CN205169758U - Lift that two layers flow waterline was used - Google Patents

Abstract

The utility model relates to a lift that two layers flow waterline was used belongs to production facility technical field. Including the frame, set up the lift track mechanism in the frame and set up in the electrical control box of frame bottom, lift track mechanism includes PMKD, sets up in the unsteady board of PMKD top, board bottom connection lift cylinder floats, the last vertical optical axis of controlling parallel symmetry that is equipped with of PMKD, linear bearing subassembly sliding connection is passed through on the optical axis in unsteady board both sides, the belt track of parallel symmetry about being provided with on the unsteady board, belt between tracks connection drive arrangement, belt track front end and rear end are equipped with front end inductor and rear end inductor respectively. The utility model discloses can set up in the optional position of pipelining, download the thing on quick, the efficient, accomplish the material transport work that the two layers flow waterline was used, height error is little, has stable in structure, high, the noiseless advantage of precision, has improved the production efficiency of pipelining greatly.

Description

The elevator of two layers flow waterline

Technical field

The utility model belongs to production facilities technical field, is specifically related to a kind of elevator of two layers flow waterline.

Background technology

The existing jacking equipment at two layers flow waterline lower channel carrying goods or device, generally comprise fork type elevator, Telescopic cylindrical lift, aluminum alloy (column) formula elevator, articulated arm lift, chain-type elevator, but be generally all separate operaton, be directly used in the work efficiency of pipelining conveyer connecting conveyer not high.Elevator comparatively conventional in existing technique, such as fork type elevator, the lifting mechanism of its scissor-type, although structure is simple, for the material that some are heavier, when especially higher for lift height, this structure is very unstable, easily swings, and control accuracy is poor.

Summary of the invention

The purpose of this utility model is exactly the defect for prior art, provides a kind of elevator of two layers flow waterline.

The technical solution adopted in the utility model is: comprise frame, the electric control box being arranged at the fluctuating orbit mechanism in frame and being arranged at bottom frame, described fluctuating orbit mechanism comprises fixed base plate, be arranged at the float plate above fixed base plate, lift cylinder is connected bottom described float plate, described fixed base plate is provided with the vertical optical axis of left and right Parallel Symmetric, described float plate both sides are connected on optical axis by linear bearing component slippage, described float plate is provided with the strip channel of left and right Parallel Symmetric, described strip channel connecting drive device, described strip channel front-end and back-end are respectively equipped with front end inductor and rear end inductor.

Preferred structure further, described actuating device comprises transmission shaft, and described transmission shaft two ends are in transmission connection with the strip channel of left and right Parallel Symmetric respectively, and described transmission shaft is connected with motor by Timing Belt, coupler.

Preferred structure further, the described float plate left and right sides is also provided with rising latter end energy disperser, and described rising latter end energy disperser top is arranged higher than strip channel, and is fixed in float plate by bumper support.

Preferred structure, the fixed base plate below described float plate is also provided with decline latter end energy disperser further.

Preferred structure further, the fixed base plate of described strip channel rear end is provided with rear end-stopping plate.

Preferred structure further, described optical axis top is provided with the end plate of horizontal arrangement.

Preferred structure further, described frame top is furnished with safe grating.

The utility model can be arranged on the optional position of pipelining, loading up and down fast and efficiently, complete the mass transport work of two layers flow waterline, height error is little, there is Stability Analysis of Structures, high, the noiseless advantage of precision, substantially increase the production efficiency of pipelining.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation;

Fig. 2 is fluctuating orbit mechanism structure schematic diagram.

In figure: end-stopping plate, 15-rear end inductor, 16-strip channel, 20-transmission shaft, 21-front end inductor, 22-decline latter end energy disperser, 23-motor, 24-coupler, 25-Timing Belt, 26-bearing seat after 1-safe grating, 2-frame, 3-fluctuating orbit mechanism, 4-electric control box, 6-lift cylinder, 7-float plate, 8-fixed base plate, 9-linear bearing assembly, 10-bumper support, 11-rising latter end energy disperser, 12-optical axis, 13-end plate, 14-.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, is convenient to be well understood to the utility model, but they do not form restriction to the utility model.

As shown in Figure 1, the electric control box 4 that the utility model comprises frame 2, is arranged at the fluctuating orbit mechanism 3 in frame 2 and is arranged at bottom frame, described frame 2 top layout has safe grating 1.

