CN218578959U - Blood sampling tube cap is material loading subassembly in proper order - Google Patents

Abstract

The utility model discloses a blood sampling tube cap order material loading subassembly belongs to material loading technical field, including operation panel and support frame, operation panel and support frame are connected, and be equipped with material loading subassembly and feeding subassembly on operation panel and the support frame respectively, the material loading subassembly is equipped with the backup pad, and the backup pad is installed on the support frame, many logical grooves of putting the tube cap are seted up to the backup pad, all cut off with the space bar in the middle of every logical groove, the bottom of backup pad is equipped with removes propulsion member, it is equipped with a supporting bench to remove propulsion member, and a supporting bench connects on the support frame, be equipped with preceding push cylinder on the supporting bench, and the output of preceding push cylinder connects the propulsion board, connect on the propulsion board and raise the cylinder, and the output of raising the cylinder is connected on the board that rises, the board that rises sets up the logical groove with the same quantity of backup pad, and the interior setting of leading to be equipped with the lug that can carry out the material loading according to demand quantity, the quantity that different sampling tube supports can be placed is different, the utility model discloses can be according to the lug quantity on the board that rises in the adjustment, realize tube cap order material loading.

Description

Blood sampling tube cap is material loading subassembly in proper order

Technical Field

The utility model belongs to the technical field of the material loading, more particularly, relate to a blood sampling tube cap order material loading subassembly.

Background

The heparin tube is the device that medical field is commonly used, a blood sample for preserving the collection, the heparin tube distinguishes the detection kind of heparin tube through the difference of lid colour, the body is through pasting the label and confirming patient's information, the heparin tube generally adopts vacuum plastic pipe to take a blood sample and collects at present, when heparin tube production, need add the lid operation to the heparin tube, and current tube cap order material loading subassembly carries out the rotation correction with the tube cap and arranges the back, can't carry out the problem of arranging the material loading according to corresponding quantity of putting to the quantity that current sampling tube support can be put.

Through retrieval, the name of the Chinese utility model is: the test tube cover feeding device (with the application number of CN201521096037.5, 2015-12-25) comprises a hopper, wherein a spirally-rising feeding channel is arranged on the inner wall of the hopper, the feeding channel inclines towards the centrifugal direction of the hopper, and a plurality of concave parts are arranged at the tail end of the feeding channel; locate the vibrations generator of hopper below for the drive the hopper vibrations, this utility model realize the tube cap rotation correction arrange the back, can't arrange the material loading according to corresponding quantity of putting to the quantity that current sampling pipe support can be put.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

The utility model aims to solve current tube cap order material loading subassembly and carry out the rotation correction with the tube cap and arrange the back, can't carry out the problem of arranging the material loading according to corresponding quantity of putting to the quantity that current sampling pipe support can be put.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

the utility model discloses a blood sampling tube cap order material loading subassembly, including operation panel and support frame, operation panel and support frame are connected, and be equipped with material loading subassembly and feeding subassembly on operation panel and the support frame respectively, the material loading subassembly is equipped with the backup pad, and the backup pad is installed on the support frame, many logical grooves of putting the tube cap are seted up to the backup pad, all cut off with the space bar in the middle of every logical groove, the bottom of backup pad is equipped with removes propulsion member, it is equipped with a supporting bench to remove propulsion member, and a supporting bench connects on the support frame, it pushes away the cylinder before being equipped with on the supporting bench, and the propulsion plate is connected to the output of preceding cylinder of pushing away, it raises the cylinder to connect on the propulsion plate, and the output of raising the cylinder is connected on the riser, the riser is seted up the logical groove with the same quantity of backup pad, and lead to the inslot and set up the lug that can carry out the material loading according to demand quantity.

Preferably, the lug sets up in the logical inslot of backup pad, and the both ends symmetry of support frame is equipped with two lift cylinders, and the output of lift cylinder is connected on the lift barrier plate, is equipped with the recess on the lift barrier plate, and recess quantity is the same with the space bar, and when the lift barrier plate pushed down, the space bar can insert in the recess of lift barrier plate.

Preferably, the feeding assembly is provided with a feeding piece and a conveying piece, the feeding piece is arranged on the operating platform, the feeding piece is provided with a feeding channel, one end of the feeding channel is connected to the rotary charging bucket, the other end of the feeding channel is connected to the conveying channel of the conveying piece, a feeding groove is formed in the feeding channel, and a plurality of feeding plates different in length are arranged in the groove at intervals.

