CN209997953U - Sorting machine for kinds of bolts and gaskets - Google Patents

Abstract

The utility model provides a sorting machine of kinds of bolts and gasket, including the frame with locate the sorting device of at least in the frame, sorting device includes parallel and spaced sieve material axle of at least two, the distance between the adjacent sieve material axle is the same and is less than the diameter of the head of the bolt of waiting to sort, sieve material axle sets up along the direction of height slope of frame, sorting device divide into sieve material district and second sieve material district along the axial of sieve material axle, be equipped with the sieve material passageway of along the axial of sieve material axle in the second sieve material district, be equipped with the sieve material hole that the head of the bolt of waiting to sort passed through of at least confession in every sieve material passageway, at least sieve material hole and the clearance between the sieve material axle of at least two correspond the setting respectively , sieve material hole runs through the lateral wall that sieves material axle adjacent with corresponding the clearance along the direction of height of frame.

Description

Sorting machine for kinds of bolts and gaskets

Technical Field

The utility model relates to a sieve material equipment, in particular to sorting machine of kinds of bolts and gasket.

Background

At present, a large number of bolts and gaskets need to be used in manual disassembly and assembly, the bolts are usually combined with nuts to achieve a fastening effect, the gaskets are used for distributing loads and increasing wear resistance, vibration looseness of the bolts is avoided, the bolts and the gaskets are often mixed and placed at during use, the disassembly and assembly are finished, the bolts and the gaskets need to be placed in a classified mode, and the bolts and the gaskets need to be sorted manually, so that the bolt and gasket sorting efficiency is low, and time and labor are wasted.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a sorting machine for sorting bolts and gaskets with high sorting efficiency.

In order to solve the technical problem, the utility model discloses a technical scheme be:

kinds of bolts and gaskets sorting machine, which comprises a frame and at least sorting devices arranged on the frame;

the sorting device comprises at least two parallel and spaced screening shafts, and the distances between the adjacent screening shafts are the same and smaller than the diameter of the head of the bolt to be sorted;

the screening shaft is obliquely arranged along the height direction of the rack, the sorting device is divided into an th screening area and a second screening area along the axial direction of the screening shaft, and the th screening area is positioned above the second screening area along the height direction of the rack;

be equipped with at least sieve material passageways along the axial of sieve material axle in the second sieve material district, be equipped with the sieve material hole that at least confession was waited the head of the bolt of sorting and is passed through in every sieve material passageway, at least sieve material hole and the corresponding setting of gap respectively between two at least sieve material axles, sieve material hole runs through the lateral wall that sieves material axle adjacent with corresponding the gap along the direction of height of frame.

, the shape of the longitudinal section of the screen material shaft is V-shaped, and the tip of the V-shaped is arranged upwards along the height direction of the frame.

, the longitudinal section of the screen material shaft is arc-shaped, and the convex side of the arc is arranged upwards along the height direction of the frame.

, further comprising a gasket chute;

the end of the gasket sliding groove is positioned below the screening area, and the other end of the gasket sliding groove is arranged in a downward inclined mode along the height direction of the rack

In step , the size of the screen openings in the upper screen passage are smaller than the size of the screen openings in the lower screen passage.

, the device also comprises at least bolt sliding grooves;

ends of at least bolt sliding grooves are respectively correspondingly arranged below the screening channels of at least bolt sliding grooves, and the other ends of at least bolt sliding grooves are respectively arranged in a downward inclined mode along the height direction of the rack.

, the distance between adjacent sieve axles is greater than the diameter of the screw of the bolt to be sorted.

, the screening machine further comprises a base and a vibrating motor arranged on the base, wherein the frame is arranged on the base, and the vibrating motor drives the base to vibrate along the direction parallel to the screening shaft.

, at least material ejecting areas are further included, and at least material ejecting areas are arranged corresponding to at least material screening channels respectively;

the material ejecting area is positioned below the sorting device along the height direction of the rack;

at least ejector rods parallel to the height direction of the rack are arranged in the ejector area, at least ejector rods are arranged corresponding to at least material screening holes in the corresponding material screening channel respectively at , and the distances between the ejector rods in the same ejector area and the corresponding material screening holes are respectively equal.

, the sieve holes in the sieve channel are arranged in sequence along the direction vertical to the sieve material shaft.

The beneficial effects of the utility model reside in that topple over the raw materials that have mixed gasket and bolt on sieve material district, the gasket directly passes the below that falls into sorting device in the clearance between the material axle under the effect of gravity, and because the clearance of sieve between the material axle is less than the diameter of the head of the bolt of treating the letter sorting, consequently the unable whereabouts of bolt slides to second sieve material district under the effect of gravity, fall into sorting device's below again when sieve material hole department in second sieve material district, thereby part gasket and bolt effectively.

