CN109178582A - A kind of low-carbon energy-saving assembled architecture insulation board transfer device - Google Patents

Abstract

The invention discloses a kind of carbon energy-saving assembled insulating board for building transfer devices, including bottom plate, the upper surface of the bottom plate is fixedly connected by two fixed blocks with the lower surface of loading plate, and two fixed blocks are located at the left and right sides of loading plate lower surface, and the opposite face of two fixed blocks is connected with first bearing, and first rotating shaft is socketed in two first bearings, and two opposite one end of first rotating shaft are fixedly connected by threaded post, the surface of the threaded post is threaded with thread barrel, and the thread barrel is connected to the left side of link block.The low-carbon energy-saving assembled architecture insulation board transfer device, pass through setting threaded post, thread barrel, connecting plate, the first grip block, the first idler wheel, the second idler wheel and motor, to during to conveying sheet, fixation can be clamped to plate, it avoids plate from damaging during transportation to cause any property loss, and the conevying efficiency to plate can be improved.

Description

A kind of low-carbon energy-saving assembled architecture insulation board transfer device

Technical field

The present invention relates to low-carbon technology field, specially a kind of low-carbon energy-saving assembled architecture insulation board transfer device.

Background technique

Low-carbon, it is intended that lower greenhouse gas emission.As the development of world industrial economy, the sharp increase of population, the mankind are intended to The unlimited rising hoped is uncontrolled with the mode of production and life, and world climate faces increasingly severe problem, CO2 emission Measure increasing, earth's ozone layer is just by unprecedented crisis, and global Disastrous climate variation occurs repeatedly, seriously Jeopardize the living environment of the mankind and healthy and safe, the GDP of rapid growth or expansion that the mankind once be proud of because It has a greatly reduced quality for environmental pollution and climate change, the life for reducing discharge carbon dioxide is then called low-carbon life.

As economic globalization deeply develops, reducing energy consumption and GHG emissions mitigation becomes the sternness that international community faces and chooses War, " low-carbon economy " based on low energy consumption, low pollution become international hot spot, become after the industrial revolution, information revolution again One wave may generate the new trend of significant impact to global economy.

Vacuum heat-insulating building insulation board has good adiabatic heat-insulation effect, is current widely used novel building Building materials, also critically important to the transport process of insulating board for building, current insulation board weight is big, and worker can consume in transport process A large amount of physical strength, and existing transfer device cannot mostly be fixed insulation board, will lead to the process for making insulation board in transhipment Middle damage causes any property loss, and lower to the efficiency of insulation board transport.

Summary of the invention

(1) the technical issues of solving

In view of the deficiencies of the prior art, the present invention provides a kind of low-carbon energy-saving assembled architecture insulation board transfer device, It is big to solve current insulation board weight, worker can consume a large amount of physical strength in transport process, and existing transfer device is more Insulation board cannot be fixed, will lead to, which damages insulation board during transhipment, causes any property loss, and to insulation board The lower problem of conevying efficiency.

(2) technical solution

To achieve the above object, the invention provides the following technical scheme: a kind of low-carbon energy-saving assembled architecture insulation board turns The upper surface of shipping unit, including bottom plate, the bottom plate is fixedly connected by two fixed blocks with the lower surface of loading plate, and two Fixed block is located at the left and right sides of loading plate lower surface, and the opposite face of two fixed blocks is connected with first bearing, and First rotating shaft is socketed in two first bearings, and two opposite one end of first rotating shaft are fixedly connected by threaded post, institute The surface for stating threaded post is threaded with thread barrel, and the thread barrel is connected to the left side of link block, under the link block Surface is fixedly connected with the upper surface of sliding block, and the sliding block is slidably connected in the sliding slot that plate upper surface opens up.

The upper surface of the link block is fixedly connected with the lower surface of connecting plate, and the right side of the connecting plate is connected with two A sliding sleeve, and slide bar is socketed in two sliding sleeves, and the both ends of two slide bars opened up respectively with loading plate upper surface first The left and right sides of through-hole wall are fixedly connected, and the right side of the connecting plate passes through four telescopic devices and the first grip block Left side is fixedly connected, and four telescopic devices are located at the first grip block left side close to the position of quadrangle, the carrying The position that plate upper surface is located on the right side of the first grip block is fixedly connected with the second grip block.

