CN105081723A

CN105081723A - Flat tube discharging mechanism

Info

Publication number: CN105081723A
Application number: CN201510570847.8A
Authority: CN
Inventors: 邢加俊; 任志强
Original assignee: Shanghai And Device Fabrication Co Ltd Of Section
Current assignee: Eucar Shanghai Automation Equipment Co ltd
Priority date: 2015-09-09
Filing date: 2015-09-09
Publication date: 2015-11-25
Anticipated expiration: 2035-09-09
Also published as: CN105081723B

Abstract

The invention relates to a flat tube discharging mechanism which comprises a rotating device, a conveying device and a driving device, wherein the driving device comprises a transmission shaft, a synchronous wheel, a cam and a clamping block. The synchronous wheel is arranged on the transmission shaft in a sleeving mode and drives the transmission shaft to rotate, the cam is eccentrically arranged on the transmission shaft and drives the conveying device to move front and back, and the clamping block is arranged on the transmission shaft in a sleeving mode and drives the rotating device to rotate. When the cam drives the conveying device to move forwards, a flat tube located at a discharging opening of a storage portion is gradually sent onto the rotating device, and when the cam drives the conveying device to move backwards, the clamping block drives the rotating device to rotate so as to discharge the flat tube which is currently located on the rotating device. Compared with the prior art, due to the fact that the cam and the clamping block are both arranged on the transmission shaft, the conveying device and the rotating device can synchronously move, and while the whole discharging mechanism is simplified, synchronism of the conveying device and the rotating device in movement is achieved, and the work efficiency of the whole discharging mechanism is improved.

Description

Flat tube output mechanism

Technical field

The present invention relates to a kind of flat pipes of heat exchanger production equipment, particularly a kind of flat tube output mechanism.

Background technology

Flat pipe heat exchanger realizes as a kind of the energy-saving equipment that between material, heat transmits between two or more fluid of different temperatures, make heat pass to the lower fluid of temperature by higher fluid, fluid temperature (F.T.) is made to reach flow process set quota, to meet the needs of process condition, simultaneously also one of capital equipment improving energy utilization rate.Mainly can be applicable to the fields such as oil, chemical industry, metallurgy, electric power, boats and ships, central heating, refrigeration air-conditioner, machinery, food, pharmacy.

Flat tube, when assembling, generally all can be enumerated in storing portion, and be discharged one by one by discharger, and complete subsequent action by follow-up equipment by flat pipe heat exchanger.And the speed of flat tube arrangement and quality all have a great impact the efficiency of whole equipment, precision.Current settling mode is adopt the direct level of flat tube to release or by cylinder wheel, flat tube rolled out mostly, but along with lifting and the flat tube high standard of quality of flat tube conveyance speed, the problems of this kind of flat tube discharge mode display gradually, as having damage to flat tube, the flat tube velocity of discharge is excessively slow, inefficiency etc.

In order to solve the problem, with regard to needing, current flat tube discharger is improved.

Summary of the invention

The object of the present invention is to provide a kind of flat tube output mechanism, not only structure is simple, and can not cause damage to flat tube when discharging flat tube, and accelerates the speed of flat tube discharge, substantially increases operating efficiency.

For solving the problems of the technologies described above, the present invention devises a kind of flat tube output mechanism, comprises the whirligig of discharge flat tube, each flat tube being positioned at storing portion is sent into successively the conveying device of described whirligig, drives the drive unit of described whirligig and described conveying device;

Wherein, described drive unit comprises power transmission shaft, to be set on described power transmission shaft and to drive described power transmission shaft to carry out the synchronizing wheel rotated, to be eccentrically set on described power transmission shaft and to drive described conveying device to carry out the cam seesawed, to be set on described power transmission shaft and to drive described whirligig to carry out the fixture block rotated, and the flat tube being positioned at blanking port place of described storing portion is when described in described cam driven, conveying device travels forward, sent on described whirligig gradually, and described fixture block is when described in described cam driven, conveying device is moved backward, described whirligig is driven to carry out rotating the flat tube of discharging and being currently located on described whirligig.

