CN202880298U - Guide support member and conveyor device including same - Google Patents

Abstract

The utility model relates to a guide support member and a conveyor device including same. A support groove is arranged on the top face of the guide support member, the support groove can allow a conveyor arranged on the conveyor device to pass through, and the support groove supports the conveyor. When an object of certain weight is placed on the surface of the conveyor, due to the fact that the inner side of the belt body of the conveyor can be supported by the groove face of the support groove, the weight of the object conveyed is supported by the guide support member, the phenomenon that the conveyor is in a concave shape because of the weight of the object conveyed is avoided, the vibration phenomenon caused by the move of the conveyor can be reduced, and thus good stability and processing yield are achieved.

Description

Guiding strut member and have the conveyer belt apparatus of this guiding strut member

Technical field

The utility model is about a kind of conveyer belt apparatus, espespecially a kind of guiding bracing or strutting arrangement of load-transfer device.

Background technology

Wherein a kind of mode for delivery of material in the prior art is conveyer belt apparatus, conveyer belt apparatus includes two belt wheels, one propulsion source and a load-transfer device, this two belt wheels interval arranges, this propulsion source connects wherein a belt wheel and can drive this belt wheel rotation, this load-transfer device is belt body in the form of a ring, this load-transfer device is sheathed to be combined on this two belt wheel, this load-transfer device can be refuted rotation by the belt wheel that is connected with propulsion source, article to be conveyed can be placed on the end surfaces of load-transfer device, movement by load-transfer device, make these article be transported to the other end place of load-transfer device, the said conveyer belt device is popularized in a large number and is reached in daily life industrial association area.

Yet, said conveyer belt is found after being installed on actual use, for article delivery must being spaced apart this two belt wheel equal length to the certain-length distance, when if the spacing between this two belt wheel is longer, this load-transfer device will be understood vibrative phenomenon without any support because of the middle section when mobile, cause its stability of carrying article to reduce; In addition, because load-transfer device itself has certain retractility and tension force, put when having the constant weight object on its surface, the weight of article causes the entire length of load-transfer device to increase and presents the sag shape, be positioned at the place, shift position in certain altitude place or design that article on this load-transfer device end face can't be stable and be transferred movement, but process in the industrial technology in the field of article on the load-transfer device end face in automation, to cause these article to be processed accurately, the processing yield is reduced, and therefore above-mentioned shortcoming remains to be conceived a kind of feasible solution in fact.

Summary of the invention

Because the stability of the conveyer belt apparatus of prior art is not enough, can't stablize to carry and have the shortcoming of constant weight article, the utility model is designed with a kind of conveyer belt apparatus of guiding strut member and having this guiding strut member, and it can reach and improve the vibration that load-transfer device produces and the purpose that is sag condition.

For achieving the above object, the technological means that guiding strut member of the present utility model uses includes: be provided with support slot at this guiding strut member end face, the two ends of this support slot run through the two ends outside wall surface of this guiding strut member and form respectively an opening, and the groove face of this support slot can pass through for a load-transfer device.

Described guiding strut member, wherein a side of this support slot runs through on the side outside wall surface of this guiding strut member and forms a lateral openings.

The opposite side that described guiding strut member is positioned at this support slot has a wall, and this support slot is formed with a guide channel in the wall indent, and the groove face of this support slot and guide channel thereof forms same plane.

A kind of guiding strut member, its end face is provided with support slot, and the two ends of this support slot run through the two ends outside wall surface of this guiding strut member and form respectively an opening, and the place, both sides that the end face of this guiding strut member is positioned at this support slot is provided with respectively a wall.

Described guiding strut member, the wall indent of a wherein side of this support slot is formed with a guide channel, and the groove face of this support slot and guide channel forms same plane.

Described guiding strut member, the both sides wall of described support slot respectively indent is formed with a guide channel, and the groove face of this support slot and guide channel forms same plane.

Described guiding strut member wherein is respectively equipped with the guiding cylinder on the both sides groove face of this support slot, and this guiding cylinder is cylinder, side outside wall surface of this guiding cylinder can for a lateral edges of this load-transfer device against.

