CN204489396U - A kind of automatic loading/unloading test tube labelling machine - Google Patents

Abstract

The utility model belongs to labeling field, relates to a kind of automatic loading/unloading test tube labelling machine; Overcome the inefficient problem of device for labeling that prior art exists; Primarily of label-sticking mechanism, base plate, feed mechanism and blanking cabin composition; Label-sticking mechanism is made up of rotating disk mechanism, pressure marking machine structure, swing type mechanism and frame component; Rotating disk mechanism is made up of rotating disk, gear ring, rotating disk driven wheel, rotating disk drive motor and drive motor bearing; Feed mechanism is made up of the rushing board mechanism be fixed on successively on base plate, rotating wheel mechanisms that and material loading cabin mechanism; The utility model can realize automatic charging and the blanking of test tube, can improve labelled efficiency; Can clamp the test tube of different-diameter; Adopt cam mechanism, the test tube stored in material loading cabin can be made to enter rotating wheel mechanisms that smoothly and latch up phenomenon can not be produced; Adopt rotating wheel mechanisms that, make the test tube in material loading cabin singlely can enter U-type groove in an orderly manner, for labeling is prepared; Structure is simple, and debugging is convenient, and cost is low, convenient operation.

Description

A kind of automatic loading/unloading test tube labelling machine

Technical field

The utility model belongs to labeling field, relates to a kind of label sticking machine, more particularly, relates to a kind of automatic loading/unloading test tube labelling machine.

Background technology

Current labelling machine is of a great variety, is widely used in each large industries such as medicine, daily use chemicals, food and medical treatment.It is the ideal equipment of carrying out the accurate labeling of high precision on the small size materials such as wiring board, carton, magazine, battery of mobile phone, medicine, daily use chemicals, makes product identification cleaner and tidier, attractive in appearance.

Although market there are many kinds of bar code printers, must be attached on product by bar code of manually tearing after most of printed bar code, this process is not only loaded down with trivial details again, consuming time, consumption manpower, and bar code is pasted unsightly.In order to solve the problem, prior art carries out labeling process by setting strip code printer, but be a kind of aided device, can not realize automatic, mass labeling.

Summary of the invention

Technical problem to be solved in the utility model is the inefficient problem of device for labeling overcoming prior art existence, provides a kind of automatic loading/unloading test tube labelling machine.

In order to solve the problems of the technologies described above, the utility model adopts following technical scheme to realize:

A kind of automatic loading/unloading test tube labelling machine, forms primarily of label-sticking mechanism 1, base plate 2, feed mechanism 4 and the blanking cabin 5 be positioned on front side of label-sticking mechanism 1;

Described label-sticking mechanism 1, feed mechanism 4 are separately fixed at the arranged on left and right sides of base plate;

Described label-sticking mechanism 1 is made up of rotating disk mechanism, pressure marking machine structure, swing type mechanism and frame component;

Described rotating disk mechanism, pressure marking machine structure are all fixed on frame component; Described frame component is fixed on the left side front edge of base plate 2; Described swing type mechanism is fixed on the left side of base plate 2;

Described feed mechanism 4 is made up of the rushing board mechanism fixed successively on a base plate 2, rotating wheel mechanisms that and material loading cabin mechanism.

The component of frame described in technical scheme is made up of No. 1 chassis wall 25, No. 2 chassis wall 33 and separating plate 28; Described No. 1 chassis wall 25, No. 2 chassis wall 33 are separately fixed on base plate 2, and the two ends of described separating plate 28 are fixedly connected with No. 1 chassis wall 25, No. 2 chassis wall 33 respectively; Described No. 1 chassis wall 25, No. 2 chassis wall 33 are respectively equipped with deflection roller chute 27;

The cross-sectional plane 66 of described separating plate 28 is right-angled triangles, and the minimum angle 65 of angle value is near rotating disk mechanism side; No. 1 chassis wall 25 and No. 2 chassis wall 33 all have a chassis wall side 68, and the chassis wall side 68 of separating plate vertical guide 67 and both sides is in same plane.

Rotating disk mechanism described in technical scheme is made up of rotating disk 34, gear ring 30, rotating disk driven wheel 32, rotating disk drive motor 31 and drive motor bearing 13;

Described rotating disk 34 is arranged in No. 2 chassis wall 33 in frame component by bearing;

Described rotating disk driven wheel 32 is arranged on the motor shaft of rotating disk drive motor 31, and described rotating disk driven wheel 32 engages with described gear ring 30;

Described rotating disk drive motor 31 is fixed on drive motor bearing 13;

Described drive motor bearing 13 is fixing on a base plate 2.