Preferably, carry a setting on the support frame, carry a setting to be equipped with transfer passage, and set up the logical groove with the same quantity of backup pad on the transfer passage, and all advance with the transport baffle in the middle of every logical groove and cut off, transfer passage's bottom bilateral symmetry is equipped with the fixed plate, and the both ends symmetry of fixed plate runs through and is equipped with two live-rollers, all be equipped with on two live-rollers and lead to the same rotation piece of groove quantity with transfer passage, and the rotation piece that sets up on two live-rollers all overlaps and establishes the conveyer belt, the lateral wall that rotates and the inside wall of conveyer belt all are equipped with the teeth of a cogwheel, and rotate the teeth of a cogwheel mesh on piece and the conveyer belt, the conveyer belt sets up in transfer passage's recess.

Preferably, carry a setting on the support frame, carry a setting to be equipped with transfer passage, and set up the logical groove with the same quantity of backup pad on the transfer passage, and all advance with the transport baffle in the middle of every logical groove and cut off, transfer passage's bottom bilateral symmetry is equipped with the fixed plate, and the both ends symmetry of fixed plate runs through and is equipped with two live-rollers, all be equipped with the rotation piece the same with transfer passage logical groove quantity on two live-rollers, and the conveyer belt is all established to the rotation piece that sets up on two live-rollers, the lateral wall that rotates and the inside wall of conveyer belt all are equipped with the teeth of a cogwheel, and rotate the teeth of a cogwheel mesh on piece and the conveyer belt, the conveyer belt sets up in transfer passage's recess, transfer passage is connected with the backup pad.

Preferably, a controller is arranged on the supporting frame, the controller can control the conveying motor, the forward pushing cylinder, the lifting cylinder and the output of the lifting cylinder, a cover plate is arranged above the conveying channel and the supporting plate, and the cover plate is installed on the supporting frame.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with prior art, have following beneficial effect:

(1) The utility model discloses a blood sampling tube cap order material loading subassembly, when going on down the upper cover to the heparin tube, the quantity that different sampling tube supports can be placed is different, can be according to the lug quantity on the different quantity adjustment riser, realizes tube cap order material loading.

Drawings

Fig. 1 is a structural diagram of the whole of the sequential feeding assembly of the blood sampling tube cap of the present invention.

Fig. 2 is a structural diagram of a feeding assembly of the blood sampling tube cap sequential feeding assembly of the present invention.

Fig. 3 is a structural diagram of a conveying member of the sequential feeding assembly for the blood sampling tube cover of the present invention.

Fig. 4 is a structural diagram of a feeding assembly of the blood sampling tube cap sequential feeding assembly of the present invention.

The reference numerals in the schematic drawings illustrate:

100. an operation table;

200. a support frame; 210. a controller; 220. a cover plate;

300. a feeding assembly; 310. a support plate; 320. a partition plate; 330. moving the pusher; 331. a support table; 332. a forward push cylinder; 333. a pusher plate; 334. lifting the cylinder; 335. a lifting plate; 336. a bump; 340. a lifting cylinder; 350. a lifting barrier plate;

400. a feed assembly; 410. a feeding member; 411. a feed channel; 412. rotating the feeding tank; 413. a feeding plate; 420. a conveying member; 421. a delivery channel; 422. a conveying baffle plate; 423. a fixing plate; 424. a rotating roller; 425. a rotating member; 426. a conveyor belt; 427. a driven rotating roller; 428. a conveying motor; 429. a driving rotation roller; 4210. and (4) a synchronous belt.

Detailed Description

In order to facilitate understanding of the invention, the invention will be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which can be embodied in many different forms and are not limited to the embodiments described herein, but which are provided so as to render the disclosure of the invention more thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present; when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present; the terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs; the terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention; as used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Example 1

Referring to fig. 1-4, in the present embodiment, the operation table 100 and the supporting frame 200 are connected, the operation table 100 and the supporting frame 200 are respectively provided with a feeding assembly 300 and a feeding assembly 400, the feeding assembly 300 is provided with a supporting plate 310, the supporting plate 310 is mounted on the supporting frame 200, the supporting plate 310 is provided with a plurality of through slots for placing tube caps, the middle of each through slot is partitioned by a partition plate 320, the bottom of the supporting plate 310 is provided with a movable pushing member 330, the movable pushing member 330 is provided with a supporting table 331, the supporting table 331 is connected to the supporting frame 200, the supporting table 331 is provided with a forward pushing cylinder 332, an output end of the forward pushing cylinder 332 is connected to a pushing plate 333, the pushing plate 333 is connected to a lifting cylinder 334, and an output end of the lifting cylinder 334 is connected to the lifting plate 335, rising board 335 sets up the logical groove with the same quantity of backup pad 310, and logical inslot sets up the lug 336 that can carry out the material loading according to demand quantity, this structural design, when going up the upper cover down to the heparin tube, the quantity that different sampling tube supports can be placed is different, can be according to the lug 336 quantity on the quantity adjustment rising board 335 of difference, after the heparin tube enters into the logical inslot of backup pad 310 through transfer passage 421, the output of preceding pushing cylinder 332 drives propulsion plate 333 and carries out the back-and-forth movement, make the rising board 335 of raising cylinder 334 connection adjust the relevant position, the output of raising cylinder 334 then drives the rising board 335 and rises, make lug 336 impel in the tube cap, then drive the tube cap and raise the relevant position, make things convenient for follow-up to carry out capping work for the heparin tube.

