CN112477745A - A conveyer for electromechanical engineering exclusive equipment - Google Patents

Abstract

The invention relates to the technical field of transportation equipment, and discloses a transportation device for electromechanical engineering special equipment, which comprises a transportation carrier, wherein two groups of first slots are formed in the left side wall surface of the transportation carrier, two groups of second slots are formed in the right side outer wall of the transportation carrier, three groups of third slots are formed in the front side wall surface of the transportation carrier, the three groups of third slots are in a state that the height is gradually reduced from front to back, and the upper group of third slots and the lower group of third slots are in a state that the quantity is increased from left to right and up and down. This a conveyer for electromechanical engineering exclusive equipment, through with first slot, second slot and third slot all set up the state that the slope reduces gradually, realized can be with better inserting of feed pipe with spacing in first slot, second slot and third slot, utilize the effect of a downward component that feed pipe self gravity produced for the feed pipe is more stable by spacing in first slot, second slot and third slot, thereby improved the stability to the feed pipe transportation.

Description

A conveyer for electromechanical engineering exclusive equipment

Technical Field

The invention relates to the technical field of transportation equipment, in particular to a transportation device for special equipment of electromechanical engineering.

Background

The electromechanical engineering comprises public works (indoor and outdoor process pipe networks, water supply pipe networks and drainage pipe networks), auxiliary facilities (air pressure stations, refrigeration stations and heat exchange stations), storage facilities (warehouses, various storage tanks and loading and unloading platforms), fire-fighting systems (various fire-fighting pipe networks and fire-fighting equipment stations, fire alarm systems) and the like.

The electromechanical engineering water supply pipe transportation mode design of prior art is comparatively simple and single, generally bind electromechanical engineering water supply pipe on the delivery automobile body with the rope, extrusion contact each other between the water supply pipe, very easily mutual friction between water collection pipe body and the body in the in-process of vehicle transportation, cause the breakage of water supply pipe outer wall, even when transportation automobile body emergency brake, very easily cause the hard collision that produces great dynamics between water supply pipe and the automobile body under inertial effect, lead to the breakage at water supply pipe both ends, the efficiency of water supply pipe transportation has been reduced, the loss has been brought for electromechanical engineering. Therefore, in view of the above problems, it is desirable to provide a transportation device for an electromechanical engineering dedicated device.

Disclosure of Invention

Technical problem to be solved

In order to overcome the defects in the prior art, the invention provides a transportation device for electromechanical engineering special equipment.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a transportation device for electromechanical engineering exclusive equipment comprises a transportation carrier, wherein the transportation carrier is a rectangular body, the transportation carrier is bound on a transportation vehicle body through a rope, the left side wall surface of the transportation carrier is provided with two groups of first slots, the two groups of first slots are in a state of being parallel up and down, the two groups of first slots are in a state of gradually reducing the height from left to right, the right side outer wall of the transportation carrier is provided with two groups of second slots, the two groups of first slots are in a state of being parallel up and down, the two groups of second slots are in a state of gradually reducing the height from right to left, the two groups of first slots and the two groups of second slots are distributed in a state of being alternate up and down, the front side wall surface of the transportation carrier is provided with three groups of third slots, the three groups of third slots are in a state of gradually reducing the height from front to back, the upper and lower groups of third slots are in a state of increasing the quantity from left to right, and the middle group of third slots in the, and the three groups of third slots are mutually parallel and are in a vertically symmetrical state, and the three groups of third slots are respectively positioned between the upper and lower adjacent first slots and the second slots.

Preferably, the bottom inner wall in first slot, second slot and the third slot intracavity all is provided with the fastening device who is the annular array and distributes, fastening device includes the mounting plate, the mounting plate is the triangle-shaped body, and the first slot that is located of mounting plate, the state that highly appears from outside to interior crescent of second slot and third slot intracavity, one side fixed mounting that the mounting plate is close to first slot, second slot and third slot inner wall has spacing piece, first slot, the spacing groove of the mutual block of spacing piece is seted up to second slot and third slot bottom inner wall, spacing inslot intracavity bottom fixed mounting has spacing spring.

