CN105403719A

CN105403719A - Reaction cup automatic feed mechanism

Info

Publication number: CN105403719A
Application number: CN201510931633.9A
Authority: CN
Inventors: 沙利烽; 吴冬; 刘建
Original assignee: Suzhou Hybiome Biomedical Engineering Co Ltd
Current assignee: Suzhou Hybiome Biomedical Engineering Co Ltd
Priority date: 2015-12-15
Filing date: 2015-12-15
Publication date: 2016-03-16
Anticipated expiration: 2035-12-15
Also published as: CN105403719B

Abstract

The invention discloses a reaction cup automatic feed mechanism. The technical problem is solved that one or some reaction cups are tidied manually and placed in a reaction cup storage mechanism, the device automation degree is low aimed to reaction cups in a storage mechanism on a chemiluminiscence device in the prior art. The reaction cup automatic feed mechanism comprises a material output barrel, a support element, a driving element, a cup pushing element, a conveying element and a cup output element. The material output barrel is arranged on the support element. A cup outlet of the material output barrel corresponds to the cup pushing element. The cup pushing element is arranged on the support element and used for receiving reaction cups from the material output barrel and pushes the reaction cups onto the conveying element under action of the driving element. The conveying element is arranged on the support element and conveys the reaction cups pushed by the cup pushing element to the cup output position under action of the driving element. The cup output element is arranged on the support element. The mechanism can achieve automatic cup placing, and the device automation degree is raised.

Description

A kind of reaction cup auto feed mechanism

Technical field

The present invention relates to a kind of reaction cup auto feed mechanism, belong to medical instruments field, be applicable to chemiluminescence equipment.

Background technology

Reaction cup on current most of chemiluminescence equipment in storing mechanism, be put into reaction cup storing mechanism after manually one or several reaction cup being made in order, the automaticity of equipment is lower.

Summary of the invention

Technical matters to be solved by this invention is: for the reaction cup in storing mechanism on prior art chemiluminescence equipment, is to put into reaction cup storing mechanism after manually one or several reaction cup being made in order, the problem that the automaticity of equipment is lower.

Design philosophy of the present invention is, employs reaction cup auto feed mechanism, only needs a large amount of reaction cup to pour into (without the need to arranging) in discharging barrel, just can with automatic output-response cup in storing mechanism.

The object of the invention is, a kind of reaction cup auto feed mechanism is provided, meets the request for utilization of full-automatic illumination equipment; Greatly improve the automaticity of equipment, reduce client cost.

For solving the problems of the technologies described above, the technical solution used in the present invention is:

A kind of reaction cup auto feed mechanism, comprises discharging barrel, bracket component, driven unit, pushes away cup assembly, conveying assembly and go out cup assembly;

Discharging barrel is arranged on bracket component, and the cup mouth correspondence on discharging barrel pushes away cup assembly; Push away cup assembly to be arranged on bracket component for receiving from the reaction cup in discharging barrel and under effect at driven unit, reaction cup being pushed to conveying assembly; Conveying assembly to be arranged on bracket component and to push the reaction cup come be transported to out cup place by pushing away cup assembly under the effect of driven unit; Going out cup assembly is arranged on bracket component, goes out entering on cup assembly and the corresponding conveying assembly of rim of a cup goes out cup place;

Push away cup assembly to comprise and push away a glass block, guide rail, rotating disc, connecting rod, web joint and guide rail fixed plate; One end connection bracket assembly of web joint, other end connection guide rail fixed head; Guide rail is arranged in guide rail fixed plate, pushes away a glass block and is slidably arranged on guide rail, pushes away the upper outside projection of glass block and puts double-linked cam, and double-linked cam is contained in the first chute that connecting rod is arranged; Connecting rod also arranges the second chute; Rotating disc is rotated by the main drive shaft in driven unit and is arranged on bracket component, and actuating cam is put in the upper outside projection of rotating disc, and actuating cam is installed in the second chute on connecting rod.

Reaction cup auto feed mechanism in technical solution of the present invention, can realize automatically putting cup, improves the automaticity of equipment.

To the improvement of technical solution of the present invention, bracket component comprises left plate, right plate and base plate; Left plate and right plate are all arranged on base plate, are provided with space between left plate and right plate.Take the bracket component of left plate, right plate and base arrangement form to its objective is from the total of this reaction cup auto feed mechanism in the technical program to consider, in order to the reduction production cost of trying one's best, compression volume.