The protruding block 336 of the embodiment is arranged in the through groove of the supporting plate 310, two lifting cylinders 340 are symmetrically arranged at two ends of the supporting frame 200, the output ends of the lifting cylinders 340 are connected to the lifting blocking plate 350, grooves are formed in the lifting blocking plate 350, the number of the grooves is the same as that of the spacing plates 320, when the lifting blocking plate 350 is pressed down, the spacing plates 320 can be inserted into the grooves of the lifting blocking plate 350, according to the structural design, after a first batch of pipe caps are lifted by the protruding block 336, the lifting cylinders 340 drive the lifting blocking plate 350 to descend, so that the spacing plates 320 are inserted into the grooves formed in the lifting blocking plate 350, and therefore the feeding assembly 400 is blocked to continuously convey the pipe caps, when the first batch of pipe caps are clamped by the subsequent capping device, the lifting cylinders 340 drive the lifting blocking plate 350 to ascend, the protruding block 336 ascends to lift the pipe caps of a second batch.

The feeding assembly 400 of this embodiment is equipped with feeding member 410 and conveying member 420, feeding member 410 sets up on operation panel 100, and feeding member 410 is equipped with feedstock channel 411, feedstock channel 411 one end is connected on rotatory material loading bucket 412, the delivery channel 421 of conveying member 420 is connected to the other end, be equipped with the feeding recess on feedstock channel 411, and be the interval in the recess and set up a plurality of different feeding plates 413 of length, this structural design, the tube cover pours into rotatory material loading bucket 412 and carries out first step correction sequencing, then enter into feedstock channel 411, and feeding plate 413 is established to different lengths, the tube cover is circular when conflicting behind feeding plate 413, extrusion through the tube cover, can automatic sequencing in different feeding channel 411 recesses, then convey by conveying member 420.

The conveying member 420 of this embodiment is disposed on the supporting frame 200, the conveying member 420 is provided with a conveying channel 421, the conveying channel 421 is provided with through slots having the same number as that of the supporting plate 310, each through slot is partitioned by a conveying partition 422, two sides of the bottom of the conveying channel 421 are symmetrically provided with a fixing plate 423, two ends of the fixing plate 423 are symmetrically provided with two rotating rollers 424, the two rotating rollers 424 are provided with rotating members 425 having the same number as that of the through slots of the conveying channel 421, the rotating members 425 disposed on the two rotating rollers 424 are respectively sleeved with the conveying belt 426, outer side walls of the rotating members 425 and inner side walls of the conveying belt 426 are respectively provided with gear teeth, the rotating members 425 and the gear teeth on the conveying belt 426 are engaged, the conveying belt 426 is disposed in a groove of the conveying channel 421, the conveying motor 428 outputs the driving rotating rollers 429 to rotate, the driven rotating rollers 427 are driven by a synchronous belt 4210 to rotate, so that the rotating rollers 424 rotate, and the rotating members 425 disposed on the rotating rollers 424 are respectively sleeved with the conveying belt 426, thereby rotating belts 426 rotate in the groove of the conveying channel 421 in the groove, and automatically sorting the pipe caps entering the feeding channel 411 onto the supporting plate 310.

One end of a live-rollers 424 of this embodiment is equipped with driven rotatory roller 427, the bottom of fixed plate 423 is equipped with conveying motor 428, and conveying motor 428's output is equipped with and connects initiative rotatory roller 429, overlap on initiative rotatory roller 429 and the driven rotatory roller 427 and establish hold-in range 4210, transfer passage 421 is connected with backup pad 310, this structural design, conveying motor 428's output drives initiative rotatory roller 429 and rotates, the rethread hold-in range 4210 drives driven rotatory roller 427 and rotates, thereby make conveying motor 428's output drive live-rollers 424 rotate.