Preferably, the triangular inclined plane of the fastening plate is an inwards concave arc surface, and the inwards concave arc surface of the fastening plate is fixedly provided with an arc-shaped protection pad A.

Preferably, the upper side is provided with side limiting mechanisms on the inner wall of the second slot cavity at the bottom wall surface of the second slot cavity, the upper inner wall of the first slot cavity at the upper side, the lower inner wall of the second slot cavity at the lower side and the top wall surface of the first slot cavity at the lower side, and the side limiting mechanisms in the two adjacent first slots and the second slot cavity are vertically symmetrical relative to the third slot.

Preferably, side stop gear includes the stripper plate, the stripper plate is the triangle-shaped body, the inclined plane end of stripper plate all faces first slot, second slot and third slot intracavity, and the stripper plate is located first slot, highly present from the outside state to interior crescent of second slot and third slot intracavity, the inclined plane end fixed mounting of stripper plate has protection pad B, one side fixed mounting of first slot, second slot and the third slot inner wall of stripper plate has the limiting plate, first slot, the extrusion groove of the mutual block of limiting plate is seted up to second slot and third slot inner wall, extrusion groove intracavity bottom fixed mounting has the extrusion spring.

Preferably, the third slot is located between the adjacent first slot and the second slot from top to bottom, and the third slot is located between the side limiting mechanisms in the adjacent first slot and the second slot intracavity from top to bottom simultaneously, one end fixed mounting that the limiting plate is close to the third slot intracavity has the linkage extrusion stem, the extrusion slot is close to the transport carrier inner wall in the third slot intracavity and offers the intercommunicating pore with the mutual block of linkage extrusion stem, the linkage extrusion stem bottom stretches into in the third slot intracavity.

Preferably, the bottom end of the linkage extrusion rod is fixedly provided with an arc-shaped linkage extrusion plate, the upper inner wall and the lower inner wall of the cavity of the third slot are provided with a contraction groove which is mutually clamped with the two groups of linkage extrusion plates, and the linkage extrusion plates are clamped in the contraction groove.

Preferably, all be provided with side link gear on three groups of third slots, and side link gear sets up between two adjacent third slots of increase in quantity about three groups of third slots, side link gear includes the linkage post, set up the sliding tray of mutual intercommunication between two adjacent third slots, one side fixed mounting that linkage post outer wall is close to arbitrary one third slot intracavity has limit baffle, and the limit baffle block is in the sliding tray, the horizontal both ends of linkage post all stretch into in two adjacent third slots, linkage post outer wall has cup jointed the linkage spring, and the linkage spring is located the intracavity of sliding tray.

Preferably, the end of the linkage column located in the two adjacent third slot cavities is fixedly provided with a gasket C.

Preferably, the bottom of the first slot, the second slot and the third slot are fixedly provided with bottom cushions, the bottom cushions are in arc-shaped protruding states, and protruding orientations of the bottom cushions are consistent with corresponding outlet orientations of the first slot, the second slot and the third slot respectively.

(III) advantageous effects

Compared with the prior art, the invention provides a transportation device for electromechanical engineering exclusive equipment, which has the following beneficial effects:

1. this a conveyer for electromechanical engineering exclusive equipment, through with first slot, second slot and third slot all set up the state that the slope reduces gradually, realized can be with better the inserting of feed pipe and spacing at first slot, in second slot and the third slot, the effect of a downward component that utilizes feed pipe self gravity to produce, thereby increase and carry out spacing and fixed stability to the feed pipe, make more stable quilt of feed pipe spacing at first slot, in second slot and the third slot, thereby improved the stability to the feed pipe transportation, and first slot, second slot and third slot have realized transporting simultaneously to the feed pipe of length difference and outer wall diameter variation in size, the conveying efficiency to the feed pipe has been improved.

