CN204223642U - Test tube stand automatic conveying device - Google Patents

Abstract

The utility model discloses a kind of test tube stand automatic conveying device, comprise housing, left connecting gear, right connecting gear, front bracket connecting gear, rear bracket connecting gear, left connecting gear comprises left DC machine, left first belt, left second belt, left wheel, left first belt sleeve is contained in left first, left second, on left 3rd driving roller, left second driving roller is connected with left second passive roller, left 3rd driving roller is connected with left 3rd passive roller, left second belt sleeve is contained in left first, left second, on left 3rd passive roller, right connecting gear is identical with the structure of left connecting gear and be symmetrical arranged.The utility model test tube stand automatic conveying device, once can put at most six row's test tube stands, by left and right connecting gear and forward and backward bracket connecting gear automatic transport test tube stand, whole sampling process does not need artificial participation, completely automatically, time saving and energy saving, efficiency is high.

Description

Test tube stand automatic conveying device

Technical field

The utility model belongs to urinalysis field, particularly relates to a kind of test tube stand automatic conveying device on full automatic urine analyzer.

Background technology

Existing S. A. urine instrument is all then artificial dropping liquid to test strips is put on semi-automated instrument detect, and artificial dropping liquid efficiency is low, and intensity of workers is large, and error is large.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of time saving and energy saving, test tube stand automatic conveying device that efficiency is high.

For solving the problems of the technologies described above, the utility model adopts following technical scheme:

A kind of test tube stand automatic conveying device, comprises housing, left connecting gear, right connecting gear, front bracket connecting gear, rear bracket connecting gear, housing comprises the base linked together, left, right top board and cover plate, left connecting gear comprises left DC machine, left first belt, left second belt, left wheel, left DC machine is arranged on the bottom of left roof, and left wheel comprises left first driving roller, left second driving roller, left 3rd driving roller, left first passive roller, left second passive roller, left 3rd passive roller, the output shaft of left DC machine is installed left first driving roller, and left second, left 3rd driving roller is arranged on the bottom of left roof respectively, and left first belt sleeve is contained in left first, left second, on left 3rd driving roller, install left connecting panel bottom left roof, left first passive roller is arranged on left connecting panel, and left second driving roller is connected with left second passive roller, left 3rd driving roller is connected with left 3rd passive roller, and left second belt sleeve is contained in left first, left second, on left 3rd passive roller, right connecting gear is identical with the structure of left connecting gear and be symmetrical arranged, and comprises right first belt, right second belt, right DC machine, right roller, right DC machine is arranged on the bottom of right top board, and right roller comprises right first driving roller, right second driving roller, right 3rd driving roller, right first passive roller, right second passive roller, right 3rd passive roller, the output shaft of right DC machine is installed right first driving roller, and right second, right 3rd driving roller is arranged on the bottom of right top board respectively, and right first belt sleeve is contained in right first, right second, on right 3rd driving roller, install right connecting panel bottom right top board, right first passive roller is arranged on right connecting panel, and right second driving roller is connected with right second passive roller, right 3rd driving roller is connected with right 3rd passive roller, and right second belt sleeve is contained in right first, right second, on right 3rd passive roller, left side board is installed in the left side of left roof, and left photoelectric switch is installed at the rear portion inside left side board, and right side board is installed on the right side of right top board, and right photoelectric switch is installed in the front portion inside right side board, and front bracket connecting gear comprises front bracket motor, front bracket driving roller, the passive roller of front bracket, front bracket belt, front bracket, front bracket motor is arranged on base, bracket driving roller before the output shaft of front bracket motor is installed, and the passive roller of front bracket is arranged on base, and front bracket belt sleeve is contained in front bracket initiatively, on passive roller, front bracket comprises front vertical plate, front support head, front chuck, top on the left of front vertical plate connects front support head, the end of front support head arranges front blocking strip, L-type plate before bottom on the right side of front vertical plate connects, front L-type plate arranges front chuck, and fore-clamp head-clamp is on front bracket belt, roller installed by front L-type plate, track before installing inside base, roller slides on front track, and rear bracket connecting gear comprises rear bracket motor, rear bracket driving roller, the passive roller of rear bracket, rear bracket belt, rear bracket, rear bracket motor is arranged on base, bracket driving roller after the output shaft of rear bracket motor is installed, and the passive roller of rear bracket is arranged on base, and rear bracket belt sleeve is contained in rear bracket initiatively, on passive roller, rear bracket comprises back vertical plate, rear support head, rear chuck, top on the right side of back vertical plate connects rear support head, the end of rear support head arranges rear blend stop, the bottom of back vertical plate connects rear L-type plate, rear L-type plate arranges rear chuck, and rear chuck is clipped on rear bracket belt, and roller installed by rear L-type plate, track after installing inside base, roller slides on rear track.

