CN208278463U - A kind of spring conveying mechanism - Google Patents

Abstract

The utility model discloses a kind of spring conveying mechanisms, including pushing component, push spring component, impeller assembly and conveying assembly, push spring component is used to compress on the spring in free height, component is pushed to be used to the spring compressed through push spring component being depressed into impeller assembly, for the front end for compressed spring to be delivered to conveying assembly, conveying assembly is used to spring being delivered to predetermined position impeller assembly；The spring conveying mechanism high degree of automation, structure is simple, and productivity is high, and spring conveying is steady.

Description

A kind of spring conveying mechanism

Technical field

The utility model relates to a kind of spring conveying mechanisms.

Background technique

Bagged-spring manufacturing machine be for will single independent spring wrapping and encapsulating is in cloth bag one by one, bagged-spring at present It needs specially to design Song Huang mechanism respectively in manufacturing machine and spring flattens in pressure spring mechanism, then the spring after flattening is pushed into cloth It being packaged in bag, overall construction design is complicated, and it is bulky, convey unstable, low efficiency, it is difficult to meet automation, big rule The needs that modulus produces.

It is accordingly required in particular to a kind of high degree of automation, structure is simple, and spring conveys stable spring conveying mechanism, with Solve problems of the prior art.

Utility model content

Purpose of the utility model is to solve defects in the prior art, provide a kind of high degree of automation, structure Simply, spring conveys stable spring conveying mechanism, to solve problems of the prior art.

To achieve the above object, the technical solution of the utility model is as follows:

A kind of spring conveying mechanism, including push component, push spring component, impeller assembly and conveying assembly, the push spring group Part is used to compress on the spring in free height, and the pushing component is for the spring compressed through push spring component to be depressed into On impeller assembly, the impeller assembly is for the front end for compressed spring to be delivered to conveying assembly, the conveying group Part is used to spring being delivered to predetermined position.

In order to further realize the utility model, the impeller assembly includes wheel hub, blade, side plate and limit plate, described Blade bottom surface is fixed on wheel hub and is uniformly distributed along circumference of hub face, and the blade is pushed through for accepting push spring component Next spring simultaneously stirs spring along the movement of hub rotation direction, and there are two the side plate settings, is respectively fixedly disposed at blade Two sides on, both side plate is arranged in parallel, and limit plate, the side plate and limit are fixedly installed at the outer rim between both side plate Position plate extends at conveying assembly from pushing component along hub rotation direction.

In order to further realize the utility model, the blade is in the shape of the letter V setting.

In order to further realize the utility model, the push spring component includes telescope motor and pressing plate, the pressing plate it is non- Stitching surface is fixed on the telescopic shaft of telescope motor.

In order to further realize the utility model, there are two the telescope motor settings, and two telescope motors are respectively set In the two sides of pressing plate.

In order to further realize the utility model, the pushing component includes rotating electric machine, rotating disk and push rod, the rotation It is fixedly connected in the middle part of the side of turntable with the rotary shaft of rotating electric machine, rotating disk side face edge is hingedly arranged in one end of the push rod At edge, the other end is fixedly installed the push plate of V-shaped.

In order to further realize the utility model, the conveying assembly includes two conveyer belts being parallel to each other, and two defeated The distance of band is sent to be greater than the distance between both side plate.

In order to further realize the utility model, the conveying assembly includes two conveyer belts, and conveyer belt includes parallel-segment With the beveled end being inclined outwardly, the conveying front end of the parallel-segment and the conveying rear end of tilting section are hinged.