2. Compared with the traditional technology that the water supply pipes are directly bound and transported through ropes, the transporting device for the electromechanical engineering dedicated equipment improves the transporting stability of the water supply pipes, reduces the problem that the water supply pipes are easy to wholly shake in the transporting process to cause friction collision with each other due to the fact that the water supply pipes are limited on the transporting carrier through the first slot, the second slot and the third slot, improves the protection effect of the water supply pipes and has strong practicability and creativity.

3. This a conveyer for electromechanical engineering exclusive equipment, through at first slot, the equal fixed mounting heelpiece in intracavity bottom of second slot and third slot, the heelpiece plays the effect to feedwater body bottom protection, reduce the feed pipe and insert first slot at the slope, when second slot and third slot bottom, produce with the hard contact collision of first slot wall and the problem of damage, the heelpiece still plays in the feed pipe transportation simultaneously, can play the guard action of damping and buffering to the feed pipe, further improve the protection to the feed pipe, reduce feed pipe transportation and bump and damaged problem, improve conveying efficiency and the guard action to the feed pipe.

4. This a conveyer for electromechanical engineering exclusive equipment, through setting up side link gear, after the feed pipe inserts the third slot one by one, appear mutual extruded state through side link gear between two adjacent third slots of upper and lower quantity increase, gasket C carries out extrusion contact with the feed pipe outer wall, make feed pipe one side extrude the linkage post, then gasket C in another adjacent third slot intracavity stretches out, the gasket C that stretches out carries out extrusion contact again to adjacent third slot outer wall, the spacing effect of feed pipe to the third slot intracavity has been improved, thereby realize having improved the stability of third slot intracavity feed pipe transportation, prevent the feed pipe in the third slot intracavity because the vehicle brake in the transportation, appear stretching out and produce the problem of displacement from the third slot under the inertia.

5. This a conveyer for electromechanical engineering exclusive equipment, through setting up fastening device, when the feed pipe inserts in first slot and the second slot, the bottom of feed pipe extrudes the mounting plate that is the annular array and distributes, make the mounting plate compress spacing spring through protection pad A, make the mounting plate that is the annular array and distributes to extrude the parcel to feed pipe bottom outer wall under spacing spring's effect, the intracavity bottom at first slot and second slot with the firm spacing bottom of feed pipe, the feed pipe has been improved at first slot and the spacing stability of second slot intracavity, thereby the stability to the feed pipe transportation has been improved.

6. This a conveyer for electromechanical engineering exclusive equipment, through setting up side stop gear, insert first slot and second slot when the feed pipe, the feed pipe is close to a side wall of first slot and second slot intracavity bottom and extrudees the stripper plate, the rethread stripper plate carries out up extrusion to the feed pipe under the effect of extrusion spring, thereby make spacing at first slot and second slot intracavity that the feed pipe can further be firm, thereby improve the stability to first slot and second slot intracavity feed pipe transportation, avoid the feed pipe to produce in the transportation and rock, cause the damaged problem of feed pipe outer wall.

7. This a conveyer for electromechanical engineering exclusive equipment, through setting up linkage stripper bar and linkage stripper plate, after inserting the feed pipe one by one in first slot and second slot intracavity, the stripper plate that receives extrusion and shrink produces the pressing towards third slot intracavity direction to the linkage stripper bar, make the linkage stripper plate stretch out the back from the shrink slot intracavity and carry out extrusion contact to the feed pipe in third slot intracavity, thereby make the feed pipe to the third slot intracavity receive linkage stripper plate extrusion and spacing on the symmetrical direction, realized producing a steady effect of reinforcement through the feed pipe of first slot and second slot intracavity to the feed pipe of third slot intracavity, thereby further improve the stability of feed pipe transportation in third slot intracavity, have stronger practicality and creativity.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is a left side view of the present invention;