Embodiments of the present invention in terms of existing technologies, because whole flat tube output mechanism is by whirligig, conveying device and drive unit composition, and drive unit is by power transmission shaft and the synchronizing wheel be set on power transmission shaft, cam and fixture block are formed, and synchronizing wheel rotates for driving power transmission shaft, and cam can drive conveying device to seesaw under the rotary motion of power transmission shaft, thus constantly the flat tube being in blanking port place of storing portion is delivered on whirligig, and fixture block can rotate by driven rotary device under the rotary motion of power transmission shaft, and then the flat tube be positioned on whirligig is constantly sent, the discharge of each flat tube is completed with this.Because cam and fixture block are all arranged on power transmission shaft, thus make conveying device and whirligig can realize being synchronized with the movement, while simplifying whole output mechanism, also achieving conveying device and the synchronism of whirligig when moving, improve the operating efficiency of whole output mechanism.

Further, described conveying device comprising the guide assembly hinged with described cam, being arranged on described guide assembly for the flat tube being in blanking port place of described storing portion being pushed out to the pushing block on described whirligig; Wherein, the blanking port in described storing portion is positioned on the motion path of described pushing block.Thus make cam when driving guide assembly to seesaw, the material being in storing portion blanking port can be pushed out on whirligig by pushing block, to ensure the normal conveying of each flat tube.

Further, described guide assembly comprises the vertical rail hinged with described cam, is slidably connected with described vertical rail and can carries out along described vertical rail the cross track that slides up and down; Wherein, described pushing block is arranged on described cross track.Be connected owing to adopting hinged mode between vertical rail with cam, thus make vertical rail follow while cam carries out circular motion, rotation can not be there is, and cross track can under the motion of vertical rail, axis direction along vertical rail slides up and down, and to ensure that cross track is when seesawing, there will not be the phenomenon of dipping and heaving, pushing block can be driven accurately to move to the blanking port place in storing portion, to ensure the smooth release of flat tube.

Further, each flat tube being positioned at described storing portion is enumerated in described storing portion from the blanking port in storing portion from the bottom to top successively; Wherein, described pushing block is after release is positioned at the flat tube at blanking port place of described storing portion, and the flat tube be positioned at above this flat tube falls to the blanking port place in described storing portion.Because each flat tube enumerates from bottom to up successively in storing portion, thus be delivered to after on whirligig after conveying device is by the flat tube being in storing portion blanking port, remaining flat tube can rely on the gravity of self to drop to the blanking port place in storing portion one by one, to realize the automatic blanking of each flat tube in storing portion.

Further, described pushing block has the engaging position for flat tube described in support, and described guide assembly is when driving described pushing block to travel forward, this flat tube is lived from the below support of the flat tube being in storing portion blanking port in the engaging position of described pushing block.By the engaging position on pushing block, can effectively position flat tube, to guarantee that flat tube can be delivered on whirligig accurately.

Further, described whirligig comprise rolling disk for discharging described flat tube, with the co-axially fixed sheave of described rolling disk; Wherein, described sheave comprises N number of wheel blade, described N be greater than 1 natural number, and the outside of each wheel blade is an inner concave that mutually can agree with described fixture block, and the outer fringe surface of described fixture block has part at least for indent, and the female parts of described fixture block when described fixture block rotates and the inner concave of each wheel blade of described sheave be separated from each other.Further, described wheel blade is provided with four and altogether along the center of described sheave equidistantly around setting, and the mutual vertical interlaced of line that the line that forms to the axle center of described power transmission shaft of the female parts of described fixture block and described cam are formed to the axle center of described power transmission shaft.Because rolling disk comprises multiple wheel blade, and each wheel blade has an inner concave mutually agreed with fixture block, and fixture block also has a female parts be separated from each other with the inner concave of each wheel blade, and the mutual vertical interlaced of line that the female parts of the line that forms to the axis of power transmission shaft of cam and fixture block is formed to the axle center of power transmission shaft, thus make not to be synchronization action between conveying device and whirligig, whirligig only just can start action after conveying device motion, to guarantee that flat tube is only delivered to after on rolling disk being transferred device, rolling disk just can rotate and then discharge flat tube, occur to ensure flat tube can not be pullled when being discharged damaging.

