CN108714551A - A kind of architectural engineering Sand screen spring mechanism - Google Patents

Abstract

The invention discloses a kind of architectural engineering Sand screen spring mechanisms, including bottom plate, the upper surface of the bottom plate is fixedly connected there are two baffle, the left side of the baffle offers first through hole, the right side of the baffle is fixedly connected with the left side of driving device, the outer surface of the driving device and the left side of screen box overlap, and the front of the screen box offers the second through-hole.The architectural engineering Sand screen spring mechanism, by the way that motor, cam, screen box, briquetting, slide bar, sliding sleeve, the first spring, second spring, pulling force case and support plate is arranged, so that slide bar drives screen box to move right, screen box is persistently moved left and right, so that screen box shaking carries out sieve sand, so that fine sand is fallen by sieve plate in husky slot, when the amount of sand is excessive, multiple bobbing machines need not be installed on sieve plate and carry out sieve sand, the husky required cost of sieve is not only greatly reduced, the working efficiency of staff is also improved.

Description

A kind of architectural engineering Sand screen spring mechanism

Technical field

The present invention relates to Architectural Equipment technical field, specially a kind of architectural engineering Sand screen spring mechanism.

Background technology

Architectural engineering is a part for construction project, refer to through construction to all kinds of building constructions and its affiliated facility and The installation activity of the circuit mating with it, pipeline and equipment is formed by engineering entity.

Currently, the mode of some sieve sand is completed by bobbing machine, need bobbing machine being mounted on screen box, to sand Son is sieved, and when the husky amount of sieve is excessive, needs to install multiple bobbing machines on screen box, and bobbing machine can only be to a large amount of husky Son carries out slight vibrations, not only substantially increases the husky required cost of sieve, also reduces the working efficiency of staff.

Invention content

(1) the technical issues of solving

In view of the deficiencies of the prior art, it the present invention provides a kind of architectural engineering Sand screen spring mechanism, solves It needs bobbing machine being mounted on screen box, sand is sieved, when the husky amount of sieve is excessive, need to install on screen box multiple Bobbing machine, and the problem of bobbing machine can only carry out slight vibrations to a large amount of sands.

(2) technical solution

To achieve the above object, the present invention provides the following technical solutions：A kind of architectural engineering Sand screen spring mechanism, Including bottom plate, the upper surface of the bottom plate is fixedly connected there are two baffle, and the left side of the baffle offers first through hole, institute The right side for stating baffle is fixedly connected with the left side of driving device, and the outer surface of the driving device and the left side of screen box are taken It connects, the front of the screen box offers the second through-hole, sieve plate is provided in second through-hole, the lower surface of the screen box is fixed There are two link blocks for connection, and two link blocks are located between two baffles, the lower surface of the link block and connecting rod Top be fixedly connected.

The bottom end of the connecting rod is fixedly connected with the first sliding block, and first sliding block is slidably connected in the first sliding groove, The first sliding groove is opened in the upper surface of bottom plate, and the upper surface of the bottom plate is fixedly connected with the lower surface of husky slot, the sand Slot is located at the lower section of sieve plate, and the right side of the screen box is fixedly connected there are two briquetting, the right side of the briquetting and slide bar Left end is fixedly connected, and the outer surface of the slide bar is socketed with sliding sleeve, and the sliding sleeve is connected to the left side of pulling force case, the slide bar Outer surface be socketed with second spring.

The left and right ends of the second spring are fixedly connected with the left side of the right side of sliding sleeve and telescopic device respectively, institute The upper and lower surface for stating telescopic device has been fixedly connected with the second sliding block, and second sliding block is slidably connected at second sliding slot Interior, the second sliding slot is opened in the upper surface of pulling force chamber interior wall, the right side of the right end and pulling force chamber interior wall of the telescopic device Face is fixedly connected, and the right side of the pulling force case is fixedly connected with the left side of baffle.

Preferably, the driving device includes motor, the model Y80M1-2 of the motor, a left side for the motor body Side is fixedly connected with the right side of baffle, and the output shaft of the motor is fixedly connected with cam, the outer surface of the cam with The left side of screen box overlaps.

Preferably, the telescopic device includes support plate, the upper and lower surface of the support plate respectively with two The upper and lower surface of two sliding blocks is fixedly connected, and the right side of the support plate is fixedly connected there are two the first spring, and two The right end of a first spring is fixedly connected with the right side of pulling force chamber interior wall.

Preferably, the right side of the link block is set as inclined-plane, the shape setting of first sliding block and the first sliding groove For T-type.

Preferably, the upper surface of the bottom plate is fixedly connected with the lower surface of power supply, the upper surface of the power supply and switch Lower surface be fixedly connected.