Described guiding strut member wherein is respectively equipped with bearing on the both sides groove face of this support slot, a side outside wall surface of this bearing can for this load-transfer device against.

A kind of conveyer belt apparatus that comprises described guiding strut member, it includes a frame, is provided with two belt wheels, propulsion source, a load-transfer device and described guiding strut member in this frame; This propulsion source connects belt wheel, and this load-transfer device is ring-type belt body and sheathed being combined on this two belt wheel, and the two ends of the support slot of this guiding strut member are respectively toward this two belt wheel, the groove face that this load-transfer device is positioned at the belt body of support slot top and this support slot mutually against.

A kind of conveyer belt apparatus that comprises described guiding strut member, it includes a frame, is provided with two band wheels, propulsion source, two load-transfer devices and described two guiding strut members in this frame; These band wheels include one first belt wheel and one second belt wheel, and this two bands wheels interval is arranged side by side; This propulsion source connects this two first belt wheel; This load-transfer device is the ring-type belt body, and each sheathed being combined on these two bands wheels of this two load-transfer device has a spacing between this two load-transfer device; This two guidings strut member is arranged at respectively the below of a part of belt body of this two load-transfer device, the groove face of the support slot of this two guidings strut member respectively with this part belt body of this two load-transfer device mutually against.

Utilization by above-mentioned technological means, since the groove face that this load-transfer device is positioned at the belt body medial surface of support slot top and this support slot mutually against, therefore when the conveyor belt surface storing has the constant weight object, support the belt body medial surface of this load-transfer device by the groove face of support slot, can be guided by this weight of this object of supports support, avoid load-transfer device to present the sag shape because of the weight of article, and can reduce the chatter phenomena that this load-transfer device produces when mobile, the more existing conveyer belt apparatus of the utility model has better stability, and can improve the processing yield.

In the embodiment that the utlity model has two load-transfer devices, owing to have a spacing between this two load-transfer device, therefore can be used on the manufacture field of carrying screw, the both sides, termination of screw are seated in respectively on this two load-transfer device, the bar section of this screw is positioned between two load-transfer devices, make screw be delivered to other end position by an end position of frame, cooperating the two guiding strut members that support this two load-transfer device, get final product the yield of Effective Raise processing screw.

Description of drawings

Fig. 1 is the stereo appearance figure of the first embodiment of the present utility model.

Fig. 2 is the forward sight External view of the first embodiment of the present utility model.

Fig. 3 is the use scheme drawing of the first embodiment of the present utility model.

Fig. 4 is the stereo appearance figure of the second embodiment of the present utility model.

Fig. 5 is the forward sight External view of the second embodiment of the present utility model.

Fig. 6 is the stereo appearance figure of the 3rd embodiment of the present utility model.

Fig. 7 is the forward sight External view of the 3rd embodiment of the present utility model.

Fig. 8 is the stereo appearance figure of the 4th embodiment of the present utility model.

Fig. 9 is the forward sight External view of the 4th embodiment of the present utility model.

Figure 10 is the stereo appearance figure of the 5th embodiment of the present utility model.

Figure 11 is the forward sight External view of the 5th embodiment of the present utility model.

Figure 12 is the stereo appearance figure of conveyer belt apparatus of the present utility model.

Figure 13 is the forward sight generalized section of conveyer belt apparatus of the present utility model.

The primary clustering nomenclature

10 guiding strut members; 11 support slots;

20 frames; 21 belt wheels;

22 propulsions source; 23 load-transfer devices;

10A guides strut member; The 11A support slot;

The 12A wall; The 13A guide channel;

The 23A load-transfer device; 10B guides strut member;

The 11B support slot; The 12B wall;

13B guides cylinder; The 23B load-transfer device;

10C guides strut member; The 11C support slot;

The 12C wall; The 13C guide channel;

The 23C load-transfer device; 10D guides strut member;

The 11D support slot; The 12D wall;

The 13D guide channel; The 23D load-transfer device;

The 20E frame; 210E the first belt wheel;

211E the second belt wheel; The 22E propulsion source;

The 23E load-transfer device; The 30E screw;

The 31E termination; 32E bar section.