Further, described rolling disk is circular configuration.Thus make flat tube when discharging, can take advantage of a situation along the arc surface of rolling disk and roll out, thus further reduce the wearing and tearing that flat tube surface is caused.

Further, the inner concave of described wheel blade is the arc surface of an indent, and the part that the inner concave of described fixture block and described wheel blade agrees with mutually is the arc surface of an evagination.Thus make fixture block when driving wheel disc to rotate, the part of mutually agreeing with due to fixture block and wheel blade adopts the arc surface of evagination and indent to cooperatively interact transmission, thus fixture block and wheel disc can be reduced carrying out wearing and tearing when coordinating transmission, and both can be avoided to occur stuck phenomenon when transmission.

Further, described whirligig also comprises the switch block coaxially arranged with described rolling disk; Wherein, described switch block is arranged in described rolling disk, and described switch block has M corner, and each corner is all exposed to the outside of described rolling disk, and described M is natural number.Thus make flat tube when discharging, propping up flat tube by each corner on switch block, to avoid flat tube when discharging, skidding appearring in rolling disk, thus further avoid the flat tube wearing and tearing that rolling disk causes it when discharging.

Accompanying drawing explanation

Fig. 1 is the structural representation of the flat tube output mechanism of first embodiment of the invention;

Fig. 2 is the rearview of Fig. 1;

Fig. 3 and Fig. 5 is the motion state diagram of the sheave of first embodiment of the invention;

Fig. 4 and Fig. 6 is the motion state diagram of the guide assembly of first embodiment of the invention;

Fig. 7 is the structural representation of the flat tube output mechanism of second embodiment of the invention;

Fig. 8 is the rearview of Fig. 7.

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, the embodiments of the present invention are explained in detail.But, persons of ordinary skill in the art may appreciate that in each embodiment of the present invention, proposing many ins and outs to make reader understand the application better.But, even without these ins and outs with based on the many variations of following embodiment and amendment, each claim of the application technical scheme required for protection also can be realized.

First embodiment of the present invention relates to a kind of flat tube output mechanism, as depicted in figs. 1 and 2, the whirligig comprising discharge flat tube 1, each flat tube 1 that will be arranged in storing portion (figure does not indicate) are sent into the conveying device of whirligig successively, are driven the drive unit of whirligig and conveying device.

Wherein, drive unit comprises power transmission shaft 3-1, to be set on power transmission shaft 3-1 and to drive power transmission shaft 3-1 to carry out the synchronizing wheel 3-2 rotated, to be eccentrically set on power transmission shaft 3-1 and to drive conveying device to carry out the cam 3-3 seesawed, to be set on power transmission shaft 3-1 and driven rotary device carries out the fixture block 3-4 that rotates, and the flat tube 1 being positioned at blanking port place of storing portion is when cam 3-3 drives conveying device to travel forward, sent on whirligig gradually, and fixture block 3-4 is when cam 3-3 drives conveying device to move backward, whirligig is driven to carry out rotating the flat tube 1 of discharging and being currently located on whirligig.

Be not difficult to find by foregoing, because whole flat tube output mechanism is by whirligig, conveying device and drive unit composition, and drive unit is by power transmission shaft and the synchronizing wheel 3-2 be set on power transmission shaft 3-1, cam 3-3 and fixture block 3-4 is formed, and synchronizing wheel 3-2 rotates for driving power transmission shaft 3-1, and cam 3-3 can drive conveying device to seesaw under the rotary motion of power transmission shaft, thus constantly the flat tube 1 being in blanking port place of storing portion is expelled on whirligig, and fixture block 3-4 can rotate by driven rotary device under the rotation of power transmission shaft 3-1, and then the flat tube 1 be positioned on whirligig is constantly sent, the discharge of each flat tube 1 is completed with this.

In addition, because cam 3-3 and fixture block 3-4 is all arranged on power transmission shaft 3-1, thus make conveying device and whirligig can realize being synchronized with the movement, while simplifying whole output mechanism, also achieving conveying device and the synchronism of whirligig when moving, improve the operating efficiency of whole output mechanism.

