CN204642224U - A kind of adjustable square vase two-stage steering box - Google Patents

Abstract

The utility model provides a kind of adjustable square vase two-stage steering box, comprising: the first belt type conveying mechanism; The one-level steering hardware be connected with the first belt type conveying mechanism; The second belt type conveying mechanism be connected with one-level steering hardware; Second belt type conveying mechanism is provided with secondary steering hardware.Above-mentioned one-level steering hardware and the second belt type conveying mechanism include the load-transfer device that there is velocity contrast for a pair, and secondary steering hardware comprises the guardrail of square vase from speed slower load-transfer device guiding speed load-transfer device.After one-level steering hardware, square vase moves on the slow load-transfer device of the second belt type conveying mechanism with unified standing state.Afterwards, square vase is through secondary steering hardware, and after being rotated by 90 degrees, square vase runs to packing machine with the standing state meeting vanning requirement.Wherein, the guardrail of secondary steering hardware is adjustable, coordinates the load-transfer device that there is velocity contrast in the second belt type conveying mechanism, and the angle that square vase can be made to turn to reaches predetermined effect.

Description

A kind of adjustable square vase two-stage steering box

Technical field

The utility model relates to nonstaple food processing technique field, in particular to a kind of conveying boxing apparatus of bottled drink, refers in particular to a kind of two-stage steering box of square beverage bottle.

Background technology

Generally known, after bottled drink production terminates before vanning, by conveying mechanism, batch beverage bottle is carried to packing machine.

In prior art, above-mentioned conveying mechanism has turning function usually, and beverage bottle 9 square in Fig. 1, Fig. 2 is in unified standing state before vanning, and such as, the long limit L of all square vase bottom surfaces is all vertical with the throughput direction of conveying mechanism, to facilitate vanning.

But the conveying mechanism in prior art with turning function only can turn to the square vase of specific dimensions model, and its Applicable scope is single, and even if turn to the square vase of specific dimensions model, its effect turned to is also desirable not to the utmost, that is, square vase is not made to rotate predetermined angle.

Utility model content

The technical matters that the utility model solves: before square bottled drink (as shown in Figure 1, Figure 2) production terminates rear vanning, the square vase of conveying mechanism to specific dimensions model in prior art with turning function turns to, its effect turned to is also desirable not to the utmost, that is, square vase is not made to rotate predetermined angle.

The utility model provides a kind of adjustable square vase two-stage steering box, and it comprises:

---the first belt type conveying mechanism, comprises horizontally disposed load-transfer device, for straight line conveying square vase;

---one-level steering hardware, comprises a pair vertically and the load-transfer device arranged in opposite directions, a horizontally disposed load-transfer device; There is velocity contrast and length difference in the load-transfer device vertically arranged for a pair, the length value of the load-transfer device of speed is greater than another load-transfer device; Horizontally disposed load-transfer device is between a pair vertical load-transfer device arranged; The load-transfer device vertically arranged for a pair and a horizontally disposed load-transfer device form a transfer passage, and width value circle of this transfer passage is between square vase bottom lengths value and width value; The horizontal conveying belt of one-level steering hardware and the load-transfer device tandem array of the first belt conveyer and structure have a certain degree, the length difference of the above-mentioned load-transfer device vertically arranged for a pair forms a gap, and the square vase that the load-transfer device of the first belt conveyer runs enters the transfer passage of one-level steering hardware by this gap;

---the second belt type conveying mechanism, comprising a pair level and the load-transfer device be set up in parallel, there is velocity contrast in a pair load-transfer device, the horizontal conveying belt tandem array of slow load-transfer device and one-level steering hardware;

---secondary steering hardware, comprise the first guardrail and the second guardrail, two pieces of guardrails are crisscross arranged in the both sides of slow load-transfer device along the throughput direction of the second belt conveyer, first guardrail is positioned at the side of the load-transfer device away from speed, and the second guardrail is positioned at the side of close velocity load-transfer device faster; The tail end of the first guardrail is bending, and its bending direction points to the load-transfer device of speed, and the head end of the second guardrail is bending, the load-transfer device of its bending direction speed dorsad; The square vase that slow load-transfer device runs is under the guiding of the first guardrail tail end, its bottom transverse is across the load-transfer device of slow load-transfer device and speed, square vase 90-degree rotation, postrotational square vase moves on the load-transfer device of speed under the guiding of the second guardrail head end; The head end of described first guardrail is hinged in the frame of adjustable square vase two-stage steering box, and the tail end of the first guardrail is hinged with a movable block, and one end of this movable block and an adjusting screw(rod) is spirally connected, and the other end of this adjusting screw(rod) is screwed onto in frame.