The specific embodiment

The utility model is a kind of guiding strut member, see also Figure 1 and Figure 2, be the first embodiment of the present utility model, this guiding strut member 10 is a long rectangle block, block has an end face, on the block end face along major axis to being concaved with a support slot 11, the two ends of this support slot 11 connect on the both ends of the surface of this guiding strut member 10 and form respectively opening, one side of this support slot 11 runs through on the side outside wall surface of this guiding strut member 10 and forms a lateral openings, support slot 11 has transverse groove and straight trough face in the upright position of a level attitude, and this transverse groove and straight trough face are adjacent.

Please cooperate consult shown in Figure 3, the utility model is designed with again a kind of conveyer belt apparatus with above-mentioned guiding strut member 10, it includes a frame 20, is provided with two belt wheels 21, at least one propulsion source 22, a load-transfer device 23 and this guiding strut member 10 in this frame 20.

This two belt wheel 21 is located at respectively the two ends of this frame 20 rotationally, this propulsion source 22 connects a wherein belt wheel 21, also can be provided with two propulsions source 22 when reality is implemented also is connected with this two belt wheel 21 respectively, this load-transfer device 23 is ring-type belt body and sheathed being combined on this two belt wheel 21, this load-transfer device 23 have some tension and the position on transverse groove, belt wheel 21 drive displacement that this load-transfer device 23 can be rotated, the two ends of the support slot 11 of this guiding strut member 10 are respectively toward the direction of this two belt wheel 21, the straight trough face that this load-transfer device 23 is positioned at the belt body medial surface of support slot 11 tops and this support slot 11 mutually against, please cooperate and consult Fig. 1 and shown in Figure 3, the belt body of this load-transfer device 23 can be moved by an end opening of this support slot 11 and be positioned on the support slot 11, is moved away to support slot 11 by other end opening again; Put when having the constant weight object on load-transfer device 23 surfaces, support the belt body medial surface of this load-transfer device 23 by the transverse groove of support slot 11, can avoid load-transfer device 23 to present the sag shape because of the weight of article, and can reduce the chatter phenomena that this load-transfer device 23 produces when mobile.

See also Fig. 4 and shown in Figure 5, the second embodiment for guiding strut member of the present utility model, it is the again design of above-mentioned the first embodiment, wherein this guiding strut member 10A is positioned at this support slot 11A and has a wall 12A with respect to the opposite side of lateral openings, the wall 12A indent of this support slot 11A one side is formed with a guide channel 13A, the groove face position of this guide channel 13A and this support slot 11A at grade, belt body one side of this load-transfer device 23A can be arranged in this support slot 11A and guide channel 13A thereof, sees through this support slot 11A and guide channel 13A thereof and can not vibrate when mobile to stablize this load-transfer device 23A.

See also Figure 6 and Figure 7, the 3rd embodiment for guiding strut member of the present utility model, wherein on the block end face of this guiding strut member 10B along major axis to being concaved with a support slot 11B, the two ends of this support slot 11B connect on the both ends of the surface of this guiding strut member 10B and form respectively opening, the place, both sides that block is positioned at this support slot 11B is provided with respectively a wall 12B, on the both sides groove face of this support slot 11B, be interval with respectively plural number guiding cylinder 13B, this guiding cylinder 13B is cylinder, the both sides of the edge of this load-transfer device 23B can be resisted against respectively on the outside wall surface of this two rows guiding cylinder 13B, utilize by this guiding of this two rows guiding cylinder 13B can reduce the chatter phenomena that this load-transfer device 23B produces when mobile, above-mentioned guiding cylinder 13B also can use the bearing (not shown) to substitute, when reality was implemented, the both sides of the edge of this load-transfer device can be resisted against respectively on the outside wall surface of this two rows bearing.