Specifically, as shown in Figure 1, in the present embodiment, conveying device comprising the guide assembly 4-1 hinged with cam 3-3, being arranged on guide assembly 4-1 for the flat tube 1 being in blanking port place of storing portion being pushed out to the pushing block 4-2 on whirligig.Wherein, the blanking port in storing portion is positioned on the motion path of pushing block 4-2.Thus make cam when driving guide assembly to seesaw, the material being in storing portion blanking port can be pushed out on whirligig by pushing block 4-2, to ensure the normal conveying of each flat tube 1.

Further, in the present embodiment, as shown in Figure 1, guide assembly 4-1 comprises the vertical rail 4-1-1 hinged with cam, is slidably connected with vertical rail 4-1-1 and can carries out along vertical rail 4-1-1 the cross track 4-1-2 that slides up and down.Wherein, pushing block 4-2 is arranged on cross track 4-1-2.

When practical application, because cam 3-3 is eccentrically set on power transmission shaft 3-1, thus make power transmission shaft 3-1 when being with moving cam 3-3 to rotate, cam 3-3 carries out circular motion around the axle center of power transmission shaft 3-1, and be connected owing to adopting hinged mode between vertical rail 4-1-1 with cam 3-3, thus make vertical rail 4-1-1 follow while cam 3-3 carries out circular motion, vertical rail 4-1-1 can turn around the hinged end with cam 3-3 again freely, thus makes vertical rail 4-1-1 rotation phenomenon can not occur again.

And cross track 4-1-2 can under the motion of vertical rail 4-1-1, while carrying out circular motion along with vertical rail 4-1-1, also can slide up and down along the axis direction of vertical rail 4-1-1, to ensure that cross track 4-1-2 is when seesawing, there will not be dipping and heaving, pushing block 4-2 can be driven accurately to move to the blanking port place in storing portion, to ensure the smooth release of flat tube 1.

In addition, in the present embodiment, as shown in Figure 2, whirligig comprise rolling disk 5-1 for discharging flat tube 1, with the co-axially fixed sheave 5-2 of rolling disk 5-1.Wherein, sheave 5-2 comprises multiple wheel blade 5-3.

Wherein, in the present embodiment, as shown in Figure 2, the number of wheel blade 5-3 is four, and each wheel blade 5-3 around the center of sheave 5-2 equidistantly around setting, and the outside of each wheel blade 5-3 is an inner concave 5-4 that mutually can agree with fixture block 3-4, and the outer fringe surface of fixture block 3-4 has part at least for indent, and the female parts 3-5 of fixture block 3-4 when fixture block 3-4 rotates and the inner concave 5-4 of each wheel blade 5-3 of sheave 5-2 be separated from each other.Further, the mutual vertical interlaced of line that forms of the axle center of the line that forms of the axle center of the female parts 3-5 to power transmission shaft 3-1 of fixture block 3-4 and cam 3-3 to power transmission shaft 3-1.

Known by foregoing, because rolling disk 5-1 comprises four wheel blade 5-3, and each wheel blade 5-3 has an inner concave 5-4 mutually agreed with fixture block 3-4, and fixture block 3-4 also has a female parts 3-5 be separated from each other with the inner concave 5-4 of each wheel blade 5-3, and the mutual vertical interlaced of line that the female parts of the line that forms of the axis of cam 3-3 to power transmission shaft 3-1 and fixture block 3-4 is formed to the axle center of power transmission shaft 3-1, thus make not to be synchronization action between conveying device and whirligig, there is 90 ° delayed between the two, whirligig only just can start action after conveying device setting in motion, to guarantee that flat tube 1 is only delivered to after on rolling disk 5-1 being transferred device, rolling disk 5-1 just can start to rotate and then discharge flat tube 1, occur to ensure flat tube 1 can not be pullled when being discharged damaging.