FIG. 3 is a right side view of the present invention;

FIG. 4 is a front view of the present invention;

FIG. 5 is a cross-sectional view of the present invention;

FIG. 6 is an enlarged view taken at A of FIG. 5 in accordance with the present invention;

FIG. 7 is an enlarged view taken at B of FIG. 5 in accordance with the present invention;

FIG. 8 is an enlarged view taken at C of FIG. 5 in accordance with the present invention;

FIG. 9 is an enlarged view taken at D of FIG. 8 in accordance with the present invention;

FIG. 10 is an enlarged view of the invention at E in FIG. 8.

In the figure: 1. a transport carrier; 11. a first slot; 12. a second slot; 13. a third slot; 14. a bottom pad; 2. a fastening mechanism; 21. a fastening plate; 22. a pad A; 23. a limiting sheet; 24. a limiting groove; 25. A limiting spring; 3. a side limit mechanism; 31. a pressing plate; 32. a pad B; 33. a limiting plate; 34. Extruding a groove; 4. linkage extrusion rods; 41. linkage extrusion plates; 42. a communicating hole; 43. a contraction groove; 5. A side linkage mechanism; 51. a linkage column; 52. a gasket C; 53. a limit baffle; 54. a sliding groove; 55. A linkage spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: a transportation device for electromechanical engineering exclusive equipment comprises a transportation carrier 1, wherein the transportation carrier 1 is a rectangular body, the transportation carrier 1 is bound on a transportation vehicle body through a rope, the left side wall surface of the transportation carrier 1 is provided with two groups of first slots 11, the two groups of first slots 11 are in a state of being parallel up and down, the two groups of first slots 11 are in a state of gradually reducing the height from left to right, the right side outer wall of the transportation carrier 1 is provided with two groups of second slots 12, the two groups of first slots 11 are in a state of being parallel up and down, the two groups of second slots 12 are in a state of gradually reducing the height from right to left, the two groups of first slots 11 and the two groups of second slots 12 are distributed in a state of being alternated up and down, the shapes and the position relations of the first slots 11 and the second slots 12 are shown in figure 5, the front side wall surface of the transportation carrier 1 is provided with three groups of third slots 13, and the three groups of third slots 13 are in a state of, the upper and lower groups of third slots 13 are all in a state of increasing quantity from left to right and up and down, the group of third slots 13 in the middle of the front side wall surface of the transport carrier 1 is in a state of increasing quantity from right to left and up and down, and the three groups of third slots 13 are in a state of being parallel to each other and symmetrical up and down, the specific shapes and positions of the three groups of third slots 13 are shown in fig. 4, the three groups of third slots 13 are respectively positioned between the adjacent upper and lower two first slots 11 and second slots 12, the specific positions and states of the first slots 11, second slots 12 and third slots 13 are shown in fig. 5, bottom pads 14 are fixedly arranged at the bottoms in cavities of the first slots 11, second slots 12 and third slots 13, the bottom pads 14 are in a state of arc-shaped bulges, the bulge directions of the bottom pads 14 are respectively consistent with the outlet directions of the corresponding first slots 11, second slots 12 and third slots 13, the bottom pads 14 are made of rubber, the inner walls of the bottoms of the cavities of the first slot 11, the second slot 12 and the third slot 13 are all provided with fastening mechanisms 2 distributed in an annular array, each fastening mechanism 2 comprises a fastening plate 21, each fastening plate 21 is a triangular body, the triangular inclined plane of each fastening plate 21 is an inwards concave arc surface, the heights of the fastening plates 21 in the cavities of the first slot 11, the second slot 12 and the third slot 13 are gradually increased from outside to inside, the specific shape and the position of each