CN105422570A

CN105422570A - Fastening mechanism used for installation of shelves

Info

Publication number: CN105422570A
Application number: CN201510915232.4A
Authority: CN
Inventors: 孙莉新
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-12-10
Filing date: 2015-12-10
Publication date: 2016-03-23

Abstract

The invention discloses a fastening mechanism used for installation of shelves. The fastening mechanism comprises two bodies fixedly connected with installation boards respectively; the two ends of each body comprise base parts with annular surfaces used for being combined with the back faces of supporting legs of the shelves and horizontal column parts which are integrally formed and perpendicular to the annular surfaces; each horizontal column part comprises a cylindrical inner side portion which is close to the corresponding installation board, integrally connected with the corresponding annular surface and used for being combined with a fixing hole of the supporting leg of the corresponding shelf, a cylindrical outer side portion located away from the tail end of the corresponding installation board, and a middle extending portion which is located between the cylindrical inner side portion and the cylindrical outer side portion and is cylindrical on the whole. The fastening mechanism used for installation of the shelves can also control alternate mounting and dismounting of two shelves simultaneously, when one shelf is mounted, the other shelf can be dismounted at the same time for special needs, and therefore the mounting and dismounting efficiency of the supporting legs of the shelves is improved and manual intervention is reduced.

Description

A kind of retention mechanism installed for rack

Technical field

The invention belongs to fastener areas, more specifically relate to a kind of retention mechanism installed for rack.

Background technique

As everyone knows, rack is mainly used in placing objects, and this kind of rack generally adopts oblique L shape structure, and in general this rack, needs installation solid and reliable.Conventional mode or method have punches on a mounting board, first mounting mat nail or bolt etc., and then is fixed by the pin handle of equipment or device.But this mounting type needs manually to carry out screw tightening, in the occasion that some spatial constraints or operating time limit, this means of fixation is restricted.

Summary of the invention

For above-mentioned technical problem, the invention provides a kind of retention mechanism installed for rack, it can overcome the problems referred to above of the prior art, improves the efficiency of loading and unloading of the supporting foot of rack and reduces manual intervention, and can control the alternately handling of four racks simultaneously.

According to aspects of the present invention, a kind of retention mechanism installed for rack is provided, for four racks to be arranged on two mounting plates and to lock, comprise two bodies be fixedly connected with two described mounting plates respectively, the two ends of each described body include the base part of the annular surface at the supporting foot back side had for engaging described rack and the vertical horizontal columns part of integrated and described annular surface, described horizontal columns part comprises being connected with described annular surface one and cylindrical inside portion for engaging with the fixed hole on the supporting foot of rack near mounting plate, at the cylindrical outer side portion of the tail end away from mounting plate and between described cylindrical inside portion and described cylindrical outer side portion and overall cylindrical extension part between two parties, wherein, described extension part between two parties comprise axially extend and one penetrating in diametric(al) slide penetrating groove and the outer cylinder portion at described slip penetrating groove outer end place and in the place of described slip penetrating groove the inner cylindrical portion, wherein, the diameter that described extension part between two parties has is less than the diameter that described cylindrical inside portion and described cylindrical outer side portion have, formed for being contained in the depression being diametrically oppositely arranged the locking watt part and two semi-cylindricals symmetrical in structure stretch thus, to stretch in locking watt part each includes and axially to extend and cross section is the flexible sticking department of semi-circular shape and the joint bump that protrudes out from the intermediate portion the axial direction of described flexible sticking department in the penetrating groove of described slip for described two semi-cylindricals, wherein, the top and bottom of described flexible sticking department coordinate the outer circumferential face against described outer cylinder portion and interior cylindrical portion respectively when retracted mode, the tip edges of described joint bump be provided with drive inclined-plane in order to corresponding one in two of slide block inclined plane parts can be driven in axial sliding to coordinate thus described semi-cylindrical can be stretched and lock watt part and radially outwards drive to be in stretch out lock state in direction by bolt rod driving, wherein, described driving slide block comprise be oppositely arranged in order to the penetrating slot fit of described slip with lead two side face and have described two inclined plane parts be additionally oppositely arranged, described driving slide block can slide axially in the penetrating groove of described slip, wherein, the outside end place of described driving slide block is provided with the spacing bump in outside, in order to engage with the outer side surface of described joint bump thus to carry out spacing to the inside slip of described driving slide block, the inside end place of described driving slide block is provided with inner side limiting-position bump, in order to engage with the inner side surface of described joint bump thus to carry out spacing to the outside slip of described driving slide block, wherein, described two semi-cylindricals stretch be provided with the inside and outside both sides place being arranged in the penetrating groove that slides between locking watt part contraction spring in order to flexible for a described two semi-cylindricals locking watt part is reset to retracted mode, thus, when the flexible locking of a described two semi-cylindricals watt part is in retracted mode, the stretch outer peripheral surface in outer peripheral surface and the described cylindrical inside portion of locking watt part and described cylindrical outer side portion of described two semi-cylindricals is concordant thus the supporting foot of described rack is installed smoothly be close to described annular surface, when the flexible locking of a described two semi-cylindricals watt part be in stretch out lock state time, described two semi-cylindricals stretch locking watt part outer peripheral surface stretch out from the outer peripheral surface in described cylindrical inside portion and described cylindrical outer side portion thus the supporting foot of described rack locked, wherein, described screw rod axially extends in the penetrating groove of slip, and is connected with the hydraulic driving body for driving, described hydraulic driving body comprises: two bar piston hydraulic cylinder, and the end of two piston rods of described pair of bar piston hydraulic cylinder is all connected with two connecting rods, and one end of described every root connecting rod is fixedly connected with a described screw rod, for driving four described screw rods.