Specifically, when each flat tube 1 is enumerated after in storing portion 2 in order, as shown in Figure 3 and Figure 4, now power transmission shaft 3-1 does not also start to rotate, thus causes cam 3-3 and fixture block 3-4 not start to rotate yet.And when power transmission shaft 3-1 is with moving cam 3-3 to turn clockwise after 180 °, as shown in Figure 6, the flat tube 1 being positioned at blanking port place of storing portion pushes on rolling disk 5-1 by pushing block 4-2 by guide assembly 4-1 now under the drive of cam 3-3, and now the female parts of fixture block 3-4 just in time through the inner concave 5-4 of wheel blade 5-3, fixture block 3-4 cannot be contacted with the wheel blade 5-3 of sheave 5-2, fixture block 3-4 is caused not snap in sheave 5-2, state as shown in Figure 5.Subsequently, continuing through power transmission shaft 3-1 is with the instantaneous pin of moving cam 3-3 to rotate 180 °, guide assembly 4-1 now retreats to initial position under the drive of cam 3-3, get back to again the state shown in Fig. 4, and each flat tube 1 being positioned at storing portion 2 under gravity, the flat tube 1 being positioned at the bottom is made automatically to fall to the blanking port place in storing portion 2, carry for next conveying device, and rolling disk 5-1 starts to rotate under the drive of fixture block 3-4, discharge the flat tube 1 be currently located on rolling disk 5-1, get back to again state as shown in Figure 3.

Further, in the present embodiment, the inner concave 5-4 of the wheel blade 5-3 of sheave 5-2 is the arc surface of an indent, and the part that the inner concave of fixture block 3-4 and wheel blade 5-3 agrees with mutually is the arc surface of an evagination.It can thus be appreciated that, after the inner concave 5-4 of the arc surface of fixture block 5-4 concave portion and one of them wheel blade 5-3 of sheave 5-2 agrees with mutually, and when driving sheave 5-2 to rotate, by the wearing and tearing that can reduce to cause because cooperatively interacting transmission between fixture block 3-4 and wheel disc 5-1 that cooperatively interact of both arc surfaces, and avoid the stuck phenomenon of fixture block 3-4 appearance when driving sheave 5-2 to carry out transmission simultaneously.

It should be noted that, the quantity of the wheel blade 5-3 on rolling disk 5-1, in the present embodiment, only be described for four, and in the application process of reality, the quantity of wheel blade 5-3 can according to the position of storing portion blanking port, and the length of the flat tube be transferred carries out suitable increase or minimizing, and in the present embodiment, concrete restriction is not done to the quantity of wheel blade 5-3.

In addition, it is worth mentioning that, in the present embodiment, rolling disk 5-1 is circular configuration, thus makes flat tube 1 when discharging, and can take advantage of a situation and roll out, compare the mode that employing level is released, can reduce the wearing and tearing to flat tube 1 surface further along the arc surface of rolling disk 5-1.

Second embodiment of the present invention relates to a kind of flat tube output mechanism, second embodiment is the further improvement done on the basis of the first embodiment, it mainly improves and is: in the present embodiment, pushing block 4-2 has the engaging position (not indicating in figure) for support flat tube 1, and guide assembly is when driving pushing block to travel forward, this flat tube 1 is lived from the below support of the flat tube 1 being in storing portion blanking port in the engaging position on pushing block 4-2.

Be not difficult to find by foregoing, by arranging engaging position on pushing block 4-2, make pushing block 4-2 in the process of motion, location when flat tube 1 is carried is completed by engaging position, thus can take advantage of a situation flat tube 1 level is pushed out to rolling disk 5-1, under guaranteeing can not to cause the prerequisite of wearing and tearing to flat tube 1, also assures that flat tube 1 can be delivered on whirligig accurately.

In addition, it is worth mentioning that, in the present embodiment, as shown in Figure 7 and Figure 8, whirligig also comprises the co-axially fixed switch block 5-5 with rolling disk 5-1.Wherein, switch block 5-5 is arranged in rolling disk 5-1, and switch block 5-5 has multiple corner 5-6, and each 5-6 corner is all exposed to the outside of rolling disk 5-1.