See also Fig. 8 and shown in Figure 9, the 4th embodiment for guiding strut member of the present utility model, wherein on the block end face of this guiding strut member 10C along major axis to being concaved with a support slot 11C, the two ends of this support slot 11C connect on the both ends of the surface of this guiding strut member 10C and form respectively opening, the place, both sides that block is positioned at this support slot 11C has respectively a wall 12C, this support slot 11C is the wall 12C indent of a side wherein, belt body one side of this load-transfer device 23C can be arranged in this support slot 11C and guide channel 13C thereof, see through this and be formed with a guide channel 13C, the groove face position of this guide channel 13C and this support slot 11C at grade support slot 11C and guide channel 13C to stablize the chatter phenomena of this load-transfer device 23C generation when mobile.

See also Figure 10 and shown in Figure 11, the 5th embodiment for guiding strut member of the present utility model, wherein on the block end face of this guiding strut member 10D along major axis to being concaved with a support slot 11D, the two ends of this support slot 11D connect on the both ends of the surface of this guiding strut member 10D and form respectively opening, the place, both sides that block is positioned at this support slot 11D has respectively a wall 12D, the both sides wall 12D indent of this support slot 11D also is formed with respectively a guide channel 13D, the groove face position of this two guide channels 13D and this support slot 11D at grade, the belt body both sides of this load-transfer device 23D can lay respectively among the two guide channel 13D, and the belt body that sees through this load-transfer device of the stable guiding of two guide channel 13D 23D is when mobile and reduce and vibrate.

Please cooperate consult shown in Figure 12, the utility model is designed with again a kind of conveyer belt apparatus with above-mentioned guiding strut member 10A, it includes a frame 20E, is provided with two band wheels, propulsion source 22E, two load-transfer device 23E and two guiding strut member 10A in this frame 20E.

This includes the first belt wheel 210E and the one second belt wheel 211E that the interval arranges with wheels, and this two bands wheels interval is arranged side by side, and has a spacing between this two first belt wheel 210E, has a spacing between this two second belt wheel 211E.

This propulsion source 22E can be motor of the prior art, and this propulsion source 22E has an axle drive shaft and connects this two first belt wheel 210E, and this propulsion source 22E can drive this axle drive shaft rotation, and this axle drive shaft that sees through rotation drives this two first belt wheel 210E synchronous rotary.

This load-transfer device 23E is the ring-type belt body, and this two load-transfer device 23E is sheathed being combined on these two bands wheels respectively, and the belt body of this two load-transfer device 23E has some tension, the interior intermarginal spacing that has of the belt body of this two load-transfer device 23E.

This two guiding strut member 10A is arranged at respectively the below of a part of belt body of this two load-transfer device 23E, please cooperate consult shown in Figure 13, the groove face of the support slot 11A of this two guidings strut member 10A respectively with this part belt body of this two load-transfer device 23A mutually against.

The conveyer belt apparatus of present embodiment can be used on the field of carrying screw 30E, this screw 30E includes a termination 31E and the 32E of bar section that is connected, the external diameter of this termination 31E is greater than the spacing of two load-transfer device 23E, the external diameter of the 32E of this bar section is less than the spacing of two load-transfer device 23E, the both sides, bottom surface of this termination 31E can be seated in respectively on this two load-transfer device 23E, the 32E of this bar section can be between two load-transfer device 23E, drive two load-transfer device 23E rotation by this propulsion source 22E, and then make screw 30E be delivered to other end position by the end position of frame 20E, and can be provided in the course of conveying screw 30E is processed, the operation that for example 32E of bar section is sprayed, cooperating the two guiding strut member 10A that support this two load-transfer device 23E, but the precision of Effective Raise spraying screw 30E.

The above only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, although the utility model discloses as above with preferred embodiment, yet be not to limit the utility model, any those skilled in the art, in the scope that does not break away from technical solutions of the utility model, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solutions of the utility model, any simple modification that foundation technical spirit of the present utility model is done above embodiment, equivalent variations and modification all still belong in the scope of technical solutions of the utility model.

Claims (12)

1. guide strut member for one kind, it is characterized in that: have support slot on the end face of described guiding strut member, the two ends of this support slot run through the two ends outside wall surface of this guiding strut member and form respectively an opening, and the groove face of this support slot can pass through for a load-transfer device.