Test tube stand automatic conveying device of the present utility model, wherein said left first passive roller is arranged in the groove on left connecting panel by bolt, and described right first passive roller is arranged in the groove on right connecting panel by bolt.

Test tube stand automatic conveying device of the present utility model, wherein said left second, left 3rd driving roller is arranged on the bottom of left roof respectively by bearing seat, right second, right 3rd driving roller is arranged on the bottom of right top board respectively by bearing seat.

Test tube stand automatic conveying device of the present utility model, wherein said left second driving roller is connected with left second passive roller by coupler, left 3rd driving roller is connected with left 3rd passive roller by coupler, right second driving roller is connected with right second passive roller by coupler, and right 3rd driving roller is connected with right 3rd passive roller by coupler.

Test tube stand automatic conveying device of the present utility model, wherein said front L-type plate installs roller by bolt, rear L-type plate installs roller by bolt.

Test tube stand automatic conveying device of the present utility model, the passive roller of wherein said front bracket is arranged on base by bearing seat, and the passive roller of rear bracket is arranged on base by bearing seat.

The utility model test tube stand automatic conveying device, once can put at most six row's test tube stands, by left and right connecting gear and forward and backward bracket connecting gear automatic transport test tube stand, whole sampling process does not need artificial participation, completely automatically, time saving and energy saving, efficiency is high, and error is little.

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Accompanying drawing explanation

Fig. 1 is the overall perspective view of the utility model test tube stand automatic conveying device;

Fig. 2 is the birds-eye view of the utility model test tube stand automatic conveying device;

Fig. 3 is the block diagram of left roof and left connecting gear in the utility model test tube stand automatic conveying device;

Fig. 4 is the face upwarding stereogram of left roof and left connecting gear in the utility model test tube stand automatic conveying device;

Fig. 5 is the block diagram of forward and backward bracket connecting gear in the utility model test tube stand automatic conveying device;

Fig. 6 is the block diagram of front bracket in front bracket connecting gear;

Fig. 7 is the block diagram of rear bracket in rear bracket connecting gear.

Detailed description of the invention

As shown in Figure 1, 2, the utility model test tube stand automatic conveying device comprises housing 1, left connecting gear, right connecting gear, front bracket connecting gear, rear bracket connecting gear, housing 1 comprises the base 11 be connected by screw together, left and right top board 12,13 and cover plate 14, left and right top board 12,13 is arranged on base 11 top respectively, and cover plate 14 is arranged on front side and the left and right side of base 11.

Composition graphs 3, shown in 4, left connecting gear comprises left DC machine 21, left first belt 22, left second belt 23, left wheel, left DC machine 21 is arranged on the bottom of left roof 12, left wheel comprises left first driving roller 24, left second driving roller 25, left 3rd driving roller 26, left first passive roller 27, left second passive roller 28, left 3rd passive roller 29, the output shaft of left DC machine 21 is installed left first driving roller 24, left second, left 3rd driving roller 25, 26 are arranged on the bottom of left roof 12 respectively by bearing seat, left first belt 22 is sleeved on left first, left second, left 3rd driving roller 24, 25, on 26, left connecting panel 15 is installed bottom left roof 12, left first passive roller 27 is arranged in the groove 16 on left connecting panel 15 by bolt, bolt can rotate in groove 16, to reduce friction.Left second driving roller 25 is connected with left second passive roller 28 by coupler 17, left 3rd driving roller 26 is connected with left 3rd passive roller 29 by coupler 18, and left second belt 23 is sleeved on a left side first, a left side second, left 3rd passive roller 27,28,29.

Right connecting gear is identical with the structure of left connecting gear and be symmetrical arranged, comprise right first belt 71, right second belt 72, right DC machine, right roller, right DC machine is arranged on the bottom of right top board 13, right roller comprises right first driving roller, right second driving roller, right 3rd driving roller, right first passive roller, right second passive roller, right 3rd passive roller, the output shaft of right DC machine is installed right first driving roller, right second, right 3rd driving roller is arranged on the bottom of right top board respectively by bearing seat, right first belt 71 is sleeved on right first, right second, on right 3rd driving roller, bottom right top board 13, right connecting panel is installed, right first passive roller is arranged in the groove on right connecting panel by bolt, bolt can rotate in groove, to reduce friction.The right side the second driving roller is connected with right second passive roller by coupler, and right 3rd driving roller is connected with right 3rd passive roller by coupler, and right second belt 72 is sleeved on the right side first, the right side second, right 3rd passive roller.