As shown in Figure 2, in technique scheme, described fluctuating orbit mechanism 3 comprises fixed base plate 8, be arranged at float plate 7 above fixed base plate 8, lift cylinder 6 is connected bottom described float plate 7, described fixed base plate 8 is provided with the vertical optical axis 12 of left and right Parallel Symmetric, described float plate 7 both sides are slidably connected on optical axis 12 by linear bearing assembly 9, described float plate 7 is provided with the strip channel 16 of left and right Parallel Symmetric, described strip channel 16 connecting drive device, described strip channel 16 front-end and back-end are respectively equipped with front end inductor 21 and rear end inductor 15.Described float plate 7 left and right sides is also provided with rising latter end energy disperser 11, and described rising latter end energy disperser 11 top is arranged higher than strip channel 16, and is fixed in float plate 7 by bumper support 10.Fixed base plate 8 below described float plate 7 is also provided with decline latter end energy disperser 22.The fixed base plate 8 of described strip channel 16 rear end is provided with rear end-stopping plate 14.Described optical axis 12 top is provided with the end plate 13 of horizontal arrangement.

In technique scheme, described actuating device comprises transmission shaft 20, described transmission shaft 20 two ends are in transmission connection with the strip channel 16 of left and right Parallel Symmetric respectively, described transmission shaft 20 is connected with motor 23 by Timing Belt 25, coupler 24, described transmission shaft 20 supports and is arranged on bearing seat 26, and described bearing seat 26 is arranged in float plate 7.

The utility model comprises following two kinds of mode of operations:

Pattern one: rising type-carrier is transferred to upper stream waterline from underflow waterline.

1, elevator initial condition (readiness for action) lift cylinder 6 shrinks, and strip channel 16 rests on bottom and flushes with underflow waterline, and carrier flows to strip channel 16 from underflow waterline;

2, elevator front end inductor 21 detects carrier arriving signal, and motor 23 rotates forward, and carrier transmits to elevator inside by belt;

3, carrier flows into elevator completely, and rear end sensor 15 detects carrier arriving signal, motor 23 stall, and lift cylinder 6 stretches out, and strip channel 16 rises, and flushes with upper stream waterline;

4, motor 23 contrarotation, carrier imports upper stream waterline into.Leave signal when front end inductor 21 records carrier, motor 23 stall after segment time delay, lift cylinder 6 is retracted, and it is standby that strip channel 16 gets back to lower layer height.

Pattern two: reduction type-carrier is transferred to underflow waterline from upper stream waterline.

1, elevator initial condition (readiness for action) lift cylinder 6 jack-up, strip channel 16 rests on upper end and flushes with upper strata track, and carrier flows to strip channel 16 from upper stream waterline;

2, elevator front end inductor 21 detects carrier arriving signal, and motor 23 rotates forward, and carrier transmits by belt inside elevator;

3, carrier flows into elevator completely, and rear end sensor 15 detects carrier arriving signal, motor 23 stall, and lift cylinder 6 is retracted and declined, and strip channel 16 flushes with underflow waterline;

4, motor 23 contrarotation, carrier imports underflow waterline into.Leave signal when front end inductor 21 records carrier, motor 23 stall after segment time delay, lift cylinder 6 jack-up, it is standby that strip channel 16 gets back to upper level.

The content that this specification sheets is not described in detail belongs to the known prior art of professional and technical personnel in the field.

Claims (7)

1. the elevator of a two layers flow waterline, comprise frame, the electric control box being arranged at the fluctuating orbit mechanism in frame and being arranged at bottom frame, it is characterized in that: described fluctuating orbit mechanism comprises fixed base plate, be arranged at the float plate above fixed base plate, lift cylinder is connected bottom described float plate, described fixed base plate is provided with the vertical optical axis of left and right Parallel Symmetric, described float plate both sides are connected on optical axis by linear bearing component slippage, described float plate is provided with the strip channel of left and right Parallel Symmetric, described strip channel connecting drive device, described strip channel front-end and back-end are respectively equipped with front end inductor and rear end inductor.

2. the elevator of two layers flow waterline according to claim 1, it is characterized in that: described actuating device comprises transmission shaft, described transmission shaft two ends are in transmission connection with the strip channel of left and right Parallel Symmetric respectively, and described transmission shaft is connected with motor by Timing Belt, coupler.

3. the elevator of two layers flow waterline according to claim 1, it is characterized in that: the described float plate left and right sides is also provided with rising latter end energy disperser, described rising latter end energy disperser top is arranged higher than strip channel, and is fixed in float plate by bumper support.

4. the elevator of two layers flow waterline according to claim 1, is characterized in that: the fixed base plate below described float plate is also provided with decline latter end energy disperser.

5. the elevator of two layers flow waterline according to claim 1, is characterized in that: the fixed base plate of described strip channel rear end is provided with rear end-stopping plate.

6. the elevator of two layers flow waterline according to claim 1, is characterized in that: described optical axis top is provided with the end plate of horizontal arrangement.

7. the elevator of two layers flow waterline according to claim 1, is characterized in that: described frame top is furnished with safe grating.