fastening plate 21 are shown in figure 6, the inwards concave arc surfaces of the fastening plates 21 are fixedly provided with arc-shaped protection pads A22, one sides of the fastening plates 21 close to the inner walls of the first slot 11, the second slot 12 and the third slot 13 are fixedly provided with limiting pieces 23, the inner walls of the bottoms of the first slot 11, the second slot 12 and the third slot 13 are provided with limiting grooves 24 clamped with the limiting pieces 23, and the bottoms of the cavities of the limiting grooves 24 are fixedly provided with limiting springs 25, the inner bottom wall surface of the cavity of the second slot 12 at the upper side, the inner upper wall and the lower wall of the cavity of the first slot 11 at the upper side, the inner upper wall and the lower wall of the cavity of the second slot 12 at the lower side, and the inner top wall surface of the cavity of the first slot 11 at the lower side, the inner upper wall and the lower wall of the cavity of the second slot 12 at the lower side, and the inner top wall of the cavity of the first slot 11 at the lower side, are all provided with side limit mechanisms 3, and the specific distribution position relationship of the side limit mechanisms 3 is shown in fig. 7, the side limit mechanisms 3 comprise extrusion plates 31, the extrusion plates 31 are triangular bodies, the inclined plane ends of the extrusion plates 31 are all towards the cavities of the first slot 11, the second slot 12 and the third slot 13, the inclined plane ends of the extrusion plates 31 are fixedly provided with protection pads B32, the heights of the extrusion plates 31 in the cavities of the first slot 11, the second slot 12 and, A limit plate 33 is fixedly arranged at one side of the inner walls of the second slot 12 and the third slot 13, the inner walls of the first slot 11, the second slot 12 and the third slot 13 are provided with an extrusion groove 34 mutually clamped with the limit plate 33, the bottom in the cavity of the extrusion groove 34 is fixedly provided with an extrusion spring 35, the third slot 13 is positioned between the first slot 11 and the second slot 12 which are adjacent up and down, the third slot 13 is simultaneously positioned between the side limit mechanisms 3 in the cavities of the first slot 11 and the second slot 12 which are adjacent up and down, one end of the limit plate 33 which is close to the cavity of the third slot 13 is fixedly provided with a linkage extrusion rod 4, the inner wall of the transportation carrier 1 in the cavity of the extrusion groove 34 which is close to the third slot 13 is provided with a communicating hole 42 mutually clamped with the linkage extrusion rod 4, the bottom end of the linkage extrusion rod 4 extends into the cavity of the third slot 13, and the bottom end, the upper and lower inner walls of the cavity of the third slot 13 are provided with a contraction groove 43 mutually clamped with the two groups of linkage extrusion plates 41, the linkage extrusion plates 41 are clamped in the contraction groove 43, the specific position relation of the linkage extrusion rod 4, the linkage extrusion plates 41 and the third slot 13 is shown in figure 8, three groups of third slots 13 are all provided with a side linkage mechanism 5, the side linkage mechanism 5 is arranged between two adjacent third slots 13 with the upper and lower quantity increased of the three groups of third slots 13, the side linkage mechanism 5 comprises a linkage column 51, a sliding groove 54 mutually communicated is arranged between two adjacent third slots 13, one side of the outer wall of the linkage column 51 close to the cavity of any one third slot 13 is fixedly provided with a limit baffle 53, the limit baffle 53 is clamped in the sliding groove 54, both transverse ends of the linkage column 51 extend into two adjacent third slots 13, and one end of the linkage column 51 positioned in the cavities of two adjacent third slots 13 is fixedly provided with a gasket C52, the outer wall of the linkage column 51 is sleeved with a linkage spring 55, and the linkage spring 55 is positioned in the cavity of the sliding groove 54.