By technique scheme, the first belt type conveying mechanism is by the square vase without unified standing state to the conveying of one-level steering hardware, and square vase enters the transfer passage of one-level steering hardware.If the long limit of square vase bottom surface is not vertical with the horizontal conveying belt of one-level steering hardware, under the effect of a pair vertical load-transfer device that then there is velocity contrast at one-level steering hardware, and under the restriction of transfer passage width, square vase is rotated a certain angle, and moves on the slow load-transfer device of the second belt type conveying mechanism with the standing state that the long limit of square vase bottom surface is vertical with the horizontal conveying belt of one-level steering hardware.Afterwards, square vase is after secondary steering hardware (namely successively through the first guardrail and the second guardrail), and square vase is rotated by 90 degrees, and runs to packing machine direction with the standing state that the long limit of its bottom surface is vertical with the second belt type conveying mechanism throughput direction.

Wherein, if the effect that the square vase of secondary steering hardware to specific dimensions model turns to undesirable (not making square vase rotate predetermined angle), operating personal movably makes adjustments screw rod, first guardrail is rotated a certain angle around its head end, have the cooperation of the load-transfer device of velocity contrast in the second belt type conveying mechanism under, the angle that square vase is turned to reaches predetermined effect.So, the square vase being in unified standing state can be cased by packing machine fast and in an orderly manner, to improve quality and the efficiency of vanning.

Illustrate the one of the first guardrail in secondary steering hardware as the utility model, the head end of described first guardrail is hinged in the frame of adjustable square vase two-stage steering box by the pole that is vertically arranged; Described pole comprises the first path section from top to bottom, large footpath section, the second path section, and the head end of the first guardrail is hinged in the first path section, and the second path section is arranged in the frame of adjustable square vase two-stage steering box.

Based on the above-mentioned explanation to the first guardrail, described pole second path section is arranged on by an adapter plate in the frame of adjustable square vase two-stage steering box; Described adapter plate is fixed in frame, and a level that the end face of adapter plate is offered is to the chute in strip, and described second path section is plugged in chute, and the bottom of the second path section is bolted with nut, and the second path section is clamped in chute by nut and large footpath section.

By the above-mentioned explanation for the first guardrail, operating personal can loosening nut, tightening nut again after pole second path section is moved a certain distance in chute, and then the first guardrail is moved linearly certain distance, the direction of the first guardrail rectilinear movement is perpendicular to the throughput direction of the second belt type conveying mechanism.The effect of the first guardrail rectilinear movement is: the Applicable scope expanding the utility model adjustable square vase two-stage steering box, can turn to the square vase of different size model.

Based on the above-mentioned explanation to the first guardrail, further describe in detail as to it, described first guardrail comprises horizontally disposed top board and base plate, and top board is fixedly connected with by pipe link with base plate; The top of described pole first path section is provided with horizontally disposed first scaleplate, and the first scaleplate is positioned at the top of the first guardrail top board, and the first scaleplate is provided with the calibrated disc for taking measurement of an angle, and the top board of the first guardrail is provided with the pointer supporting with calibrated disc; Described adapter plate is provided with horizontally disposed second scaleplate, and the second scaleplate is provided with the scale graduation of measuring distance, and the sidewall of described pole large footpath section is provided with the pointer supporting with scale graduation.As described above, the effect arranging calibrated disc and scale graduation is: handled easily personnel precision maneuver first guardrail, meanwhile, retains operating record accurately.

As the one explanation of the utility model to one-level steering hardware and the first belt type conveying mechanism, the angle that the horizontal conveying belt of described one-level steering hardware and the load-transfer device of the first belt conveyer are formed, depending on square vase transport path in production process, is preferably 90 degree.

Illustrate as the one of the utility model to the first belt type conveying mechanism and the second belt type conveying mechanism, the load-transfer device of described first belt type conveying mechanism and the second belt type conveying mechanism is chain-plate type load-transfer device.

As the one explanation of the utility model to secondary steering hardware, described secondary steering hardware also comprises the first secondary guardrail and the second secondary guardrail, first secondary guardrail and the first guardrail arrange formation first transfer passage in opposite directions, second secondary guardrail and the second guardrail arrange formation second transfer passage in opposite directions, the first transfer passage and the second transfer passage tandem array.