It should be noted that, in the present embodiment, the corner 5-6 on switch block 5-5 is provided with four and one_to_one corresponding identical with the wheel blade quantity on sheave 5-2 altogether.It can thus be appreciated that, the each flat tube 1 be transported on rolling disk 5-1 is propped up by each corner 5-6 on switch block 5-5, to avoid each flat tube 1 when discharging, there is skidding in rolling disk, thus further avoid flat tube 1 wearing and tearing that rolling disk 5-1 causes it when discharging.

Persons of ordinary skill in the art may appreciate that the respective embodiments described above realize specific embodiments of the invention, and in actual applications, various change can be done to it in the form and details, and without departing from the spirit and scope of the present invention.

Claims

1. a flat tube output mechanism, is characterized in that: comprise the whirligig of discharge flat tube, each flat tube being positioned at storing portion sent into successively the conveying device of described whirligig, drive the drive unit of described whirligig and described conveying device;

Wherein, described drive unit comprises power transmission shaft, to be set on described power transmission shaft and to drive described power transmission shaft to carry out the synchronizing wheel rotated, to be eccentrically set on described power transmission shaft and to drive described conveying device to carry out the cam seesawed, to be set on described power transmission shaft and to drive described whirligig to carry out the fixture block rotated, and the flat tube being positioned at blanking port place of described storing portion is when described in described cam driven, conveying device travels forward, be admitted on described whirligig gradually, and described fixture block is when described in described cam driven, conveying device is moved backward, described whirligig is driven to carry out rotating the flat tube of discharging and being currently located on described whirligig.

2. flat tube output mechanism according to claim 1, is characterized in that: described conveying device comprising the guide assembly hinged with described cam, being arranged on described guide assembly for the flat tube being in blanking port place of described storing portion being pushed out to the pushing block on described whirligig;

Wherein, the blanking port in described storing portion is positioned on the motion path of described pushing block.

3. flat tube output mechanism according to claim 2, is characterized in that: described guide assembly comprises the vertical rail hinged with described cam, is slidably connected with described vertical rail and can carries out along described vertical rail the cross track that slides up and down;

Wherein, described pushing block is arranged on described cross track.

4. flat tube output mechanism according to claim 2, is characterized in that: each flat tube being positioned at described storing portion is enumerated in described storing portion from the blanking port in storing portion from the bottom to top successively;

Wherein, described pushing block is after release is positioned at the flat tube of described storing portion blanking port, and the flat tube be positioned at above this flat tube falls to the blanking port place in described storing portion.

5. flat tube output mechanism according to claim 2, it is characterized in that: described pushing block has the engaging position for flat tube described in support, and described guide assembly is when driving described pushing block to travel forward, this flat tube is lived from the below support of the flat tube being in described storing portion blanking port in the engaging position of described pushing block.

6. flat tube output mechanism according to claim 1, is characterized in that: described whirligig comprise rolling disk for discharging described flat tube, with the co-axially fixed sheave of described rolling disk;

Wherein, described sheave comprises N number of wheel blade, described N be greater than 1 natural number, and the outside of each wheel blade is an inner concave that mutually can agree with described fixture block, and the outer fringe surface of described fixture block has part at least for indent, and the female parts of described fixture block when described fixture block rotates and the inner concave of each wheel blade of described sheave be separated from each other.

7. flat tube output mechanism according to claim 6, it is characterized in that: described wheel blade is provided with four and altogether along the center of described sheave equidistantly around setting, and the mutual vertical interlaced of line that the line that forms to the axle center of described power transmission shaft of the female parts of described fixture block and described cam are formed to the axle center of described power transmission shaft.

8. flat tube output mechanism according to claim 6, is characterized in that: the inner concave of described wheel blade is the arc surface of an indent, and the part that the inner concave of described fixture block and described wheel blade agrees with mutually is the arc surface of an evagination.

9. flat tube output mechanism according to claim 6, is characterized in that: described rolling disk is circular configuration.

10. flat tube output mechanism according to claim 7, is characterized in that: described whirligig also comprises the switch block coaxially arranged with described rolling disk;

Wherein, described switch block is arranged in described rolling disk, and described switch block has M corner, and each corner is all exposed to outside described rolling disk, and described M is natural number.