To the improvement of preceding solution, driven unit comprises motor, fixed support, shaft coupling and main drive shaft; Be connected by shaft coupling between motor with main drive shaft; Motor is arranged on the left plate in bracket component by fixed support, main drive shaft is fixed on left plate in bracket component and right plate by the bearing at two ends.What adopt in driven unit in the technical program is the motor of routine of the prior art, and the mounting means of its motor is also from whole upper matching design.

To the further improvement of preceding solution, conveying assembly is arranged in the space in bracket component between left plate and right plate; Conveying assembly comprises the fortune cup groove, Timing Belt, engaged wheel, driven shaft and the driving wheel that are no less than one; Fortune cup groove is disposed side by side on the transmission workplace of Timing Belt, and fortune cup groove is obliquely installed and its direction tilted is pointed to out and entered rim of a cup in cup assembly; Engaged wheel is rotated by driven shaft and is arranged on left plate and right plate, and driving wheel is rotated by main drive shaft and is arranged on left plate and right plate; Timing Belt is arranged on engaged wheel and driving wheel simultaneously.In the technical program the design of conveying assembly be Timing Belt conveying belt in routine techniques basis on set up the fortune cup groove matched with the physical dimension of reaction cup, the benefit of such design is, while effectively controlling production cost, also meet the demand of the technical program, also make that the technical program structure is simple, workable, maintenance cost is low simultaneously.

To the further improvement of preceding solution, go out on right plate that cup assembly is arranged on by support plate and pillar on bracket component; Go out cup assembly to comprise right baffle plate, lead glass block and right baffle-plate; Lead glass block to be arranged between right baffle plate and right baffle-plate and to lead a glass block, between right baffle plate and right baffle-plate, form the chute that reaction cup goes out cup.

Compared with prior art, its beneficial effect is in the present invention:

Reaction cup auto feed mechanism in technical solution of the present invention, only needs a large amount of reaction cup to pour into (without the need to arranging) in discharging barrel, just can with automatic output-response cup in storing mechanism; Meet the request for utilization of full-automatic illumination equipment; Greatly improve the automaticity of equipment, reduce client cost.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the present embodiment.

Fig. 2 is the decomposing schematic representation of Fig. 1.

Fig. 3 is the structural representation of bracket component.

Fig. 4 is the structural representation (note figure medium-height trestle assembly illustrate only part) that driven unit is arranged on bracket component.

Fig. 5 pushes away cup assembly to be arranged on structural representation (note figure medium-height trestle assembly illustrate only part) on bracket component.

Fig. 6 is the structural representation of conveying assembly.

Fig. 7 is the structural representation cup assembly.

In figure: 100: reaction cup discharging barrel, 200: bracket component, 300: driven unit, 400: push away cup assembly, 500: conveying assembly, 600: go out cup assembly, 700: reaction cup, 201: left plate, 202: right plate, 203: base plate, 301: motor, 302: anchor post, 303: shaft joint, 304: main drive shaft, 401: rotating disc, 402: connecting rod, 403: web joint, 404: guide rail fixed plate, 405: guide rail, 406: push away a glass block, 407: double-linked cam, 408: the first chutes, 409: the second chutes, 410: actuating cam, 501: fortune cup groove, 502: Timing Belt, 503: engaged wheel, 504: driven shaft, 505: driving wheel, 601: right baffle plate, 602: lead a glass block, 603: support plate, 604: pillar, 605: chute, 606: right baffle-plate.

Embodiment

Below technical solution of the present invention is described in detail, but protection scope of the present invention is not limited to described embodiment.

For making content of the present invention more become apparent, be further described below in conjunction with accompanying drawing 1-7 and embodiment.

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Embodiment:

As the structural upright schematic diagram that Fig. 1 is the present embodiment reaction cup auto feed mechanism; As shown in Figure 1, reaction cup auto feed mechanism comprises, and discharging barrel 100, bracket component 200, driven unit 300, pushes away cup assembly 400, conveying assembly 500 and goes out cup assembly 600.