Drawings

Fig. 1 is a schematic side view of a sorting machine for bolts and gaskets according to an embodiment of the present invention;

fig. 2 is a schematic longitudinal cross-sectional view of a sorter for bolts and washers according to an embodiment of the present invention;

fig. 3 is a top view of a second material sieving area of a sorting device of a sorting machine for bolts and gaskets according to an embodiment of the present invention;

description of reference numerals:

10. a frame;

20. a sorting device, a 21 st th screening area, a 22 nd second screening area;

30. a material screening shaft; 31. sieving holes;

40. a gasket chute;

50. a bolt chute;

60. a base;

70. a vibration motor;

80. and a material ejecting rod.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The utility model discloses the most crucial idea lies in sorting out the gasket in the sieve material district of sorting device, utilizes the sieve material hole to sort out the bolt in the second sieve material district.

Referring to fig. 1-3, a sorting machine for kinds of bolts and washers includes a frame 10 and at least sorting devices 20 disposed on the frame 10;

the sorting device 20 comprises at least two parallel and spaced screening shafts 30, and the distance between the adjacent screening shafts 30 is the same and smaller than the diameter of the head of the bolt to be sorted;

the material screening shaft 30 is obliquely arranged along the height direction of the frame 10, the sorting device 20 is divided into an th material screening area 21 and a second material screening area 22 along the axial direction of the material screening shaft 30, and the th material screening area 21 is positioned above the second material screening area 22 along the height direction of the frame 10;

at least sieve material channels are arranged in the second sieve material area 22 along the axial direction of the sieve material shafts 30, at least sieve material holes 31 for the heads of the bolts to be sorted to pass through are formed in each sieve material channel, at least gaps between the sieve material holes 31 and at least two sieve material shafts 30 are correspondingly formed, and the sieve material holes 31 penetrate through the side walls of the two sieve material shafts 30 adjacent to the corresponding gaps along the height direction of the rack 10.

From the above description, can know the beneficial effects of the utility model reside in that topple over the raw materials that have mixed gasket and bolt on sieve material district, the gasket directly passes the clearance between the sieve material axle under the effect of gravity and falls into sorting device's below, and because the clearance between the sieve material axle is less than the diameter of the head of the bolt of waiting to sort, therefore the bolt can't fall and slide to second sieve material district under the effect of gravity, falls into sorting device's below again when sieve material hole department in the second sieve material district to part gasket and bolt effectively.

In step , the shape of the longitudinal section of the screen shaft 30 is a V-shape, and the tip of the V-shape is disposed upward along the height direction of the frame 10.

As can be seen from the above description, the sieve shafts 30 having the V-shaped longitudinal cross-section facilitate the gasket to slide down through the gaps between the sieve shafts 30.

In step , the longitudinal section of the screen shaft 30 is arc-shaped, and the convex side of the arc is disposed upward along the height direction of the frame 10.

As can be seen from the above description, the screen shafts 30, which have a longitudinal cross-section in the shape of an arc, slide down through the gaps between the screen shafts 30.

, further comprising a gasket runner 40;

the end of the gasket sliding groove 40 is positioned below the material screening area 21 along the height direction of the frame 10, and the other end of the gasket sliding groove 40 is arranged obliquely downwards along the height direction of the frame 10

As can be seen from the above description, the gasket dumped in the th screening area 21 can slide out through the gasket chute 40 after falling down, and then be recycled in the predetermined storage barrel.

In step , the size of the openings 31 in the upper screen passage in the height direction of the frame 10 is smaller than the size of the openings 31 in the lower screen passage.

As can be seen from the above description, the bolts are classified one by one as they slide downward, and the bolts are sorted according to the standard bolts whose head diameters are gradually increased from small to large.

, the device also comprises at least bolt sliding grooves 50;

ends of at least bolt sliding grooves 50 along the height direction of the frame 10 are respectively correspondingly arranged below the screening channels of at least , and the other ends of at least bolt sliding grooves 50 are respectively arranged obliquely downwards along the height direction of the frame 10.

As can be seen from the above description, the bolts with different head diameters enter different bolt sliding grooves 50, and slide in the bolt sliding grooves 50 to different predetermined storage barrels.

, the distance between adjacent screen shafts 30 is greater than the diameter of the screw of the bolt to be sorted.

As can be seen from the above description, the screw of the bolt to be sorted extends into the lower part of the sorting device 20 through the gap between the screen shafts 30, and the bolt to be sorted is not dropped down by being caught at the gap between the screen shafts 30 by the head.