Rotating disk 34 described in technical scheme is made up of the rotating disk pressing plate 39 that rotating disk matrix 38 is identical with three pieces;

Be provided with two identical hollow rotating disk plate bearings 60 below each block rotating disk pressing plate 39, the face of cylinder of described rotating disk plate bearing 60 be distributed with symmetrically two square openings;

Described rotating disk matrix 38 is provided with the rotating disk matrix bearing 59 corresponding with rotating disk plate bearing 60, and the face of cylinder of described rotating disk matrix bearing 59 is provided with two boss symmetrically, and the external diameter of described rotating disk matrix bearing 59 is less than the internal diameter of rotating disk plate bearing 60; The middle vacancy of described rotating disk matrix bearing 59 arranges a spring, and the boss on described rotating disk matrix bearing 59 coordinates with the square opening on described rotating disk plate bearing 60;

Described rotating disk matrix 38, in stepped shaft shape, has four kinds of external diameters, installs bearing, positioned, be arranged in No. 2 chassis wall 33 by bearing by rotating disk matrix 38 by the shaft shoulder in second largest outer radius;

Described gear ring 30 is arranged on the minimum outer diameter place of rotating disk matrix 38, is positioned by the shaft shoulder and flat key.

Marking machine structure is pressed to form by pressing parameter 36 and pressure target 37 described in technical scheme;

Described pressure target 37 can rotate around pressure parameter 36; Described pressure target 37 is provided with pressure target external part 62, and described pressure parameter 36 is provided with pressure parameter boss 63, and pressure parameter boss 63 is by limiting pressure target external part 62 thus making pressure target 37 can only carry out the rotation of limited angle; Described pressure target 37 is provided with pressure target and sticks up platform 64;

One end of described pressure parameter 36 is arranged in pressure marking machine structure mounting hole 29; Described pressure marking machine structure mounting hole 29 is positioned at the rearward position a little, top of rotating disk 34 installation site;

Described blanking cabin 5 is fixed on the base plate 2 immediately below pressure marking machine structure.

Swing type mechanism described in technical scheme is made up of No. 1 guiding roller 19, No. 2 guiding rollers 23, axis of revolution 7, axis of revolution motor 10, axis of revolution motor support base 11, No. 1 guiding roller bearing, No. 2 guiding roller bearings, axis of revolution supports and the deflection roller 35 be arranged on frame component;

Described No. 1 guiding roller 19 is arranged on No. 1 guiding roller bearing;

Described No. 2 guiding rollers 23 are arranged on No. 2 guiding roller bearings;

Described axis of revolution 7 is arranged on axis of revolution support;

The below of No. 2 grooves 12 on a base plate 2 fixed by described No. 1 guiding roller bearing;

Described No. 2 guiding roller bearings fix both sides below No. 1 groove 8 on a base plate 2 and near the lagging dege of base plate 2;

Described axis of revolution support fixes both sides above No. 1 groove 8 on a base plate 2 and near the lagging dege of base plate 2;

Described axis of revolution motor 10 is connected with axis of revolution 7 by coupler, and is fixed on axis of revolution motor support base 11;

Right side above fixing No. 1 groove 8 on a base plate 2 of described axis of revolution motor support base 11.

Be partial in deflection roller chute 27 that roller 35 is respectively equipped with by No. 1 chassis wall 25, No. 2 chassis wall 33 that deflection roller spring 26 is arranged on frame component described in technical scheme, the end of described deflection roller 35 can slip in deflection roller chute 27;

Described No. 1 guiding roller bearing is made up of No. 1 guiding roller bearing A 18 and No. 1 guiding roller bearing B 21; No. 1 guiding roller bearing A 18 and No. 1 guiding roller bearing B 21 is separately fixed at the both sides of No. 2 grooves 12, and is positioned at the lower surface of base plate 2;

Described No. 2 guiding roller bearings are made up of No. 2 guiding roller bearing A 22 and No. 2 guiding roller bearing B 24; No. 2 guiding roller bearing A 22 and No. 2 guiding roller bearing B 24 are separately fixed at the both sides of No. 1 groove 8, and are positioned at the lower surface of base plate 2;

Described axis of revolution support is made up of axis of revolution support A 6 and axis of revolution support B 9; Axis of revolution support A 6 and axis of revolution support B 9 is separately fixed at the both sides of No. 1 groove 8, and is positioned at the upper surface of base plate 2;

The height of height and No. 1 subplate bearer 16, No. 2 subplate bearers 17, No. 3 subplate bearers 20 of No. 2 guiding roller bearings is consistent, and No. 2 guiding roller bearings, No. 1 subplate bearer 16, No. 2 subplate bearers 17, No. 3 subplate bearers 20 are all fixed on the lower surface of base plate 2; The height of No. 1 guiding roller bearing is less than the height of subplate bearer.

Rushing board mechanism described in technical scheme is made up of U-type groove 43, push pedal 41, push pedal linear electric motors 40, U-type groove bearing 42 and linear electric motors bearing 15;

Described push pedal linear electric motors 40 are fixed on linear electric motors bearing 15; Described linear electric motors bearing 15 is fixing on a base plate 2;

Described push pedal linear electric motors 40 one end and push pedal 41 are fixed, and drive push pedal 41 to do straight reciprocating motion in U-type groove 43; Described U-type groove 43 is fixed on U-type groove bearing 42, aligns with the minimum place of rotating disk matrix 38 stepped shaft external diameter in described U-type groove 43 one end.

