 through the pressing device 723 when the second interface test device 722 works.

The pressing device 723 comprises a supporting plate 7231, a supporting column 7232, a pressing handle 7233, a first connecting shaft 7234 and a connecting plate 7235, the supporting plate 7231 is connected with a clamp table bottom plate 71 through the supporting column 7232, the pressing handle 7233 is arranged above the supporting plate 7231, the bottom of the pressing handle 7233 is connected with the connecting plate 7235 through the first connecting shaft 7234, the second interface testing device 722 comprises a first pressing plate 7221, a second pressing plate 7222, a first testing plate 7223, a second connecting shaft 7224 and a supporting baffle 7225, the second pressing plate 7222 is connected with the supporting plate 7231 through the supporting baffle 7225, the first testing plate 7223 is fixedly connected with the second pressing plate 7222 through screws, the first pressing plate 7221 is arranged above the first testing plate 7223, and the first pressing plate 7221 is connected with the connecting plate 7235 through the second connecting shaft 7224.

The second test fixture device 73 comprises an operation handle assembly 731, a sliding assembly 732 and an O-shaped ring installation test device 733, wherein the O-shaped ring installation test device 733 is connected with the test fixture platform 7 through the sliding assembly 732, one end of the operation handle assembly 731 is vertically connected with the test fixture platform 7 through a fixed block, and the other end of the operation handle assembly 731 is connected with a protruding part at the bottom of the O-shaped ring installation test device 733 through a connecting piece.

The working principle is as follows: the workman is with being measured one end and first interface testing arrangement 721 connection, push down handle 7233, second interface testing arrangement 722 pushes down and is connected with first interface testing arrangement 721, test to be measured the piece, simultaneously be measured the piece other end and be connected with O type circle installation testing arrangement 733, through the back of testing, push down operation handle subassembly 731, be measured the piece line and straighten, put the line of test piece on supporting tie line platform subassembly 74 and carry out the cup joint of protective sheath, prick the installation line, when the whole test of piece that is measured on the test fixture platform 7 that the interval set up on transportation line body mechanism 6 finishes, when the start key of a plurality of operating panel 65 that the side set up of transportation line body mechanism 6 all is pushed down, go up transportation line body device 62 horizontal right movement, output test fixture platform 7 to second elevating platform 2, second elevating platform 2 outputs the test fixture platform 7 that receives to lower transportation line body device 7 on, lower transportation fixture platform 7 horizontal left movement, output test fixture platform 7 to first elevating platform 1 that receives, wait for the start key on the operating panel 6 all to push down again, the test fixture platform 7 receives again, the circulation device of test device is accomplished to the test line body 7.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. The utility model provides a pencil test station, including first elevating platform (1), second elevating platform (2), test equipment (3), pre-assembly equipment device (4), equipment material place platform (5), transportation line body mechanism (6), test fixture platform (7), test equipment (3) are used for placing outside test equipment (3), pre-assembly equipment is used for depositing pre-assembled line body material, equipment material places platform (5) and is used for placing the equipment subassembly, transportation line body mechanism (6) are used for transporting test fixture platform (7), its characterized in that: the utility model provides a test equipment (3), equipment material place platform (5), pre-assembly equipment device (4) are from left to right equipped with in proper order to transportation line body mechanism (6) side, transportation line body mechanism (6) have at least 2, transportation line body mechanism (6) top interval is equipped with a plurality of test fixture platforms (7), transportation line body mechanism (6) left side is equipped with first elevating platform (1), transportation line body mechanism (6) right side is equipped with second elevating platform (2), first elevating platform (1), second elevating platform (2) structural consistence, first elevating platform (1) are equipped with elevating system (12) including protection framework (11), elevating system (12), transport mechanism (13) in protection framework (11), and elevating system (12) top connection is equipped with transport mechanism (13).