Beneficial effect

The spring that the utility model head first is produced is fallen in collection casket, and spring at this time is in free height H0, push spring components drive spring make spring-compressed to height H1, push component and push, making height is that the spring of H1 falls within impeller sets By blade support on part, the spring heights in impeller assembly are still H1, both ends of the spring by impeller assembly side plate and limit plate about Beam, and being stirred by blade makes spring that impeller assembly be followed to rotate together, when spring is sent to conveying assembly, due to impeller assembly The medial surface of side plate will be narrower than the medial surface of conveyer belt, and spring heights become H2 (H0 > H2 > H1), the both ends of spring from H1 moment The conveyer belt medial surface of conveying assembly is transitted to by the side plate of impeller assembly, spring transits on the belt medial surface of conveying assembly And continue to move forward, transmission process is completed, the spring conveying mechanism high degree of automation, structure is simple, and productivity is high, spring conveying It is more steady.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model spring conveying mechanism；

Fig. 2 is the structural schematic diagram for removing side plate in the utility model spring conveying mechanism；

Fig. 3 is the top view of the utility model spring conveying mechanism；

Fig. 4 is the structural schematic diagram of impeller assembly in the utility model spring conveying mechanism；

Fig. 5 is the main view of wheel hub in the utility model spring conveying mechanism；

Fig. 6 is the structural schematic diagram of another embodiment of the utility model spring conveying mechanism.

Description of symbols:

1, component is pushed；11, rotating electric machine；12, rotating disk；13, push rod；14, push plate；2, push spring component；21, stretch electricity Machine；22, pressing plate；3, impeller assembly；31, wheel hub；32, blade；33, side plate；34, limit plate；4, conveying assembly；41, conveyer belt； 411, parallel-segment；412, tilting section.

Specific embodiment

The utility model is further described in detail with reference to the accompanying drawing, these attached drawings are simplified signal Figure, only illustrates the basic structure of the utility model, the direction of this specific implementation is using the direction Fig. 1 as standard in a schematic way.

Embodiment one

As Figure 1-Figure 5, the utility model spring conveying mechanism includes pushing component 1, push spring component 2, impeller assembly 3 With conveying assembly 4, in which:

The top that component 1 is located at impeller assembly 3 is pushed, push spring component 2 is located on the top trailing flank of impeller assembly 3, defeated Sending component 4 is located on the lower left side face of impeller assembly 3.

Push spring component 2 is used to compress on the spring in free height, and pushing component 1 is used for will be through push spring component 2 The spring of compression is depressed on impeller assembly 3, before impeller assembly 3 is used for for compressed spring to be delivered to conveying assembly 4 End, conveying assembly 4 are used to spring being delivered to predetermined position.

Impeller assembly 3 includes wheel hub 31, blade 32, side plate 33 and limit plate 34, and blade 32 is in the shape of the letter V setting, blade 32 It is moved for accepting spring that push spring component 2 pushes over and stirring spring along 31 rotation direction of wheel hub, 32 bottom surface of blade is fixed Setting is uniformly distributed on wheel hub 31 and along 31 periphery of wheel hub, and there are two the settings of side plate 33, is respectively fixedly disposed at blade On 32 two sides, both side plate 33 is arranged in parallel, and limit plate 34, side plate are fixedly installed at the outer rim between both side plate 33 33 and limit plate 34 extend at conveying assembly 4 from pushing component 1 along 31 rotation direction of wheel hub.

Push spring component 2 includes telescope motor 21 and pressing plate 22, and the non-stitching surface of pressing plate 22 is fixed at telescope motor 21 Telescopic shaft on, there are two the settings of telescope motor 21, and two telescope motors 21 are separately positioned on the two sides of pressing plate 22, and pressing plate 22 is used It is in the spring of original state in compression, when being compressed, spring one end is connected on the side plate 33 of front, and the other end is connected to pressure By pressing plate 22 to internal pressure on the stitching surface of plate 22.

It pushes component 1 and includes rotating electric machine 11, rotating disk 12 and push rod 13, the side middle part of rotating disk 12 and rotating electric machine 11 rotary shaft is fixedly connected, and one end of push rod 13 is hingedly arranged at 12 lateral edge of rotating disk, and the other end is fixedly installed V The push plate 14 of font.

Conveying assembly 4 includes two conveyer belts 41 being parallel to each other, and the distance of two conveyer belts 41 is greater than between both side plate 33 Distance.