Rotating wheel mechanisms that described in technical scheme is made up of runner 44, runner bearing 53 and runner gear 52;

Described runner 44 is arranged on runner bearing 53; Described runner bearing 53 is fixing on a base plate 2; Described runner gear 52 is arranged on one end of runner 44.

The cabin of material loading described in technical scheme mechanism is made up of material loading cabin 45, material loading cabin backing plate 54, cam mechanism, gear drive and material loading cabin bearing 50;

Described material loading cabin 45 is made up of storage tank and chute, and the bottom of storage tank is hollow out;

Described material loading cabin backing plate 54 is arranged on the hollow part bottom storage tank by hinges;

Described cam mechanism is made up of cam 56, camshaft 55 and cam wheel 46;

Described camshaft 55 is arranged on material loading cabin bearing 50; Described cam 56 is arranged on the centre of camshaft 55, is positioned at the below of material loading cabin backing plate 54, realizes the discountinuity upward movement of material loading cabin backing plate 54; Described cam wheel 46 is arranged on the side of camshaft 55;

Described gear drive is made up of dual gear 51, transition gear 47, material loading cabin driven wheel 48 and material loading cabin drive motor 49; Described material loading cabin driven wheel 48 is arranged on the motor shaft of material loading cabin drive motor 49, and described material loading cabin driven wheel 48 engages with transition gear 47;

Described transition gear 47 is arranged on transition gear standard shaft 57, and described transition gear 47 engages with the miniature gears of cam wheel 46 and dual gear 51 respectively; Big gear wheel in described dual gear 51 engages with runner gear 52.

Described dual gear 51 is arranged on dual gear standard shaft 58;

Transition gear standard shaft 57 and dual gear standard shaft 58 are all fixed on material loading cabin bearing 50, and are positioned at the side of cam wheel 46 and runner gear 52.

Described material loading cabin drive motor 49 is fixed on material loading cabin drive motor bearing 14;

Described material loading cabin drive motor bearing 14 is fixing on a base plate 2.

Compared with prior art the beneficial effects of the utility model are:

1. automatic loading/unloading test tube labelling machine described in the utility model can realize automatic charging and the blanking of test tube, can improve labelled efficiency;

2. automatic loading/unloading test tube labelling machine described in the utility model adopts rotating disk mechanism, automatically to clamp and makes it rotate, enormously simplify the structure of device for labeling and can clamp the test tube of different-diameter with rotating disk to test tube;

3. automatic loading/unloading test tube labelling machine described in the utility model adopts the deflection roller of rear-mounted swing type mechanism and spring loaded.Rear-mounted swing type mechanism makes pivotal attaching paper conveniently unload and makes the structure of main body mechanism become simple; The deflection roller of spring loaded makes attaching paper can keep tensioning state always;

4. automatic loading/unloading test tube labelling machine described in the utility model adopts cam mechanism, and the test tube stored in material loading cabin can be made to enter rotating wheel mechanisms that smoothly and can not produce latch up phenomenon;

5. automatic loading/unloading test tube labelling machine described in the utility model adopts rotating wheel mechanisms that, makes the test tube in material loading cabin singlely can enter U-type groove in an orderly manner, for labeling is prepared;

6. automatic loading/unloading test tube labelling machine structure described in the utility model is simple, and debugging is convenient, and cost is low, convenient operation.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is further described:

Fig. 1 is the axonometric projection graph of automatic loading/unloading test tube labelling machine structure described in the utility model composition;

Fig. 2 is axonometric projection Fig. 1 of automatic loading/unloading test tube labelling machine base plate described in the utility model and part swing type mechanism;

Fig. 3 is axonometric projection Fig. 2 of automatic loading/unloading test tube labelling machine base plate described in the utility model and part swing type mechanism;

Fig. 4 is the axonometric projection graph of automatic loading/unloading test tube labelling machine label-sticking mechanism part-structure described in the utility model;

Fig. 5 is the axonometric projection graph of automatic loading/unloading test tube labelling machine described in the utility model pressure marking machine structure;

Fig. 6 is the axonometric projection graph of automatic loading/unloading test tube labelling machine turntable structure described in the utility model;

Fig. 7 is axonometric projection Fig. 1 of automatic loading/unloading test tube labelling machine rotating disk matrix described in the utility model;

Fig. 8 is axonometric projection Fig. 2 of automatic loading/unloading test tube labelling machine rotating disk matrix described in the utility model;

Fig. 9 is the axonometric projection graph of automatic loading/unloading test tube labelling machine described in the utility model pressure target structure;

Figure 10 is the front elevation of automatic loading/unloading test tube labelling machine turntable structure described in the utility model;

Figure 11 is the A-A cross sectional drawing of automatic loading/unloading test tube labelling machine turntable structure described in the utility model;

Figure 12 is the axonometric projection graph of automatic loading/unloading test tube labelling machine feed mechanism described in the utility model;

Figure 13 is the axonometric projection graph of automatic loading/unloading test tube labelling machine material loading cabin described in the utility model mechanism section structure;

Figure 14 is the axonometric projection graph of automatic loading/unloading test tube labelling machine gear drive described in the utility model;

Figure 15 is the axonometric projection graph of automatic loading/unloading test tube labelling machine rotaring wheel structure described in the utility model;

Figure 16 is the cross sectional drawing of automatic loading/unloading test tube labelling machine rotaring wheel structure described in the utility model;

Figure 17 is the motion schematic diagram of automatic loading/unloading test tube labelling machine attaching paper described in the utility model;

Figure 18 is the axonometric projection graph of automatic loading/unloading test tube labelling machine frame element parts structure described in the utility model.