Wherein, in above-mentioned a kind of retention mechanism installed for rack, be provided with push rod between connecting rod and corresponding screw rod described in every root, one end of described push rod is connected with described linkage movable type, and the other end is fixedly connected with described screw rod; The installation direction of described push rod is vertical with the installation direction of described pair of bar piston hydraulic cylinder; Described piston rod and described connecting rod and all pass through hinge between described connecting rod and described push rod.

Pass through technique scheme, owing to employing by power-actuated extension member, its supporting foot at rack ensures that the entirety of whole erection column is columniform performance before installing, and it can ensure that the mounting hole of the supporting foot of rack can be enclosed within this erection column smoothly; After the supporting foot installation of rack is in place, this erection column can be made to be out of shape by power-actuated extension member thus stretch out a part to be fixed by the supporting foot of rack.In the present invention, owing to have employed the joint leading role of guide surface, it can ensure that promoting voussoir can not be twisted and deflect by axially leading exactly, to guarantee that power is applied on extension member efficiently.And being resetted by extension member by arranging the elastic element be in internal cavities, playing on the basis driving the action of retracting, the dropping place not affecting the supporting foot of rack is installed.And pass through the setting of the concrete shape of fixed body, the extension member of two semicircular ring shapes is made reliably to guide to stretch, can ensure that again extension member structure stress is in the axial direction firm, the impact of the thrust load in wedge shape part driving process can not be subject to.And by the inclined plane part on wedge shape part side, the space of sliding-groove can be made full use of, fully to realize the protruding of extension member, can physical dimension be reduced again, and make the leading role that wedge shape part is strengthened in movement process, thus make operation more solid and reliable.Whole apparatus structure is firm, reliable, the problems such as the inefficiency that the supporting foot that effectively can solve rack is installed and operation inconvenience.

In addition, the retention mechanism installed for rack of the present invention, the alternately handling of four racks can also be controlled simultaneously, when installation two racks, just can dismantle another two racks simultaneously, in order to special requirement, so improve rack supporting foot the efficiency of loading and unloading and reduce manual intervention.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of the retention mechanism for rack installation of the present invention;

Fig. 2 is the magnified partial view in Fig. 1;

Fig. 3 is the cross section view of the retention mechanism for rack installation of the present invention at arrow locations place in Fig. 1 and Fig. 2, wherein, the arrow locations in this accompanying drawing 3 corresponds to the sectional structure schematic diagram of the retention mechanism for rack installation of the present invention of Fig. 1 and Fig. 2;

Embodiment

Below in conjunction with figure 1 ?3, the present invention is described in detail.