Left side board 6 is installed in the left side of left roof 12, and left photoelectric switch 7 is installed at the rear portion inside left side board 6, and right side board 8 is installed on the right side of right top board 13, and right photoelectric switch (not shown) is installed in the front portion inside right side board 8.

Composition graphs 5, shown in 6, front bracket connecting gear comprises front bracket motor 31, front bracket driving roller 32, the passive roller 33 of front bracket, front bracket belt 34, front bracket 35, front bracket motor 31 is installed on the pedestal 11, bracket driving roller 32 before the output shaft of front bracket motor 31 is installed, the passive roller 33 of front bracket is installed on the pedestal 11 by bearing seat, front bracket belt 34 is sleeved on front bracket initiatively, passive roller 32, on 33, front bracket 35 comprises the front vertical plate 36 be made into integration, front support 37, front chuck 38, top on the left of front vertical plate 36 connects front support 37, the end of front support 37 arranges front blocking strip 39, L-type plate 40 before bottom on the right side of front vertical plate 36 connects, front L-type plate 40 arranges front chuck 38, front chuck 38 is clipped on front bracket belt 34.Front L-type plate 40 installs roller 41 by bolt, and track 42 before installing inside base 11, roller 41 can slide on front track 42.

Shown in composition graphs 7, rear bracket connecting gear comprises rear bracket motor 51, rear bracket driving roller 52, the passive roller 53 of rear bracket, rear bracket belt 54, rear bracket 55, rear bracket motor 51 is installed on the pedestal 11, bracket driving roller 52 after the output shaft of rear bracket motor 51 is installed, the passive roller 53 of rear bracket is installed on the pedestal 11 by bearing seat, rear bracket belt 54 is sleeved on rear bracket initiatively, passive roller 52, on 53, rear bracket 55 comprises the back vertical plate 56 be made into integration, rear support 57, rear chuck 58, top on the right side of back vertical plate 56 connects rear support 57, the end of rear support 57 arranges rear blend stop 59, the bottom of back vertical plate 56 connects rear L-type plate 60, rear L-type plate 60 arranges rear chuck 58, rear chuck 58 is clipped on rear bracket belt 54.Rear L-type plate 60 installs roller 61 by bolt, and track 62 after installing inside base 11, roller 61 can slide on rear track 62.

The working process of the utility model test tube stand automatic conveying device is:

The test tube stand 10 that test tube is housed is placed on left roof 12 rearward position, once can place six row's test tube stands, when left photoelectric switch 7 has detected that test tube stand 10 is placed, left DC machine 21 starts, drive left first, second belt 22, 23 motions, thus drive test tube stand 10 to move forward, when test tube stand moves to front bracket 35 position, front support on front bracket 35 37 catches on test tube stand 10, simultaneously, bracket motor 31 starts, front bracket belt 34 setting in motion, before driving, bracket 35 moves right, when test tube stand moves to low order end, right photoelectric switch detects test tube stand, right DC machine starts, drive right first, second belt 71, 72 motions, thus drive test tube stand 10 to move backward, when test tube stand 10 moves to rear bracket 55 position, rear support on rear bracket 55 57 catches on test tube stand 10, simultaneously, bracket motor 51 starts, rear bracket belt 54 setting in motion, after driving, bracket 55 is moved to the left, start to sample successively after infrared scan mechanism (not shown) on apparatus subject detects test tube, the test tube stand of having sampled finally moves to again left side reference position.

The utility model test tube stand automatic conveying device, once can put at most six row's test tube stands, by left and right connecting gear and forward and backward bracket connecting gear automatic transport test tube stand, whole sampling process does not need artificial participation, completely automatically, time saving and energy saving, efficiency is high, and error is little.

Above-described embodiment is only be described preferred implementation of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that those of ordinary skill in the art make the technical solution of the utility model and improvement, all should fall in protection domain that the utility model claims determine.