When the water supply pipe of the electromechanical engineering is specially transported, the transport carrier 1 is integrally bound on a transport vehicle body through a rope, after the transport carrier 1 is bound, the water supply pipe body with longer length is firstly sequentially inserted into the third slot 13, after the third slot 13 on the front side wall surface of the transport carrier 1 is sequentially inserted, the water supply pipe body with smaller length is inserted into the first slot 11 and the second slot 12, the bottom cushion 14 is fixedly arranged at the bottom in the cavity of the first slot 11, the second slot 12 and the third slot 13, the bottom cushion 14 has the effect of protecting the bottom of the water supply pipe body, the problem that the water supply pipe is damaged due to hard contact collision with the wall surface of the first slot 11 when the water supply pipe is obliquely inserted into the bottoms of the first slot 11, the second slot 12 and the third slot 13 is solved, meanwhile, the bottom cushion 14 also has the protection effect of vibration reduction and buffering on the water supply pipe in the transportation process of the water supply pipe, the protection to the water supply pipe is further improved, the collision and damage problems in the transportation process of the water supply pipe are reduced, the transportation efficiency and the protection effect to the water supply pipe are improved, the water supply pipe can be better inserted into and limited in the first slot 11, the second slot 12 and the third slot 13 by arranging the first slot 11, the second slot 12 and the third slot 13 to be gradually inclined and reduced, the water supply pipe is more stably limited in the first slot 11, the second slot 12 and the third slot 13 by utilizing the effect of a downward component force generated by the gravity of the water supply pipe, so that the transportation stability of the water supply pipe is improved, the water supply pipes with different lengths and outer wall diameters can be simultaneously transported by the first slot 11, the second slot 12 and the third slot 13, the transportation efficiency of the water supply pipe is improved, compared with the traditional technology that the water supply pipe is directly bound and transported by a rope, the stability to the feed pipe transportation has been improved to the feed pipe is spacing on transportation carrier 1 through first slot 11, second slot 12 and third slot 13, has reduced the feed pipe and has produced whole rocking easily in the transportation, leads to producing the problem of friction collision each other, and single feed pipe is spacing respectively in different first slot 11, second slot 12 and third slot 13, has improved the protection effect to the feed pipe, has stronger practicality and creativity.