The surface of right side first rotating shaft is fixedly connected with the first idler wheel, and first idler wheel is passed by belt and the second idler wheel Dynamic connection, the belt are located in the second through-hole that loading plate upper surface opens up, and it is defeated that second idler wheel is fixedly connected on motor The surface of shaft, the fuselage of the motor are fixedly connected with the upper surface of loading plate, and the motor is located at the right side of the second grip block Side, the four corners of the lower surface of base plate are connected with second bearing, are socketed with the second shaft in the second bearing, and described The bottom end of two shafts is fixedly connected with the upper surface of traveling wheel.

Preferably, the upper surface of the loading plate is fixedly connected with the lower surface of two handles, and two handles are symmetrically set It sets in the front and rear sides of motor, and the surface of two handles is socketed with Anti-slip cover, and the opposite face of two handles passes through connection Bar is fixedly connected.

Preferably, the right side of the connecting rod is provided with switch, the output end of the switch and the input terminal electricity of motor Connection, the input terminal of the switch are electrically connected with the output end of power supply.

Preferably, the lower surface of fixed plate, the left side of the fixed plate and the second grip block is arranged in the power supply Right side is fixedly connected.

Preferably, the opposite face of first grip block and the second grip block is provided with protective pad, first clamping The size of plate and the second grip block is identical, and the width of the protective pad is of same size with the first grip block, the protective pad Height is 0.9 times of the first grip block height.

Preferably, the telescopic device includes telescopic rod and spring, and the spring is socketed in the surface of telescopic rod, described to stretch The both ends of contracting bar and spring are fixedly connected with the opposite face of connecting plate and the first grip block respectively.

Preferably, the shape of the sliding block is T-shaped, and the shape of the sliding slot is T-shaped.

(3) beneficial effect

The present invention provides a kind of low-carbon energy-saving assembled architecture insulation board transfer device, have it is following the utility model has the advantages that

(1), the low-carbon energy-saving assembled architecture insulation board transfer device, by setting threaded post, thread barrel, connecting plate, First grip block, the first idler wheel, the second idler wheel and motor, the output shaft of motor can be such that the second idler wheel rotates when motor works, Second idler wheel can be such that the first idler wheel rotates by belt, so as to so that threaded post rotation, the thread barrel when threaded post rotation It can be moved on the surface of threaded post, the rotation direction for controlling motor output shaft can control the rotation direction of threaded post, from And can control moving left and right for thread barrel, connecting plate can be made to make the first clamping by telescopic device when thread barrel moves right Plate moves right, so as to preferably be clamped fixation to plate, thread barrel be moved to the left can make the first grip block and Second grip block is located remotely from each other, and removes plate from loading plate so as to be relaxed to plate, to transport to plate In defeated process, fixation can be clamped to plate, avoid plate from damaging during transportation and cause any property loss, and can To improve the conevying efficiency to plate.

(2), low-carbon energy-saving assembled architecture insulation board transfer device, by setting telescopic rod and spring, using flexible Bar can be fixed the first grip block, while spring can be fixed, so as to so that the first grip block and second Grip block is preferably clamped fixation to plate, using the elastic reaction of spring, when the first grip block moves right and plate When contact, it by the shortening of spring can prevent from that plate is caused to damage.

(3), low-carbon energy-saving assembled architecture insulation board transfer device, by the way that first bearing, first rotating shaft, second is arranged Bearing and the second shaft can be fixed threaded post using first bearing and the second shaft, and thread barrel can be made more convenient The surface in threaded post moved, while the first idler wheel can be made preferably threaded post to be driven to be rotated, second bearing Traveling wheel can be made more easily to rotate with the second shaft, preferably the direction of advance of bottom plate can be adjusted.