One as the utility model entirety is improved, and the quantity of described first belt type conveying mechanism and the second belt type conveying mechanism is two, and two the first belt type conveying mechanisms are set up in parallel, and two the second belt type conveying mechanisms are set up in parallel; Correspondingly, the quantity of one-level steering hardware is two, the load-transfer device tandem array of the horizontal conveying belt of an one-level steering hardware and first belt conveyer, the horizontal conveying belt tandem array of a slow load-transfer device of the second belt type conveying mechanism and an one-level steering hardware.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described further:

Fig. 1 is square beverage bottle, is called for short square vase;

Fig. 2 is the upward view of Fig. 1;

Fig. 3 is the structural representation of a kind of adjustable square vase two-stage steering box of the utility model;

Fig. 4 is the structural representation of one-level steering hardware in Fig. 3;

Fig. 5 is the structural representation of secondary steering hardware in Fig. 3;

Fig. 6 is the structural representation of the first guardrail 41 in Fig. 5;

Fig. 7 is the upward view of Fig. 6.

Detailed description of the invention

As Fig. 3, a kind of adjustable square vase two-stage steering box, comprising: two the first belt type conveying mechanisms 1 be set up in parallel; Two one-level steering hardwarees 2; Two the second belt type conveying mechanisms 3 be set up in parallel; Two secondary steering hardwarees 4.

As Fig. 3, the first belt type conveying mechanism 1, comprises horizontally disposed load-transfer device 10, and this load-transfer device is chain-plate type load-transfer device, for straight line conveying square vase 9.

Composition graphs 3, Fig. 4, one-level steering hardware 2, comprises a pair vertically and the load-transfer device 21 arranged in opposite directions and the horizontally disposed load-transfer device 22 of load-transfer device 23.There is velocity contrast and length difference in the load-transfer device vertically arranged for a pair, the length value of the load-transfer device 23 of speed is greater than another load-transfer device 21.Horizontally disposed load-transfer device is between a pair vertical load-transfer device arranged; The load-transfer device vertically arranged for a pair and a horizontally disposed load-transfer device form a transfer passage 20, and width value circle of this transfer passage is between square vase bottom lengths value L and width value W.

As Fig. 3, the horizontal conveying belt 22 of an one-level steering hardware and load-transfer device 10 tandem array of first belt conveyer, and form 90 degree.Composition graphs 3, Fig. 4, the length difference of the above-mentioned load-transfer device vertically arranged for a pair forms a gap 200, and the square vase that the load-transfer device of the first belt conveyer runs enters the transfer passage of one-level steering hardware by this gap.

Composition graphs 3, the second belt type conveying mechanism 3, comprise a pair level and the load-transfer device 31 be set up in parallel and load-transfer device 32, load-transfer device 31 and load-transfer device 32 are chain-plate type load-transfer device, and the transport path of chain-plate type load-transfer device can be linearity, also can be curve-like.There is velocity contrast in a pair load-transfer device, horizontal conveying belt 22 tandem array of slow load-transfer device 32 and one-level steering hardware.As Fig. 3, horizontal conveying belt 22 tandem array of a slow load-transfer device 32 of the second belt type conveying mechanism and an one-level steering hardware.

Composition graphs 3, Fig. 5, secondary steering hardware 4, comprise the first guardrail 41 and the second guardrail 42, two pieces of guardrails are crisscross arranged in the both sides of slow load-transfer device along the throughput direction of the second belt conveyer, first guardrail is positioned at the side of the load-transfer device 31 away from speed, and the second guardrail is positioned at the side of close velocity load-transfer device faster; The tail end of the first guardrail is bending, and its bending direction points to the load-transfer device of speed, and the head end of the second guardrail is bending, the load-transfer device of its bending direction speed dorsad; The square vase that slow load-transfer device runs is under the guiding of the first guardrail tail end, its bottom transverse is across the load-transfer device 31 of slow load-transfer device 32 and speed, square vase 9 90-degree rotation, postrotational square vase moves on the load-transfer device of speed under the guiding of the second guardrail head end.As Fig. 3, second belt type conveying mechanism 3 is provided with a secondary steering hardware 4.