Claims (6)

1. a test tube stand automatic conveying device, is characterized in that: comprise housing, left connecting gear, right connecting gear, front bracket connecting gear, rear bracket connecting gear, housing comprises the base linked together, left and right top board and cover plate,

Left connecting gear comprises left DC machine, left first belt, left second belt, left wheel, left DC machine is arranged on the bottom of left roof, left wheel comprises left first driving roller, left second driving roller, left 3rd driving roller, left first passive roller, left second passive roller, left 3rd passive roller, the output shaft of left DC machine is installed left first driving roller, left second, left 3rd driving roller is arranged on the bottom of left roof respectively, left first belt sleeve is contained in left first, left second, on left 3rd driving roller, left connecting panel is installed bottom left roof, left first passive roller is arranged on left connecting panel, left second driving roller is connected with left second passive roller, left 3rd driving roller is connected with left 3rd passive roller, left second belt sleeve is contained in left first, left second, on left 3rd passive roller,

Right connecting gear is identical with the structure of left connecting gear and be symmetrical arranged, comprise right first belt, right second belt, right DC machine, right roller, right DC machine is arranged on the bottom of right top board, right roller comprises right first driving roller, right second driving roller, right 3rd driving roller, right first passive roller, right second passive roller, right 3rd passive roller, the output shaft of right DC machine is installed right first driving roller, right second, right 3rd driving roller is arranged on the bottom of right top board respectively, right first belt sleeve is contained in right first, right second, on right 3rd driving roller, bottom right top board, right connecting panel is installed, right first passive roller is arranged on right connecting panel, right second driving roller is connected with right second passive roller, right 3rd driving roller is connected with right 3rd passive roller, right second belt sleeve is contained in right first, right second, on right 3rd passive roller,

Left side board is installed in the left side of left roof, and left photoelectric switch is installed at the rear portion inside left side board, and right side board is installed on the right side of right top board, and right photoelectric switch is installed in the front portion inside right side board,

Front bracket connecting gear comprises front bracket motor, front bracket driving roller, the passive roller of front bracket, front bracket belt, front bracket, front bracket motor is arranged on base, bracket driving roller before the output shaft of front bracket motor is installed, the passive roller of front bracket is arranged on base, front bracket belt sleeve is contained in front bracket initiatively, on passive roller, front bracket comprises front vertical plate, front support head, front chuck, top on the left of front vertical plate connects front support head, the end of front support head arranges front blocking strip, L-type plate before bottom on the right side of front vertical plate connects, front L-type plate arranges front chuck, fore-clamp head-clamp is on front bracket belt, roller installed by front L-type plate, track before installing inside base, roller slides on front track,

Rear bracket connecting gear comprises rear bracket motor, rear bracket driving roller, the passive roller of rear bracket, rear bracket belt, rear bracket, rear bracket motor is arranged on base, bracket driving roller after the output shaft of rear bracket motor is installed, the passive roller of rear bracket is arranged on base, rear bracket belt sleeve is contained in rear bracket initiatively, on passive roller, rear bracket comprises back vertical plate, rear support head, rear chuck, top on the right side of back vertical plate connects rear support head, the end of rear support head arranges rear blend stop, the bottom of back vertical plate connects rear L-type plate, rear L-type plate arranges rear chuck, rear chuck is clipped on rear bracket belt, roller installed by rear L-type plate, track after installing inside base, roller slides on rear track.

2. test tube stand automatic conveying device according to claim 1, is characterized in that: described left first passive roller is arranged in the groove on left connecting panel by bolt, and described right first passive roller is arranged in the groove on right connecting panel by bolt.

3. test tube stand automatic conveying device according to claim 2, it is characterized in that: described left second, left 3rd driving roller is arranged on the bottom of left roof respectively by bearing seat, right second, right 3rd driving roller is arranged on the bottom of right top board respectively by bearing seat.

4. test tube stand automatic conveying device according to claim 3, it is characterized in that: described left second driving roller is connected with left second passive roller by coupler, left 3rd driving roller is connected with left 3rd passive roller by coupler, right second driving roller is connected with right second passive roller by coupler, and right 3rd driving roller is connected with right 3rd passive roller by coupler.

5. test tube stand automatic conveying device according to claim 4, is characterized in that: described front L-type plate installs roller by bolt, rear L-type plate installs roller by bolt.

6. test tube stand automatic conveying device according to claim 5, is characterized in that: the passive roller of described front bracket is arranged on base by bearing seat, and the passive roller of rear bracket is arranged on base by bearing seat.