CN208744360U - Workpiece cooling device - Google Patents

Abstract

The utility model provides a kind of Workpiece cooling device, including chassis, circular orbit, charging plate and coolant nozzle；Circular orbit is arranged on chassis；Charging plate be it is multiple, multiple charging plates are movably disposed on circular orbit along the extending direction of circular orbit, and charging plate is for installing workpiece to be cooled；Coolant nozzle is arranged on chassis and is correspondingly arranged with charging plate；Wherein, coolant nozzle is used for when charging plate is moved to the position opposite with coolant nozzle, to the workpiece sprinkling coolant liquid being mounted on charging plate to cool down to workpiece.To carry out charging and discharging in the same end of circular orbit, improve workpiece cooling efficiency, solve the problems, such as that linear Workpiece cooling device in the prior art is unfavorable for feeding and blanking in charging plate moving process.

Description

Workpiece cooling device

Technical field

The utility model relates to air-conditioning equipment fields, in particular to a kind of Workpiece cooling device.

Background technique

In air-conditioning manufacturing process, refrigerant copper pipe needs to be cooled down by way of water cooling after welding.It is existing Workpiece cooling device is linear assembly line, cold to carry out to copper pipe by spraying cooling water to the copper pipe moved on assembly line But.

However, existing linear Workpiece cooling device occupies biggish working space, and feeding and blanking are filled cooling The both ends set, are unfavorable for feeding and blanking, cause working efficiency lower.

Utility model content

The main purpose of the utility model is to provide a kind of Workpiece cooling devices, in the prior art straight at least to solve Wire type Workpiece cooling device is unfavorable for the problem of feeding and blanking.

To achieve the goals above, the utility model provides a kind of Workpiece cooling device, comprising: chassis；Circular orbit, It is arranged on chassis；Charging plate, charging plate be it is multiple, multiple charging plates are movably disposed at along the extending direction of circular orbit On circular orbit, charging plate is for installing workpiece to be cooled；Coolant nozzle is arranged on chassis and corresponding with charging plate sets It sets；Wherein, coolant nozzle is used for when charging plate is moved to the position opposite with coolant nozzle, to being mounted on charging plate Workpiece sprinkling coolant liquid to be cooled down to workpiece.

Further, coolant nozzle is multiple groups, and multiple groups coolant nozzle is arranged along the extending direction interval of circular orbit And it is corresponding at least part of charging plate in multiple charging plates；Wherein, at least part of charging plate in multiple charging plates When turning to the position opposite with multiple groups coolant nozzle, each group coolant nozzle is to the workpiece being mounted on corresponding charging plate Spray coolant liquid.

Further, there is multiple workpiece installation positions, extending direction of multiple workpiece installation positions along charging plate on charging plate Interval setting, each workpiece installation position is for installing a workpiece；Wherein, every group of coolant nozzle includes multiple coolant liquid sprays Pipe, when charging plate turns to opposite with one group of coolant nozzle, multiple coolant nozzles of this group of coolant nozzle and opposite Multiple workpiece installation positions on charging plate are corresponded to spray coolant liquid to the workpiece being mounted on each workpiece installation position.

Further, Workpiece cooling device further include: the lower section of circular orbit is arranged in annular recycling sink, and annular is returned Water receiving tank is for recycling to workpiece coolant liquid after cooling.

Further, circular orbit includes: straight rail section, and straight rail section is two sections, and two sections of straight rail sections are mutually juxtaposed setting.

Further, circular orbit further include: arc meander sections, arc meander sections are two sections；Wherein, one section of arc revolution First end of the both ends respectively with two sections of straight rail sections of section is correspondingly connected with, the both ends of another section of arc meander sections respectively with two sections of straight rails The second end of section is correspondingly connected with.

Further, arc meander sections include: ball bearing mechanism, ball bearing mechanism be it is multiple, multiple ball bearing mechanisms arcuately return Turn the extending direction interval setting of section；Wherein, when charging plate is moved to arc meander sections, the lower end surface of charging plate and each rolling Pearl mechanism contacts are so that the charging plate in one section of straight rail section is slided into another section of straight rail section by arc meander sections.