In figure: 1. label-sticking mechanism, 2. base plate, 3. bar code printer, 4. feed mechanism, 5. blanking cabin, No. 6.1 axis of revolution supports, 7. axis of revolution, No. 8.1 grooves, No. 9.2 axis of revolution supports, 10. axis of revolution motor, 11. axis of revolution motor support bases, 12.2 number groove, 13. drive motor bearings, 14. material loading cabin drive motor bearings, 15. linear electric motors bearings, 16.1 number subplate bearer, 17.2 number subplate bearer, No. 18.1 guiding roller bearing A, 19.1 number guiding roller, 20.3 number subplate bearer, No. 21.1 guiding roller bearing B, No. 22.2 guiding roller bearing A, 23.2 number guiding roller, No. 24.2 guiding roller bearing B, 25.1 number chassis wall, 26. deflection roller springs, 27. deflection roller chutes, 28. separating plates, 29. pressure marking machine structure mounting holes, 30. gear rings, 31. rotating disk drive motor, 32. rotating disk driven wheels, 33.2 number chassis wall, 34. rotating disks, 35. deflection rollers, 36. pressure parameters, 37. pressure targets, 38. rotating disk matrixes, 39. rotating disk pressing plates, 40. push pedal linear electric motors, 41. push pedals, 42.U type groove bearing, 43.U type groove, 44. runners, 45. material loading cabins, 46. cam wheels, 47. transition gears, 48. material loading cabin driven wheels, 49. material loading cabin drive motor, 50. material loading cabin bearings, 51. dual gears, 52. runner gears, 53. runner bearings, 54. material loading cabin backing plates, 55. camshafts, 56. cams, 57. transition gear standard shafts, 58. dual gear standard shafts, 59. rotating disk matrix bearings, 60. rotating disk plate bearings, 61. attaching paper, 62. pressure target external parts, 63. pressure parameter boss, 64. pressure targets stick up platform, the angle that 65. angle values are minimum, 66. separating plate cross-sectional planes, 67. separating plate vertical guides, 68. chassis wall sides.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is explained in detail:

Consult Fig. 1, a kind of automatic loading/unloading test tube labelling machine, forms primarily of label-sticking mechanism 1, base plate 2, feed mechanism 4 and blanking cabin 5;

Described label-sticking mechanism 1 is made up of rotating disk mechanism, pressure marking machine structure, swing type mechanism and frame component.

Consult Fig. 4, described rotating disk mechanism is made up of rotating disk 34, intermeshing gear ring 30, rotating disk driven wheel 32, rotating disk drive motor 31 and drive motor bearing 13; Its turntable 34 is made up of the rotating disk pressing plate 39 that rotating disk matrix 38 is identical with three pieces.Coordinate Fig. 7, rotating disk matrix 38 is hollow, and rotating disk matrix outer is stepped shaft shape, has four kinds of external diameters, installs bearing, positioned, be arranged in No. 2 chassis wall 33 by bearing by rotating disk matrix 38 by the shaft shoulder in second largest outer radius; Gear ring 30 is arranged on the minimum outer diameter place of rotating disk matrix 38, is positioned by the shaft shoulder and flat key; Rotating disk driven wheel 32 is arranged on the motor shaft of rotating disk drive motor 31, is positioned at the below of gear ring 30 and is engaged with; Coordinate Fig. 2, rotating disk drive motor 31 is fixed on drive motor bearing 13; Coordinate Fig. 9, be provided with two identical hollow rotating disk plate bearings 60 below each block rotating disk pressing plate 39, the face of cylinder of described rotating disk plate bearing 60 be distributed with symmetrically two square openings; Coordinate Fig. 6, Fig. 8 and Figure 10, rotating disk matrix 38 is provided with the rotating disk matrix bearing 59 corresponding with rotating disk plate bearing 60, the face of cylinder of rotating disk matrix bearing 59 is provided with two boss symmetrically, and the external diameter of rotating disk matrix bearing 59 is less than the internal diameter of rotating disk plate bearing 60; The middle vacancy of described rotating disk matrix bearing 59 arranges a spring, and the boss on rotating disk matrix bearing 59 coordinates with the square opening on described rotating disk plate bearing 60; Coordinate Figure 11, under the action of the spring, rotating disk 34 just can realize clamping the test tube of different-diameter.