The controller 210 is arranged on the support frame 200 of the embodiment, the controller 210 can control the output of the conveying motor 428, the forward pushing cylinder 332, the lifting cylinder 334 and the lifting cylinder 340, the cover plate 220 is arranged above the conveying channel 421 and the support plate 310, and the cover plate 220 is arranged on the support frame 200, the structural design can control and adjust the output of the conveying motor 428, the forward pushing cylinder 332, the lifting cylinder 334 and the lifting cylinder 340 through the controller 210, so as to adjust the feeding speed, and the cover plate 220 arranged on the support frame 200 can prevent the pipe cover from falling out of the machine due to extrusion of the pipe cover when the feeding is conveyed.

The above-mentioned embodiments only express a certain implementation manner of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention; it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the protection scope of the present invention; therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (6)

1. The utility model provides a blood sampling tube cap is material loading subassembly in proper order which characterized in that: including operation panel (100) and support frame (200), operation panel (100) and support frame (200) are connected, and are equipped with material loading subassembly (300) and feeding component (400) on operation panel (100) and support frame (200) respectively, material loading subassembly (300) are equipped with backup pad (310), and backup pad (310) installs on support frame (200), many logical grooves of putting the tube cap are seted up to backup pad (310), all cut off with spacer plate (320) in the middle of every logical groove, the bottom of backup pad (310) is equipped with removes propulsion member (330), remove propulsion member (330) and be equipped with brace table (331), and brace table (331) are connected on support frame (200), be equipped with forward push cylinder (332) on brace table (331), and forward push cylinder (332)'s output connection propulsion plate (333), connect on propulsion plate (333) and raise cylinder (334) output and connect on lift plate (335), but lift plate (335) set up the logical groove that sets up the same quantity with backup pad (310), and go on the demand 336 that can carry out the lug according to the material loading.

2. The blood collection tube cap sequential loading assembly of claim 1, wherein: lug (336) set up the logical inslot in backup pad (310), the both ends symmetry of support frame (200) is equipped with two lift cylinders (340), and the output of lift cylinder (340) is connected on lift barrier plate (350), be equipped with the recess on lift barrier plate (350), and recess quantity is the same with space bar (320), when lift barrier plate (350) push down, space bar (320) can insert in the recess of lift barrier plate (350).

3. The lancet cap sequential loading assembly of claim 1, wherein: feeding subassembly (400) are equipped with feeding piece (410) and transport piece (420), feeding piece (410) set up on operation panel (100), and feeding piece (410) are equipped with feedstock channel (411), feedstock channel (411) one end is connected on rotatory material loading bucket (412), and delivery channel (421) at transport piece (420) are connected to the other end, be equipped with the feeding recess on feedstock channel (411), and be the interval in the recess and set up a plurality of different length's feeding plates (413).

4. A lancet cap sequential loading assembly according to claim 3, wherein: carry piece (420) to set up on support frame (200), carry piece (420) to be equipped with transfer passage (421), and set up logical groove with backup pad (310) the same quantity on transfer passage (421), and all advance with transport baffle (422) in the middle of every logical groove and cut off, the bottom bilateral symmetry of transfer passage (421) is equipped with fixed plate (423), and the both ends symmetry of fixed plate (423) run through and be equipped with two live-rollers (424), all be equipped with on two live-rollers (424) and lead to the same rotation piece (425) of groove quantity with transfer passage (421), and the rotation piece (425) that set up on two live-rollers (424) all overlap and establish conveyer belt (426), the lateral wall of rotating piece (425) and the teeth of a cogwheel of conveyer belt (426) all are equipped with the teeth of a cogwheel, and rotate the teeth of a wheel meshing on piece (425) and conveyer belt (426), conveyer belt (426) sets up in the recess of transfer passage (421).

5. The lancet cap sequential loading assembly of claim 4, wherein: one end of the rotating roller (424) is provided with a driven rotating roller (427), the bottom of the fixing plate (423) is provided with a conveying motor (428), the output end of the conveying motor (428) is provided with a connecting driving rotating roller (429), a synchronous belt (4210) is sleeved on the driving rotating roller (429) and the driven rotating roller (427), and the conveying channel (421) is connected with the supporting plate (310).

6. The lancet cap sequential loading assembly of claim 4, wherein: be equipped with controller (210) on support frame (200), and the output of steerable conveying motor (428), preceding push cylinder (332), lift cylinder (334) and lift cylinder (340) of controller (210), the top of transfer passage (421) and backup pad (310) is equipped with apron (220), and apron (220) are installed on support frame (200).

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