According to embodiment, a kind of retention mechanism installed for rack, for four racks to be arranged on two mounting plates 88 and to lock, comprise two bodies 8 be fixedly connected with described mounting plate 88 respectively, the two ends of each described body 8 include the base part of the annular surface 81 at supporting foot 2 back side had for engaging described rack and the vertical horizontal columns part 9 of integrated and described annular surface 81, described horizontal columns part 9 comprises being connected with described annular surface 81 one and cylindrical inside portion 92 for engaging with the fixed hole on the supporting foot 2 of rack near mounting plate, at the cylindrical outer side portion 91 of the tail end away from mounting plate 88 and between described cylindrical inside portion 92 and described cylindrical outer side portion 91 and overall cylindrical extension part between two parties 93, wherein, described extension part between two parties 93 comprise axially extend and one penetrating in diametric(al) slide penetrating groove 933 and the outer cylinder portion 931 at described slip penetrating groove 933 outer end place and in the place of described slip penetrating groove 933 the inner cylindrical portion 932, wherein, the diameter that described extension part between two parties has is less than the diameter that described cylindrical inside portion 92 and described cylindrical outer side portion 91 have, formed thus and be diametrically oppositely arranged and the flexible locking of two semi-cylindricals symmetrical in structure watt part 95 for being contained in, the depression of 96, the flexible locking of described two semi-cylindricals watt part 95, each in 96 includes and axially to extend and cross section is the flexible sticking department 561 of semi-circular shape and the joint bump 562 that protrudes out from the intermediate portion the axial direction of described flexible sticking department 561 in the penetrating groove 933 of described slip, wherein, the top and bottom of described flexible sticking department 561 coordinate the outer circumferential face against described outer cylinder portion 931 and interior cylindrical portion 932 respectively when retracted mode, the tip edges of described joint bump 562 is provided with and drives inclined-plane 5621 in order to corresponding one in two of slide block 6 inclined plane parts 61 can be driven in axial sliding to coordinate thus described semi-cylindrical can be stretched and lock watt part 95 to being driven by screw rod 7,96 radially direction outwards drive to be in stretch out lock state, wherein, described driving slide block 6 comprise be oppositely arranged in order to two side face 621 coordinating to lead with the penetrating groove of described slip 933 and there are described two inclined plane parts 61 be additionally oppositely arranged, described driving slide block 6 can slide axially in the penetrating groove 933 of described slip, wherein, the outside end place of described driving slide block 6 is provided with the spacing bump 6111 in outside, in order to engage with the outer side surface of described joint bump 562 thus to carry out spacing to the inside slip of described driving slide block 6, the inside end place of described driving slide block 6 is provided with inner side limiting-position bump 6112, in order to engage with the inner side surface of described joint bump 562 thus to carry out spacing to the outside slip of described driving slide block 6, wherein, described two semi-cylindricals stretch the contraction spring 31,32 that is provided with the inside and outside both sides place being arranged in the penetrating groove 933 that slides between locking watt part 95,96 in order to lock watt part 95,96 be reset to retracted mode by flexible for described two semi-cylindricals, thus, when the flexible locking of described two semi-cylindricals watt part 95, 96 when being in retracted mode, the flexible locking of described two semi-cylindricals watt part 95, the outer peripheral surface in the outer peripheral surface of 96 and described cylindrical inside portion 92 and described cylindrical outer side portion 91 is concordant thus the supporting foot 2 of described rack is installed smoothly be close to described annular surface 81, when the flexible locking of described two semi-cylindricals watt part 95, 96 are in when stretching out lock state, the flexible locking of described two semi-cylindricals watt part 95, the outer peripheral surface of 96 stretches out from the outer peripheral surface in described cylindrical inside portion 92 and described cylindrical outer side portion 91 thus is locked by the supporting foot 2 of described rack, wherein, described screw rod 7 axially extends in the penetrating groove 933 of slip, and the hydraulic driving body be connected with for driving, this hydraulic driving body comprises: two bar piston hydraulic cylinder 71, the end of two piston rods 711 of two bar piston hydraulic cylinder 71 is all connected with two connecting rods 712, one end of every root connecting rod 712 is fixedly connected with a screw rod 7, for driving four screw rods, realizes the alternately handling of four racks.

In the present invention, push rod 713 is provided with between every root connecting rod 712 and corresponding screw rod 7, one end of push rod 713 is connected with connecting rod 712 is movable, the other end is fixedly connected with screw rod 7, the installation direction of this push rod 713 is vertical with the installation direction of two bar piston hydraulic cylinder 71, and piston rod 711 and connecting rod 712 and all pass through hinge between connecting rod 712 and push rod 713.

Owing to employing by power-actuated extension member, its supporting foot at rack ensures that the entirety of whole erection column is columniform performance before installing, and it can ensure that the mounting hole of the supporting foot of rack can be enclosed within this erection column smoothly; After the supporting foot installation of rack is in place, this erection column can be made to be out of shape by power-actuated extension member thus stretch out a part to be fixed by the supporting foot of rack.In the present invention, owing to have employed the joint leading role of guide surface, it can ensure that promoting voussoir can not be twisted and deflect by axially leading exactly, to guarantee that power is applied on extension member efficiently.And being resetted by extension member by arranging the elastic element be in internal cavities, playing on the basis driving the action of retracting, the dropping place not affecting the supporting foot of rack is installed.And pass through the setting of the concrete shape of fixed body, the extension member of two semicircular ring shapes is made reliably to guide to stretch, can ensure that again extension member structure stress is in the axial direction firm, the impact of the thrust load in wedge shape part driving process can not be subject to.And by the inclined plane part on wedge shape part side, the space of sliding-groove can be made full use of, fully to realize the protruding of extension member, can physical dimension be reduced again, and make the leading role that wedge shape part is strengthened in movement process, thus make operation more solid and reliable.

It may be noted that this specific descriptions are not considered as any limitation of the invention.