2. The wire harness test station as claimed in claim 1, wherein the transport mechanism (13) comprises a supporting frame (131), a speed reducing motor (132), a first driving wheel device (133), a first driven wheel device (134), a first linear material (135), a second linear material (136), a first flow advantage bar device (137), a belt (138), the first linear material (135) and the second linear material (136) are in consistent structure, the first linear material (135) and the second linear material (136) are correspondingly arranged in parallel, the first linear material (135), the second linear material (136) and the lifting mechanism (12) are vertically connected through the supporting frame (131), one end of the first linear material (135) and one end of the second linear material (136) are provided with the first driving wheel device (133), the other end of the first linear material (135) and the second linear material (136) are provided with the first driven wheel device (134), the first driving wheel device (133) is connected with the first driven wheel device (134) through the belt (138), the side edge of the driving wheel device is provided with the speed reducing motor (132) for driving the transport mechanism (13) to move, the first linear material (135) and the second linear material (136) are provided with less flow resistance (137) than the first linear material (138), the first flow-benefiting bar device (137) is connected with the first linear material (135) and the second linear material (136) through the fixing piece.

3. The wire harness testing station of claim 2, wherein the belt (138) comprises a conveying belt (1381) and a return belt (1382), the conveying belt (1381) is located at the upper portion of the return belt (1382), the conveying belt (1381) and the return belt (1382) are arranged in parallel, a first auxiliary roller device (139) is further arranged below the conveying belt (1381) and used for reducing belt conveying resistance, and the first auxiliary roller device (139) is fixedly connected with the first linear material (135) and the second linear material (136) through right-angle pieces.

4. The wire harness test station of claim 1, wherein the lifting mechanism (12) comprises a first linear bearing (121), a second linear bearing (122), a first sliding block (123), a second sliding block (124), a connecting transverse plate (125) and a driving cylinder (126), the first linear bearing (121) and the second linear bearing (122) are consistent in structure, the first linear bearing (121) and the second linear bearing (122) are in parallel correspondence, 2 first linear bearings (121) are arranged above one inner wall of the protective frame body (11) at intervals, 2 first sliding blocks (123) are correspondingly connected above the first linear bearing (121), 2 second linear bearings (122) are correspondingly arranged above the other inner wall of the protective frame body (11) at intervals, the second sliding block (124) is correspondingly connected above the second linear bearing (122), the first sliding block (123) and the second sliding block (124) are connected with the supporting frame (131) through L components (126), the adjacent first linear bearings (121) and the second linear bearing (122) are respectively arranged above the second linear bearing (122) for driving the first linear bearing (122) along the lifting mechanism, the top of the driving cylinder (126) is connected with the connecting transverse plate (125) through a lifting shaft.

5. The wire harness testing station of claim 1, wherein: the transportation line body mechanism (6) comprises a line body supporting frame (61), an upper transportation line body device (62), a lower transportation line body device (63), a protection cover plate (64) and an operation panel (65), wherein a plurality of protection cover plates (64) are correspondingly arranged on the side edges of the line body supporting frame (61) and used for preventing workers from touching by mistake, the upper transportation line body device (62) is arranged above the line body supporting frame, the lower transportation line body device (63) is arranged in the middle of the line body supporting frame (61), the upper transportation line body device (62) and the lower transportation line body device (63) are identical in structure, the upper transportation line body device (62) and the lower transportation line body device (63) are symmetrically arranged in parallel, the operation panel (65) is a plurality of, and the operation panel (65) is connected with the side edges of the upper transportation line body device (62) at intervals.

6. The wire harness testing station of claim 5, wherein: the input end of the upper conveying line body device (62) is connected with the output end of the first lifting table (1), the output end of the upper conveying line body device (62) is connected with the input end of the second lifting table (2), the input end of the lower conveying line body device (63) is connected with the output end of the second lifting table (2), and the output end of the lower conveying line body device (63) is connected with the input end of the first lifting table (1).