(4), the low-carbon energy-saving assembled architecture insulation board transfer device, can by setting traveling wheel and handle, traveling wheel To reduce the frictional force of bottom plate and ground, bottom plate can be made more easily to be moved, plate is transported, it can using handle It is controlled with the direction to bottom plate, so as to preferably be transported to plate.

(5), the low-carbon energy-saving assembled architecture insulation board transfer device, by the way that protective pad is arranged, when the first grip block and When second grip block is fixedly clamped to plate, it using protective pad can prevent from that plate is caused to damage, and structure of the invention is compact, Design is rationally, practical.

Detailed description of the invention

Fig. 1 is the schematic diagram of the section structure that the present invention faces；

Fig. 2 is the structural schematic diagram amplified at A of the present invention；

Fig. 3 is the schematic diagram of the section structure of sliding slot side view of the present invention.

In figure: 1 bottom plate, 2 fixed blocks, 3 loading plates, 4 first bearings, 5 first rotating shafts, 6 threaded posts, 7 thread barrels, 8 connections Block, 9 sliding blocks, 10 sliding slots, 11 connecting plates, 12 sliding sleeves, 13 slide bars, 14 first through hole, 15 telescopic devices, 151 telescopic rods, 152 bullets Spring, 16 first grip blocks, 17 second grip blocks, 18 first idler wheels, 19 belts, 20 second idler wheels, 21 second through-holes, 22 motors, 23 second bearings, 24 second shafts, 25 traveling wheels, 26 handles, 27 Anti-slip covers, 28 connecting rods, 29 switches, 30 power supplys, 31 are fixed Plate, 32 protective pads.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

As shown in Figure 1-3, the present invention provides a kind of technical solution: a kind of low-carbon energy-saving assembled architecture insulation board transhipment dress It sets, including bottom plate 1, by the way that bottom plate 1 is arranged, preferably loading plate 3 can be supported, while can make preferably to sliding block 9 are fixed, and the upper surface of bottom plate 1 is fixedly connected by two fixed blocks 2 with the lower surface of loading plate 3, and two fixed blocks 2 It is located at the left and right sides of 3 lower surface of loading plate, and the opposite face of two fixed blocks 2 is connected with first bearing 4, and two It is socketed with first rotating shaft 5 in first bearing 4, and the opposite one end of two first rotating shafts 5 is fixedly connected by threaded post 6, is led to Setting first bearing 4 and first rotating shaft 5 are crossed, threaded post 6 can be fixed using first bearing 4 and the second shaft 24, it can So that thread barrel 7 is more easily moved on the surface of threaded post 6, while the first idler wheel 18 can be made preferably to drive screw thread Column 6 is rotated, and the surface of threaded post 6 is threaded with thread barrel 7, and thread barrel 7 is connected to the left side of link block 8, connection The lower surface of block 8 is fixedly connected with the upper surface of sliding block 9, and sliding block 9 is slidably connected in the sliding slot 10 that 1 upper surface of bottom plate opens up, The shape of sliding block 9 be it is T-shaped, the shape of sliding slot 10 be it is T-shaped, by setting sliding slot 10 and sliding block 9, can to link block 8 into Row is fixed, and thread barrel 7 can be made more easily link block 8 to be driven to be moved left and right, so as to preferably make connecting plate 11 It is moved left and right.