Preferably, the output end of the power supply is electrically connected by conducting wire with the input terminal of switch, the output end of the switch It is electrically connected with the input terminal of motor by conducting wire.

(3) advantageous effect

The present invention provides a kind of architectural engineering Sand screen spring mechanisms, have following advantageous effect：

1, the architectural engineering Sand screen spring mechanism, by be arranged motor, cam, screen box, briquetting, slide bar, sliding sleeve, First spring, second spring, pulling force case and support plate, when needing to sieve husky, staff first pours into sand in screen box, control Motor processed work so that the output shaft strap cam of motor rotates so that cam rotation drives screen box to move right, when screen box to the right After movement so that the first tension force of spring drives support plate to be moved to the left so that support plate band moving slide-bar is moved to the left so that sliding Bar drives screen box to move right so that screen box can be moved left and right persistently so that it is husky that screen box shaking carries out sieve so that fine sand passes through Sieve plate is fallen into husky slot, when the amount of sand is excessive, multiple bobbing machines need not be installed on sieve plate and carry out sieve sand, not only significantly The husky required cost of sieve is reduced, the working efficiency of staff is also improved.

2, the architectural engineering Sand screen spring mechanism, by be arranged sieve plate, screen box, cam, the first spring, slide bar, Briquetting and the second through-hole, after screen box double swerve sieves sand, staff takes fine sand in husky slot away, then manually from the second through-hole Interior extraction sieve plate so that the larger sand of particle is fallen into husky slot so that the more convenient progress of sieve plate is sieved next time takes work.

3, architectural engineering Sand screen spring mechanism, by the way that the first sliding block, the first sliding groove, connecting rod and connection is arranged Block, when motor works, and screen box is driven to move left, the first sliding block is without departing from the first sliding groove so that sieve plate is more square when sieving husky Just, it ensure that the normal work of sieve plate, and structure of the invention is compact, reasonable design is highly practical.

Description of the drawings

Fig. 1 is the cross-sectional view that the present invention faces；

Fig. 2 is the structural schematic diagram that screen box of the present invention is faced；

Fig. 3 is the structural schematic diagram amplified at A of the present invention；

Fig. 4 is the cross-sectional view that the first sliding groove right side of the present invention regards.

In figure：1 baffle, 2 first through hole, 3 driving devices, 31 cams, 32 motors, 4 screen boxs, 5 briquettings, 6 slide bars, 7 sliding sleeves, 8 pulling force casees, 9 switches, 10 power supplys, 11 sieve plates, 12 second through-holes, 13 husky slots, 14 link blocks, 15 connecting rods, 16 first sliding blocks, 17 The first sliding groove, 18 bottom plates, 19 telescopic devices, 191 support plates, 192 first springs, 20 second sliding blocks, 21 second sliding slots, 22 second Spring.

Specific implementation mode

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 describes, 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 Figs. 1-3, the present invention provides a kind of technical solution：A kind of architectural engineering Sand screen spring mechanism, packet Bottom plate 18 is included, the upper surface of bottom plate 18 is fixedly connected with the lower surface of power supply 10, the lower surface of the upper surface and switch 9 of power supply 10 It is fixedly connected, by the way that power supply 10 is arranged so that power supply 10 can give motor 32 to power so that motor 32 can work normally, electricity The output end in source 10 is electrically connected by conducting wire with the input terminal of switch 9, by the way that switch 9 is arranged so that staff is more convenient Control motor 32 work, the output end of switch 9 is electrically connected by conducting wire with the input terminal of motor 32, and the upper surface of bottom plate 18 is consolidated There are two baffle 1, the left side of baffle 1 offers first through hole 2 for fixed connection, by the way that first through hole 2, the output of motor 32 is arranged Cam 31 can pass through first through hole 2 when axis strap cam 31 rotates so that when the rotation of cam 31 drives screen box 4 to move right more Convenient, the right side of baffle 1 is fixedly connected with the left side of driving device 3, the left side of the outer surface and screen box 4 of driving device 3 Face overlaps, and driving device 3 includes motor 32, the model Y80M1-2 of motor 32, left side and the baffle 1 of 32 fuselage of motor Right side is fixedly connected, and the output shaft of motor 32 is fixedly connected with cam 31, and the outer surface and the left side of screen box 4 of cam 31 are taken It connects, the front of screen box 4 offers the second through-hole 12, and sieve plate 11 is provided in the second through-hole 12, by the way that sieve plate 11, screen box 4 is arranged It is husky that shaking carries out sieve so that fine sand is fallen by sieve plate 11 in husky slot 13 so that staff it is more convenient take fine sand, sieve away The lower surface of case 4 is fixedly connected there are two link block 14, and the right side of link block 14 is set as inclined-plane, the first sliding block 16 and first Sliding slot 17 is shaped to T-type, by the way that link block 14 is arranged so that will not be fallen in husky slot 13 when fine sand is fallen from sieve plate 11 Outside, and two link blocks 14 are located between two baffles 1, and the lower surface of link block 14 is fixed with the top of connecting rod 15 to be connected It connects.