7. The wire harness testing station of claim 5, wherein: the upper conveying line body device (62) comprises a second driving wheel device (621), a second driven wheel device (622), a second auxiliary roller device (623), a driving motor (624), a third linear section bar (625), a fourth linear section bar (626), a line body conveying belt (627) and a second fluid bar device (628), the structures of the third linear section bar (625) and the fourth linear section bar (626) are consistent, the third linear section bar (625) and the fourth linear section bar (626) are correspondingly arranged in parallel, the third linear section bar (625) and the fourth linear section bar (626) are vertically connected with the line body supporting frame (61), one end of the third linear section bar (625) and one end of the fourth linear section bar (626) are provided with the second driving wheel device (621), the other end of the third linear section bar (625) and the other end of the fourth linear section bar (626) are provided with the second driven wheel device (622), the second driving wheel device (621) is connected with the second driven wheel device (622) through the line body conveying belt (627), the side edge of the second driving wheel device (621) is provided with the driving motor (624) for driving the upper conveying line body device (62) to move, the third linear section bar (625) and the fourth linear section bar (626) is provided with less resistance force than the second fluid device (628) when the second linear section bar (626) is conveyed, the second flow bar device (628) is connected with the third linear section bar (625) and the fourth linear section bar (626) through fixing pieces, a second auxiliary roller device (623) is arranged in the belt and used for reducing conveying resistance of the wire body conveying belt (627), and the auxiliary roller device is fixedly connected with the third linear section bar (625) and the fourth linear section bar (626) through right-angle pieces.

8. The wire harness test station as claimed in claim 1, wherein the test fixture table (7) comprises a fixture table bottom plate (71), a first test fixture device (72), a second test fixture device (73) and a supporting wire tying table assembly (74), the first test fixture device (72) is used for detecting the optical fiber interface condition of the test piece, the second test fixture device (73) is used for detecting the O-ring installation condition of the test piece, the left side above the fixture table bottom plate (71) is provided with the first test fixture device (72), the first test fixture device (72) is connected with the fixture table bottom plate (71) through screws, the right side above the fixture table bottom plate (71) is provided with the second test fixture device (73), the second test fixture device (73) is connected with the fixture table bottom plate (71) through a sliding block assembly, a plurality of supporting wire tying table assemblies (74) are arranged at intervals between the first test fixture device (72) and the second test fixture device (73) and are used for carrying out auxiliary bagging and wire tying on the test piece, the first test fixture device (72) comprises a first interface test device (721), a second interface test device (723) and a second interface device (723) is connected with the first interface device (722) through a pressing device (723) when the second interface device (722) is pressed down.

9. The wire harness testing station of claim 8, wherein the pressing device (723) comprises a support plate (7231), a support column (7232), a pressing handle (7233), a first connecting shaft (7234) and a connecting plate (7235), the support plate (7231) is connected with the clamp table bottom plate (71) through the support column (7232), the pressing handle (7233) is arranged above the support plate (7231), the bottom of the pressing handle (7233) is connected with the connecting plate (7235) through the first connecting shaft (7234), the second interface testing device (722) comprises a first pressing plate (7221), a second pressing plate (7222), a first testing plate (7223), a second connecting shaft (7224) and a supporting baffle (7225), the second pressing plate (7222) is connected with the support plate (7231) through the supporting baffle (7225), the first testing plate (7223) is fixedly connected with the second pressing plate (7222) through screws, the first pressing plate (7221) is arranged above the first testing plate (7223), and the first pressing plate (7221) is connected with the first connecting plate (7224) through the first connecting plate (7235).

10. The wire harness test station as claimed in claim 8, wherein the second test jig device (73) comprises an operation handle assembly (731), a slide assembly (732), an O-ring mounting test device (733), the O-ring mounting test device (733) being connected to the test jig table (7) through the slide assembly (732), one end of the operation handle assembly (731) being vertically connected to the test jig table (7) through a fixing block, and the other end of the operation handle assembly (731) being connected to a bottom protrusion of the O-ring mounting test device (733) through a connecting member.