Further, straight rail section includes: the first guide rail beam, and the first guide rail beam is extended along the inside of circular orbit；The Two guide rail beams, the second guide rail beam are extended and opposite with the first guide rail beam along the outside of circular orbit；Wherein, charging plate is interior Side is slidably disposed on the first guide rail beam, and the outboard end of charging plate is slidably disposed on the second guide rail beam.

Further, be provided with the first idler wheel on the first guide rail beam, the first idler wheel be it is multiple, multiple first idler wheels are along first The extending direction interval of guide rail beam is arranged；Wherein, the inner end of charging plate is slidably disposed on by each first idler wheel On one guide rail beam.

Further, be provided with the second idler wheel on the second guide rail beam, the second idler wheel be it is multiple, multiple second idler wheels are along second The extending direction interval of guide rail beam is arranged；Wherein, the outboard end of charging plate is slidably disposed on by each second idler wheel On two guide rail beams.

Further, circular orbit further include: separate beam, be arranged between two sections of straight rail sections, be provided on separation beam more A platen roller, multiple platen rollers are divided into two groups, and two groups of platen rollers, which are separately positioned on, to be separated in the opposite two side walls of beam； Wherein, two groups of platen rollers are located at the top of first guide rail beam of two sections of straight rail sections, and the inner end of charging plate is compressed On corresponding first guide rail beam.

Further, limit plate is provided on the lower end surface of charging plate, limit plate is L shape；Wherein, limit plate and second Guide rail beam matches, by charging plate limit on the second guide rail beam.

Further, Workpiece cooling device further include: gas blow pipe, gas blow pipe are multiple groups, and every group of gas blow pipe includes multiple blow Tracheae, when charging plate turns to opposite with one group of gas blow pipe, on multiple gas blow pipes of this group of gas blow pipe and opposite charging plate Multiple workpiece installation positions are corresponded with the coolant liquid drying on the workpiece that will be mounted on each workpiece installation position.

Further, Workpiece cooling device further include: driving chain, driving chain are ring structure, and driving chain is along ring The circumferential setting of shape track；Driving motor is arranged on chassis, and driving motor is connect with driving chain by chain-wheel mechanism to drive Dynamic driving chain circumferentially rotating along circular orbit；Wherein, driving chain and each charging plate are hinged to drive each dress Flitch is along circular orbit loopy moving.

Using the Workpiece cooling device of technical solutions of the utility model, including chassis, circular orbit, charging plate and coolant liquid Jet pipe；Circular orbit is arranged on chassis；Charging plate be it is multiple, multiple charging plates along circular orbit extending direction movably It is arranged on circular orbit, charging plate is for installing workpiece to be cooled；Coolant nozzle is arranged on chassis and and charging plate It is correspondingly arranged；Wherein, coolant nozzle is used for when charging plate is moved to the position opposite with coolant nozzle, is filled to being mounted on Workpiece sprinkling coolant liquid on flitch is to cool down workpiece.Thus in charging plate moving process, it can be in circular orbit The same end carry out charging and discharging, improve workpiece cooling efficiency, solve linear Workpiece cooling device in the prior art not The problem of conducive to feeding and blanking.

Other than objects, features and advantages described above, there are also other purposes, feature and excellent for the utility model Point.Below with reference to figure, the utility model is described in further detail.

Detailed description of the invention

The Figure of description for constituting a part of the utility model is used to provide a further understanding of the present invention, this The illustrative embodiments and their description of utility model do not constitute the improper limit to the utility model for explaining the utility model It is fixed.In the accompanying drawings:

Fig. 1 is the structural schematic diagram according to the optional Workpiece cooling device of the utility model embodiment；

Fig. 2 is the schematic diagram according to the drive mechanism of the optional Workpiece cooling device of the utility model embodiment；

Fig. 3 is the enlarged structure schematic diagram in Fig. 2 at A；

Fig. 4 is the bottom substance schematic diagram according to the optional Workpiece cooling device of the utility model embodiment；And

Fig. 5 is the enlarged structure schematic diagram in Fig. 3 at B.

