CN208327142U - A kind of self energizing effort forcipated sling - Google Patents

Abstract

The utility model discloses a kind of self energizing effort forcipated sling, including two tong arms, tong arm are longitudinally disposed, it is hinged by axis between tong arm, tong arm is divided into handle end and compression end by axis, and compression end accompanies wallboard, offers fabrication hole in the plate face of wallboard, the both ends of fabrication hole are equipped with platen, platen is respectively hinged on tong arm, and one end that platen is contacted with wallboard offers limit hole, and limit hole is horizontally disposed, hanging axis is inserted between limit hole, hanging axis runs through fabrication hole；Handle end is equipped with two hoist cables, and two hoist cables are connect with tong arm respectively, and two hoist cables are connected with hanging ring jointly.The utility model can be with the technical problem of heat preservation light wall board lifting and splicing in effective solution assembled architecture, and structure is simple, easily operated.

Description

A kind of self energizing effort forcipated sling

Technical field

The utility model relates to suspender field more particularly to a kind of self energizing effort forcipated slings.

Background technique

Suspender refers to the device of hanged weight in hoisting machinery.The hanged most common suspender of work piece is suspension hook, suspender belt, There is also hanging ring, hoisting suction cup, clamp and pallet forks etc., are widely used in hoisting and hanging industry.

With the great attention that Environmental is protected, in order to reduce pollution of the construction market to environment, country advocate and Widely popularize assembled architecture.But the production of the wallboard of assembled architecture, lifting, transport and assembly always exist it is many endless Kind problem, the present invention are a kind of self energizing effort forcipated slings when lifting lightweight wall plate in assembled architecture, are successfully solved It has determined the problems such as lifting and splicing of heat preservation light wall board in assembled architecture.

Utility model content

The purpose of this utility model is to provide a kind of self energizing effort forcipated slings, to solve heat preservation light wall board lifting and spell The technical issues of connecing.

The utility model using following technical scheme in order to solve the above technical problems, realized:

The utility model provides a kind of self energizing effort forcipated sling, including two tong arms, and tong arm is longitudinally disposed, between tong arm Hinged by axis, tong arm is divided into handle end and compression end by axis, and compression end accompanies wallboard, offers in the plate face of wallboard Fabrication hole, the both ends of fabrication hole are equipped with platen, and platen is respectively hinged on tong arm, and one end that platen is contacted with wallboard offers Limit hole, limit hole is horizontally disposed, and hanging axis is inserted between limit hole, and hanging axis runs through fabrication hole；Handle end is equipped with two hoist cables, Two hoist cables are connect with tong arm respectively, and two hoist cables are connected with hanging ring jointly.

Preferably, platen offers stepped hole, and stepped hole is coaxial with limit hole, and the diameter of stepped hole is greater than the straight of limit hole Diameter, stepped hole are arranged between limit hole and wallboard, and hanging axis is affixed there are two the shaft shoulder, and the shaft shoulder is symmetricly set on hanging axis, the shaft shoulder Cooperate with stepped hole.

Preferably, platen is connected with link block far from one end of wallboard, and tong arm is equipped with groove close to the side of link block, even It connects block to be plugged in groove, link block and groove are through there is pin shaft.

Preferably, handle end is set there are two fixed ring, and two fixed rings are respectively and fixedly connected on tong arm, and hoist cable passes through fixed ring It is connect with tong arm.

Preferably, platen is equipped with buffer layer close to one end of wallboard.

Preferably, tong arm is affixed has elastic component, and elastic element is arranged between tong arm and platen.

Preferably, elastic element is rubber pad.

Preferably, the middle upper end of wallboard is arranged in fabrication hole.

Working principle: the lever principle in jaw type frame structure type is utilized in the utility model, when lifting wallboard, can pass through Suspension hook pulls hanging ring and hoist cable, and two tong arms inwardly draw simultaneously and generate pulling force, and pulling force is transmitted to the compression end of tong arm, and compression end is logical It crosses platen lifting force is become into pressing force and be pressed on wallboard, to complete to lift by crane.

In the utility model, with varying in weight for wallboard, lifting force can adjust pressing force therewith, make the pressing force of platen It can change automatically with the gravity of wallboard, wallboard weight, lifting force is big, and pressing force becomes larger therewith, conversely, wallboard weight mitigates, Lifting force becomes smaller, and pressing force also becomes smaller therewith, and it is quick to protect light weight wall comprehensively again, greatly improves construction efficiency； It is articulated connection between platen and tong arm, therefore, with the variation of wallboard thickness, platen can be adjusted automatically under the action of pressing force Angle between examination and tong arm, so that the contact between platen and wallboard more agrees with.