The bottom end of connecting rod 15 is fixedly connected with the first sliding block 16, and the first sliding block 16 is slidably connected in the first sliding groove 17, By the way that the first sliding block 16 and the first sliding groove 17 is arranged, when motor 32 works, and screen box 4 is driven to move left, the first sliding block 16 will not take off From the first sliding groove 17 so that sieve plate 11 is more convenient when sieving husky, ensure that the normal work of sieve plate 11, the first sliding groove 17 open up In the upper surface of bottom plate 18, the upper surface of bottom plate 18 is fixedly connected with the lower surface of husky slot 13, and husky slot 13 is located under sieve plate 11 The right side of side, screen box 4 is fixedly connected there are two briquetting 5, and the right side of briquetting 5 is fixedly connected with the left end of slide bar 6, slide bar 6 Outer surface be socketed with sliding sleeve 7, sliding sleeve 7 is connected to the left side of pulling force case 8, pass through be arranged sliding sleeve 7 so that slide bar 6 drive sieve Case 4 will not shake and more laborsaving when moving left and right, and the outer surface of slide bar 6 is socketed with second spring 22.

The left and right ends of second spring 22 are fixedly connected with the left side of the right side of sliding sleeve 7 and telescopic device 19 respectively, By the way that second spring 22 is arranged so that the pulling force of second spring 22 drives support plate 191 to be moved to the left so that 191 band of support plate Moving slide-bar 6 is moved to the left so that and slide bar 6 is more convenient when screen box 4 being driven to be moved to the left, and telescopic device 19 includes support plate 191, The upper and lower surface of support plate 191 is fixedly connected with the upper and lower surface of two the second sliding blocks 20 respectively, support plate 191 right side is fixedly connected there are two the first spring 192, and the right end of two the first springs 192 with 8 inner wall of pulling force case Right side is fixedly connected, and passes through and the first spring 192 is arranged so that the tension of the first spring 192 drives support plate 191 to moving to left It is dynamic so that support plate 191 is moved to the left with moving slide-bar 6 so that slide bar 6 drives screen box 4 to move right so that screen box 4 can be held It is continuous to move left and right so that the shaking of screen box 4 sieve more convenient when sand, the fixed company of upper and lower surface of telescopic device 19 It is connected to the second sliding block 20, the second sliding block 20 is slidably connected in second sliding slot 21, by the way that the second sliding block 20 is arranged so that support plate 191 band moving slide-bars 6 will not shake when moving left and right and more laborsaving, and second sliding slot 21 is opened in the upper surface of 8 inner wall of pulling force case, The right end of telescopic device 19 is fixedly connected with the right side of 8 inner wall of pulling force case, the left side of the right side and baffle 1 of pulling force case 8 It is fixedly connected.

In use, when needing to sieve husky, staff first pours into sand in screen box 4, and control motor 32 works so that The output shaft strap cam 31 of motor 32 rotates so that and the rotation of cam 31 drives screen box 4 to move right, after screen box 4 moves right, So that the tension of the first spring 192 drives support plate 191 to be moved to the left so that support plate 191 is moved to the left with moving slide-bar 6, is made Obtaining slide bar 6 drives screen box 4 to move right so that screen box 4 can be moved left and right persistently so that it is husky that the shaking of screen box 4 carries out sieve so that Fine sand is fallen by sieve plate 11 in husky slot 13, and after 4 double swerve of screen box sieves sand, staff takes fine sand in husky slot 13 away, Sieve plate 11 is extracted out out of second through-hole 12 so that the larger sand of particle is fallen into husky slot 13 so that sieve plate 11 is more square manually again Just progress sieves and takes work next time.

Can to sum up obtain, 1, the architectural engineering Sand screen spring mechanism, by be arranged motor 32, cam 31, screen box 4, Briquetting 5, slide bar 6, sliding sleeve 7, the first spring 192, second spring 22, pulling force case 8 and support plate 191, when needing to sieve husky, work Personnel first pour into sand in screen box 4, and control motor 32 works so that the output shaft strap cam 31 of motor 32 rotates so that The rotation of cam 31 drives screen box 4 to move right, after screen box 4 moves right so that the tension of the first spring 192 drives support plate 191 are moved to the left so that support plate 191 is moved to the left with moving slide-bar 6 so that slide bar 6 drives screen box 4 to move right so that sieve Case 4 can be moved left and right persistently so that it is husky that the shaking of screen box 4 carries out sieve so that fine sand is fallen by sieve plate 11 in husky slot 13, and sand is worked as When the amount of son is excessive, multiple bobbing machines need not be installed on sieve plate 11 and carry out sieve sand, not only greatly reduced required for sieve sand Cost, also improve the working efficiency of staff.