Consult Fig. 5, described pressure marking machine structure forms by pressing parameter 36 and pressure target 37.Pressure target 37 can rotate around pressure parameter 36; Described pressure target 37 is provided with pressure target external part 62, and described pressure parameter 36 is provided with pressure parameter boss 63, and pressure parameter boss 63 is by limiting pressure target external part 62 thus making pressure target 37 can only carry out the rotation of limited angle; Pressure target 37 is provided with pressure target and sticks up platform 64, is beneficial to the rectilinear movement of test tube when the enterprising luggage folder of rotating disk 34.Coordinate Fig. 4, one end of pressure parameter 36 is arranged in pressure marking machine structure mounting hole 29, and described pressure marking machine structure mounting hole 29 is positioned at the rearward position a little, top of rotating disk 34 installation site.Coordinating Fig. 1, when pressing target 37 to be in pressure mark state, namely touching the side of test tube, the pressure plane of target 37 and the angle by pressing the vertical guide of parameter 36 to become 15 ° ~ 30 °.

Consult Fig. 4 and Figure 18, described frame component is made up of No. 1 chassis wall 25, No. 2 chassis wall 33 and separating plate 28.The cross-sectional plane 66 of separating plate 28 is right-angled triangles, the close rotating disk mechanism side, angle 65 (10 ° ~ 20 °) that angle value is minimum; No. 1 chassis wall 25 and No. 2 chassis wall 33 have a chassis wall side 68, and the chassis wall side 68 of separating plate vertical guide 67 and both sides is in same plane.Coordinate Fig. 1, described No. 1 chassis wall 25, No. 2 chassis wall 33 are separately fixed on base plate 2, and the two ends of described separating plate 28 are fixed with No. 1 chassis wall 25, No. 2 chassis wall 33 respectively; Described No. 1 chassis wall 25, No. 2 chassis wall 33 are respectively equipped with deflection roller chute 27.

Consult Fig. 2 ~ Fig. 4, described swing type mechanism, by being partial to roller 35, No. 1 guiding roller 19, No. 2 guiding rollers 23, axis of revolution 7, axis of revolution motor 10 and axis of revolution motor support bases 11, also has No. 1 guiding roller bearing, No. 2 guiding roller bearings and axis of revolution support composition.Coordinate Figure 17, label paper through bar code printer 3 out after, under the effect of separating plate 28, label is separated with attaching paper 61, attaching paper 61 in succession contacts with No. 1 guiding roller 19, No. 2 guiding rollers 23 after being partial to the deflection of roller 35, finally reclaims under the turning effort of axis of revolution 7.

Consult Fig. 4, described deflection roller 35 two ends are rectangular structure, deflection roller 35 is arranged on by deflection roller spring 26 in deflection roller chute 27 that No. 1 chassis wall 25, No. 2 chassis wall 33 of frame component are respectively equipped with, and the end of deflection roller 35 can slip in deflection roller chute 27.Coordinate Fig. 2 and Fig. 3, No. 1 guiding roller bearing is made up of No. 1 guiding roller bearing A 18 and No. 1 guiding roller bearing B 21, No. 1 guiding roller bearing A 18 and No. 1 guiding roller bearing B 21 is separately fixed at the both sides of No. 2 grooves 12 on base plate 2, and is positioned at the lower surface of base plate 2; No. 1 described guiding roller 19 is arranged on No. 1 guiding roller bearing.No. 2 guiding roller bearings are made up of No. 2 guiding roller bearing A 22 and No. 2 guiding roller bearing B 24, and No. 2 guiding roller bearing A22 and No. 2 guiding roller bearing B 24 are separately fixed at both sides below No. 1 groove 8 on base plate 2 and near the lagging dege of base plate 2; No. 2 described guiding rollers 23 are arranged on No. 2 guiding roller bearings.Axis of revolution support is made up of axis of revolution support A 6 and axis of revolution support B 9, and axis of revolution support A 6 and axis of revolution support B 9 is separately fixed at the both sides of No. 1 groove 8 on base plate 2 and the lagging dege of close base plate 2, and axis of revolution 7 is arranged on axis of revolution support; Axis of revolution motor 10 is connected with axis of revolution 7 by coupler, and is fixed on axis of revolution motor support base 11.Right side above fixing No. 1 groove 8 on a base plate 2 of described axis of revolution motor support base 11.The height of height and No. 1 subplate bearer 16, No. 2 subplate bearers 17, No. 3 subplate bearers 20 of No. 2 guiding roller bearings is consistent, and No. 2 guiding roller bearings, No. 1 subplate bearer 16, No. 2 subplate bearers 17, No. 3 subplate bearers 20 are all fixed on the lower surface of base plate 2; The height of No. 1 guiding roller bearing is less than the height of subplate bearer, does not play a supportive role to base plate 2.

Consult Fig. 2 and Fig. 3, described base plate 2 is a L shape panel, has 5 subplate bearers, is No. 1 subplate bearer 16, No. 2 subplate bearers 17, No. 3 subplate bearers 20 respectively, also has No. 2 guiding roller bearing A 22 and No. 2 guiding roller bearing B 24.Described No. 1 subplate bearer 16 and No. 2 subplate bearers 17 are fixed on below base plate 2, and concordant with the front edge of base plate 2; The right flank of the right flank of No. 3 subplate bearers 20, the right flank of No. 1 subplate bearer 16 and base plate 2 is all positioned at a plane, and the trailing flank of No. 3 subplate bearers 20 is same with the middle vertical guide of L shape base plate 2 is positioned at a plane.