The upper surface of link block 8 is fixedly connected with the lower surface of connecting plate 11, and there are two the right side clampings of connecting plate 11 Sliding sleeve 12, and slide bar 13 is socketed in two sliding sleeves 12, and the both ends of two slide bars 13 are opened up with 3 upper surface of loading plate respectively The left and right sides of 14 inner wall of first through hole be fixedly connected, can be more preferably to connecting plate by setting slide bar 13 and sliding sleeve 12 11 are fixed and support, and so as to preferably move left and right the first grip block 16, the right side of connecting plate 11 passes through four A telescopic device 15 is fixedly connected with the left side of the first grip block 16, and four telescopic devices 15 are located at the first grip block 16 left sides include telescopic rod 151 and spring 152 close to the position of quadrangle, telescopic device 15, and spring 152 is socketed in telescopic rod The both ends of 151 surface, telescopic rod 151 and spring 152 are fixed with the opposite face of connecting plate 11 and the first grip block 16 respectively to be connected It connects, by setting telescopic rod 151 and spring 152, first grip block 16 can be fixed using telescopic rod 151, while can Spring 152 to be fixed, so as to so that the first grip block 16 and the second grip block 17 are preferably clamped plate It is fixed, pass through the contracting of spring 152 when the first grip block 16 moves right with web contact using the elastic reaction of spring 152 Short to prevent from causing to damage to plate, the position that 3 upper surface of loading plate is located at the right side of the first grip block 16 is fixedly connected with the The opposite face of two grip blocks 17, the first grip block 16 and the second grip block 17 is provided with protective pad 32,16 He of the first grip block The size of second grip block 17 is identical, the width of protective pad 32 of same size, height of protective pad 32 with the first grip block 16 It is 0.9 times of 16 height of the first grip block, by the way that protective pad 32 is arranged, when the first grip block 16 and the second grip block 17 are to plate When being fixedly clamped, it using protective pad 32 can prevent from that plate is caused to damage.

The surface of right side first rotating shaft 5 is fixedly connected with the first idler wheel 18, and the first idler wheel 18 passes through belt 19 and the second rolling 20 transmission connection of wheel, belt 19 are located in the second through-hole 21 that 3 upper surface of loading plate opens up, and the second idler wheel 20 is fixedly connected on electricity The fuselage on the surface of 22 output shaft of machine, motor 22 is fixedly connected with the upper surface of loading plate 3, and motor 22 is located at the second grip block 17 Right side, by be arranged motor 22, motor 22 work when motor 22 output shaft can drive the second idler wheel 20 rotate, second rolling Wheel 20 can be such that the first idler wheel 18 rotates by belt 19, so as to so that the first idler wheel 18 drives the rotation of threaded post 6, loading plate 3 upper surface is fixedly connected with the lower surface of two handles 26, and two handles 26 are symmetricly set on the front and rear sides of motor 22, And the surface of two handles 26 is socketed with Anti-slip cover 27, and the opposite face of two handles 26 is fixedly connected by connecting rod 28, By setting handle 26 and Anti-slip cover 27, the direction of bottom plate 1 can be controlled using handle 26, so as to preferably right Plate is transported, and staff can be made preferably to hold to handle 26 using Anti-slip cover 27, the right side of connecting rod 28 Face is provided with switch 29, and the output end of switch 29 is electrically connected with the input terminal of motor 22, input terminal and the power supply 30 of switch 29 The lower surface of fixed plate 31 is arranged in output end electrical connection, power supply 30, can using switch 29 by setting switch 29 and power supply 30 Preferably to control the work of motor 22, so as to preferably be fixedly clamped and relax to plate, can be made using power supply 30 Motor 22 is more easily rotated, and the left side of fixed plate 31 is fixedly connected with the right side of the second grip block 17, under bottom plate 1 The four corners on surface are connected with second bearing 23, and the second shaft 24, the bottom end of the second shaft 24 are socketed in second bearing 23 It is fixedly connected with the upper surface of traveling wheel 25, by setting second bearing 23 and the second shaft 24, second bearing 23 and second turn Axis 24 can be such that traveling wheel 25 more easily rotates, can the direction of advance preferably to bottom plate 1 be adjusted, traveling wheel 25 can To reduce the frictional force of bottom plate 1 Yu ground, bottom plate 1 can be made more easily to be moved, plate is transported.