, the method further comprises a base 60 and a vibration motor 70 disposed on the base 60, wherein the frame 10 is disposed on the base 60, and the vibration motor 70 drives the base 60 to vibrate in a direction parallel to the material sieving shaft 30.

As can be seen from the above description, the vibration of the vibration motor 70 can ensure that the bolt to be sorted is not jammed in the gap between any two material sieving shafts 30.

, at least material ejecting areas are further included, and at least material ejecting areas are arranged corresponding to at least material screening channels respectively;

the material ejecting area is positioned below the sorting device 20 along the height direction of the frame 10;

at least ejector rods 80 parallel to the height direction of the rack 10 are arranged in the ejector area, at least ejector rods 80 are arranged corresponding to at least material sieving holes 31 in the corresponding material sieving channel respectively , and the distances between the ejector rods 80 in the same ejector area and the corresponding material sieving holes 31 are respectively equal.

As can be seen from the above description, the ejector rod 80 is disposed below the material sieving hole 31, and when the distance between the ejector rod 80 and the material sieving hole 31 is less than or equal to the length of the screw rod of a certain bolt, even if the bolt slides on the sorting device 20 to the material sieving hole 31 of the head of the bolt, the part of the screw rod is also withstood by the ejector rod 80, so that the bolt cannot fall down and can only continue to slide, and therefore, the bolt with the same diameter of the head but different lengths of the screw rod can be sorted out by the ejector rod 80.

, the screen holes 31 in the screen channel are arranged in sequence along the direction perpendicular to the screen shaft 30.

Example

Referring to fig. 1 to 3, the bolt and gasket sorter of the present embodiment includes a frame 10, a sorting device 20, a gasket chute 40, and a bolt chute 50;

as shown in fig. 1-2, sorting devices 20 are disposed on the rack 10, each sorting device 20 includes five parallel and spaced screening shafts 30, the distance between adjacent screening shafts 30 is the same and smaller than the diameter of the head of the bolt to be sorted, the longitudinal section of each screening shaft 30 is in a V shape, the tip of the V shape is disposed upward along the height direction of the rack 10, the screening shafts 30 are disposed obliquely along the height direction of the rack 10, the sorting device 20 is divided into a screening area 21 and a second screening area 22 (indicated by a dotted arrow in fig. 1) along the axial direction of the screening shafts 30, and the screening area 21 is located above the second screening area 22 along the height direction of the rack 10;

as shown in fig. 3, two screen material channels are provided in the second screen material area 22 along the axial direction of the screen material shafts 30, each screen material channel is provided with four screen material holes 31 (the portion of the screen material holes 31 is a dotted line in fig. 3) for the heads of the bolts to be sorted to pass through, four gaps between the four screen material holes 31 and the five screen material shafts 30 are correspondingly provided, and the screen material holes 31 in the screen material channels are sequentially provided along the direction perpendicular to the screen material shafts 30, that is, the heights are the same, as , the screen material holes 31 penetrate through the side walls of the two screen material shafts 30 adjacent to the corresponding gaps along the height direction of the rack 10, and the size of the screen material hole 31 in the screen material channel above along the height direction of the rack 10 is smaller than the size of the screen material hole 31 in the screen material channel below, so that the bolts with different head sizes can be sorted.

As shown in FIG. 1, the end of the gasket sliding groove 40 is located below the material screening area 21 in the height direction of the rack 10, the other end of the gasket sliding groove 40 is arranged in a downward inclined manner in the height direction of the rack 10, the number of the bolt sliding grooves 50 is two, the ends of the two bolt sliding grooves 50 in the height direction of the rack 10 are respectively correspondingly arranged below the two material screening channels, the projection of the four material screening holes 31 in each material screening channel in the height direction of the rack falls into the corresponding bolt sliding grooves, and the other ends of the two bolt sliding grooves 50 are respectively arranged in a downward inclined manner in the height direction of the rack 10.

In this embodiment, the shape of the longitudinal section of the screen shaft 30 may also be an arc, and the convex side of the arc is disposed upward along the height direction of the frame 10.

If a larger number of head-sized bolts are to be sorted, and the length of the rack 10 may be longer, the gasket sliding groove 40 and the bolt sliding groove 50 of fig. 1 may be replaced with the sorting apparatus 20 to solve the technical problem, so that sorting is performed at multiple levels.