Consult Figure 12, described feed mechanism is made up of the rushing board mechanism fixed successively on a base plate 2, rotating wheel mechanisms that and material loading cabin mechanism.

Consult Fig. 1, Fig. 2 and Figure 12, described rushing board mechanism is made up of U-type groove 43, push pedal 41, push pedal linear electric motors 40, U-type groove bearing 42 and linear electric motors bearing 15.Linear electric motors 40 one end and push pedal 41 are fixed, and drive push pedal 41 to do straight reciprocating motion in U-type groove 43; Coordinate Fig. 2, linear electric motors 40 are fixed on linear electric motors bearing 15.U-type groove 43 is fixed on U-type groove bearing 42, and its one end realizes aliging with the minimum place of rotating disk matrix 38 stepped shaft external diameter.

Consult Figure 12, described rotating wheel mechanisms that is made up of runner 44, runner bearing 53 and runner gear 52.Coordinate Figure 15 and Figure 16, runner 44 is a stretchings gear being carried out appropriateness, and teeth groove is carried out the deformable body after half sphering post-processing.Runner 44 is arranged on runner bearing 53, and runner bearing 53 is fixing on a base plate 2, and runner gear 52 is arranged on one end of runner 44, and engages with the big gear wheel in dual gear 51.

Consult Figure 12 and Figure 13, described material loading cabin mechanism is made up of material loading cabin 45, material loading cabin backing plate 54, cam mechanism, gear drive and material loading cabin bearing 50.Material loading cabin 45 is made up of storage tank and chute, and the bottom of storage tank is hollow out, and material loading cabin backing plate 54 is arranged on the hollow part bottom storage tank by hinges.Coordinate Figure 14, cam mechanism is made up of cam 56, camshaft 55 and cam wheel 46.Camshaft 55 is arranged on material loading cabin bearing 50; Cam 56 is arranged on the centre of camshaft 55, is positioned at the below of material loading cabin backing plate 54, realizes the discountinuity upward movement of material loading cabin backing plate 54; Cam wheel 46 is arranged on the side of camshaft 55, and engages with transition gear 47.Consult Figure 14, gear drive is made up of dual gear 51, transition gear 47, material loading cabin driven wheel 48 and material loading cabin drive motor 49.Material loading cabin driven wheel 48 is arranged on the motor shaft of material loading cabin drive motor 49, and engages with transition gear 47; Transition gear 47 is arranged on transition gear standard shaft 57, and engages with the miniature gears of cam wheel 46 and dual gear 51 simultaneously; Big gear wheel in dual gear 51 engages with runner gear 52.Coordinate Figure 13, dual gear 51 is arranged on dual gear standard shaft 58; Transition gear standard shaft 57 and dual gear standard shaft 58 are all fixed on material loading cabin bearing 50, and are positioned at the side of cam wheel 46 and runner gear 52.Coordinate Fig. 2, material loading cabin drive motor 49 is fixed on material loading cabin drive motor bearing 14; Material loading cabin drive motor bearing is fixed on base plate.

Working process is specific as follows:

Consult Figure 12 ~ Figure 14, test tube is placed in material loading cabin 45, makes test tube fall into runner 44 along the chute in material loading cabin 45 under the effect of cam mechanism.Under the big gear wheel of dual gear 51 and the engagement of runner gear 52, runner 44 is rotated.The test tube motion that rotarily drives of runner 44 also successfully falls in U-type groove 43.Coordinate Fig. 4, test tube moving linearly under the effect of push pedal 41, and move to the position of rotating disk 34.

Consult Fig. 4 and Fig. 6, under the effect of three pieces of rotating disk pressing plates 39, the end of test tube is implemented clamping.Coordinate Fig. 1 and Figure 17, now bar code printer 3 prints bar code, and label realizes being separated with attaching paper 61 under the effect of separating plate 28.Coordinate Fig. 1 and Fig. 5, label is successfully attached to the surface of test tube under the effect of pressure target 37.Then, push pedal 41, under the effect of push pedal linear electric motors 40, continues to promote test tube moving linearly, until test tube successfully falls into blanking cabin 5.So just achieve an all processes test tube being carried out to labeling.

Consult Fig. 1 ~ 4 and Figure 17, in poster process, attaching paper 61 through bar code printer 3 out after, effect through separating plate 28 realizes being separated with label, the tensioning of attaching paper 61 is realized under the effect of deflection roller 35, then successively through No. 1 guiding roller 19, No. 2 guiding rollers 23 and axis of revolution 7, and under the effect of axis of revolution motor 10, drive axis of revolution 7 to rotate, realize the recovery of attaching paper 61.