In use, plate is placed into the position between 3 upper surface the first grip block 16 of loading plate and the second grip block 17, And the right side of plate and the left side of the second grip block 17 are overlapped, and motor 22 is then controlled by switch 29 and is worked, motor 22 output shaft drives the rotation of the second idler wheel 20, and the second idler wheel 20 rotates the first idler wheel 18 by belt 19, so as to so that First rotating shaft 5 drives threaded post 6 to rotate, and thread barrel 7 moves right on the surface of threaded post 6, can make sliding block 9 in sliding slot 10 It moves right, while can make link block 8 that connecting plate 11 be driven to move right, so as to so that the first grip block 16 moves right It is dynamic, stopped working when protective pad 32 when left side is with web contact by the control motor 22 of switch 29, the first grip block 16 to During moving right telescopic device 15 can shorten, avoid impacting plate, to utilize traveling wheel 25 and handle 26 Bottom plate 1 can be moved, so as to transport to plate, motor is controlled by switch 29 after transporting to designated place 22 output shaft opposite direction rotation, so as to so that 6 opposite direction of threaded post rotate, so as to so that thread barrel 7 in threaded post 6 Surface is moved to the left, so that sliding block 9 and connecting plate 11 can be made to be moved to the left, the protective pad 32 when left side passes through when separating with plate Switch 29 controls motor 22 and stops working, and plate can be unloaded from loading plate 3.

Can to sum up obtain, the low-carbon energy-saving assembled architecture insulation board transfer device, by setting threaded post 6, thread barrel 7, Connecting plate 11, the first grip block 16, the first idler wheel 18, the second idler wheel 20 and motor 22, the output of motor 22 when motor 22 works Axis can be such that the second idler wheel 20 rotates, and the second idler wheel 20 can be such that the first idler wheel 18 rotates by belt 19, so as to so that spiral shell Line column 6 rotates, and when threaded post 6 rotates, thread barrel 7 can be moved on the surface of threaded post 6, control 22 output shaft of motor Rotation direction can control the rotation direction of threaded post 6, and so as to control moving left and right for thread barrel 7, thread barrel 7 moves right Connecting plate 11 can be made so that the first grip block 16 is moved right by telescopic device 15 when dynamic, so as to preferably to plate into Row is fixedly clamped, and thread barrel 7, which is moved to the left, can be such that the first grip block 16 and the second grip block 17 is located remotely from each other, so as to right Plate is relaxed removes plate from loading plate 3, to can be clamped to plate during to conveying sheet It is fixed, it avoids plate from damaging during transportation and causes any property loss, and the conevying efficiency to plate can be improved.

Meanwhile the low-carbon energy-saving assembled architecture insulation board transfer device, pass through setting telescopic rod 151 and spring 152, benefit First grip block 16 can be fixed, while spring 152 can be fixed with telescopic rod 151, so as to so that One grip block 16 and the second grip block 17 are preferably clamped fixation to plate, using the elastic reaction of spring 152, when first When grip block 16 is moved right with web contact, it by the shortening of spring 152 can prevent from that plate is caused to damage.

Meanwhile the low-carbon energy-saving assembled architecture insulation board transfer device, by setting first bearing 4, first rotating shaft 5, Second bearing 23 and the second shaft 24 can be fixed threaded post 6 using first bearing 4 and the second shaft 24, can make Thread barrel 7 is more easily moved on the surface of threaded post 6, while the first idler wheel 18 can be made preferably to drive threaded post 6 It is rotated, second bearing 23 and the second shaft 24 can be such that traveling wheel 25 more easily rotates, can be preferably to bottom plate 1 Direction of advance is adjusted.

Meanwhile the low-carbon energy-saving assembled architecture insulation board transfer device, pass through setting traveling wheel 25 and handle 26, walking Wheel 25 can reduce the frictional force of bottom plate 1 Yu ground, and bottom plate 1 can be made more easily to be moved and transported to plate, benefit The direction of bottom plate 1 can be controlled with handle 26, so as to preferably be transported to plate.