Example two

Referring to fig. 1 to 3, the bolt and gasket sorter of the present embodiment includes a frame 10, a sorting device 20, a gasket chute 40, a bolt chute 50, and bases 60 and 70;

as shown in fig. 1-2, sorting devices 20 are disposed on the frame 10, each sorting device 20 includes five parallel and spaced screening shafts 30, the distance between adjacent screening shafts 30 is the same, and the gap between adjacent screening shafts 30 is smaller than the diameter of the head of the bolt to be sorted and larger than the diameter of the bolt to be sorted.

The longitudinal section of the screening shaft 30 is in a V shape, the tip end of the V shape is arranged upward along the height direction of the frame 10, the screening shaft 30 is arranged obliquely along the height direction of the frame 10, the sorting device 20 is divided into an -th screening area 21 and a second screening area 22 (marked by a dotted arrow in fig. 1) along the axial direction of the screening shaft 30, and the -th screening area 21 is located above the second screening area 22 along the height direction of the frame 10;

as shown in fig. 3, two screening channels are provided in the second screening area 22 along the axial direction of the screening shafts 30, each screening channel is provided with four screening holes 31( is a dotted line in fig. 3) which are provided corresponding to four gaps between five screening shafts 30 and through which heads of bolts to be sorted pass, and the screening holes 31 in the screening channels are sequentially provided along a direction perpendicular to the screening shafts 30, that is, the heights are the same, like , the screening holes 31 penetrate through the side walls of two screening shafts 30 adjacent to the corresponding gaps along the height direction of the rack 10.

As shown in fig. 1-2, two material ejecting areas are arranged below the sorting device 20, the two material ejecting areas are arranged corresponding to the two material sieving channels respectively, four material ejecting rods 80 parallel to the height direction of the rack 10 are arranged in each material ejecting area, as shown in fig. 3, the four material ejecting rods 80 are arranged corresponding to the four material sieving holes 31 in the corresponding material sieving channels respectively, the distances between the material ejecting rods 80 in the material ejecting areas and the corresponding material sieving holes 31 are equal respectively, the material ejecting rods 80 can be in contact with the screw rods of the bolts moving to the material sieving holes 31, and the bolts with the length exceeding the distance between the material ejecting rods 80 and the corresponding material sieving holes 31 are prevented from falling.

For the bolt to slide more smoothly, the frame 10 is disposed on the base 60, and the vibration motor 70 disposed on the base 60 drives the base 60 to vibrate in a direction parallel to the material sieving shaft 30, and the frame 10 also vibrates back and forth.

EXAMPLE III

Referring to fig. 1 to 3, the bolt and gasket sorter of the present embodiment includes a frame 10, a sorting device 20, a gasket chute 40, a bolt chute 50, and bases 60 and 70;

as shown in fig. 1-2, sorting devices 20 are disposed on the frame 10, each sorting device 20 includes five parallel and spaced screening shafts 30, the distance between adjacent screening shafts 30 is the same, and the gap between adjacent screening shafts 30 is smaller than the diameter of the head of the bolt to be sorted and larger than the diameter of the bolt to be sorted.

The longitudinal section of the screening shaft 30 is in a V shape, the tip end of the V shape is arranged upward along the height direction of the frame 10, the screening shaft 30 is arranged obliquely along the height direction of the frame 10, the sorting device 20 is divided into an -th screening area 21 and a second screening area 22 (marked by a dotted arrow in fig. 1) along the axial direction of the screening shaft 30, and the -th screening area 21 is located above the second screening area 22 along the height direction of the frame 10;

as shown in fig. 3, two screen material channels are provided in the second screen material area 22 along the axial direction of the screen material shafts 30, each screen material channel is provided with four screen material holes 31 (the portion of the screen material holes 31 is a dotted line in fig. 3) for the heads of the bolts to be sorted to pass through, four gaps between the four screen material holes 31 and the five screen material shafts 30 are correspondingly provided, and the screen material holes 31 in the screen material channels are sequentially provided along the direction perpendicular to the screen material shafts 30, that is, the heights are the same, as , the screen material holes 31 penetrate through the side walls of the two screen material shafts 30 adjacent to the corresponding gaps along the height direction of the rack 10, and the size of the screen material hole 31 in the screen material channel above along the height direction of the rack 10 is smaller than the size of the screen material hole 31 in the screen material channel below, so that the bolts with different head sizes can be sorted.