Workflow: the spring that head is produced is fallen in collection casket, and spring at this time is in free height H0, push spring Components drive spring makes spring-compressed to height H1, pushes component and pushes, making height is that the spring of H1 falls within quilt on impeller assembly Blade support, the spring heights in impeller assembly are still H1, and both ends of the spring is constrained by the side plate and limit plate of impeller assembly, and by Blade, which is stirred, makes spring that impeller assembly be followed to rotate together, when spring is sent to conveying assembly, due to the side plate of impeller assembly Medial surface will be narrower than the medial surface of conveyer belt, and spring heights become H2 (H0 > H2 > H1) from H1 moment, and the both ends of spring are by impeller The side plate of component transits to the conveyer belt medial surface of conveying assembly, and spring transits on the belt medial surface of conveying assembly and continues Transmission process is completed in Forward, and the spring conveying mechanism high degree of automation, structure is simple, and productivity is high, and spring conveying is more flat Surely.

Embodiment two

As shown in fig. 6, conveyer belt 41 includes flat what is different from the first embodiment is that conveying assembly 4 includes two conveyer belts 41 Row section 411 and the beveled end 412 being inclined outwardly, the conveying front end of parallel-segment 411 and the conveying rear end of tilting section 412 are mutually cut with scissors It connects, its manually adjustable tilt angle of tilting section 412, the setting of the tilting section 412, which facilitates, adjusts a suitable transition distance (i.e. H2), easy to use.

The foregoing is merely the better embodiment of the utility model, the utility model is not limited to above-mentioned embodiment party Formula, there may be the structural modifications that part is small in implementation process, if various changes or modifications to the utility model are not The spirit and scope of the utility model are detached from, and are belonged within the scope of the claims and equivalents of the utility model, then originally Utility model is also intended to encompass these modification and variations.

Claims (8)

1. a kind of spring conveying mechanism, which is characterized in that including pushing component, push spring component, impeller assembly and conveying assembly, institute Push spring component is stated to be used to compress on the spring in free height, it is described to push what component was used to compress through push spring component Spring is depressed on impeller assembly, and the impeller assembly is for the front end for compressed spring to be delivered to conveying assembly, institute Conveying assembly is stated for spring to be delivered to predetermined position.

2. spring conveying mechanism according to claim 1, which is characterized in that the impeller assembly includes wheel hub, blade, side Plate and limit plate, the blade bottom surface are fixed on wheel hub and are uniformly distributed along circumference of hub face, and the blade is used for It accepts the spring that push spring component pushes over and stirs spring and moved along hub rotation direction, there are two the side plate settings, point It is not fixed on the two sides of blade, both side plate is arranged in parallel, is fixedly installed at the outer rim between both side plate limited Position plate, the side plate and limit plate extend at conveying assembly from pushing component along hub rotation direction.

3. spring conveying mechanism according to claim 2, which is characterized in that the blade is in the shape of the letter V setting.

4. spring conveying mechanism according to claim 1, which is characterized in that the push spring component includes telescope motor and pressure The non-stitching surface of plate, the pressing plate is fixed on the telescopic shaft of telescope motor.

5. spring conveying mechanism according to claim 4, which is characterized in that there are two the telescope motor settings, and two Telescope motor is separately positioned on the two sides of pressing plate.

6. spring conveying mechanism according to claim 1, which is characterized in that the pushing component includes rotating electric machine, rotation The side middle part of turntable and push rod, the rotating disk is fixedly connected with the rotary shaft of rotating electric machine, and one end of the push rod is hinged It is arranged at rotating disk lateral edge, the other end is fixedly installed the push plate of V-shaped.

7. spring conveying mechanism according to claim 2, which is characterized in that the conveying assembly includes two and is parallel to each other Conveyer belt, the distances of two conveyer belts is greater than the distance between both side plate.

8. spring conveying mechanism according to claim 2, which is characterized in that the conveying assembly includes two conveyer belts, Conveyer belt includes parallel-segment and the beveled end that is inclined outwardly, and the conveying front end of the parallel-segment and the conveying rear end of tilting section are mutual Hingedly.