The cooperation of stepped hole set by the centre of the shaft shoulder and platen, can effectively prevent the axial movement of hanging axis, eliminate simultaneously The cumbersome technique of screw and nut hold-down mechanism keeps the lifting of wallboard quick, safe and reliable, and efficiency increases substantially.

Platen, which is equipped with buffer layer close to one end of wallboard, can reduce platen abrasion caused by wallboard, while avoid compressing Power causes excessive compression to wallboard.

Elastic element, which is arranged, can reduce abrasion between platen and tong arm, avoid platen right under the counter-force effect of pressing force Tong arm damages.

The upper position of wallboard is arranged in fabrication hole, unaffected to assembled wallboard and surrounding splicing, to give wall The splicing installation of plate is brought great convenience, because quick and convenient, so that construction efficiency be made to greatly improve.

The beneficial effects of the utility model are: the utility model provides a kind of self energizing effort forcipated sling, it can be effective The technical problem of heat preservation light wall board lifting and splicing in assembled architecture is solved, and structure is simple, it is easily operated.

Detailed description of the invention

Fig. 1 is the front view of the utility model.

Fig. 2 is the detail of construction at compression end position in the utility model.

Appended drawing reference: 1- tong arm, 2- wallboard, 3- fabrication hole, 4- hanging axis, the 5- shaft shoulder, 6- platen, 7- limit hole, 8- step Hole, 9- buffer layer, 10- link block, 11- groove, 12- elastic element, 13- fixed ring, 14- hoist cable, 15- hanging ring, 16- pin shaft.

Specific embodiment

In order to be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, under In conjunction with specific embodiments, the utility model is further described, but following embodiments are only the preferred implementation of the utility model in face Example, and it is not all.Based on the implementation example in the implementation mode, those skilled in the art are without making creative work Obtained other embodiments, belong to the protection scope of the utility model.

As shown in Figs. 1-2, a kind of self energizing effort forcipated sling, including two tong arms 1, tong arm 1 is longitudinally disposed, tong arm 1 it Between by axis it is hinged, tong arm is divided into handle end and compression end by axis, and compression end accompanies wallboard 2, opens in the plate face of wallboard 2 Equipped with fabrication hole 3, the middle upper end of wallboard 2 is arranged in fabrication hole 3, and the both ends of fabrication hole 3 are equipped with platen 6, and platen 6 is close to wallboard 2 one end is equipped with buffer layer 9, and platen 6 is respectively hinged on tong arm 1, and platen 6 is connected with link block 10 far from one end of wallboard 2, Tong arm 1 is equipped with groove 11 close to the side of link block 10, and link block 10 is plugged in groove 11, and link block 10 and groove 11 pass through It is installed with pin shaft 16；One end that platen 6 is contacted with wallboard 2 offers limit hole 7, and limit hole 7 is horizontally disposed, and limit hole 7 interleaves Equipped with hanging axis 4, hanging axis 4 runs through fabrication hole 3, and platen 6 offers stepped hole 8, and stepped hole 8 and limit hole 7 are coaxial, stepped hole 8 Diameter is greater than the diameter of limit hole 7, and stepped hole 8 is arranged between limit hole 7 and wallboard 2, and hanging axis 4 is affixed, and there are two the shaft shoulder 5, axis Shoulder 5 is symmetricly set on hanging axis 4, and the shaft shoulder 5 and stepped hole 8 cooperate；Tong arm 1 is affixed to have elastic component 12, and elastic element 12 is arranged Between tong arm 1 and platen 6, elastic element 12 is rubber pad；Handle end be equipped with two hoist cables 14, two hoist cables 14 respectively with pincers Arm 1 connects, and handle end is set there are two fixed ring 13, and two fixed rings 13 are respectively and fixedly connected on tong arm 1, and hoist cable 14 passes through fixed ring 13 connect with tong arm 1, and two hoist cables 14 are connected with hanging ring 15 jointly.

The utility model provides a kind of self energizing effort forcipated sling, can be with heat-insulating light in effective solution assembled architecture The technical problem of wallboard lifting and splicing, and structure is simple, it is easily operated.

Working principle: the lever principle in jaw type frame structure type is utilized in the utility model, when lifting wallboard, can pass through Suspension hook pulls hanging ring and hoist cable, and two tong arms inwardly draw simultaneously and generate pulling force, and pulling force is transmitted to the compression end of tong arm, and compression end is logical It crosses platen lifting force is become into pressing force and be pressed on wallboard, to complete to lift by crane.