2, architectural engineering Sand screen spring mechanism, by the way that sieve plate 11, screen box 4, cam 31, the first spring is arranged 192, slide bar 6, briquetting 5 and the second through-hole 12, after 4 double swerve of screen box sieves sand, staff takes fine sand in husky slot 13 away, Sieve plate 11 is extracted out out of second through-hole 12 so that the larger sand of particle is fallen into husky slot 13 so that sieve plate 11 is more square manually again Just progress sieves and takes work next time.

3, architectural engineering Sand screen spring mechanism, by the way that the first sliding block 16, the first sliding groove 17, connecting rod 15 is arranged With link block 14, when motor 32 works, and screen box 4 is driven to move left, the first sliding block 16 is without departing from the first sliding groove 17 so that sieve Plate 11 is more convenient when sieving husky, ensure that the normal work of sieve plate 11, and structure of the invention is compact, reasonable design, practicability By force.

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

Claims (6)

1. a kind of architectural engineering Sand screen spring mechanism, including bottom plate (18), it is characterised in that：The bottom plate (18) it is upper Surface is fixedly connected there are two baffle (1), and the left side of the baffle (1) offers first through hole (2), the baffle (1) Right side is fixedly connected with the left side of driving device (3), the left side of the outer surface and screen box (4) of the driving device (3) The front of overlap joint, the screen box (4) offers the second through-hole (12), and sieve plate (11), institute are provided in second through-hole (12) The lower surface for stating screen box (4) is fixedly connected there are two link block (14), and two link blocks (14) are located at two baffles (1) Between, the lower surface of the link block (14) is fixedly connected with the top of connecting rod (15)；

The bottom end of the connecting rod (15) is fixedly connected with the first sliding block (16), and first sliding block (16) is slidably connected at first In sliding slot (17), the first sliding groove (17) is opened in the upper surface of bottom plate (18), the upper surface of the bottom plate (18) and husky slot (13) lower surface is fixedly connected, and the sand slot (13) is located at the lower section of sieve plate (11), and the right side of the screen box (4), which is fixed, to be connected It connects there are two briquetting (5), the right side of the briquetting (5) is fixedly connected with the left end of slide bar (6), the appearance of the slide bar (6) Surface cover is connected to sliding sleeve (7), and the sliding sleeve (7) is connected to the left side of pulling force case (8), and the outer surface of the slide bar (6) is socketed with Second spring (22)；

Left side of the left and right ends of the second spring (22) respectively with the right side of sliding sleeve (7) and telescopic device (19) is fixed Connection, the upper and lower surface of the telescopic device (19) have been fixedly connected with the second sliding block (20), second sliding block (20) it is slidably connected in second sliding slot (21), the second sliding slot (21) is opened in the upper surface of pulling force case (8) inner wall, described The right end of telescopic device (19) is fixedly connected with the right side of pulling force case (8) inner wall, the right side of the pulling force case (8) and baffle (1) left side is fixedly connected.

2. a kind of architectural engineering Sand screen spring mechanism according to claim 1, it is characterised in that：The driving dress It includes motor (32) to set (3), the model Y80M1-2 of the motor (32), the left side of motor (32) fuselage and baffle (1) right side is fixedly connected, and the output shaft of the motor (32) is fixedly connected with cam (31), the appearance of the cam (31) Face and the left side of screen box (4) overlap.

3. a kind of architectural engineering Sand screen spring mechanism according to claim 1, it is characterised in that：The flexible dress It includes support plate (191) to set (19), the upper and lower surface of the support plate (191) respectively with two the second sliding blocks (20) Upper and lower surface is fixedly connected, and the right side of the support plate (191) is fixedly connected with that there are two the first springs (192), and The right end of two the first springs (192) is fixedly connected with the right side of pulling force case (8) inner wall.

4. a kind of architectural engineering Sand screen spring mechanism according to claim 1, it is characterised in that：The link block (14) right side is set as inclined-plane, and first sliding block (16) and the first sliding groove (17) are shaped to T-type.

5. a kind of architectural engineering Sand screen spring mechanism according to claim 2, it is characterised in that：The bottom plate (18) upper surface is fixedly connected with the lower surface of power supply (10), the lower surface of the upper surface and switch (9) of the power supply (10) It is fixedly connected.

6. a kind of architectural engineering Sand screen spring mechanism according to claim 5, it is characterised in that：The power supply (10) output end is electrically connected by conducting wire with the input terminal of switch (9), and the output end of the switch (9) passes through conducting wire and motor (32) input terminal electrical connection.