Oblique-arm type bridge-type passes through machine
Technical field
The utility model relates to bridge-type and passes through machine, and particularly a kind of oblique-arm type bridge-type passes through machine.
Background technology
At present, general bridge-type is passed through in machine, blanking RM adopts monorail, and production efficiency is low, can not meet growing output demand, moreover, most of bridge-type is passed through machine and is mostly adopted the mode automatically controlled, but general controller is all be fixedly mounted on equipment, uses and is subject to region restriction, and not easily carry, increase the workload of staff.
Utility model content
The purpose of this utility model is to solve the problem, and devises a kind of oblique-arm type bridge-type and passes through machine.
Realizing above-mentioned purpose the technical solution of the utility model is, a kind of oblique-arm type bridge-type passes through machine, comprise body 1, described body 1 upper end is provided with blanking track 2, be provided with servomotor below described blanking track 2 and drive fixture 3, described servomotor drives fixture 3 to be provided with resistance position cylinder 4, material collection unit 5 is provided with below described resistance position cylinder 4, non-defective unit blanking track 24 is provided with on the left of described material collection unit 5, test cell is provided with between described blanking track 2 and non-defective unit blanking track 24, described body 1 is provided with Signal reception plate 6, described Signal reception plate 6 drives fixture 3 with servomotor, resistance position cylinder 4 and test cell electrical connection, also comprise the palm control terminal 7 be arranged on Signal reception plate 6, described palm control terminal 7 comprises the capacitance touch screen 8 being arranged on outside, USB 9, be arranged on inner core processor 10, battery 11, communication module 12 and data memory module 13, described core processor 10 respectively with capacitance touch screen 8, USB 9, battery 11, communication module 12 and data memory module 13 have been electrically connected the conveying of data and the transmission of signal, the gauge tap 15 that described Signal reception plate 6 comprises USB plug 14 and is connected with USB plug 14, described gauge tap 15 drives fixture 3 with servomotor, resistance position cylinder 4 and test cell electrical connection, described USB plug 14 inserts the data connected between palm control terminal 7 and Signal reception plate 6 in USB 9 and carries.
Described test cell is by being arranged on cylinder switching 16 below blanking track 2, be fixedly mounted on the conversion mould 17 of cylinder switching 16 telescopic end, be arranged on the line slideway 18 of conversion mould 17 side, be arranged on body 19, left track 20 and the right track 21 be arranged on body 19 below conversion mould 17, be arranged on the left mechanism for testing 22 on the left of left track 20 and the right mechanism for testing 23 be arranged on the right side of right track 21 is formed jointly.
Described gauge tap 15 is electrically connected with test cell, and namely described USB plug 14 is electrically connected with cylinder switching 16, left mechanism for testing 22 and right mechanism for testing 23 respectively.
Described body 19 is positioned at immediately below blanking track 2.
Described body 19 is positioned at directly over non-defective unit blanking track 24.
The oblique-arm type bridge-type utilizing the technical solution of the utility model to make passes through machine, and blanking RM adopts two-orbit, and production efficiency is high, be easy to operation and carry, same controller can be taken off, being installed to the enterprising enforcement of another equipment and using, can match with multiple devices, resource utilization is high.
Accompanying drawing explanation
Fig. 1 is the structural representation that oblique-arm type bridge-type described in the utility model passes through machine;
Fig. 2 is the structural representation of palm control terminal described in the utility model;
In figure, 1, body; 2, blanking track; 3, servomotor drives fixture; 4, position cylinder is hindered; 5, material collection unit; 6, Signal reception plate; 7, palm control terminal; 8, capacitance touch screen; 9, USB; 10, core processor; 11, battery; 12, communication module; 13, data memory module; 14, USB plug; 15, gauge tap; 16, cylinder switching; 17, mould is changed; 18, line slideway; 19, body; 20, left track; 21, right track; 22, left mechanism for testing; 23, right mechanism for testing; 24, non-defective unit blanking track.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is specifically described, as depicted in figs. 1 and 2, a kind of oblique-arm type bridge-type passes through machine, comprise body 1, described body 1 upper end is provided with blanking track 2, be provided with servomotor below described blanking track 2 and drive fixture 3, described servomotor drives fixture 3 to be provided with resistance position cylinder 4, material collection unit 5 is provided with below described resistance position cylinder 4, non-defective unit blanking track 24 is provided with on the left of described material collection unit 5, test cell is provided with between described blanking track 2 and non-defective unit blanking track 24, described body 1 is provided with Signal reception plate 6, described Signal reception plate 6 drives fixture 3 with servomotor, resistance position cylinder 4 and test cell electrical connection, also comprise the palm control terminal 7 be arranged on Signal reception plate 6, described palm control terminal 7 comprises the capacitance touch screen 8 being arranged on outside, USB 9, be arranged on inner core processor 10, battery 11, communication module 12 and data memory module 13, described core processor 10 respectively with capacitance touch screen 8, USB 9, battery 11, communication module 12 and data memory module 13 have been electrically connected the conveying of data and the transmission of signal, the gauge tap 15 that described Signal reception plate 6 comprises USB plug 14 and is connected with USB plug 14, described gauge tap 15 drives fixture 3 with servomotor, resistance position cylinder 4 and test cell electrical connection, described USB plug 14 inserts the data connected between palm control terminal 7 and Signal reception plate 6 in USB 9 and carries, described test cell is by being arranged on cylinder switching 16 below blanking track 2, be fixedly mounted on the conversion mould 17 of cylinder switching 16 telescopic end, be arranged on the line slideway 18 of conversion mould 17 side, be arranged on body 19, left track 20 and the right track 21 be arranged on body 19 below conversion mould 17, be arranged on the left mechanism for testing 22 on the left of left track 20 and the right mechanism for testing 23 be arranged on the right side of right track 21 is formed jointly, described gauge tap 15 is electrically connected with test cell, and namely described USB plug 14 is electrically connected with cylinder switching 16, left mechanism for testing 22 and right mechanism for testing 23 respectively, described body 19 is positioned at immediately below blanking track 2, described body 19 is positioned at directly over non-defective unit blanking track 24.
The feature of the technical program is, test cell is provided with between blanking track and non-defective unit blanking track, body is provided with Signal reception plate, Signal reception plate and servomotor drive fixture, resistance position cylinder and test cell electrical connection, also comprise the palm control terminal be arranged on Signal reception plate, test cell is by being arranged on cylinder switching below blanking track, be fixedly mounted on the conversion mould of cylinder switching telescopic end, be arranged on the line slideway of conversion mould side, be arranged on the body below conversion mould, be arranged on the left track on body and right track, be arranged on that left mechanism for testing on the left of left track and the right mechanism for testing be arranged on the right side of right track form jointly.
In the technical program, this structure at feed opening by cylinder switching, about production sharing two groups test separately, production efficiency can double, then by servomotor, two track products is pooled together.
Technique scheme only embodies the optimal technical scheme of technical solutions of the utility model; those skilled in the art all embody principle of the present utility model to some variations that wherein some part may be made, and belong within protection domain of the present utility model.