Claims

1. the retention mechanism installed for rack, go up for four racks being arranged on two mounting plates (88) and locking, it is characterized in that, described retention mechanism comprises: two bodies (8) be fixedly connected with two described mounting plates (88) respectively;

The two ends of each described body (8) include the base part of the annular surface (81) at supporting foot (2) back side had for engaging described rack and the vertical horizontal columns part (9) of integrated and described annular surface (81), described horizontal columns part (9) comprises being connected and cylindrical inside portion (92) for engaging with the fixed hole on the supporting foot (2) of rack with described annular surface (81) one near mounting plate, be positioned at away from the cylindrical outer side portion (91) of the tail end of mounting plate (88) and between described cylindrical inside portion (92) and described cylindrical outer side portion (91) and overall cylindrical extension part between two parties (93), wherein, described extension part between two parties (93) comprises and axially extending and one penetrating in the diametric(al) penetrating groove (933) and in the outer cylinder portion (931) at the penetrating groove of described slip (933) outer end place and the interior cylindrical portion (932) at the penetrating groove of described slip (933) the inner place of sliding, wherein, the diameter that described extension part between two parties has is less than the diameter that described cylindrical inside portion (92) and described cylindrical outer side portion (91) have, formed thus and be diametrically oppositely arranged and the flexible locking of two semi-cylindricals symmetrical in structure watt part (95 for being contained in, 96) depression, the flexible locking of described two semi-cylindricals watt part (95,96) each in includes and axially to extend and cross section is the flexible sticking department (561) of semi-circular shape and the joint bump (562) that protrudes out from the intermediate portion the axial direction of described flexible sticking department (561) in the penetrating groove of described slip (933), wherein, the top and bottom of described flexible sticking department (561) coordinate the outer circumferential face against described outer cylinder portion (931) and interior cylindrical portion (932) respectively when retracted mode, the tip edges of described joint bump (562) is provided with and drives inclined-plane (5621) in order to corresponding one in two inclined plane parts (61) of slide block (6) can be driven in axial sliding to coordinate thus described semi-cylindrical can be stretched and lock a watt part (95 to being driven by screw rod (7), 96) radially direction outwards drives to be in stretch out lock state, wherein, described driving slide block (6) comprise be oppositely arranged in order to coordinate with the penetrating groove of described slip (933) with lead two side face (621) and there are described two inclined plane parts (61) be additionally oppositely arranged, described driving slide block (6) can slide axially in the penetrating groove of described slip (933), wherein, the outside end place of described driving slide block (6) is provided with the spacing bump in outside (6111), in order to engage with the outer side surface of described joint bump (562) thus to carry out spacing to the inside slip of described driving slide block (6), the inside end place of described driving slide block (6) is provided with inner side limiting-position bump (6112), in order to engage with the inner side surface of described joint bump (562) thus to carry out spacing to the outside slip of described driving slide block (6), wherein, the contraction spring (31,32) at the inside and outside both sides place being arranged in the penetrating groove (933) that slides is provided with between described two semi-cylindricals flexible locking watt part (95,96) in order to described two semi-cylindricals flexible locking watt part (95,96) are reset to retracted mode, thus, when the flexible locking of described two semi-cylindricals watt part (95, 96) when being in retracted mode, the flexible locking of described two semi-cylindricals watt part (95, 96) outer peripheral surface in outer peripheral surface and described cylindrical inside portion (92) and described cylindrical outer side portion (91) is concordant thus the supporting foot of described rack (2) is installed smoothly be close to described annular surface (81), when the flexible locking of described two semi-cylindricals watt part (95, 96) be in when stretching out lock state, the flexible locking of described two semi-cylindricals watt part (95, 96) outer peripheral surface stretches out from the outer peripheral surface in described cylindrical inside portion (92) and described cylindrical outer side portion (91) thus is locked by the supporting foot (2) of described rack, wherein, described screw rod (7) axially extends in the penetrating groove of slip (933), and is connected with the hydraulic driving body for driving, described hydraulic driving body comprises: two bar piston hydraulic cylinder (71), the end of two piston rods (711) of described pair of bar piston hydraulic cylinder (71) is all connected with two connecting rods (712), one end of described every root connecting rod (712) is fixedly connected with a described screw rod (7), for driving four described screw rods (7).

2. as claimed in claim 1 a kind of for rack install retention mechanism, it is characterized in that, push rod (713) is provided with between connecting rod (712) with corresponding screw rod (7) described in every root, one end of described push rod (713) is connected with described connecting rod (712) is movable, and the other end is fixedly connected with described screw rod (7); The installation direction of described push rod (713) is vertical with the installation direction of described pair of bar piston hydraulic cylinder (71); Described piston rod (711) and described connecting rod (712) and all pass through hinge between described connecting rod (712) and described push rod (713).