As shown in fig. 1-2, two material ejecting areas are arranged below the sorting device 20, the two material ejecting areas are arranged corresponding to the two material sieving channels respectively, four material ejecting rods 80 parallel to the height direction of the rack 10 are arranged in each material ejecting area, as shown in fig. 3, the four material ejecting rods 80 are arranged corresponding to the four material sieving holes 31 in the corresponding material sieving channels respectively, the distances between the material ejecting rods 80 in the material ejecting areas and the corresponding material sieving holes 31 are equal respectively, the material ejecting rods 80 can be in contact with the screw rods of the bolts moving to the material sieving holes 31, and the bolts with the length exceeding the distance between the material ejecting rods 80 and the corresponding material sieving holes 31 are prevented from falling.

As shown in FIG. 1, the end of the gasket sliding groove 40 is located below the material screening area 21 in the height direction of the rack 10, the other end of the gasket sliding groove 40 is arranged in a downward inclined manner in the height direction of the rack 10, the number of the bolt sliding grooves 50 is two, the ends of the two bolt sliding grooves 50 in the height direction of the rack 10 are respectively correspondingly arranged below the two material screening channels, the projection of the four material screening holes 31 in each material screening channel in the height direction of the rack falls into the corresponding bolt sliding grooves, the other ends of the two bolt sliding grooves 50 are respectively arranged in a downward inclined manner in the height direction of the rack 10, and the two material ejecting areas are respectively located above the gasket sliding groove 40 and the bolt sliding grooves 50.

For the bolt to slide more smoothly, the frame 10 is disposed on the base 60, and the vibration motor 70 disposed on the base 60 drives the base 60 to vibrate in a direction parallel to the material sieving shaft 30, and the frame 10 also vibrates back and forth.

To sum up, the utility model provides a sorting machine of kinds of bolts and gaskets that letter sorting is efficient, the sorting machine of bolt and gasket can be effectively, smoothly parts gasket, bolt and collect.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. The sorting machine for bolts and gaskets is characterized by comprising a rack and at least sorting devices arranged on the rack;

   the sorting device comprises at least two parallel and spaced screening shafts, and the distances between the adjacent screening shafts are the same and smaller than the diameter of the head of the bolt to be sorted;

   the screening shaft is obliquely arranged along the height direction of the rack, the sorting device is divided into an th screening area and a second screening area along the axial direction of the screening shaft, and the th screening area is positioned above the second screening area along the height direction of the rack;

   be equipped with at least sieve material passageways along the axial of sieve material axle in the second sieve material district, be equipped with the sieve material hole that at least confession was waited the head of the bolt of sorting and is passed through in every sieve material passageway, at least sieve material hole and the corresponding setting of gap respectively between two at least sieve material axles, sieve material hole runs through the lateral wall that sieves material axle adjacent with corresponding the gap along the direction of height of frame.
2. 2. The bolt and gasket sorter of claim 1 wherein the longitudinal cross-section of said screen shaft is V-shaped and the point of the V-shape is disposed upwardly along the height of the frame.
3. 3. The bolt and washer sorter of claim 1 wherein the longitudinal cross-section of the screen shaft is arcuate and the convex side of the arc is disposed upwardly along the height of the frame.
4. 4. The bolt and shim sorter of claim 1 further comprising a shim chute;

   the end of the gasket sliding groove is positioned below the screening area, and the other end of the gasket sliding groove is arranged obliquely downwards along the height direction of the rack.
5. 5. The bolt and shim sorter of claim 1 wherein the size of the screen openings in the screen passage above are smaller than the size of the screen openings in the screen passage below.
6. 6. The bolt and shim sorter of claim 5 further comprising at least bolt runners;

   ends of at least bolt sliding grooves are respectively correspondingly arranged below the screening channels of at least bolt sliding grooves, and the other ends of at least bolt sliding grooves are respectively arranged in a downward inclined mode along the height direction of the rack.
7. 7. The bolt and washer sorter of claim 1 wherein the distance between adjacent screen shafts is greater than the diameter of the bolt shaft of the bolt to be sorted.
8. 8. The bolt and gasket sorter of claim 7 further including a base and a vibratory motor disposed on the base, said frame being disposed on the base, said vibratory motor driving the base to vibrate in a direction parallel to the screen axis.
9. 9. The bolt and washer sorter of claim 8 further comprising at least topping zones, at least of said topping zones being disposed in correspondence with at least of said screening channels, respectively, ;

   the material ejecting area is positioned below the sorting device along the height direction of the rack;

   at least ejector rods parallel to the height direction of the rack are arranged in the ejector area, at least ejector rods are arranged corresponding to at least material screening holes in the corresponding material screening channel respectively at , and the distances between the ejector rods in the same ejector area and the corresponding material screening holes are respectively equal.
10. 10. The bolt and washer sorter of claim 1 wherein the screen openings in said screen channel are sequentially oriented in a direction perpendicular to the screen axis as at .

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