Meanwhile the low-carbon energy-saving assembled architecture insulation board transfer device, by the way that protective pad 32 is arranged, when the first grip block 16 and second grip block 17 using protective pad 32 can prevent from that plate is caused to damage when being fixedly clamped to plate, and the present invention Which has a compact structure and a reasonable design, it is practical.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (7)

1. a kind of low-carbon energy-saving assembled architecture insulation board transfer device, including bottom plate (1), it is characterised in that: the bottom plate (1) Upper surface be fixedly connected by two fixed blocks (2) with the lower surface of loading plate (3), and two fixed blocks (2) are located at The left and right sides of loading plate (3) lower surface, and the opposite face of two fixed blocks (2) is connected with first bearing (4), and two It is socketed with first rotating shaft (5) in one bearing (4), and the opposite one end of two first rotating shafts (5) connects by the way that threaded post (6) are fixed It connects, the surface of the threaded post (6) is threaded with thread barrel (7), and the thread barrel (7) is connected to the left side of link block (8) The lower surface in face, the link block (8) is fixedly connected with the upper surface of sliding block (9), and the sliding block (9) is slidably connected at bottom plate (1) in the sliding slot (10) that upper surface opens up；

The upper surface of the link block (8) is fixedly connected with the lower surface of connecting plate (11), the right side of the connecting plate (11) There are two sliding sleeve (12) for clamping, and are socketed with slide bar (13) in two sliding sleeves (12), and the both ends difference of two slide bars (13) The left and right sides of first through hole (14) inner wall opened up with loading plate (3) upper surface are fixedly connected, the connecting plate (11) Right side is fixedly connected by four telescopic devices (15) with the left side of the first grip block (16), and four telescopic devices (15) The first grip block (16) left side is located at close to the position of quadrangle, loading plate (3) upper surface is located at the first grip block (16) position on the right side of is fixedly connected with the second grip block (17)；

The surface of right side first rotating shaft (5) is fixedly connected with the first idler wheel (18), and first idler wheel (18) passes through belt (19) It is sequentially connected with the second idler wheel (20), the belt (19) is located in the second through-hole (21) that loading plate (3) upper surface opens up, institute State the surface that the second idler wheel (20) is fixedly connected on motor (22) output shaft, fuselage and loading plate (3) of the motor (22) Upper surface is fixedly connected, and the motor (22) is located at the right side of the second grip block (17), the four corners of bottom plate (1) lower surface It is connected with second bearing (23), is socketed with the second shaft (24) in the second bearing (23), second shaft (24) Bottom end is fixedly connected with the upper surface of traveling wheel (25).

2. a kind of low-carbon energy-saving assembled architecture insulation board transfer device according to claim 1, it is characterised in that: described The upper surface of loading plate (3) is fixedly connected with the lower surface of two handles (26), and two handles (26) are symmetricly set on motor (22) front and rear sides, and the surface of two handles (26) is socketed with Anti-slip cover (27), and the opposite face of two handles (26) It is fixedly connected by connecting rod (28).

3. a kind of low-carbon energy-saving assembled architecture insulation board transfer device according to claim 2, it is characterised in that: described The right side of connecting rod (28) is provided with switch (29), and the input terminal of the output end and motor (22) of the switch (29) is electrically connected It connects, the input terminal of the switch (29) is electrically connected with the output end of power supply (30).

4. a kind of low-carbon energy-saving assembled architecture insulation board transfer device according to claim 3, it is characterised in that: described Power supply (30) setting is on the lower surface of fixed plate (31), the left side of the fixed plate (31) and the right side of the second grip block (17) Face is fixedly connected.

5. a kind of low-carbon energy-saving assembled architecture insulation board transfer device according to claim 1, it is characterised in that: described The opposite face of first grip block (16) and the second grip block (17) is provided with protective pad (32), first grip block (16) and The size of second grip block (17) is identical, and the width of the protective pad (32) is of same size with the first grip block (16), described The height of protective pad (32) is (0.9 times) of the first grip block (16) height.

6. a kind of low-carbon energy-saving assembled architecture insulation board transfer device described in -5 according to claim 1, it is characterised in that: institute Stating telescopic device (15) includes telescopic rod (151) and spring (152), and the spring (152) is socketed in the table of telescopic rod (151) The both ends of face, the telescopic rod (151) and spring (152) are solid with the opposite face of connecting plate (11) and the first grip block (16) respectively Fixed connection.

7. a kind of low-carbon energy-saving assembled architecture insulation board transfer device described in -6 according to claim 1, it is characterised in that: institute The shape for stating sliding block (9) is (T-shaped), and the shape of the sliding slot (10) is T-shaped.