Wherein, the above drawings include the following reference numerals:

10, chassis；20, circular orbit；21, straight rail section；211, the first guide rail beam；212, the second guide rail beam；213, first Idler wheel；214, the second idler wheel；22, arc meander sections；221, ball bearing mechanism；23, separate beam；231, platen roller；30, it charges Plate；31, limit plate；40, coolant nozzle；50, annular recycling sink；60, driving chain；70, driving motor；80, gas blow pipe.

Specific embodiment

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention and embodiment can To be combined with each other.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

In order to make those skilled in the art better understand the scheme of the utility model, below in conjunction with the utility model reality The attached drawing in example is applied, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that described Embodiment is only the embodiment of the utility model a part, instead of all the embodiments.Based on the reality in the utility model Example is applied, every other embodiment obtained by those of ordinary skill in the art without making creative efforts is all answered When the range for belonging to the utility model protection.

According to the Workpiece cooling device of the utility model embodiment, as shown in Figure 1, including chassis 10, circular orbit 20, dress Flitch 30 and coolant nozzle 40；Circular orbit 20 is arranged on chassis 10；Charging plate 30 be it is multiple, multiple charging plates 30 are along ring The extending direction of shape track 20 is movably disposed on circular orbit 20, and charging plate 30 is for installing workpiece to be cooled；It is cold But liquid jet pipe 40 is arranged on chassis 10 and is correspondingly arranged with charging plate 30；Wherein, coolant nozzle 40 is used in charging plate 30 When being moved to the position opposite with coolant nozzle 40, to be mounted on charging plate 30 workpiece sprinkling coolant liquid with to workpiece into Row cooling.

Using the Workpiece cooling device of technical solutions of the utility model, including chassis 10, circular orbit 20,30 and of charging plate Coolant nozzle 40；Circular orbit 20 is arranged on chassis 10；Charging plate 30 be it is multiple, multiple charging plates 30 are along circular orbit 20 Extending direction be movably disposed on circular orbit 20, charging plate 30 is for installing workpiece to be cooled；Coolant nozzle 40 are arranged on chassis 10 and are correspondingly arranged with charging plate 30；Wherein, coolant nozzle 40 be used for charging plate 30 be moved to When the opposite position of coolant nozzle 40, to the workpiece sprinkling coolant liquid being mounted on charging plate 30 to be cooled down to workpiece. To carry out charging and discharging in the same end of circular orbit 20, it is cooling to improve workpiece in 30 moving process of charging plate Efficiency solves the problems, such as that linear Workpiece cooling device in the prior art is unfavorable for feeding and blanking.

When it is implemented, the Workpiece cooling device of the present embodiment is for cooling down to the refrigerant copper pipe after welding The refrigerant copper pipe on multiple charging plates 30 can be cooled down simultaneously, further, coolant nozzle 40 is multiple groups, more Group coolant nozzle 40 along circular orbit 20 extending direction interval setting and at least part of dress in multiple charging plates 30 Flitch 30 is corresponding；Wherein, at least part of charging plate 30 in multiple charging plates 30 turns to and multiple groups coolant nozzle 40 When opposite position, each group coolant nozzle 40 sprays coolant liquid to the workpiece being mounted on corresponding charging plate 30.Optionally, Eight charging plates 30, the chassis in 20 side of circular orbit are provided on the circular orbit 20 of the Workpiece cooling device of the present embodiment Three groups of coolant nozzles 40 are provided on 10, as each charging plate 30 is rotated along circular orbit 20, three groups of coolant nozzles 40 Always opposite with three charging plates 30 therein, coolant liquid is sprayed with the copper pipe on this three opposite charging plates 30.

Further, there are multiple workpiece installation positions, multiple workpiece installation positions are along charging plate 30 on each charging plate 30 The setting of extending direction interval, each workpiece installation position is for installing a refrigerant copper pipe；Wherein, every group of coolant nozzle 40 wraps Multiple coolant nozzles 40 are included, when charging plate 30 turns to opposite with one group of coolant nozzle 40, this group of coolant nozzle 40 Multiple coolant nozzles 40 and multiple workpiece installation positions on opposite charging plate 30 are corresponded with to being mounted on each workpiece Workpiece on installation position sprays coolant liquid.Optionally, there are four workpiece installation position, every group of coolant liquid sprays for tool on each charging plate 30 Pipe 40 includes four coolant nozzles 40.