Discharging barrel 100 is arranged on bracket component 200, and the cup mouth correspondence on discharging barrel 100 pushes away cup assembly 400; Push away cup assembly 400 to be arranged on bracket component 200 for receiving from the reaction cup 700 in discharging barrel 100 and under the effect of driven unit 300, reaction cup 700 being pushed to conveying assembly 500; Conveying assembly 500 to be arranged on bracket component 200 and to push the reaction cup 700 come be transported to out cup place by pushing away cup assembly 400 under the effect of driven unit 300; Go out cup assembly 600 to be arranged on bracket component 200, go out entering on cup assembly 600 and the corresponding conveying assembly 500 of rim of a cup goes out cup place.

As shown in Figure 5, push away cup assembly 400 to comprise and push away glass block 406, guide rail 405, rotating disc 401, connecting rod 402, web joint 403 and guide rail fixed plate 404.One end of web joint 403 is bolted to connection the right plate 202 in bracket component 200, and the other end is bolted guide rail fixed plate 404; Guide rail 405 is arranged in guide rail fixed plate 404, pushes away glass block 406 and is slidably arranged on guide rail 405, pushes away the upper outside projection of glass block 405 and puts double-linked cam 407, and double-linked cam 407 is contained in the first chute 408 of setting on connecting rod 402; Connecting rod 402 is also arranged the second chute 409; Rotating disc 401 is arranged on the right plate 202 in bracket component 200 by main drive shaft 304 rotation in driven unit 300, and actuating cam 410 is put in the upper outside projection of rotating disc 401, and actuating cam 410 is installed in the second chute 409 on connecting rod 402.The course of work pushing away cup assembly 400 is, motor 301 in driven unit 300 drives main drive shaft 304 to rotate, main drive shaft 304 driven rotary dish 401 rotates, actuating cam 410 on rotating disc 401 promotes connecting rod 402 by the second chute 409 on connecting rod 402 and moves, the first chute 408 simultaneously on connecting rod 402 promotes double-linked cam 407 and slides, thus drive pushes away glass block 406 along guide rail 405 to-and-fro movement, reaction cup is pushed in conveying assembly 500.

As shown in Figure 3, bracket component 200 comprises left plate 201, right plate 202 and base plate 203; Left plate 201 and right plate 202 are all arranged on base plate 203, are provided with space between left plate 201 and right plate 202.

As shown in Figure 4, driven unit 300 comprises motor 301, fixed support 302, shaft coupling 303 and main drive shaft 304; Be connected by shaft coupling 303 between motor 301 with main drive shaft 304; Motor 301 is arranged on the left plate 201 in bracket component 200 by fixed support 302, main drive shaft 304 is fixed on left plate 201 in bracket component 200 and right plate 202 by the bearing at two ends.What adopt in this driven unit is the motor of routine of the prior art, and the mounting means of its motor is also from whole upper matching design.Motor 301 in the present embodiment driven unit 300 drives main drive shaft 304 to rotate, and main drive shaft 304 drives the Timing Belt 502 in conveying assembly 500 to move on the one hand, thus drives fortune cup groove 501 to move; Main drive shaft 304 drives the rotating disc 401 pushed away in cup assembly 400 to rotate on the other hand, thus driving pushes away glass block 406 back and forth movement, reaction cup 700 is pushed in the fortune cup groove 501 on conveying assembly 500.

As shown in Figure 6, conveying assembly 500 is arranged in the space in bracket component 200 between left plate 201 and right plate 202.Conveying assembly 500 comprises the fortune cup groove 501, Timing Belt 502, engaged wheel 503, driven shaft 504 and the driving wheel 505 that are no less than one.Fortune cup groove 501 is disposed side by side on the transmission workplace of Timing Belt 502, and fortune cup groove 501 is obliquely installed and its direction tilted is pointed to out and entered rim of a cup in cup assembly 600; Engaged wheel 503 rotates on the left plate 201 and right plate 202 that are arranged in bracket component 200 by driven shaft 504, driving wheel 505 rotates on the left plate 201 and right plate 202 that are arranged in bracket component 200 by main drive shaft 304; Timing Belt 502 is arranged on engaged wheel 503 and driving wheel 505 simultaneously.Conveying assembly 500 in the present embodiment is under the effect of driven unit 300, and driving wheel 505 drives Timing Belt 502 to move, thus realizes that the transmission workplace by being disposed side by side on Timing Belt 502 transports cup groove 501 reaction cup 700 is transported to out cup place.