In above-mentioned secondary steering hardware 4, composition graphs 6, Fig. 7, the head end of described first guardrail 41 is hinged in the frame of adjustable square vase two-stage steering box, the tail end of the first guardrail is hinged with a movable block 43, one end of this movable block and an adjusting screw(rod) is spirally connected, and the other end of this adjusting screw(rod) is screwed onto in frame.The head end of described first guardrail 41 is hinged in the frame of adjustable square vase two-stage steering box by the pole 45 that is vertically arranged; Described pole comprises the first path section 451 from top to bottom, the head end of large footpath section 452, second path section 453, first guardrail is hinged in the first path section, and the second path section is arranged in the frame of adjustable square vase two-stage steering box.Described second path section 453 is arranged in the frame of adjustable square vase two-stage steering box by an adapter plate 46; Described adapter plate is fixed in frame, a level that the end face of adapter plate is offered is to the chute 461 in strip, described second path section is plugged in chute, and the bottom of the second path section is bolted with nut, and the second path section is clamped in chute by nut and large footpath section 452.Described first guardrail 41 comprises horizontally disposed top board 411 and base plate 412, and top board is fixedly connected with by pipe link 413 with base plate; The top of described pole first path section 451 is provided with horizontally disposed first scaleplate 471, first scaleplate is positioned at the top of the first guardrail top board, first scaleplate is provided with the calibrated disc for taking measurement of an angle, and the top board of the first guardrail is provided with the pointer supporting with calibrated disc; Described adapter plate 46 is provided with the scale graduation that horizontally disposed second scaleplate 472, second scaleplate is provided with measuring distance, and the sidewall of described pole large footpath section 452 is provided with the pointer supporting with scale graduation.

Composition graphs 3, Fig. 5, any one secondary steering hardware 4 also comprises the first secondary guardrail 43 and the second secondary guardrail 44, first secondary guardrail and the first guardrail arrange formation first transfer passage 401 in opposite directions, second secondary guardrail and the second guardrail arrange formation second transfer passage 402, first transfer passage and the second transfer passage tandem array in opposite directions.There is the load-transfer device of velocity contrast for a pair in the joining place of the first transfer passage and the second transfer passage, namely at this joining place, square vase realizes 90 degree of rotations across the second belt type conveying mechanism.

In real work, the square vase 9 of batch enters two travel lines be set up in parallel, and in every strip transmission line, square vase 9 successively through the first belt type conveying mechanism 1, one-level steering hardware 2, second belt type conveying mechanism 3, secondary steering hardware 4, then enters packing machine.

The algorithm that square vase carries out turning on every strip transmission line is as follows: the square vase 9 without unified standing state is carried to one-level steering hardware 2 by the first belt type conveying mechanism 1, and square vase 9 enters the transfer passage 20 of one-level steering hardware.If the long limit L of square vase 9 bottom surface is not vertical with the horizontal conveying belt 22 of one-level steering hardware, then under one-level steering hardware exists a pair vertical load-transfer device 21 of velocity contrast and the effect of load-transfer device 23, and under the restriction of transfer passage 20 width, square vase 9 is rotated a certain angle, and moves on the slow load-transfer device 32 of the second belt type conveying mechanism 3 with the standing state that the long limit L of square vase bottom surface is vertical with the horizontal conveying belt 22 of one-level steering hardware.Afterwards, square vase 9 enters secondary steering hardware 4, under there is the load-transfer device 31 of velocity contrast and the effect of load-transfer device 32 at a pair, and under the guiding of the first guardrail 41 and the second guardrail 42, square vase is rotated by 90 degrees, and runs to packing machine direction with the standing state that the long limit L of its bottom surface is vertical with the second belt type conveying mechanism 3 throughput direction.So, the square vase 9 being in unified standing state can be cased by packing machine fast and in an orderly manner, to improve quality and the efficiency of vanning.

Wherein, operating personal can adjusting screw(rod) in action secondary steering hardware 4, first guardrail 41 is rotated a certain angle around its head end, and have the cooperation of the load-transfer device of velocity contrast in the second belt type conveying mechanism 3 under, the angle that square vase 9 is turned to reaches predetermined effect.Operating personal also can make the pole 45 of support first guardrail 41 move a certain distance along chute 461, and then the first guardrail 41 is moved linearly certain distance, to expand the Applicable scope of the utility model adjustable square vase two-stage steering box, can turn to the square vase of different size model.

Claims (8)

1. an adjustable square vase two-stage steering box, comprising:

First belt type conveying mechanism (1), comprises horizontally disposed load-transfer device (10), for straight line conveying square vase (9);

One-level steering hardware (2), comprises a pair vertically and the load-transfer device (21 arranged in opposite directions; 23), a horizontally disposed load-transfer device (22); There is velocity contrast and length difference in the load-transfer device vertically arranged for a pair, the length value of the load-transfer device of speed is greater than another load-transfer device; Horizontally disposed load-transfer device is between a pair vertical load-transfer device arranged; The load-transfer device vertically arranged for a pair and a horizontally disposed load-transfer device form a transfer passage (20), and width value circle of this transfer passage is between square vase bottom lengths value (L) and width value (W); The horizontal conveying belt of one-level steering hardware and the load-transfer device tandem array of the first belt conveyer and structure have a certain degree, the length difference of the above-mentioned load-transfer device vertically arranged for a pair forms a gap (200), and the square vase that the load-transfer device of the first belt conveyer runs enters the transfer passage of one-level steering hardware by this gap;