It recycles in order to which coolant liquid after cooling will be passed through to recycle, further, Workpiece cooling device It further include annular recycling sink 50, the extension track of annular recycling sink 50 is identical as the extension track of circular orbit 20.Annular The lower section of circular orbit 20 is arranged in recycling sink 50, and the coolant liquid being sprayed on each charging plate 30 automatically flows into the ring of lower section It is collected in shape recycling sink 50, the lower end of each coolant nozzle 40 is connected to annular recycling sink 50, annular recycle-water The coolant liquid recycled in slot 50 is sprayed on each charging plate 30 by the recycling of coolant nozzle 40.

It is moved to guarantee each charging plate 30 along circular orbit 20 is smooth, further, circular orbit 20 includes straight rail Section 21 and arc meander sections 22, straight rail section 21 and arc meander sections 22 are two sections, and two sections of straight rail sections 21 are mutually juxtaposed setting, and two Section arc meander sections 22 are separately positioned on the both ends of two sections of straight rail sections 21, and the both ends of one section of arc meander sections 22 are straight with two sections respectively The first end of rail section 21 is correspondingly connected with, and the both ends of another section of arc meander sections 22 are corresponding with the second end of two sections of straight rail sections 21 respectively Connection is to constitute complete circular orbit 20.

Further, as shown in Figures 2 and 3, every section of straight rail section 21 includes the first guide rail beam 211 and the second guide rail beam 212, First guide rail beam 211 is extended along the inside of circular orbit 20；Second guide rail beam 212 extends along the outside of circular orbit 20 to be set It sets and opposite with the first guide rail beam 211；Be provided with the first idler wheel 213 on first guide rail beam 211, the first idler wheel 213 be it is multiple, it is more A first idler wheel 213 is arranged along the extending direction interval of the first guide rail beam 211；Wherein, the inner end of charging plate 30 passes through each First idler wheel 213 is slidably disposed on the first guide rail beam 211；The second idler wheel 214 is provided on second guide rail beam 212, the Second wheel 214 be it is multiple, multiple second idler wheels 214 along the second guide rail beam 212 extending direction interval be arranged；Wherein, charging plate 30 outboard end is slidably disposed on the second guide rail beam 212 by each second idler wheel 214.

In order to avoid influencing each other between the charging plate 30 that is moved in two sections of straight rail sections 21, further, circular orbit 20 Further include separating beam 23, separate beam 23 and be arranged between two sections of straight rail sections 21, separates and be provided with multiple platen rollers on beam 23 231, it is two groups that multiple platen rollers 231, which are divided to, and two groups of platen rollers 231, which are separately positioned on, separates the opposite two side walls of beam 23 On；Wherein, two groups of platen rollers 231 are located at the top of first guide rail beam 211 of two sections of straight rail sections 21, by charging plate 30 Inner end be pressed on corresponding first guide rail beam 211, prevent charging plate 30 in the process of moving its inner end tilt.

In order to limit lateral position of the charging plate 30 in straight rail section 21, i.e., charging is limited in 30 moving process of charging plate Plate 30 moves left and right, and further, as shown in figure 3, being provided with limit plate 31 on the lower end surface of charging plate 30, limit plate 31 is L shape；Wherein, limit plate 31 is matched with the second guide rail beam 212, by the limit of charging plate 30 on the second guide rail beam 212, from And charging plate 30 is avoided to move left and right along 21 moving process of straight rail section.

It is another to be transformed by one section of straight rail section 21 in order to enable charging plate 30 to move smoothly through arc meander sections 22 In section straight rail section 21, arc meander sections 22 include ball bearing mechanism 221, and ball bearing mechanism 221 is multiple, multiple 221 edges of ball bearing mechanism The extending direction interval of arc meander sections 22 is arranged；The ball that can be rotated to all directions is provided on each ball bearing mechanism 221, When charging plate 30 is moved to arc meander sections 22, the lower end surface of charging plate 30 is contacted with the ball on each ball bearing mechanism 221 It is mobile to be transformed into another section of straight rail section 21 by arc meander sections 22 by one section of straight rail section 21 so as to arcuately track.