Claims (10)

1. an automatic loading/unloading test tube labelling machine, primarily of label-sticking mechanism (1), base plate (2), feed mechanism (4) and blanking cabin (5) composition being positioned at label-sticking mechanism (1) front side; It is characterized in that:

Described label-sticking mechanism (1), feed mechanism (4) are separately fixed at the arranged on left and right sides of base plate;

Described label-sticking mechanism (1) is made up of rotating disk mechanism, pressure marking machine structure, swing type mechanism and frame component;

Described rotating disk mechanism, pressure marking machine structure are all fixed on frame component; Described frame component is fixed on the left side front edge of base plate (2); Described swing type mechanism is fixed on the left side of base plate (2);

Described feed mechanism (4) is made up of the rushing board mechanism be fixed on successively on base plate (2), rotating wheel mechanisms that and material loading cabin mechanism.

2. a kind of automatic loading/unloading test tube labelling machine according to claim 1, is characterized in that:

Described frame component is made up of No. 1 chassis wall (25), No. 2 chassis wall (33) and separating plate (28); Described No. 1 chassis wall (25), No. 2 chassis wall (33) are separately fixed on base plate (2), and the two ends of described separating plate (28) are fixedly connected with No. 1 chassis wall (25), No. 2 chassis wall (33) respectively; Described No. 1 chassis wall (25), No. 2 chassis wall (33) are respectively equipped with deflection roller chute (27);

The cross-sectional plane (66) of described separating plate (28) is a right-angled triangle, the close rotating disk mechanism side, angle (65) that angle value is minimum; No. 1 chassis wall (25) and No. 2 chassis wall (33) all have a chassis wall side (68), and the chassis wall side (68) of separating plate vertical guide (67) and both sides is in same plane.

3. a kind of automatic loading/unloading test tube labelling machine according to claim 1, is characterized in that:

Described rotating disk mechanism is made up of rotating disk (34), gear ring (30), rotating disk driven wheel (32), rotating disk drive motor (31) and drive motor bearing (13);

Described rotating disk (34) is arranged on No. 2 chassis wall (33) in frame component by bearing;

Described rotating disk driven wheel (32) is arranged on the motor shaft of rotating disk drive motor (31), and described rotating disk driven wheel (32) is engaged with described gear ring (30);

Described rotating disk drive motor (31) is fixed on drive motor bearing (13);

Described drive motor bearing (13) is fixed on base plate (2).

4. a kind of automatic loading/unloading test tube labelling machine according to claim 3, is characterized in that:

Described rotating disk (34) is made up of the rotating disk pressing plate (39) that rotating disk matrix (38) is identical with three pieces;

Each block rotating disk pressing plate (39) below is provided with two identical hollow rotating disk plate bearings (60), and the face of cylinder of described rotating disk plate bearing (60) is distributed with two square openings symmetrically;

Described rotating disk matrix (38) is provided with the rotating disk matrix bearing (59) corresponding with rotating disk plate bearing (60), the face of cylinder of described rotating disk matrix bearing (59) is provided with two boss symmetrically, and the external diameter of described rotating disk matrix bearing (59) is less than the internal diameter of rotating disk plate bearing (60); The middle vacancy of described rotating disk matrix bearing (59) arranges a spring, and the boss on described rotating disk matrix bearing (59) coordinates with the square opening on described rotating disk plate bearing (60);

Described rotating disk matrix (38), in stepped shaft shape, has four kinds of external diameters, installs bearing, positioned, be arranged on No. 2 chassis wall (33) by bearing by rotating disk matrix (38) by the shaft shoulder in second largest outer radius;

Described gear ring (30) is arranged on the minimum outer diameter place of rotating disk matrix (38), is positioned by the shaft shoulder and flat key.

5. a kind of automatic loading/unloading test tube labelling machine according to claim 1, is characterized in that:

Described pressure marking machine structure forms by pressing parameter (36) and pressure target (37);

Described pressure target (37) can rotate around pressure parameter (36); Described pressure target (37) is provided with pressure target external part (62), described pressure parameter (36) is provided with pressure parameter boss (63), and pressure parameter boss (63) is pressed target external part (62) by restriction thus made pressure target (37) can only carry out the rotation of limited angle; Described pressure target (37) is provided with pressure target and sticks up platform (64);

One end of described pressure parameter (36) is arranged in pressure marking machine structure mounting hole (29); Described pressure marking machine structure mounting hole (29) is positioned at the rearward position a little, top of rotating disk (34) installation site;

Described blanking cabin (5) is fixed on the base plate (2) immediately below pressure marking machine structure.

6. a kind of automatic loading/unloading test tube labelling machine according to claim 1, is characterized in that:

Described swing type mechanism is made up of No. 1 guiding roller (19), No. 2 guiding rollers (23), axis of revolution (7), axis of revolution motor (10), axis of revolution motor support base (11), No. 1 guiding roller bearing, No. 2 guiding roller bearings, axis of revolution supports and the deflection rollers (35) be arranged on frame component;

Described No. 1 guiding roller (19) is arranged on No. 1 guiding roller bearing;

Described No. 2 guiding rollers (23) are arranged on No. 2 guiding roller bearings;

Described axis of revolution (7) is arranged on axis of revolution support;

Described No. 1 guiding roller bearing is fixed on the below of No. 2 grooves (12) on base plate (2);

Described No. 2 guiding roller bearings are fixed on the both sides of No. 1 groove (8) below on base plate (2) and the lagging dege of close base plate (2);

Described axis of revolution support is fixed on the both sides of No. 1 groove (8) top on base plate (2) and the lagging dege of close base plate (2);

Described axis of revolution motor (10) is connected with axis of revolution (7) by coupler, and is fixed on axis of revolution motor support base (11);

Described axis of revolution motor support base (11) is fixed on the right side of upper No. 1 groove (8) top of base plate (2).