By arranging the side linkage mechanism 5, after the water supply pipes are inserted into the third slots 13 one by one, the two adjacent third slots 13 with the increased upper and lower quantity are in a mutually extruded state through the side linkage mechanism 5, the gasket C52 is in extrusion contact with the outer wall of the water supply pipe, so that one side of the water supply pipe extrudes the linkage column 51, the linkage spring 55 is extruded and contracted, the gasket C52 in the cavity of the other adjacent third slot 13 extends out, and the extended gasket C52 is in extrusion contact with the outer wall of the adjacent third slot 13, so that the limiting effect on the third slot 13 is improved, the transportation stability of the water supply pipes in the cavities of the third slots 13 is improved, and therefore, by arranging the side linkage mechanism 5, after the water supply pipes are inserted into the third slots 13 one by one, the two adjacent third slots 13 with the increased upper and lower quantity are in a mutually extruded state through the side linkage mechanism 5, gasket C52 carries out extrusion contact with the feed pipe outer wall, make feed pipe one side extrude linkage post 51, then gasket C52 in another adjacent third slot 13 intracavity stretches out, gasket C52 that stretches out carries out extrusion contact again to adjacent third slot 13 outer wall, the spacing effect of feed pipe to the third slot 13 intracavity has been improved, thereby the realization has improved the stability of feed pipe transportation in third slot 13 intracavity, prevent that the feed pipe in third slot 13 intracavity is because vehicle brake in the transportation, appear stretching out and produce the problem of displacement in third slot 13 under the inertial action, through setting up fastening device 2, when the feed pipe inserts first slot 11 and second slot 12 in, the bottom of feed pipe extrudees the mounting plate 21 that is annular array distribution, make mounting plate 21 compress spacing spring 25 through protection pad A22, make the mounting plate 21 that is annular array distribution extrude the feed pipe bottom outer wall to the feed pipe bottom under the effect of spacing spring 25 Pressing the package, firmly limiting the bottom of the water supply pipe at the bottom in the cavity of the first slot 11 and the second slot 12, improving the stability of the water supply pipe in the cavity of the first slot 11 and the second slot 12, thereby improving the stability of transporting the water supply pipe, by arranging the side limiting mechanism 3, when the water supply pipe is inserted into the first slot 11 and the second slot 12, one side wall surface of the water supply pipe close to the bottom in the cavity of the first slot 11 and the second slot 12 extrudes the extrusion plate 31, and the water supply pipe is upwards extruded by the extrusion plate 31 under the action of the extrusion spring 35, thereby enabling the water supply pipe to be further firmly limited in the cavity of the first slot 11 and the second slot 12, thereby improving the stability of transporting the water supply pipe in the cavity of the first slot 11 and the second slot 12, avoiding the water supply pipe from shaking in the transportation process and causing the problem of damage of the outer wall of the water supply pipe, through setting up linkage stripper bar 4 and linkage stripper plate 41, after inserting the feed pipe one by one in first slot 11 and the 12 intracavity of second slot, stripper plate 31 that receives the extrusion and shrink produces the pressing towards third slot 13 intracavity direction to linkage stripper bar 4, make linkage stripper plate 41 stretch out the back from shrink 43 intracavity and carry out extrusion contact to the feed pipe in third slot 13 intracavity, thereby it is spacing to make to receive the extrusion of linkage stripper plate 41 on the symmetry direction to the feed pipe in third slot 13 intracavity, realized producing a steady effect of consolidating to the feed pipe in third slot 13 intracavity through the feed pipe in first slot 11 and the 12 intracavity of second slot, thereby further improve the stability of feed pipe transportation in third slot 13 intracavity, have stronger practicality and creativity.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a conveyer for electromechanical engineering exclusive equipment, includes transport carrier (1), and transport carrier (1) is the cuboid, its characterized in that: the left side wall surface of the transportation carrier (1) is provided with two groups of first slots (11), the two groups of first slots (11) are in a state of being parallel up and down, the two groups of first slots (11) are in a state of gradually reducing the height from left to right, the right side outer wall of the transportation carrier (1) is provided with two groups of second slots (12), the two groups of first slots (11) are in a state of being parallel up and down, the two groups of second slots (12) are in a state of gradually reducing the height from right to left, the two groups of first slots (11) and the two groups of second slots (12) are distributed in a state of being alternated up and down, the front side wall surface of the transportation carrier (1) is provided with three groups of third slots (13), the three groups of third slots (13) are in a state of gradually reducing the height from front to back, the two groups of third slots (13) are in a state of increasing the quantity from left to right and up and down, the group of third slots (13) in the middle of the front side wall surface of the transportation carrier, and the three groups of third slots (13) are mutually parallel and are in a vertically symmetrical state, and the three groups of third slots (13) are respectively positioned between the upper and lower adjacent first slots (11) and second slots (12).

2. A transport device for electromechanically dedicated equipment according to claim 1, characterized in that: the bottom inner wall in first slot (11), second slot (12) and third slot (13) intracavity all is provided with fastening device (2) that are the annular array and distribute, fastening device (2) include mounting plate (21), mounting plate (21) are the triangle-shaped body, and the first slot (11) that is located of mounting plate (21), highly the presenting of second slot (12) and third slot (13) intracavity is from the state of inside to outside gradual increase, mounting plate (21) are close to first slot (11), one side fixed mounting of second slot (12) and third slot (13) inner wall has spacing piece (23), first slot (11), spacing groove (24) of the mutual block of spacing piece (23) are seted up to second slot (12) and third slot (13) bottom inner wall, spacing groove (24) intracavity bottom fixed mounting has spacing spring (25).

3. A transport device for electromechanically dedicated equipment according to claim 2, characterized in that: the triangular inclined plane of the fastening plate (21) is an inwards concave cambered surface, and an arc-shaped protection pad A (22) is fixedly installed on the inwards concave cambered surface of the fastening plate (21).