In order to drive each charging plate 30 to move in circular orbit 20, further, as shown in Figures 2 to 5, workpiece is cold But device further includes driving chain 60 and driving motor 70, and driving chain 60 is ring structure, and driving chain 60 is along circular orbit 20 circumferential setting；Specifically, sliding slot is opened up on the first guide rail beam 211 of two sections of 21 insides of straight rail section, driving chain 60 can It is slidably arranged in sliding slot；The lower section on chassis 10 is arranged in driving motor 70, and driving motor 70 is by chain-wheel mechanism and passes The dynamic connection of chain 60 is to drive the circumferentially rotating along circular orbit 20 of driving chain 60；Wherein, each charging plate 30 passes through pin It is hinged with driving chain 60, to drive each charging plate 30 along 20 loopy moving of circular orbit by driving chain 60.

Need quickly drying with into next process, further, workpiece is cooling by refrigerant copper pipe after cooling Device further includes gas blow pipe 80, and gas blow pipe 80 is multiple groups, and multiple groups gas blow pipe 80 is arranged along the extending direction interval of circular orbit 20 And it is corresponding at least part of charging plate 30 in multiple charging plates 30, every group of gas blow pipe 80 includes multiple gas blow pipes 80, dress When flitch 30 turns to opposite with one group of gas blow pipe 80, on multiple gas blow pipes 80 of this group of gas blow pipe 80 and opposite charging plate 30 Multiple workpiece installation positions correspond with the coolant liquid drying on the workpiece that will be mounted on each workpiece installation position.It is optional Ground, every group of gas blow pipe 80 also correspond for four workpiece installation positions on four, with charging plate 30.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (14)

1. a kind of Workpiece cooling device characterized by comprising

Chassis (10)；

Circular orbit (20) is arranged on the chassis (10)；

Charging plate (30), the charging plate (30) are multiple, multiple charging plate (30) prolonging along the circular orbit (20) It stretches direction to be movably disposed on the circular orbit (20), the charging plate (30) is for installing workpiece to be cooled；

Coolant nozzle (40) is arranged on the chassis (10) and is correspondingly arranged with the charging plate (30)；

Wherein, the coolant nozzle (40) is used to be moved in the charging plate (30) opposite with the coolant nozzle (40) Position when, to be mounted on the charging plate (30) workpiece sprinkling coolant liquid to be cooled down to the workpiece.

2. Workpiece cooling device according to claim 1, which is characterized in that the coolant nozzle (40) is multiple groups, more The group coolant nozzle (40) along the setting of the extending direction interval of the circular orbit (20) and with multiple charging plates (30) at least part of charging plate (30) in is corresponding；

Wherein, at least part of charging plate (30) in multiple charging plates (30) turns to and coolant liquid described in multiple groups When the opposite position of jet pipe (40), coolant nozzle (40) described in each group is to the institute being mounted on the corresponding charging plate (30) State workpiece sprinkling coolant liquid.

3. Workpiece cooling device according to claim 2, which is characterized in that have multiple workpiece on the charging plate (30) Installation position, multiple workpiece installation positions are arranged along the extending direction interval of the charging plate (30), each workpiece installation Position is for installing a workpiece；

Wherein, coolant nozzle described in every group (40) includes multiple coolant nozzles (40), charging plate (30) rotation When extremely opposite with coolant nozzle (40) described in one group, multiple coolant nozzles of the group coolant nozzle (40) (40) it is corresponded with multiple workpiece installation positions on the opposite charging plate (30) to pacify to being mounted on each workpiece The workpiece filled on position sprays coolant liquid.

4. Workpiece cooling device according to claim 1, which is characterized in that the Workpiece cooling device further include:

Annular recycling sink (50), setting are used for back in the lower section of the circular orbit (20), annular recycling sink (50) It receives to workpiece coolant liquid after cooling.

5. Workpiece cooling device according to claim 1, which is characterized in that the circular orbit (20) includes:

Straight rail section (21), the straight rail section (21) are two sections, and two sections of straight rail sections (21) are mutually juxtaposed setting.