7. a kind of automatic loading/unloading test tube labelling machine according to claim 6, is characterized in that:

In the deflection roller chute (27) that described deflection roller (35) is arranged on No. 1 chassis wall (25) of frame component by deflection roller spring (26), No. 2 chassis wall (33) are respectively equipped with, the end of described deflection roller (35) can slip in deflection roller chute (27);

Described No. 1 guiding roller bearing is made up of No. 1 guiding roller bearing A (18) and No. 1 guiding roller bearing B (21); No. 1 guiding roller bearing A (18) and No. 1 guiding roller bearing B (21) are separately fixed at the both sides of No. 2 grooves (12), and are positioned at the lower surface of base plate (2);

Described No. 2 guiding roller bearings are made up of No. 2 guiding roller bearing A (22) and No. 2 guiding roller bearing B (24); No. 2 guiding roller bearing A (22) and No. 2 guiding roller bearing B (24) are separately fixed at the both sides of No. 1 groove (8), and are positioned at the lower surface of base plate (2);

Described axis of revolution support is made up of axis of revolution support A (6) and axis of revolution support B (9); Axis of revolution support A (6) and axis of revolution support B (9) is separately fixed at the both sides of No. 1 groove (8), and is positioned at the upper surface of base plate (2);

The height of No. 2 guiding roller bearings is consistent with the height of No. 1 subplate bearer (16), No. 2 subplate bearers (17), No. 3 subplate bearers (20), and No. 2 guiding roller bearings, No. 1 subplate bearer (16), No. 2 subplate bearers (17), No. 3 subplate bearers (20) are all fixed on the lower surface of base plate (2); The height of No. 1 guiding roller bearing is less than the height of subplate bearer.

8. a kind of automatic loading/unloading test tube labelling machine according to claim 1, is characterized in that:

Described rushing board mechanism is made up of U-type groove (43), push pedal (41), push pedal linear electric motors (40), U-type groove bearing (42) and linear electric motors bearing (15);

Described push pedal linear electric motors (40) are fixed on linear electric motors bearing (15); Described linear electric motors bearing (15) is fixed on base plate (2);

Described push pedal linear electric motors (40) one end and push pedal (41) are fixed, and drive push pedal (41) to do straight reciprocating motion in U-type groove (43); Described U-type groove (43) is fixed on U-type groove bearing (42), aligns with the minimum place of rotating disk matrix (38) stepped shaft external diameter in described U-type groove (43) one end.

9. a kind of automatic loading/unloading test tube labelling machine according to claim 1, is characterized in that:

Described rotating wheel mechanisms that is made up of runner (44), runner bearing (53) and runner gear (52);

Described runner (44) is arranged on runner bearing (53); Described runner bearing (53) is fixed on base plate (2); Described runner gear (52) is arranged on one end of runner (44).

10. a kind of automatic loading/unloading test tube labelling machine according to claim 1, is characterized in that:

Described material loading cabin mechanism is made up of material loading cabin (45), material loading cabin backing plate (54), cam mechanism, gear drive and material loading cabin bearing (50);

Described material loading cabin (45) is made up of storage tank and chute, and the bottom of storage tank is hollow out;

Described material loading cabin backing plate (54) is arranged on the hollow part bottom storage tank by hinges;

Described cam mechanism is made up of cam (56), camshaft (55) and cam wheel (46);

Described camshaft (55) is arranged on material loading cabin bearing (50); Described cam (56) is arranged on the centre of camshaft (55), is positioned at the below in material loading cabin backing plate (54), realizes the discountinuity upward movement in material loading cabin backing plate (54); Described cam wheel (46) is arranged on the side of camshaft (55);

Described gear drive is made up of dual gear (51), transition gear (47), material loading cabin driven wheel (48) and material loading cabin drive motor (49); Described material loading cabin driven wheel (48) is arranged on the motor shaft in material loading cabin drive motor (49), and described material loading cabin driven wheel (48) is engaged with transition gear (47);

Described transition gear (47) is arranged on transition gear standard shaft (57), and described transition gear (47) engages with the miniature gears of cam wheel (46) and dual gear (51) respectively; Big gear wheel in described dual gear (51) engages with runner gear (52);

Described dual gear (51) is arranged on dual gear standard shaft (58);

Transition gear standard shaft (57) and dual gear standard shaft (58) are all fixed on material loading cabin bearing (50), and are positioned at the side of cam wheel (46) and runner gear (52);

Described material loading cabin drive motor (49) is fixed on material loading cabin drive motor bearing (14);

Described material loading cabin drive motor bearing (14) is fixed on base plate (2).