Second belt type conveying mechanism (3), comprises a pair level and the load-transfer device (31 be set up in parallel; 32), there is velocity contrast in a pair load-transfer device, the horizontal conveying belt tandem array of slow load-transfer device and one-level steering hardware;

Secondary steering hardware (4), comprise the first guardrail (41) and the second guardrail (42), two pieces of guardrails are crisscross arranged in the both sides of slow load-transfer device along the throughput direction of the second belt conveyer, first guardrail is positioned at the side of the load-transfer device away from speed, and the second guardrail is positioned at the side of close velocity load-transfer device faster; The tail end of the first guardrail is bending, and its bending direction points to the load-transfer device of speed, and the head end of the second guardrail is bending, the load-transfer device of its bending direction speed dorsad; The square vase that slow load-transfer device runs is under the guiding of the first guardrail tail end, its bottom transverse is across the load-transfer device of slow load-transfer device and speed, square vase 90-degree rotation, postrotational square vase moves on the load-transfer device of speed under the guiding of the second guardrail head end;

It is characterized in that: the head end of described first guardrail (41) is hinged in the frame of adjustable square vase two-stage steering box, the tail end of the first guardrail is hinged with a movable block (43), one end of this movable block and an adjusting screw(rod) is spirally connected, and the other end of this adjusting screw(rod) is screwed onto in frame.

2. a kind of adjustable square vase two-stage steering box as claimed in claim 1, is characterized in that: the head end of described first guardrail (41) is hinged in the frame of adjustable square vase two-stage steering box by the pole (45) that is vertically arranged; Described pole comprises the first path section (451) from top to bottom, large footpath section (452), the second path section (453), the head end of the first guardrail is hinged in the first path section, and the second path section is arranged in the frame of adjustable square vase two-stage steering box.

3. a kind of adjustable square vase two-stage steering box as claimed in claim 2, is characterized in that: described second path section (453) is arranged on by an adapter plate (46) in the frame of adjustable square vase two-stage steering box; Described adapter plate is fixed in frame, a level that the end face of adapter plate is offered is to the chute (461) in strip, described second path section is plugged in chute, the bottom of the second path section is bolted with nut, and the second path section is clamped in chute by nut and large footpath section (452).

4. a kind of adjustable square vase two-stage steering box as claimed in claim 3, it is characterized in that: described first guardrail (41) comprises horizontally disposed top board (411) and base plate (412), top board is fixedly connected with by pipe link (413) with base plate; The top of described pole first path section (451) is provided with horizontally disposed first scaleplate (471), first scaleplate is positioned at the top of the first guardrail top board, first scaleplate is provided with the calibrated disc for taking measurement of an angle, and the top board of the first guardrail is provided with the pointer supporting with calibrated disc; Described adapter plate (46) is provided with horizontally disposed second scaleplate (472), and the second scaleplate is provided with the scale graduation of measuring distance, and the sidewall in described pole large footpath section (452) is provided with the pointer supporting with scale graduation.

5. a kind of adjustable square vase two-stage steering box as claimed in claim 1, is characterized in that: the angle that the horizontal conveying belt (22) of described one-level steering hardware and the load-transfer device (10) of the first belt conveyer are formed is 90 degree.

6. a kind of adjustable square vase two-stage steering box as claimed in claim 1, is characterized in that: the load-transfer device (10 of described first belt type conveying mechanism and the second belt type conveying mechanism; 31; 32) chain-plate type load-transfer device is.

7. a kind of adjustable square vase two-stage steering box as claimed in claim 1, it is characterized in that: described secondary steering hardware (4) also comprises the first secondary guardrail (43) and the second secondary guardrail (44), first secondary guardrail and the first guardrail arrange formation first transfer passage (401) in opposite directions, second secondary guardrail and the second guardrail arrange formation second transfer passage (402) in opposite directions, the first transfer passage and the second transfer passage tandem array.

8. a kind of adjustable square vase two-stage steering box as claimed in claim 1, it is characterized in that: the quantity of described first belt type conveying mechanism (1) and the second belt type conveying mechanism (3) is two, two the first belt type conveying mechanisms are set up in parallel, and two the second belt type conveying mechanisms are set up in parallel; Correspondingly, the quantity of one-level steering hardware (2) is two, the load-transfer device tandem array of the horizontal conveying belt of an one-level steering hardware and first belt conveyer, the horizontal conveying belt tandem array of a slow load-transfer device of the second belt type conveying mechanism and an one-level steering hardware.