2. guiding strut member as claimed in claim 1 is characterized in that: a side of described support slot runs through on the side outside wall surface of this guiding strut member and forms a lateral openings.

3. guiding strut member as claimed in claim 2, it is characterized in that: the opposite side that is positioned at described support slot has a wall, and this support slot is formed with a guide channel in the wall indent, and the groove face of this support slot and guide channel thereof forms same plane.

4. conveyer belt apparatus that comprises each described guiding strut member in claim 1 or 3, it is characterized in that comprising: a frame is provided with two belt wheels, propulsion source, a load-transfer device and described guiding strut member in described frame;

This propulsion source connects belt wheel, and this load-transfer device is ring-type belt body and sheathed being combined on this two belt wheel, and the two ends of the support slot of this guiding strut member are respectively toward this two belt wheel, the groove face that this load-transfer device is positioned at the belt body of support slot top and this support slot mutually against.

5. conveyer belt apparatus that comprises each described guiding strut member in claim 1 or 3 is characterized in that comprising: a frame is provided with two band wheels, propulsion source, two load-transfer devices and two described guiding strut members in described frame;

This two bands wheels interval is arranged side by side, and these band wheels include one first belt wheel and one second belt wheel, and this first belt wheel and the second belt wheel interval arrange;

This propulsion source connects this two first belt wheel;

This load-transfer device is the ring-type belt body, and each sheathed being combined on these two bands wheels of this two load-transfer device has a spacing between this two load-transfer device;

This two guidings strut member is arranged at respectively the below of a part of belt body of this two load-transfer device, the groove face of the support slot of this two guidings strut member respectively with this part belt body of this two load-transfer device mutually against.

6. guide strut member for one kind, it is characterized in that: the end face of described guiding strut member is provided with support slot, the two ends of this support slot run through the two ends outside wall surface of this guiding strut member and form respectively an opening, and the place, both sides that the end face of this guiding strut member is positioned at this support slot is provided with respectively a wall.

7. guiding strut member as claimed in claim 6, it is characterized in that: the wall indent of a wherein side of described support slot is formed with a guide channel, and the groove face of this support slot and guide channel forms same plane.

8. guiding strut member as claimed in claim 6, it is characterized in that: the both sides wall of described support slot respectively indent is formed with a guide channel, and the groove face of this support slot and guide channel forms same plane.

9. such as each described guiding strut member in the claim 6 to 8, it is characterized in that: be respectively equipped with the guiding cylinder on the both sides groove face of described support slot, this guiding cylinder is cylinder, side outside wall surface of this guiding cylinder can for a lateral edges of this load-transfer device against.

10. such as each described guiding strut member in the claim 6 to 8, it is characterized in that: be respectively equipped with bearing on the both sides groove face of described support slot, a side outside wall surface of this bearing can for this load-transfer device against.

11. a conveyer belt apparatus that comprises each described guiding strut member in the claim 6 to 8 is characterized in that comprising: a frame, described frame are provided with two belt wheels, propulsion source, a load-transfer device and described guiding strut member;

This propulsion source connects belt wheel, and this load-transfer device is ring-type belt body and sheathed being combined on this two belt wheel, and the two ends of the support slot of this guiding strut member are respectively toward this two belt wheel, the groove face that this load-transfer device is positioned at the belt body of support slot top and this support slot mutually against.

12. a conveyer belt apparatus that comprises each described guiding strut member in the claim 6 to 8 is characterized in that comprising: a frame, described frame are provided with two band wheels, propulsion source, two load-transfer devices and two described guiding strut members;

This two bands wheels interval is arranged side by side, and these band wheels include one first belt wheel and one second belt wheel, and this first belt wheel and the second belt wheel interval arrange;

This propulsion source connects this two first belt wheel;

This load-transfer device is the ring-type belt body, and each sheathed being combined on these two bands wheels of this two load-transfer device has a spacing between this two load-transfer device;

This two guidings strut member is arranged at respectively the below of a part of belt body of this two load-transfer device, the groove face of the support slot of this two guidings strut member respectively with this part belt body of this two load-transfer device mutually against.

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