In the utility model, with varying in weight for wallboard, lifting force can adjust pressing force therewith, make the pressing force of platen It can change automatically with the gravity of wallboard, wallboard weight, lifting force is big, and pressing force becomes larger therewith, conversely, wallboard weight mitigates, Lifting force becomes smaller, and pressing force also becomes smaller therewith, and it is quick to protect light weight wall comprehensively again, greatly improves construction efficiency； It is articulated connection between platen and tong arm, therefore, with the variation of wallboard thickness, platen can be adjusted automatically under the action of pressing force Angle between examination and tong arm, so that the contact between platen and wallboard more agrees with.

The cooperation of stepped hole set by the centre of the shaft shoulder and platen, can effectively prevent the axial movement of hanging axis, eliminate simultaneously The cumbersome technique of screw and nut hold-down mechanism keeps the lifting of wallboard quick, safe and reliable, and efficiency increases substantially.

Platen, which is equipped with buffer layer close to one end of wallboard, can reduce platen abrasion caused by wallboard, while avoid compressing Power causes excessive compression to wallboard.

Elastic element, which is arranged, can reduce abrasion between platen and tong arm, avoid platen right under the counter-force effect of pressing force Tong arm damages.

The upper position of wallboard is arranged in fabrication hole, unaffected to assembled wallboard and surrounding splicing, to give wall The splicing installation of plate is brought great convenience, because quick and convenient, so that construction efficiency be made to greatly improve.

Basic principles, main features, and advantages of the present invention has been shown and described above.Current row The technical staff of industry is described in above embodiments and description it should be appreciated that the present utility model is not limited to the above embodiments Be only the utility model preference, be not intended to limit the utility model, do not departing from the spirit and scope of the utility model Under the premise of, the utility model also has various changes and improvements, these changes and improvements both fall within claimed it is practical In novel range.The protection scope of the present invention is defined by the appended claims and their equivalents.

Claims (8)

1. a kind of self energizing effort forcipated sling, including two tong arms (1), the tong arm (1) is longitudinally disposed, the tong arm (1) it Between it is hinged by axis, the tong arm is divided into handle end and compression end by the axis, which is characterized in that compression end folder Have wallboard (2), offered fabrication hole (3) in the plate face of the wallboard (2), the both ends of the fabrication hole (3) are equipped with platen (6), the platen (6) is respectively hinged on the tong arm (1), and one end that the platen (6) contacts with the wallboard (2) opens up Have limit hole (7), the limit hole (7) is horizontally disposed, is inserted with hanging axis (4) between the limit hole (7), the hanging axis (4) Through the fabrication hole (3)；The handle end be equipped with two hoist cables (14), two hoist cables (14) respectively with the tong arm (1) it connects, two hoist cables (14) are connected with hanging ring (15) jointly.

2. a kind of self energizing effort forcipated sling according to claim 1, which is characterized in that the platen (6) offers step Hole (8), coaxially, the diameter of the stepped hole (8) is greater than the limit hole (7) for the stepped hole (8) and the limit hole (7) Diameter, the stepped hole (8) are arranged between the limit hole (7) and the wallboard (2), there are two the hanging axis (4) is affixed The shaft shoulder (5), the shaft shoulder (5) are symmetricly set on the hanging axis (4), and the shaft shoulder (5) and the stepped hole (8) cooperate.

3. a kind of self energizing effort forcipated sling according to claim 1, which is characterized in that the platen (6) is far from the wall One end of plate (2) is connected with link block (10), and the tong arm (1) is equipped with groove (11) close to the side of the link block (10), The link block (10) is plugged in the groove (11), and the link block (10) and the groove (11) are through there is pin shaft (16).

4. a kind of self energizing effort forcipated sling according to claim 1, which is characterized in that the handle end sets that there are two fixed Ring (13), two fixed rings (13) are respectively and fixedly connected on the tong arm (1), and the hoist cable (14) passes through the fixed ring (13) it is connect with the tong arm (1).

5. a kind of self energizing effort forcipated sling according to claim 1, which is characterized in that the platen (6) is close to the wall One end of plate (2) is equipped with buffer layer (9).

6. a kind of self energizing effort forcipated sling according to claim 1, which is characterized in that the tong arm (1) is affixed flexible Element (12), the elastic element (12) are arranged between the tong arm (1) and the platen (6).

7. a kind of self energizing effort forcipated sling according to claim 6, which is characterized in that the elastic element (12) is rubber Pad.

8. a kind of self energizing effort forcipated sling according to claim 1, which is characterized in that the fabrication hole (3) is arranged in institute State the middle upper end of wallboard (2).