As shown in Figure 7, go out on right plate 202 that cup assembly 600 is arranged on by support plate 603 and pillar 604 on bracket component 200; Go out cup assembly 600 to comprise right baffle plate 601, lead glass block 602 and right baffle-plate 606; Lead glass block 602 to be arranged between right baffle plate 601 and right baffle-plate 606 and to lead glass block 602, between right baffle plate 601 and right baffle-plate 606, form the chute 605 that reaction cup goes out cup.The course of work going out cup assembly 600 in the present embodiment is, when reaction cup 700 runs in company with belt 502 in fortune cup groove 501 conveying assembly 500 goes out cup place, reaction cup 700 skids off, enters chute 605 along the inclined-plane of leading glass block 602 from the inclined-plane of fortune cup groove 501, realizes automatically putting cup.

The course of work of the present embodiment:

Motor 301 in driven unit 300 drives main drive shaft 304 to rotate, and main drive shaft 304 drives the Timing Belt 502 in conveying assembly 500 to move on the one hand, thus drives fortune cup groove 501 to move; Main drive shaft 304 drives the rotating disc 401 pushed away in cup assembly 400 to rotate on the other hand, thus driving pushes away glass block 406 back and forth movement, reaction cup 700 is pushed in the fortune cup groove 501 on conveying assembly 500.Reaction cup 700 follows Timing Belt 502 to move upward in fortune cup groove 501, and when running to out cup place, reaction cup 700 skids off in fortune cup groove 501, realizes automatically putting cup by going out cup assembly 600.

Reaction cup auto feed mechanism in the present embodiment, only needs a large amount of reaction cup to pour into (without the need to arranging) in discharging barrel, just can with automatic output-response cup in storing mechanism; Meet the request for utilization of full-automatic illumination equipment; Greatly improve the automaticity of equipment, reduce client cost; Efficiently solving the reaction cup in storing mechanism on prior art chemiluminescence equipment, is put into reaction cup storing mechanism after manually one or several reaction cup being made in order, the problem that the automaticity of equipment is lower.

As mentioned above, although represented with reference to specific preferred embodiment and described the present invention, it shall not be construed as the restriction to the present invention self.Under the spirit and scope of the present invention prerequisite not departing from claims definition, various change can be made in the form and details to it.

Claims

1. a reaction cup auto feed mechanism, is characterized in that, comprises discharging barrel, bracket component, driven unit, pushes away cup assembly, conveying assembly and go out cup assembly;

2. reaction cup auto feed mechanism as claimed in claim 1, it is characterized in that, bracket component comprises left plate, right plate and base plate; Left plate and right plate are all arranged on base plate, are provided with space between left plate and right plate.

3. reaction cup auto feed mechanism as claimed in claim 2, it is characterized in that, driven unit comprises motor, fixed support, shaft coupling and main drive shaft; Be connected by shaft coupling between motor with main drive shaft; Motor is arranged on the left plate in bracket component by fixed support, main drive shaft is fixed on left plate in bracket component and right plate by the bearing at two ends.

4. reaction cup auto feed mechanism as claimed in claim 2, it is characterized in that, conveying assembly is arranged in the space in bracket component between left plate and right plate; Conveying assembly comprises the fortune cup groove, Timing Belt, engaged wheel, driven shaft and the driving wheel that are no less than one; Fortune cup groove is disposed side by side on the transmission workplace of Timing Belt, and fortune cup groove is obliquely installed and its direction tilted is pointed to out and entered rim of a cup in cup assembly; Engaged wheel is rotated by driven shaft and is arranged on left plate and right plate, and driving wheel is rotated by main drive shaft and is arranged on left plate and right plate; Timing Belt is arranged on engaged wheel and driving wheel simultaneously.

5. reaction cup auto feed mechanism as claimed in claim 4, is characterized in that, goes out on right plate that cup assembly is arranged on by support plate and pillar on bracket component; Go out cup assembly to comprise right baffle plate, lead glass block and right baffle-plate; Lead glass block to be arranged between right baffle plate and right baffle-plate and to lead a glass block, between right baffle plate and right baffle-plate, form the chute that reaction cup goes out cup.