4. A transport device for electromechanically dedicated equipment according to claim 1, characterized in that: the side limiting mechanisms (3) are arranged on the inner wall of the second slot (12) cavity at the upper side, the inner wall of the first slot (11) cavity at the upper side, the inner wall of the second slot (12) cavity at the lower side, and the inner wall of the first slot (11) cavity at the lower side, and the side limiting mechanisms (3) in the two adjacent first slots (11) and the second slot (12) cavity are vertically symmetrical about the third slot (13).

5. A transport device for electromechanically dedicated equipment according to claim 4, characterized in that: the side limit mechanism (3) comprises an extrusion plate (31), the extrusion plate (31) is a triangular body, the inclined plane ends of the extrusion plate (31) face to the cavities of the first slot (11), the second slot (12) and the third slot (13), and the height that stripper plate (31) were located first slot (11), second slot (12) and third slot (13) intracavity appears the state of crescent from outside to inside, the inclined plane end fixed mounting of stripper plate (31) has protection pad B (32), first slot (11) of stripper plate (31), one side fixed mounting of second slot (12) and third slot (13) inner wall has limiting plate (33), first slot (11), extrusion groove (34) of mutual block with limiting plate (33) are seted up to second slot (12) and third slot (13) inner wall, extrusion groove (34) intracavity bottom fixed mounting has extrusion spring (35).

6. A transport device for electromechanically dedicated equipment according to claim 5, characterized in that: third slot (13) are located between adjacent first slot (11) and second slot (12) from top to bottom, and between third slot (13) are located side stop gear (3) of adjacent first slot (11) and second slot (12) intracavity from top to bottom simultaneously, limiting plate (33) are close to the one end fixed mounting in third slot (13) intracavity has linkage stripper bar (4), stripper groove (34) are close to transport carrier (1) inner wall in third slot (13) intracavity and offer intercommunicating pore (42) with the mutual block of linkage stripper bar (4), linkage stripper bar (4) bottom stretches into in third slot (13) intracavity.

7. A transport device for electromechanically dedicated equipment according to claim 6, characterized in that: the bottom end of the linkage extrusion rod (4) is fixedly provided with an arc-shaped linkage extrusion plate (41), the upper inner wall and the lower inner wall in the cavity of the third slot (13) are provided with a contraction groove (43) which is mutually clamped with the two groups of linkage extrusion plates (41), and the linkage extrusion plates (41) are clamped in the contraction grooves (43).

8. A transport device for electromechanically dedicated equipment according to claim 1, characterized in that: all be provided with side link gear (5) on three groups of third slots (13), and side link gear (5) set up between two adjacent third slots (13) of volume increase about three groups of third slots (13), side link gear (5) are including linkage post (51), sliding tray (54) of mutual intercommunication are seted up between two adjacent third slots (13), one side fixed mounting that linkage post (51) outer wall is close to arbitrary one third slot (13) intracavity has limit baffle (53), and limit baffle (53) block is in sliding tray (54), the horizontal both ends of linkage post (51) all stretch into in two adjacent third slots (13), linkage spring (55) have been cup jointed to linkage post (51) outer wall, and linkage spring (55) are located the intracavity of sliding tray (54).

9. A transport device for electromechanically dedicated equipment according to claim 8, characterized in that: and gaskets C (52) are fixedly mounted at one ends of the linkage columns (51) in the cavities of the two adjacent third slots (13).

10. A transport device for electromechanically dedicated equipment according to claim 1, characterized in that: the bottom of first slot (11), second slot (12) and third slot (13) intracavity is equal fixed mounting has heelpiece (14), and heelpiece (14) are the bellied state of arc, and the protruding orientation of heelpiece (14) is unanimous with the export orientation of corresponding first slot (11), second slot (12) and third slot (13) respectively.

Images