6. Workpiece cooling device according to claim 5, which is characterized in that the circular orbit (20) further include:

Arc meander sections (22), the arc meander sections (22) are two sections；

Wherein, the both ends of one section of arc meander sections (22) are corresponding with the first end of two sections of straight rail sections (21) respectively connects It connects, second end of the both ends of another section of arc meander sections (22) respectively with two sections of straight rail sections (21) is correspondingly connected with.

7. Workpiece cooling device according to claim 6, which is characterized in that the arc meander sections (22) include:

Ball bearing mechanism (221), the ball bearing mechanism (221) be it is multiple, multiple ball bearing mechanisms (221) along the arc turn round The extending direction interval setting of section (22)；

Wherein, when the charging plate (30) is moved to arc meander sections (22), the lower end surface of the charging plate (30) with The each ball bearing mechanism (221) contact is so that the charging plate (30) on one section of straight rail section (21) is turned round by the arc Section (22) slides on another section of straight rail section (21).

8. Workpiece cooling device according to claim 5, which is characterized in that the straight rail section (21) includes:

First guide rail beam (211), first guide rail beam (211) are extended along the inside of the circular orbit (20)；

Second guide rail beam (212), second guide rail beam (212) along the outside of the circular orbit (20) be extended and with institute It is opposite to state the first guide rail beam (211)；

Wherein, the inner end of the charging plate (30) is slidably disposed on first guide rail beam (211), the charging plate (30) outboard end is slidably disposed on second guide rail beam (212).

9. Workpiece cooling device according to claim 8, which is characterized in that be provided on first guide rail beam (211) First idler wheel (213), first idler wheel (213) be it is multiple, multiple first idler wheels (213) are along first guide rail beam (211) extending direction interval setting；

Wherein, the inner end of the charging plate (30) is slidably disposed on described the by each first idler wheel (213) On one guide rail beam (211).

10. Workpiece cooling device according to claim 8, which is characterized in that be provided on second guide rail beam (212) Second idler wheel (214), second idler wheel (214) be it is multiple, multiple second idler wheels (214) are along second guide rail beam (212) extending direction interval setting；

Wherein, the outboard end of the charging plate (30) is slidably disposed on described the by each second idler wheel (214) On two guide rail beams (212).

11. Workpiece cooling device according to claim 8, which is characterized in that the circular orbit (20) further include:

Separate beam (23), be arranged between two sections of straight rail sections (21), multiple pressing plate rollings are provided on the separation beam (23) It takes turns (231), multiple platen rollers (231) are divided into two groups, and platen roller described in two groups (231) is separately positioned on the separation In the opposite two side walls of beam (23)；

Wherein, platen roller described in two groups (231) is located at first guide rail beam (211) of two sections of straight rail sections (21) Top, the inner end of the charging plate (30) is pressed on corresponding first guide rail beam (211).

12. Workpiece cooling device according to claim 8, which is characterized in that set on the lower end surface of the charging plate (30) It is equipped with limit plate (31), the limit plate (31) is L shape；

Wherein, the limit plate (31) matches with second guide rail beam (212), and the charging plate (30) are limited in institute It states on the second guide rail beam (212).

13. Workpiece cooling device according to claim 3, which is characterized in that the Workpiece cooling device further include:

Gas blow pipe (80), the gas blow pipe (80) are multiple groups, and gas blow pipe described in every group (80) includes multiple gas blow pipes (80), When the charging plate (30) turns to opposite with gas blow pipe (80) described in one group, the multiple of the group gas blow pipe (80) described blow Multiple workpiece installation positions on tracheae (80) and the opposite charging plate (30) are corresponded will be mounted on each work Coolant liquid drying on the workpiece on part installation position.

14. Workpiece cooling device according to claim 1, which is characterized in that the Workpiece cooling device further include:

Driving chain (60), the driving chain (60) are ring structure, and the driving chain (60) is along the circular orbit (20) circumferential setting；

Driving motor (70) is arranged on the chassis (10), and the driving motor (70) passes through chain-wheel mechanism and the transmission Chain (60) is connected to drive the driving chain (60) circumferentially rotating along the circular orbit (20)；

Wherein, the driving chain (60) and each charging plate (30) are hinged to drive each charging plate (30) along institute State circular orbit (20) loopy moving.